Models 8204/8254/8206/8256 8207/8257 - HIK
Contents
1. SETTING 0 0 0 Not used 0 0 1 M1 0 1 0 M2 0 1 1 M3 1 0 0 M4 1 0 1 M5 1 1 0 M6 1 1 1 M7 0 OPEN 1 CLOSED The following Test Parameter Editing GPIB commands may be used to control the memory send selection COMMAND NAME TEST TYPES EPM n n 1 7 Edit PLC Memory RUN 1 M1 2 M2 3 M3 4 M4 EPM Send LLT 5 M5 6 M6 7 M7 The ADD command can also be used The memory selection should be inserted as the last parameter and should use full text as indicated on the LCD screen such as M1 or M2 138 e i ASSOCIATED _ RESEARCH INC 06 Cold Resistance Models 8206 8207 8256 8257 This option provides the added ability to measure resistance at the Line and Neutral connectors on the LLT card With this option installed a new soft key selection will appear on the Continuity parameter screen called Continuity Please refer to the screen below DC CONTINUITY j HI Limit LO Limit Dwell Time Continuity OFF Offset 0 000 et oo EA Step Name 2 Defaults gt Range HI Limit 0 000 100000 0O OFF The Continuity selection is short for continuity connection and refers to which connection points may be utilized for the continuity measurement The new continuity parameter has three toggle selections MAINS GND and OFF When MAINS is selected continuity may be measured from the L and N connections of the LLT card or from the front or rear panel current and r2. scceeeeeeesseeseseees 106 Tal USB RS 232 MIMGHACS cc coccsses steel a a aaa Coches 106 7 1 1 RS 232 COnRECIOM oiiec dake iden shetie ketal dsiees 106 7 1 2 Communications Port Configuration cccccceceseesseeeteeeeees 106 7 1 3 Sending and Receiving COMMANAS ccceeseeseeeeteeeseeeeees 107 T2 RAP VAMC ACE itt vaso aic kh cc see a Ee Aa a otises 107 7 2 1 GPIB ConnectTo iiaa e a a Ee stead tts 107 Peele VO POON SS ina raa e a a Socio 108 7 3 Interface Functions seeseeseesessessesseseeseeseesessesesresresessesseseeseesresessesses 108 7 4 USB RS 232 GPIB Interface Command List eee 109 7 4 1 Echo and Response Considerations c cecceeseeseeteeeteeeeeees 109 7 4 2 Test Execution CommandS ssessssesseseeseesesseesessesreseeseesessesses 109 7 4 3 File Editing Commands e seeseesesssssssseseeseesessessessesresresresssesses 110 7 4 4 Test Parameter Editing Commands and Companion Queries 118 TADS Query COMMANGS iisciwiiderddadauaiicasnuadaousncias 123 7 4 6 IEEE 488 2 Common Commands ccccceecceeseesteeeseesseeeees 126 7 4 7 Status Reporting isis cevatientictievestes tid ciasseethestna diet siaseevieues 128 7 4 8 GPIB Service Hequest cane aoc ea eee a 129 7 5 Non Volatile MEMOnyis 2t5 ctl cietace lve coos tacos 129 Bi E a E aden tedasaasupieaiaanpiasdacuasesdenipasteasseassaebs 133 9 VERI CHEM oe cvcccsssscescncctiec cociidescasc
3. 21 ASSOCIATED RESEARCH INC given to the file when the file is save into non volatile memory LP Lists the prompt that is created for the individual step that has been selected within active memory RAM LP lt step number gt Lists the prompt that has been created for of one of the steps of the file within active memory RAM FT Returns the total quantity of files stored in memory ST Returns the total quantity of step created in the file LS Lists all the Parameters for the individual step that is currently selected The response will be formatted as follows lt step test p1 p2 p3 gt Where lt step gt is the step number lt test gt is the test type and lt p7 p2 gt etc indicates the parameters of the test Please refer to the ADD command for a list of parameters for each test type LS lt step number gt Lists all the Parameters for the individual step indicated by step number 1 30 The response will be formatted as follows lt step test p1 p2 p3 gt Where lt step gt is the step number lt test gt is the test type and lt p7 p2 gt etc indicates the parameters of the test Please refer to the ADD command for a list of parameters for each test type LS2 Lists all the Parameters for the individual step that is currently selected The response will be formatted as follows lt step test p1 p2 p3 gt Where lt step gt is the step number lt test gt is the test type and lt
4. Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of DC 350 0uA Range The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Load Meter Lower Right Screen Prompt Lower Right Screen Prompt Cal Active Connect the 100KQ load in series with the 350 0uUADC standard current meter from H V to Return When the load is connected press TEST to start the calibration process Enter Standard Current Reading Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad 190 e ASSOCIATED 9 RESEARCH INC You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of IR 999 99M Range The load meter screen and prompt screens will contain the following text for this calibration point Upper
5. AC Source Press the AC Source soft key to enter the AC Source Test Parameter screen The screen will look as follows AC SOURCE RUN Voltage RUN TEST p gt ee gig open _ p Volt Range Low gt A Hi 0 0A Oc Fold OFF Range Voltage 0 0V 150 0V D ASSOCIATED l RESEARCH INC From this screen you can control the following test parameters Voltage Frequency A Hi Output N G Volt Range and OC Fold The A Hi parameter allows you to set the AC Source high current limit The Output N G parameter allows you to configure the AC Source output to either open or close the ground connection The Volt Range parameter controls the output range of the AC Source high or low See specifications for more details The OC Fold parameter allows you to set the output of the AC source in constant current mode When active the A Hi parameter can be used to set the output current of the AC source 4 5 8 Line Leakage Test Models 82x6 and 82x7 Associated Research recommends performing a Hipot test with the Fail Stop ON prior to performing a Run Test or Line Leakage test Performing a Hipot test first can detect if a DUT is shorted line to ground before applying line power to it From the Setup Tests Tests Selection screen press the Line Leakage soft key The Line Leakage parameter setting screen will now be displayed The Line Leakage Parameter Setting screen will appear as follows LA A ees ot x eS LINE LE
6. MY MENU INTERFACE Personalize menu settings with the My Menu interface Create shortcuts to your favorite screens and preferences DUAL CHEK Perform simultaneous hipot and ground bond tests MULTIPLE LANGUAGE View the menu in English or Chinese SETTINGS Soo S Se ipssyeS e s Users can link a total of 10 000 test steps in any configuration PATENTED SMART GFI SmartGFI disables the instrument s output voltage in less than 1 millisecond if excessive leakage to ground is detected If enabled SmartGFI automatically detects if the DUT is floating or grounding and turns ON or OFF accordingly SmartGFI trip current value adjustable from 0 4 5 0mA BOs Wiss aS SiS Ssh The four wire measurement technique factors out KELVIN METHOD AND test lead resistance making measurements more MILLIOHM OFFSET accurate The Millionm Offset features allows the CAPABILITY IN THE operator to factor out additional lead and fixture GROUND BOND MODE resistance VERI CHEK Allows the operator to self verify the instrument s failure detectors Sel a E er 5 pn OMNIA Il is now available with 500VA output capability for AC hipot testing Models 825x include this feature BUILT IN AC POWER OMNIA II models 8207 8257 come standard with SOURCE a 500VA AC power source for use with RUN and LLT tests D assoqures 2 GETTING STARTED M Introduction This section contains information for the unpacking inspection preparation for us
7. 7 4 6 Query Commands These query commands will retrieve data from the instrument The GPIB bus application requires an IEEE 488 read command to be sent after the query command These commands include functions for retrieving test data test results and remote hardware status as well as setup file information COMMAND NAME VALUE List Testing Data List Results Data nn 1 10000 RR Read Remote Reset 1 Open 0 Closed Remote Interlock 1 Open 0 Closed List File Name Active selected file FT File Total quantity stored o St Step Total quantity infle S S LS list Step Parameters OO Oo 123 A DT ASSOCIATED 1 RESEARCH INC COMMAND NAME VALUE number number gt number RS Read scanner port status 0 none 1 external 1 2 external 2 3 both SS Select Step nn 01 9999 TD Read the active data being displayed on the LCD display while the test is in process Will also read the last data taken when the test sequence has completed Each parameter is separated by commas and includes step number test type test status and metering The syntax for this command response is step test type status meter 1 meter 2 meter 3 ACW test displays 4 meters Each meter will contain only the value and not the units In the case of DCW current where both uA and mA are used on the display the command response will always indicate the current in uA for example 2 0mA will respond with 2000 for
8. Additional Error DC 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 3 0 0UA 31 5uA frequency DC 1MHz Resolution 0 1uA Additional Error DC 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 4 0 0UA 126 0UA frequency DC 1MHz Resolution 1uA Additional Error DC 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 5 0 0UA 504uUA frequency DC 1MHz Resolution 1uA 214 Additional Error DC 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 6 0 0uA 600UA frequency DC 100KHz Resolution 1uA a D ASSOCIATED RESEARCH INC DISPLAY AUTO RANGE Additional Error DC 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy Touch Current Display RMS AC Only Range 1 0 0UA 32 0UA frequency 15Hz 1MHz Resolution 0 1uA Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KH
9. IP Setup gt IP Address Gateway IP Subnet Mask 25s 000 000 000 Device Name Next Page b From the Ethernet Card Parameters screen six different parameters may be accessed IP Setup IP Address Gateway IP Subnet Mask Device ID and Next Page IP Setup The IP Setup soft key is used to determine how the OMNIA II will request an IP address from the server to which it is connected The IP Setup may be configured as AUTO or MANUAL by pressing the IP Setup soft key When AUTO is selected the OMNIA II will attempt to automatically request an IP Address from the server upon power up To resolve the IP Address automatically the OMNIA II will use DHCP or BOOTP protocols When MANUAL is selected the OMNIA will request a specific IP Address from the server The IP Address that will be requested must be entered in the subsequent IP Address parameter field IP Address A specific IP Address must be entered into this field if the IP Setup parameter is configured to MANUAL Use the arrow keys to highlight this parameter Once the parameter is highlighted enter the IP Address that you wish using the numeric keypad The IP Address must be entered in the following format XXX XXX XXX XXX A valid IP Address must be entered Users may not use the following IP Addresses 255 255 255 255 000 000 000 000 Enter the preceding IP Addresses will cause the following error message to be 164 Deseret displayed ETHER
10. Test timing limit source is ON SETTINGS 0 0 150 0V 1 5 of setting E High range 0 0 277 0V 2 counts 45 0Hz 99 9Hz 0 1 4 20A 2 10A A Hi limit 2 of reading 2 counts 4 20A 2 10A Fol AE UE 2 of reading 2 counts lt 1500ms MEASUREMENT Voltage 0 0 277 0 eae a Current 0 00 16 00 in 5 of reading 3 Power 0 4500 1 counts for PF gt 0 100 45 500H2 GENERAL On Off When the output current exceeds the A Hi value it Over Current Fold back will fold back output voltage to keep constant output current at A Hi value OCP OTP OVP OPP and Alarm 24 DT ASSOCIATED gt 1 RESEARCH INC 3 2 Instrument Controls 3 2 1 Front Panel Controls 1 2 3 4 5 6 8 9 10 11121314 1516 17 1 RESET BUTTON Resets the instrument If a failure condition occurs during a test pressing this button will reset the system shut off the alarm and clear the failure condition The Reset button must be pressed before performing another test or changing any of the setup parameters This button also serves as an abort signal to stop any test in progress 2 TEST BUTTON Starts a test 3 GRAPHIC TFT 800 X 480 Color TFT display 4 SOFT KEYS Multifunction keys used to select screens and change parameters 5 NUMERIC DATA ENTRY Keys used to enter numeric data 6 SCANNER STATUS LED s LED s that indicate the status of the 8 H V and 8 G Bond channels on the internal scanner 7 POW
11. DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHZ 10 of reading 2uA 1800A 8500UA frequency DC Range 5 MHz Resolution 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHZ 10 of reading 2uA 8 0mA 10 00mA frequency Range 6 DC 100KHz Resolution 0 01mA DC 2 of reading 3counts Accuracy 15Hz lt f lt 100KHz 10 of reading 2counts UL544NP UL484 UL923 UL471 UL867 UL697 MD2 UL544P MD3 IEC 60601 1 MD4 UL1563 MD5 IEC60990 Fig4 U2 IEC 60950 1 IEC60335 1 IEC60598 1 IEC60065 IEC61010 MD6 IEC60990 Fig5 U3 IEC60598 1 MD7 IEC60950 IEC61010 1 FigA 2 2K ohm for Run function External MD Basic measuring element 1k ohm Scope Output Interface BNC type connector on rear panel for Oscilloscope connection MD voltage limit Maximum 7OVDC MD Component Accuracy Capacitors 5 Resistors 1 23 f assocuren AC SOURCE 500VA OUTPUT 630VA and 500W Maximum Voltage 0 150 0V 0 277 0V Current 4 20A maximum for 0 150V range 2 10A maximum 0 277V range lt 1 at 45 500Hz and output voltage within the 80 140Vac Distortion at Low Range or the 160 277Vac at High Range Resistive Load lt 0 5 5V Resistive Load From no load to full load Regulation and Low Line to High Line combined regulation Crest Factor lt 350mS at start and between steps when internal AC
12. lt 100 ms for capacitive load lt 1KV 0 75uF lt 2KV 0 5uF lt 3KV Sine Wave Crest Factor 1 3 1 5 0 08uF lt 4KV 0 04uF lt 6KV 60 or 50 Hz User Selection 0 1 1 of output 5 V from no load to full load and over input voltage range Range Range Resolution Accuracy Range Resolution Accuracy AC 0 4 999 9 sec 0 Continuous DC 0 3 999 9 sec 0 Continuous 0 1 sec 0 1 0 05 sec Ramp Up AC 0 1 999 9 sec DC 0 4 999 9 sec AC 0 0 999 9 sec DC 0 0 1 0 999 9 sec Ramp Down 0 1 sec 0 1 0 05 sec Minimum current 100mA peak 200mA Models 825x at short circuit response time lt 2ms aN af ASSOCIATED RESEARCH INC INSULATION RESISTANCE TEST MODE Resolution 1V Accuracy 2 of setting 2 counts Current Resolution 1V Accuracy 2 of reading 2 counts 0 05MQ 50000 MQ 4 Digit Auto Ranging 30 499 VDC 500 1000VDC Resistance Display Range Resolution MQ 0 001 0 050 1 999 0 050 9 999 2 00 19 99 10 00 99 99 20 0 199 9 100 0 999 9 1 200 50000 Oj O 50 499V 0 05M 999 9M 500 1000V 0 05M 999 9M 1000M 9999M Accuracy 10000M 50000M 1000 50000 7 of reading 2 counts 2 of reading 2 counts 5 of reading 2 counts 15 of reading 2 t HI and LO Range 0 05M 99 99MQ Limit Resolution 0
13. 56 NA f 2 ASSOCIATED RESEARCH INC Amp HI The current high limit that will cause a failure if exceeded during a RUN test Amp LO The current low limit that will cause a failure if not exceeded during a RUN test Power HI The power high limit that will cause a failure if exceeded during a RUN test Power LO The power low limit that will cause a failure if not exceeded during a RUN test PF HI The power factor high limit that will cause a failure if exceeded during a RUN test PF LO The power factor low limit that will cause a failure if not exceeded during a RUN test Current The Current that is applied between the Current and Return lead during a ground bond test Current HI The maximum allowable current flow through the DUT that triggers a failure when exceeded Current LO The minimum allowable current flow through the DUT triggers a failure when not exceeded Leakage HI The maximum leakage current allowable through the measuring device that triggers a failure when exceeded Leakage LO The minimum leakage current allowable through the measuring device that triggers a failure when not exceeded HI Limit A maximum threshold set point that when exceeded triggers a failure A T or an R designator is shown in AC withstand parameters and means T total current or R real current LO Limit A minimum threshold set point that when not exceeded triggers a failure A T or an R
14. 7 8UA 130 0UA 1MHz frequency 15Hz Resolution 0 1uA Base Accuracy DC 2 of reading 2uA 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA Range 3 31 5uA 525 0UA 1MHz frequency 15Hz Resolution 0 1uA Base Accuracy DC 2 of reading 2uA 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA 126 0uA 999 9UA 1000UA Range 4 2100uA frequency 15Hz 1MHz Resolution 1uA 221 A 2 ASSOCIATED 9 _ RESEARCH INC Base Accuracy DC 2 of reading 2uA 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA Range 5 504uA 999 9uA 1000UA 8400uA frequency 15Hz 1MHz Resolution 1uA Base Accuracy DC 2 of reading 2uA 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA 1200UA 8399UA 8 40mA Range 6 10 00mA frequency 15Hz 1MHz Resolution 1uA 0 01mA Base Accuracy DISPLAY FIXED RANGE lt 6 OF RANGE DC 2 of reading 3counts 15Hz lt f lt 100KHz 10 of reading 2counts Touch Current Display Peak AC DC Range 1 N A Resolution N A Additional Error N A 0 0UA 7 8uA frequency 15Hz Range 2 MHz Resolution 0 1uA Additional Error DC add 2 of re
15. DISPLAY AUTO RANGE Touch Current Display Peak AC 0 0UA 32 0UA frequency DC 15Hz Only Range 1 1MHz Resolution 0 1uA A 15Hz lt f lt 1MHz 10 of reading ccuracy 2uA 28 0UA 130 0UA frequency DC Hanga g 15Hz 1MHz Resolution 0 1uA A 15Hz lt f lt 1MHz 10 of reading ccuracy 2uA 120 0UA 525 0uUA frequency DC mange 15Hz 1MHz Resolution 0 1uA A 15Hz lt f lt 1MHz 10 of reading ccuracy 2uA 223 A 2 ASSOCIATED 9 1 RESEARCH INC 400uUA 999 9UA 1000UA 2100UA Pangea frequency DC 15Hz 1MHz Resolution 0 1uA 1UA Accuracy a lt f lt 1MHz 10 of reading 1800uUA 8400uA frequency DC Bango 15Hz 1MHz Resolution 1uA 15Hz lt f lt 1MHz 10 of reading Accuracy 2uA 8000UA 8399UA 8 40mA Range 6 10 00mA frequency DC 15Hz 100KHz Resolution 1uA 0 01mA Accuracy 15Hz lt f lt 100KHz 10 of reading 2counts DISPLAY FIXED RANGE gt 6 OF RANGE Touch Current Display Peak AC Only 0 0UA 32 0UA frequency 15Hz Range 1 MHz Resolution 0 1uA Base Accuracy 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA Range 2 7 8uA 130 0UA frequency 15Hz 1MHz Resolution 0 1uA Base Accuracy 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA
16. Delay Time Neutral OPEN CLOSED 7 Scanner Leakage Hl Reverse ON OFF Channel 8 Frequency Leakage LO Ground OPEN CLOSED 112 A 2 ASSOCIATED J RESEARCH INC eJ B CONT RUN LLT 9 Power HI Meas Device UL544NP UL544P IEC601U L2601 UL1563 IEC60990FIG4 U2 IEC60990FIG5 U3 IEC60990FIG3 U1 EXTERNAL 10 Power LO Probe Ground To Line Probe HI to Line Probe HI To Probe LO 11 PF HI Leakage Mode Peak RMS 12 PF LO PLC Control 13 Continuous 14 PLC Control DUT Output is only a parameter in the ADD string if DUT HV ON in the system settings menu Scanner Setup is only a parameter in the ADD string if either a scanner is installed 8204 8254 w option 01 or a slave SC6540 scanner is connected to the Omnia unit SPLC Control is only available if option 04 3 Remote Memory Send or option 05 7 Remote Memory Send is installed Below are examples of the ADD command describing the order of parameters in the command string The first string outlines the order of the parameters The second string outlines an example with actual values for each parameter Adding an AC Withstand Test ADD ACW Voltage HI Limit T _LO Limit T Ramp Up Dwell Ramp Down Arc Sense HI Limit R LO Limit R Frequency Arc Dectect Continuity DUT Output Scanner Setup ADD ACW 1240 10 00 0 000 0 1 1 0 0 0 5 10 00 0 000 60 OFF OFF ON OOOOOOO Adding a DC Withstand Test ADD DC
17. Edit User From the User Setup screen use the up and down arrows to select the User ID you would like to edit Press the Edit User soft key As the soft key is pressed the Edit User screen appear as follows EDIT USER User ID Security Level Rn omw Password Confirm Password From this screen the User ID Password and Security Level can be changed by entering an alpha numeric User ID Password Password Confirmation and desired security level Please refer to the User ID Password Confirm Password and Security Level sections above for more information Delete User From the User Setup screen use the up and down arrows to select the User ID you would like to delete Press the Delete User soft key As the soft key is pressed the selected User ID will be deleted from the User ID list NOTE Once a User ID is 43 deleted it cannot be recovered The User ID must be recreated by adding a new user Please refer to the Add User section above for more information Forgotten Password If you have forgotten your password you may access a User ID by typing in the number 8000 into the password field The old password cannot be recovered A new password should be entered by editing the USER ID in the Edit User screen Please refer to the Edit User section above for more information 4 2 6 User Interface From the System Setup screen press the User Interface soft key From the User
18. INC LOAD FILE File Name 0001 SEQUENCE 2 0002 JA 0003 DEMO 0004 Using the up and down arrow keys scroll the highlighted area to the File you would like to load and press the Load soft key The file you selected will now load and the screen will revert to the Perform Tests screen 5 2 2 Single Step Single step is a function that allows you to run one step at a time from a sequence of tests At the Perform Tests screen use the up and down arrow keys or the ENTER key to scroll the highlighted area to the step you wish to perform Press the TEST button and the instrument will initiate the single step and stop when finished without continuing to the next step You may single step through an entire sequence in this way as long as you do not press RESET Once RESET is pressed it will return you to the originally selected step Turn the Single Step function ON and OFF by pressing the Single Step soft key If Security is enabled single step may not be turned ON and OFF at the Perform Test screen The state Single Step is in at the time security is enabled is the state at which it shall remain 5 2 3 Fail Stop Fail Stop is a function that will stop a sequence of tests at the step that fails If the Fail Stop is turned ON and a failure occurs stopping the test pressing the TEST button will start the test sequence at the original step If Fail Stop is turned OFF the sequence of tests will continue to the end of the
19. OFF Normal AUTO Automatic Reverse Polarity With AUTO mode the polarity switches for normal conditions in one step setting menu but will run two steps for both conditions In this mode the unit only records and displays the maximum leakage current value Neutral Switch ON OFF selection for single fault condition Ground Switch PROBE SETTING Surface to Surface PH PL ON OFF selection for Class single fault condition Surface to Line PH L Ground to Line G L 20 Dassen LEAKAGE LIMIT SETTING Touch Current High Limit RMS Range 0 0uA 999 9uA 1000uA 10 00mA Resolution 0 1uA 1UA 0 01MA Touch Current Low Limit RMS Range 0 0uA 999 9uA 1000uA 10 00mA Resolution 0 1uA 1uA 0 01mA Touch Current High Limit Peak Range 0 0uA 999 9uA 1000uA 10 00mA Resolution 0 1uA 1uA 0 01mA Touch Current Low Limit Peak DISPLAY Touch Current Display RMS Range 0 0uA 999 9UA 1000UA 10 00mA Resolution 0 1uA 1uA 0 01mA 0 0uA 32 0uA frequency Range DC 15Hz 1MHz Resolution 0 1uA DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz ef lt ae 5 of reading 10 0uA 999 9uA Range 2 28 0uA 130 0UA frequency DC 15Hz 1MHz Resolution 0 1uA DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt T lt inte eek reading
20. Power factor Power Factor W VA where W Watts Real Power and VA Volts x Amps apparent power It is important to note that the closer the power factor is to 1 the more resistive the DUT is The closer the power factor is to 0 the more reactive inductive or capacitive the DUT is Reactive Current The current component due to the reactive impedance of a load Also called imaginary current Real Current The current component due to the resistance of a load Resistance The property of a substance that impedes current and results in the dissipation of power in the form of heat The practical unit of resistance is the ohm Q Symbol R Return The path by which current returns to a source RMS The Root Mean Squared value of a voltage or current waveform An RMS waveform delivers the same amount of energy to a load as a DC waveform of the same value For a sinusoid the RMS value is 707 x the peak value Total Current The vector sum of the real current component and the reactive current component produced by an applied voltage VA A rating of instantaneous power found by multiplying an instrument s maximum output current by its maximum output voltage Voltage The force which causes current through an electrical conductor given in volts V Symbol V 4 a 2 ASSOCIATED gt 1 RESEARCH INC 1 4 Safety This product and its related documentation must be reviewed for familiarization with safety markings and i
21. Resistance LLT Connection The ADD command can also be used The memory selection should be inserted as the last parameter and should use full text as indicated on the LCD screen such as M1 or M2 The specifications for the 10k continuity remain the same with this option installed 07 Data Storage Card This option gives the user capabilities for serial communication barcode scanning and saving test results onto a USB Flash memory drive The Data Storage Card has three input output ports These ports are shown in Figure 3 USB A Barcode RS232 RS485 4 KA oc Figure 3 The USB A port is used for the connection of the USB Flash memory drive Note Please use the USB Flash memory drive that was supplied with the unit Proper file transfer can only be guaranteed with the use of this drive The port labeled Barcode is a PS 2 type connector that is used for the connection of a barcode scanner The 9 pin D type subminiature connector labeled RS232 RS485 is for the connection of the OMNIA II to an RS232 or RS485 communication bus To configure all of the features of the Data Storage Card 140 OQ assert use the Data Card Settings menu To navigate to the Data Card Settings menu select the Setup System soft key from the OMNIA II Main Menu and then select the Data Card Settings soft key in the Setup System menu A brief description of the settings follows Data Card Results Limit Time Limit 00 bays RS485 Add
22. _ 01 8 Channel Scanner The Scanner option provides 8 high Voltage Continuity channels and 8 Ground Bond Continuity channels on the rear panel The High Voltage Continuity channels can be set to a High or Low level giving the capability to test from one channel to another channel or from any channel to a common Low or Return point The channels can be connected in parallel if desired but there is only one leakage current measurement for all channels The Ground Bond Continuity channels can only be used to test from one channel to the common Return Only one channel may be used for each Ground Bond or Continuity test The Ground Bond or Continuity test will be performed between the output channel selected and the Ground Bond Continuity common terminal 133 D assoqures Although the G COM terminal is isolated from the Return terminal during a Hipot or IR test the Ground Bond Continuity channels can be referenced directly to the Return lead without using the G COM terminal during a Ground Bond or Continuity test True 4 wire measurement through the Scanner is not possible because of the Kelvin lead termination but the Millionm Offset feature should be used to reduce measurement errors The Return lead Kelvin connection is terminated at the alligator clip of the test lead but the G COM terminal has an internal Kelvin connection that shorts out the test lead Kelvin connection Therefore the resistance of the Return test lead
23. f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 4 0 0UA 126 0UA 1MHz frequency 15Hz Resolution 1uA Additional Error 15Hz lt f lt 100KHZ add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 225 A 2 ASSOCIATED 9 1 RESEARCH INC DISPLAY AUTO RANGE 0 0UA 504uUA frequency 15Hz Range 5 1MHz Resolution 1uA Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 6 0 0uA 600UA frequency DC 100KHz Resolution 1uA Additional Error 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy Touch Voltage Display RMS 0 0mV 32 0mV frequency DC AC DC Range 1 15Hz MHz Resolution 0 1mV DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV 28 0mV 130 0mV frequency DC Range 2 15Hz MHz Resolution 0 1mV DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV 120 0mV 525 0mV frequency DC Ranges 15Hz 1MHz Resolution 0 1mV DC 15Hz lt f lt 100KHz 2 of
24. initialize the driver install NOTE The USB port acts as a USB to RS 232 converter As a result the PC will recognize the USB port as a virtual COM port 7 1 USB RS 232 Interface This interface provides all of the control commands and parameter setting commands of the GPIB interface with the exception of some of the 488 2 Common Commands and SRQ capability All commands can be found in section 7 4 USB RS 232 GPIB Command List The identification command IDN and the Status Reporting commands are also available through USB RS 232 7 1 1 RS 232 Connector The RS 232 cabling should be configured as follows for a 9 pin serial port interface Instrument RS 232 Port PC Bus Controller RD 2 2 RD Seo SIG 5 5 SIG GND GND 7 1 2 Communications Port Configuration The COM port should have the following configuration 9600 baud 8 data bits 1 stop bit 106 NA 7 1 ASSOCIATED RESEARCH INC No parity This interface does not support XON XOFF protocol or any hardware handshaking The controller should be configured to ignore the handshaking lines DTR pin 4 DSR pin 6 CTS pin 8 and RTS pin 7 If the port cannot be configured through software to ignore these lines the handshake lines should be jumpered together in two different sets Pins 4 and 6 should be jumpered together and pins 7 and 8 should be jumpered together at the controller end of the cable 7 1 3 Sending and Receiving Commands Sending Data Once a command i
25. name Step Select nn 07 8899 parameters parameters SAA TStepAdAaWes CS sa StepadaDowies O C e G SCS s o TStepAdGNDtes CS s eom test i a ACW tests AR SAGD Step Add GND DCW tests Siep Add RUNTest Step Add LLT test Step Delete Active selected Step SD nn Step Delete by nn 01 9999 Number 110 aN 2 ASSOCIATED _ RESEARCH INC COMMAND DESCRIPTION SP lt prompt message gt Step Prompt prompt message Create Valid ASCII 1 maximum 31 characters Step PromptDelete SF 110 Step Fail Stop 1 On 0 Off 1 Valid ASCII is the character set that is available from the front panel LCD user interface Consisting of upper case alphabet A Z numbers 0 9 and decimal point asteric dash underbar _ tilde and space SP FL lt file number gt Load a file from non volatile memory into random access memory RAM FD Deletes the file loaded into RAM from the non volatile memory space as well as RAM A new file must be loaded before and tests can be run FD lt file number gt Deletes a file from non volatile memory indicated by the file number FS Saves the file from RAM to the non volatile memory space FSA lt file number gt lt file name gt Saves the current file from RAM into the non volatile memory space with the indicated file number and file name The original file will not be modified with this operation If there is a file already located a
26. or a slave SC6540 scanner is connected to the Omnia unit SPLC Control is only available if option 04 3 Remote Memory Send or option 05 7 Remote Memory Send is installed Below are examples of the ADD2 command describing the order of parameters in the command string The first string outlines the order of the parameters The second string outlines an example with actual values for each parameter Adding an AC Withstand Test ADD2 ACW Voltage HI Limit T LO Limit T Ramp Up Dwell Time Ramp Down Arc Sense HI Limit R LO Limit R Offset Frequency Arc Detect Continuity DUT Output Scanner Setup ADD2 ACW 1240 10 00 0 000 0 1 1 0 0 0 5 10 00 0 000 0 000 60 OFF OFF ON OOQOOQOOO O Adding a DC Withstand Test ADD2 DCW Voltage HI Limit _LO Limit Ramp Up Dwell Ramp Down Charge LO Arc Sense Offset Ramp HI Arc Dectect Continuity DUT Output Scanner Setup ADD2 DCW 1200 10000 0 0 0 4 1 0 0 0 0 0 5 0 0 OFF OFF OFF OFF OQOQQOQOO00O0 Adding an Insulation Resistance Test ADD2 IR Voltage HI Limit _O Limit Ramp Up Dwell Time Delay Time Ramp Down Charge LO DUT Output Scanner Setup ADD2 IR 500 0 00 0 05 0 1 0 5 1 0 0 0 0 000 OFF OOQOQOOO00O0 Adding a Ground Bond Test ADD2 GND Current Voltage HI Limit _O Limit Dwell Time Offset Scanner Channel Frequency DualCHECK 116 a 4 ASSOCIATED RESEARCH INC ADD2 GND 25 00 8 00 100 0 1 0 0 0 60 OFF Adding a Continuity Test ADD2 CONT HI Limit _LO Limit Dwell Offset
27. parameters for that particular type of test Refer to section 4 4 2 Default Test Parameters for the preset default parameters Scanner and External scanner parameters will only appear in the Parameter screens if the options are installed Adding More Tests to the Sequence To add more tests to the sequence simply repeat steps 5 10 of this section Performing a Test from the Setup Tests screen To perform the test you have just created press the ENTER key The Perform Tests 64 VU RESEARCH INC screen will now be displayed along with a pop up message that appears as follows SETUP TESTS If 0001 GND Settings 2500A 100ma 30s Oma z e R N 0002 AC 1240V 7 ji k Warning file changes have not sov been saved Press ENTER to save Press EXIT to continue File Name 0003 DEMO Pressing the ENTER key will store the file with the file name you gave it and go to the Perform Test screen You may now perform a test refer to section 5 2 Perform Tests Menu Pressing the EXIT key will return you to the Main Menu without saving the file Even though the file has not been saved the file will be retained in RAM until another file is loaded or created or until the instrument is powered down Saving the Test File From the Setup Tests screen press the File soft key The File Setup screen will now be displayed From the File Setup screen press the Save soft key The file will save to the name you create
28. previous step will move down to the next step and all other step will be renumbered accordingly The parameter lt test gt indicated the test type The values ACW DCW IR GND CONT RUN or LLT must be used The parameters lt p1 p2 gt etc indicate the individual settings for each test All parameters must be included with the command and should appear in the same order that is shown on the actual setting screens The correct order is shown in the tables below When the scanner is installed it should be the last parameter for all test types except GND For the GND test type the scanner settings should be inserted between offset and frequency The list of parameters can also be found in the default parameters section of the manual The parameter values should use complete text and not use the coded values that are associated with the individual parameter setting commands Such as ON and OFF and any toggle field that use words or phrases like OPEN CLOSE The LS2 114 n dD ASSOCIATED L RESEARCH INC companion command will also list all parameters in complete text as they appear on the setting screen 1 Voltage Voltage Voltage 2 HI Limit T HI Limit HI Limit 3 Hi Limit R LO Limit LO Limit 4 Ramp Up Ramp Up Ramp Up 5 Dwell Time Dwell Time Dwell Time 6 Ramp Down Ramp Down Delay Time 7 Arc Sense Charge LO Ram
29. reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV 400mV 999 9mV 1000mV a ie 2100mV frequency DC 15Hz 1MHz Resolution 0 1mV 1mV DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10mV 8500mV 1800mV 8400mV frequency DC Hanger 15Hz 1MHz Resolution imV 226 DN assoqures DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10mV 8500mV 8000mV 8399mV 8 40V 10 00V nangan frequency DC 15Hz 100kHz Resolution 1mV 0 01V Accuracy DC 15Hz lt f lt 100KHz 5 of reading 0 01V 10 00V DISPLAY FIXED RANGE gt 6 OF RANGE Touch Voltage Display RMS AC DC Range 1 0 0mV 32 0mV frequency DC 15Hz 1MHz Resolution 0 1mV Basic Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 2 7 8mV 130 0mV frequency DC 15Hz 1MHz Resolution 0 1mV Basic Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 3 31 5mV 525 0mV frequency DC 15Hz 1MHz Resolution 0 1mV Basic Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 4 126 0m
30. tester would continuously fail since all current is returning through earth ground By disabling the SmartGFI circuit and operating in a grounded return mode OMNIA allows the user to perform tests on devices that have their chassis s earth grounded by the test fixture or test environment In the Hardware Setting screen highlight the SmartGFl parameter by using the up or down arrow keys Use the numeric keypad to set the mA value of the SmartGFI in the instrument The SmartGFI can be set to 0 or adjusted from 0 4 5 0mA where 0 OFF Selecting the Smart GFI 0 will only disable the ground current failure detectors It does not disable the capability to externally earth ground the return lead 37 lt gt sssocuren l RESEARCH INC Continuity Scanner 8204 This selection will only be available if option 01 Internal Scanner is installed on the unit For more information on this option please refer to section 8 Options You may toggle between the HV Channel High Voltage and GND Channel Ground Bond selection by pressing the Continuity Scanner soft key The Continuity Scanner setting allows the user to set the function of the scanner channels for a DC Continuity test The High Voltage Continuity channels can be set to a High or Low level giving the capability to test from one channel to another channel or from any channel to a common Low or Return point The channels can be connected in parallel if desired bu
31. 0 001mA Range 10 00 50 00mA 99 99mA Models 825x Resolution 0 01mA Accuracy 3 of setting 50 uA Range 0 0 999 9uA Resolution 0 1uA Range 1000 200004 A Resolution 1uA Accuracy 2 of setting 2 counts Range 1 9 Ground Continuity Current DC 0 1 A 0 01A fixed Max ground resistance 1 Q 0 1Q fixed Ground Fault GFI Trip Current 0 4mA 5 0mA AC or DC Interrupt HV Shut Down Speed lt 1mS 13 D assocuren A RESEARCH INC DIELECTRIC WITHSTAND TEST MODE CONT Current Display AC Total AC Real DC Output Ripple Discharge Time Maximum Capacitive Load DC Mode AC Output Waveform Output Frequency Output Regulation Dwell Timer Ramp Timer Short Circuit Protection Auto Range Range 1 Resolution Range 2 Resolution Accuracy Range 1 Resolution Range 2 Resolution Accuracy Range 1 Resolution Range 2 Resolution Range 3 Resolution Accuracy 1uF Range Accuracy 0 000 mA 3 500 mA 0 001 mA 3 00 mA 50 00mA 100 00mA Models 825x 0 01 mA 2 of reading 2 counts All Ranges 0 000 mA 9 999 mA 0 001 mA 10 00 mA 50 00 mA 99 99mA Models 825x 0 01 mA 3 of reading 50uA All Ranges PF gt 0 1 V gt 250VAC 0 0 uA 350 0 uA 0 1 uA 0 300 mA 3 500 mA 0 001 mA 3 00 mA 20 00 mA 0 01 mA 2 of reading 2 counts All Ranges lt 4 Ripple RMS at 5 KV DC 20mA Resistive Load lt 50 ms no load
32. 10000 0 00 0 01404 File Name 0003 DEMO 5 5 1 Test Status Messages The following is a complete listing of the messages that appear in the Test status display and an explanation for each Dwell This message appears on the display while a test is in process the values update in real time Delay This message appears on the display while a test is in process the values update in real time Ramp Up This message appears on the display at the beginning of the test when the output voltage is ramping up Ramp Down This message appears on the display at the end of the dwell cycle when the output voltage is ramping down Pass This message appears on the display when the test process is complete and the DUT passed the test 5 5 2 Error Messages All Models Abort This message appears on the display if the test in process is aborted with the RESET button or remote Reset control 97 N ASSOCIATED J L RESEARCH INC HI Limit This message appears on the display if the DUT measurement exceeds the HI Limit setting of any parameter except AC withstand LO Limit This message appears on the display if the DUT measurement drops below the LO Limit setting of any parameter except AC withstand Hi Lmt T This message appears on the display if the DUT leakage current exceeds the HI Limit setting of the Total current parameter in AC withstand LO Lmt T This message appears on the display if the DUT leakage curren
33. 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy DISPLAY AUTO RANGE Range 6 0 0uA 600UA frequency DC 100KHz Resolution 1uA Additional Error 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy Touch Current Display DC Only 218 Range 1 0 0UA 32 0uUA DC Resolution 0 1uA Accuracy DC 2 of reading 3counts Range 2 28 0UA 130 0UA DC Resolution 0 1uA Accuracy DC 2 of reading 3counts Range 3 120 0uA 525 0uA DC Resolution 0 1uA Accuracy DC 2 of reading 3counts Range 4 400uA 2100uA DC Resolution 0 1uA 1uUA Accuracy DC 2 of reading 3counts Range 5 1800uUA 8400uUA DC Resolution 1uA Accuracy DC 2 of reading 3counts Range 6 8 00mA 10 00mA DC Resolution 1uA 0 01mA Acree DC 5 of reading 0 01mA y 10 00MA Dassen DISPLAY FIXED RANGE gt 6 OF RANGE Touch Current Display DC Only Range 1 0 0uA 32 0uA DC Resolution 0 1uA Base Accuracy DC 2 of reading 3counts gt 10UA DISPLAY FIXED RANGE lt 6 OF RANGE Touch Current Display DC Only Range 2 7 8UA 130 0UA DC Resolution 0 1uA B
34. 2000uA RD lt step number gt Read the results for an individual step The step number is the actual step number that has been saved within the file not the order of which the steps were executed For example if the test was executed starting from step 3 and ending with step 5 then the first step test results will be found in location 3 not in location 1 Each parameter is separated by commas and includes step number test type test status and metering The syntax for this command response is step test type status meter 1 meter 2 meter 3 ACW test displays 4 meters Each meter will contain only the value and not the units In the case of DCW current where both uA and mA are used on the display the command response will always indicate the current in uA for example 2 0mA will respond with 2000 for 2000uA RR Read the remote Reset input signal When the remote reset has be activated by closing the contacts the query will return a value of 1 to indicate the instrument is being Reset RI Read the remote Interlock input signal When the remote Interlock has be activated by opening the contacts the query will return a value of 0 to indicate the instrument is in the Interlock state and will not be able to generate output voltage or current LF Lists the file name of the file loaded into active memory RAM LF lt file number gt List the file name of any saved file within the directory structure The file number is 124 a g
35. 38788 Handle Rack Mount 3U Qty 2 38787 Screw M4 x 12mm FHMS Qty 4 38549 For Rack Mount Handle NOTE The Adapter Box universal US polarity and line cord listed are American Other combinations of line cord and Adapter Box are available upon request oN D ASSOCIATED 9 _ RESEARCH INC 2 1 3 Returning the Instrument for Service or Certification When it is necessary to return the instrument for servicing or certification repackage the instrument in its original container as long as it is in good condition Please include all accessories and test leads Mark the container FRAGILE to ensure proper handling Before shipping contact an Associated Research Inc customer support representative at 1 800 858 TEST 8378 to indicate and explain the reason for service At this time you will be supplied with an RMA return material authorization number Please refer to this number in all correspondence If you do not have the original packaging materials please follow these guidelines Wrap the instrument securely in a heavy duty bubble pack or similar foam Enclose the same items as above Use a strong double wall container that is made for shipping instrumentation 350 lb test material is adequate Use a layer of shock absorbing material 70 to 100 mm 3 to 4 inch thick around all sides of the instrument Protect the control panel with cardboard Seal the container s
36. 999 9mV 31 5mV 525 0mV frequency DC peng 15Hz 1MHz Resolution 0 1mV 15Hz lt f lt 30Hz 3 of reading 5counts Basic Acc r c 30Hz lt f lt 100KHz 2 of reading y 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 4 126 0mV 999 9mV 1000mV 2100mV frequency DC 15Hz 1MHz Resolution imV Basic Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV 230 Range 5 504 0mV 999 9mV 1000mV 8400mV frequency DC 15Hz 1MHz Resolution imV Basic Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 6 600mV 8399mV 8 40V 10 00V frequency DC 15Hz 100kHz faseen Resolution 1mV 0 01V Basic Accuracy 15Hz lt f lt 100KHz 5 of reading 0 01V 10 00V DISPLAY FIXED RANGE lt 6 OF RANGE Touch Voltage Display RMS AC Only Range 1 N A Resolution N A Additional Error N A 0 0mV 7 8mV frequency Range 2 15Hz 1MHz Resolution 0 1mV Additional Error 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt
37. Clear Service Request Register OPC Operation Complete Command When TEST command ok setting Ore pperaton Complete command eR arrg aao ar Or Setna OPC Operation Complete Query 1 TEST completed ok 0 TEST in process wA Wato Continue Command lt PSC 1 0 Power on Status Clear Command 1 Power on clear enable registers 0 Power on load previous enable registers psc Poweron Status Cear Quoy A Event Status Register 0 255 Quer ESE lt value gt Standard Event Status Enable value 0 255 Command ESE Standard Event Status Enable 0 255 Query Read Status Byte Query Read Status Byte SRE Service Request Enable Command value 0 255 lt value gt SRE Service Request Enable Query 0 255 IDN Read the instrument identification string Company ARI RST Reset the instrument to original power on configuration Does not clear Enable register for Standard Summary Status or Standard Event Registers Does not clear the output queue Does not clear the power on status clear flag 126 a 4 21 ASSOCIATED d RESEARCH INC TST Performs a self test of the instrument data memory Returns 0 if it is successful or 1 if the test fails CLS Clears the Status Byte summary register and event registers Does not clear the Enable registers OPC Sets the operation complete bit bit 0 in the Standard Event register after a command is completed successfully OPC Returns a
38. Components 38364 1 Fuse Holder 20mm 37478 2 High Voltage Connector 37555 1 Power Switch 2P 10A 250V 37571 1 Earth Connector 37806 1 TEST Test Switch Green Lighted 37807 1 RESET Reset Switch Red Lighted 39391 1 TEST Replacement Bulb 39392 1 RESET Replacement Bulb 38101 1 Feet Kit w o Rubber Inserts 38102 4 Rubber Insert for Feet 39321 1 LCD Color Display 38487 2 Socket 80 Amp Red 38488 2 Socket 80 Amp Black PCB Assemblies 39306 1 AMP7800 Amplifier Board 39307 1 ANG7800 Analog Board 39308 1 CON7800 Main Control Board 39309 1 FB7800 Feedback Board 39310 1 FIL7800 Filter Board 39311 1 HV7800 High Voltage Control Board 39312 1 KEY7800 Key Board 208 Dassen PART QTY REF DESCRIPTION NUMBER DESIGNATOR 39313 1 PWM7800 PWM Board 39366 1 LLT7800 LLT Board 39373 1 MD7800 Measuring Device Board 39367 1 LAM7800 LLT AC DC Filter Board 39063 1 USB RS232 USB RS232 Interface Board 38305 1 CGP 03 GPIB Interface Board 38543 1 CSU7500 Scanner Control Board 38819 1 38818 Ethernet Card Internal Components 37374 1 IC 36 IC 27512 EEPROM 39337 1 T3 Ground Bond Transformer 38336 1 T2 High Voltage Output Transformer 39347 1 IC 10 Main Board IC 39VF040 Flash Memory 39373 1 Isolation Transformer 39384 1 7800T1 LLT Power Supply Transformer 38846 1 IC 8 Analog IC W78E516B Board 38298 1 IC 9 Ana
39. Device Clear Complete Device clear capabilit Device Trigger No device trigger capability Controller No controller capabilit Electrical Interface Three state drivers Controllable Items Test and Reset control Setting of test parameters for tests Reading of instrument status and test results Data Codes ASCII Delimiter NL EOI 108 DIERN 7 4 USB RS 232 GPIB Interface Command List 7 4 1 Echo and Response Considerations RS 232 Responses The USB RS 232 bus will automatically send any response back to the controller s input buffer GPIB Queries and Responses The OMNIA GPIB bus will not send any data to the controller without being queried A GPIB read command must be sent after a command string to retrieve any data from a query command Rules for Sending Commands to the Instrument The following conventions are used to describe the commands syntax for the OMNIA Braces enclose each parameter for a command string Triangle brackets lt gt indicate that you must substitute a value for the enclosed parameter The Pipe is used to separate different parameter options for a command The command and the parameter data must be separated with a space Each command string should be terminated by the ASCII control code New Line NL OAh or the end of line EOL message for GPIB All commands that end with a question mark are query commands and required an IEEE 488 read command to retrieve the dat
40. Ethernet Card here This parameter is not adjustable Barcode I P Press the Barcode I P soft key to select the type of Barcode input ERMERNEL CARD Barcode P SER PROD PRODUCT RUN FILE OFF Press ENTER to save Press EXIT to cancel OMNIA Il 8204 The Barcode I P parameter can be set to SERIAL PRODUCT SER PROD OFF or RUN FILE When the setting is SERIAL PRODUCT or SER PROD the user can scan barcodes in the Perform Tests screen before the test is started When a barcode is scanned one of the following messages will appear on the display 168 Press TEST to start testing Press RESET to cancel Product Number IE 100 Press TEST to start testing Press RESET to cancel Functional Verification OMNIA Il 8204 169 Serial Number AS320715 Product Number Press TEST to start testing Press RESET to cancel n Pa larifinntinn al V eritication OMNIA Il 8204 After the barcodes are scanned press TEST to initiate the test sequence Pressing RESET will abort the TEST sequence The Ethernet Card permits re scanning of barcodes if the previously scanned barcode was incorrect Re scanning is only available in the SERIAL PRODUCT and SER PROD modes If the user decides to re scan barcodes when the Barcode I P setting is set to SER PROD the Ethernet Card will first replace the data in the Serial Number field and if the user re scans another barcode the Ethernet Card will rep
41. GND 25 00A Omohms 60Hz Result Pass 0 01A Voltage Dwell Time Dual CHEK Resistance HI Limit Omohms TEST00004 Voltage Ramp Up Ramp Down TEST00004 Voltage Setting 500V 0 1s 0 0Os Result Pass 500V HI Limit Dwell Time Charge LO Resistance 0 00Mohms 0 55 0 000uUA gt 50Gohms LO Limit Delay Time O 1Mohms 1 lt 0s Setting CONT TESTOOOO5 HI Limit Offset TESTOOOO5 Resistance 0 00ohms 0 00ohms Result Pass gt 10Kohms LO Limit Time TESTOOO06 Voltage HI Amp LO Leakage HI Power LO Continuous Voltage Output N G TESTOOOO06 Voltage Time Setting 125 JOV 0 00A 10 00mA OW OFF 115 0V OPEN Result Pass 114 7V 1 0s Voltage Lo Dwell Time Leakage LO PF HI Frequency Volt Range Current Leakage O 0V 1 05 0 00mA 1 000 60 0Hz LOW 0 00A 0 00mA Amp HI Delay Time Power HI PF LO A HI OC Fold Power PF 10 00A O 2s 1000W 0 000 0 0A OFF 157 2 ASSOCIATED _ RESEARCH INC TESTOOOO7 Setting LET Leakage HI 6000uA Leakage LO 0 0OuA Voltage HI 125 0V Voltage LO 0 0V Dwell Time 0 55 Delay Time 1 0s Neutral CLOSED Reverse OFF Ground CLOSED Offset O OuA Mea Device UL544NP Probe Ground To Line Leakage RMS Continuous OFF AC DC AC DC Ranging Mode Auto Voltage 115 0V Frequency 60 0Hz A HI 0O 0A Output N G OPEN Volt Range LOW OC Fold OFF TESTOOOO7 Result Pass Voltage 114 7V Leakage R 0 0uA Time 0 5s I Maximum
42. H which places them at high potential or L which places them at return potential Refer to the table below for more details State Selection DUT HV ON L DUT L N connected to Return Description H DUT L N connected to HV O DUT L N not connected OFF 14 400 800 Hz The 400 800 Hz option adds additional frequency selection to the ACW test Now instead of just 50 60 Hz selection you will be able to select 50 60 400 and 800 Hz frequency for an ACW test The specifications for the 50 60Hz operation will remain the same except for the SGFI Trip Current The following specifications apply to the 400 800 Hz option and include the new SGFI Trip Current specification for 50 60 Hz and DCW AC Total Current 3 of reading 2 counts AC Real Current 5 of reading 100uA Voltage Display 3 of reading 10 V Voltage Setting 3 of reading 2 counts SGFI Trip Current 1 6mAAC max at 400 800 Hz 0 9mAAC max at 50 60 Hz 1 2mA DC max The following USB RS232 and GPIB Test Parameter Editing Command and Companion Query have been modified for use with the 400 800Hz option EF 0 1 2 3 Edit Frequency ACW 0 50Hz 1 60Hz 2 400Hz EF 3 800Hz 173 A DT ASSOCIATED RESEARCH INC The ADD command may also be used to enter the 400Hz and 800Hz frequency selection Please reference the USB RS232 GPIB section of the manual for additional information regarding the ADD comma
43. O OuA MD Volt R O 1mV Tested By 09 Ethernet Card The Ethernet Card option provides RS 232 and Ethernet communication interfaces as well as barcode scanning capability The Ethernet Card has three input output ports shown in the following figure Barcode Ethernet RS232 The port labeled Barcode is a PS 2 type connector that is used for the connection of a barcode scanner The Ethernet port is for use with a standard CAT 5 Ethernet cable and may be connected to any compatible PC The 9 pin D type subminiature connecter labeled RS232 is for connection of the OMNIA to an RS 232 communication bus RS 232 Interface The protocol for interfacing and communicating using the RS 232 interface can be found in section 7 Bus Remote Interface USB GPIB RS 232 of this manual Ethernet Interface The Ethernet interface provides all of the function control of the standard RS 232 interface Some commands are only exclusive to GPIB control 158 fasses Default Settings The default settings for the Ethernet interface are as follows Gateway IP Subnet Mask 255 ooo 000 _ 000 f Device Name 2 Next Page b i OMNIA Il 8204 _ ETHERNET CARD MAC Address 00 20 4A BE F3 53 Autostart gt Barcode P b OMNIA Il 8204 _ The source port number for the Ethernet Card in TCP connections is 10001 Ethernet Card Setup In order to setup the Ethernet card the operator will need information from the local network ad
44. Range 3 31 5uA 525 0uA frequency 15Hz 1MHz Resolution 0 1uA Base Accuracy 15Hz lt f lt 100KHz 10 of reading 2uA 100KHz lt f lt 1MHZ 10 of reading 2UA 126 0uA 999 9UA 1000UA Range 4 2100uA frequency 15Hz 1MHz Resolution 1uA Base Accuracy 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA 224 gt ASSOCIATED RESEARCH INC 504uA 999 9uA 1000UA 8400uA mange frequency 15Hz 1MHz Resolution 1uA 15Hz lt f lt 100KHz 10 of reading 2uA Base Accuracy 100KHz lt f lt 1MHZ 10 of reading 2UA 1200UA 8399UA 8 40mA Range 6 10 00mA frequency 15Hz 1MHz Resolution 1uA 0 01mA Base Accuracy 15Hz lt f lt 100KHz 10 of reading 2counts DISPLAY FIXED RANGE lt 6 OF RANGE Touch Current Display Peak AC Only Range 1 N A Resolution N A Additional Error N A 0 0uA 7 8uUA frequency 15Hz Range 2 MHz Resolution 0 1uA Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0UA 31 5uA frequency Hangers 15Hz 1MHz Resolution 0 1uA Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt
45. Setup Tests Perform Tests VERI CHEK and Information 4 2 Setup System From the Main Menu screen press the Setup System soft key The Setup System screen will now be displayed From the Setup System screen five different hardware and software controls may be accessed Time and Date Calibration Alert Hardware Security and User Interface Pressing the EXIT key at any time will return you to the Main Menu screen 30 SETUP SYSTEM Time and Date Calibration Alert Hardware Security User Interface OMNIA Il 8204 4 2 1 Setup System Keys Soft Keys In the Setup System screen the soft keys correspond to several setup screens Use the soft keys to enter the corresponding system screen Once a system screen has been entered the soft keys can be used to edit parameters Press the soft key to edit the corresponding parameter ENTER does not need to be pressed to confirm the values that pertain to the soft keys Directional soft keys lt gt a V The lt gt A v soft keys are used to scroll the cursor to the different system parameters ENTER The ENTER key is used to confirm a value for a particular parameter EXIT The EXIT key is used to return to the Perform Tests screen from the Setup System screen or will bring you back to the Setup System screen from the editing menu screens 4 2 2 Time and Date From the Setup System screen press the Time and Date soft key The Time and Date Setting screen
46. Voltage Display Base Accuracy DISPLAY FIXED RANGE lt 6 OF RANGE DC 5 of reading 0 01V 10 00V Range 1 N A Resolution N A Additional Error N A Range 2 0 0mV 7 8mV DC Resolution 0 1mV Additional Error DC add 2 of reading 0 2 of range to base accuracy 233 A 2 ASSOCIATED 1 RESEARCH INC Range 3 0 0mV 31 5mV DC Resolution 0 1mV Additional Error DC add 2 of reading 0 2 of range to base accuracy Range 4 0 0mV 126 0mV DC Resolution imV Additional Error DC add 2 of reading 0 2 of range to base accuracy Range 5 0 0mV 504mV DC Resolution imV DISPLAY AUTO RANGE Touch Voltage Display Peak AC DC 234 Additional Error DC add 2 of reading 0 2 of range to base accuracy Range 6 0 0mV 600mV DC Resolution imV Additional Error DC add 2 of reading 0 2 of range to base accuracy 0 0mV 32 0mV frequency DC nange 15Hz 1MHz Resolution 0 1mV DC 2 of reading 2mV Accuracy 15Hz lt f lt 1MHz 10 of reading 2mV 28 0mV 130 0mV frequency DC Manges 15Hz 1MHz Resolution 0 1mV DC 2 of reading 2mV Accuracy 15Hz lt f lt 1MHz 10 of reading 2mV 120 0mV 525 0mV frequency DC mange 15Hz 1MHz Resolution 0 1mV DC 2 of reading
47. accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 6 0 0mV 600mV frequency DC 100KHz Resolution imV Additional Error 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 240 gt ASSOCIATED _ RESEARCH INC Index AC Withstand aicticncinnzicntorntccntatanetataxebarenekeenannane 39 57 59 64 66 67 69 70 72 96 98 Adapter BOX isien 9 10 26 29 88 89 204 PUG EEE A AE EE EEA 3 13 58 60 61 67 68 98 112 113 114 115 116 Benefits eee Se SSN ee TR NUT aT E E a Amr Ser tT Cen R 8 ERR I sci ct enoe e a e e tia ae iad lidar A A SE 3 4 98 NIG AMO esena aas aE E anaiai 10 27 181 190 191 Calibration Alert sicastiscaieschstbvcatedscabiceariicitbreeiebia MiacebsaR oueit bie nenabts Shaweiteoumabeatenentadiuatanad 30 34 36 Calibration Procedure is ictiesicninsiinieniscnsiesincibienpAesitilasibbletuicnuibuavaerintanailavinnasaedinigacvbilesiasnisetbdeucdsnigaanis 181 Charge LoO ssssssssssssssssssseseees 13 15 58 61 68 69 70 98 109 110 112 113 Connected Steps 52 55 63 64 66 91 92 93 94 95 109 111 113 115 121 143 153 167 182 Continuity TSS Oi ehesaceedieateeceeechaeats teabeecc tert ioelasdeeealonterepeebioaseetien 58 70 71 73 109 136 SOMOS ienaa 11 13 25 27 28 30 50 54 74 91 124 169 CEOS sioncttoiatinatesontsdiotasealiotedeaiateatattnaudinnn
48. at that step and display the Prompt as a pop up message An example of a prompt will appear as follows PERFORM TESTS jo001 DCW Settings eda ent 0005 GND Settings 25 00A 100mo 10s Omo 0006 CONT Settings 1 0s 10000 File Name 0004 DEMO 6 In order to clear the Prompt and continue the test push the TEST button The highlighted area of the screen remains on the test that is being performed until itis finished At the same time on the right half of the screen will be the appropriate metering display for the type of test that is being performed refer to section 5 4 Perform Tests Metering When the step is complete the highlighted area will sequence to the next step and the new metering display will appear unless there is a prompt embedded within the step When the highlighted area moves to the next step the previous step area will now display the results of the test just performed 7 Atthe end of the test sequence the right side of the screen will display a flashing PASS if all the tests have completed successfully or a flashing FAIL if any of the tests did not complete successfully If a test fails the right side of the screen will indicate the step that failed and which parameter of the step failed 95 esses 5 4 Perform Tests Metering Each test performed by the OMNIA contains a unique set of parameters and therefore requires specialized metering for each test The following table describes what
49. begin the verification process During the Verification process the metering screen for the related process will be displayed Refer to section 5 4 Perform Tests Metering for more information At the end of the Verification process a pop up message will appear indicating the outcome of the process If the instrument passes the Verification test failure indicating the fail detectors are working properly the RESET button will illuminate the alarm will sound and the following pop up message will appear over the metering screen CONTINUITY VERIFY TTT i 0001 CONT Settings 10s 10000 Verification OK Continuity failure detected Press RESET to return to menu 177 a ASSOCIATED wi RESEARCH INC If the instrument fails the Verification test pass indicating the fail detectors are not working properly the TEST button will illuminate and the following pop up message will appear over the metering screen CONTINUITY VERIFY ii 0001 CONT Settings 10s 10000 0 000 z4 Verification Error 12 12i Continuity failure not detected ood Check connections or call AR local id distributor 1 o8 Press RESET to return to menu 50 1G 9 1 2 Ground Bond Verification From the VERI CHEK screen press the Ground Bond soft key A pop up message will now be displayed The message will appear as follows Continuity gt Disconnect Current HV and Return leads from the instrum
50. cceccsssseseecsssseeeeeeesseueeenssseeeennsseesees 208 12 SCHEMATIC INDEX wississsvnnsasscicecduciavicsvetiwutaveanvaccunsavsadvausessauacuvatawucaeneisateds 210 13 APPENDIX A EXTENDED 82x6 82x7 SPECIFICATIONG c0c0ssseee00s 211 Index is located at the back of the Manual Q ASSOCIATED sa RESEARCH INC 1 INTRODUCTION I 1 1 Warranty Policies Associated Research Inc certifies that the instrument listed in this manual meets or exceeds published manufacturing specifications This instrument was calibrated using standards that are traceable to the National Institute of Standards and Technology NIST Your new instrument is warranted to be free from defects in workmanship and material for a period of 2 year from the date of shipment You must complete the online registration at http Awww asresearch com support register login aspx or call 1 800 858 TEST 8378 ext 0 to register over the phone 5 Year Program All Associated Research instruments include the opportunity to extend the standard warranty for up to a period of 5 years Returning instruments to Associated Research for their annual calibration and inspection will extend the instrument s warranty for an additional year This warranty is extendable for up to five years and annual returns must be made in succession starting one year after the original purchase date There are no additional costs for the 5 year product warranty The only annual costs to the custom
51. counts 1001 10000 Q 1Q 1 of reading 10 counts 0 OFF 0 0 0 3 999 9 sec 0 Continuous 0 1 sec 0 1 0 05 sec 0 00 10 002 0 01 Q 1 of reading 0 03 Q 17 Q sssocuren 1 RESEARCH INC GENERAL SPECIFICATIONS Built in Smart GFI circuit username password requirements Alarm Volume Range 0 9 0 OFF 1 is softest volume 9 is loudest Setting volume Adjustments are made through the front panel Automatic Calibration alert function to signal operator when calibration is due Dimensions 3U W x H x D 430 X 133 X 500 mm 16 93 x 5 24 x 19 69 OPTIONS Scanning Matrix 8 channel high voltage and high current switching matrix DIECA RUN TEST MODE MODELS 82X6 AND 82X7 DUT POWER One Hot or Line conductor and One Neutral Voltage Display 1 5 of reading 0 2V 30 0 277 0VAC Short Circuit Protection 23 AAC Response Time lt 3s DELAY AND DWELL TIMER SETTINGS Range 0 2 999 9 seconds Resolution 0 1 second Accuracy 0 1 0 05 sec Range 0 1 999 9 seconds 0 Continuous Resolution 0 1 second Accuracy 0 1 0 05 sec TRIP POINT SETTINGS Voltage Range 30 0 277 0 VAC Volt Hi Resolution 0 1 V Volt LO Accuracy 1 5 of setting 0 2 V 30 0 277VAC Current Range 0 0 16 00 AAC Amp HI Resolution 0 01A Amp LO Accuracy 2 0 of setting 2 Counts Watts Range 0 4500 W Power Hl Resolution 1W Power
52. designator is shown in AC withstand parameters and means T total current or R real current Ramp Up The length of time that is allowed for the test voltage to climb from 0 to the programmed test voltage Dwell Time The length of time that is allowed for the programmed test voltage to be applied Delay Time The length of time that the programmed test voltage is applied but no judgment of the set parameters is made Judgment of the parameters is not made until the end of the delay time 57 A ASSOCIATED 7 RESEARCH INC Ramp Down The length of time that is allowed for the test voltage to decay from programmed test voltage to 0 Arc Sense During hipot testing some low current arcing may be allowable Arc sense is a maximum allowable threshold for arcing Arc Detect If the Arc Fail mode is set to ON the program will indicate an arc failure when the arc current is exceeds this setting Arc Detect may be selected ON or OFF using a soft key Ramp HI The Ramp HI function is active during the Ramp period only Ramp HI will allow current higher than the normal Max Lmt current setting of the DC Withstand Voltage test to avoid false failure due to charging current Charge LO The Charge LO function is used to check if the cables are connected properly at the beginning of a test This function is only available in DC Withstand and Insulation resistance testing A description of how to set up this parameter is given i
53. device to the DUT during Enclosure or Applied Part Line Leakage tests This terminal will be enabled during a Line Leakage test whenever Probe HI has been selected When a Functional Run test or Line Leakage test is not being performed this terminal is isolated from the Functional Run test and Line Leakage test circuits 8 PROBE LO Connector used to attach the Probe LO test lead to the DUT When used with an appropriate test lead this terminal connects one side of the MD measuring device to the DUT during Applied Part Line Leakage tests The terminal is always used in conjunction with the Probe HI terminal When a Functional Run test or Line Leakage test is not being performed this terminal is isolated from the Run test and Line Leakage test circuits 9 MD CIRCUITS Contains an external Measuring Device PCB that will enable during a Line Leakage test when External is selected using the Meas Device soft key The external MD allows the operator to configure a custom measuring device using either a simple resistive component or a complex two pole network 29 fassen 4 PROGRAMMING INSTRUCTIONS 4 1 Power Up The OMNIA automatically defaults to the Main Menu screen upon power up The Main Menu screen will appear as follows Setup System lt 0 gt Setup Tests gt Perform Tests gt VERI CHEK gt Information gt OMNIA II 8204 From the Main Menu screen five menus screens may be accessed Setup System
54. does not mean that the instrument in the case of these commands only completed the command These commands require a restarting of the hardware that controls the Ethernet Protocols Because of this the user must wait before the Ethernet Card will respond to another command See the table below for the approximate wait times necessary after one of the commands in the table is sent In addition the current socket connection between the user s terminal and the Ethernet Card is no longer valid and the user will need to close their current connection and establish a new one Ethernet Card Settings Command Wait Times IP MODE COMMAND WAIT TIME AFTER COMMAND IS SENT Manual Auto Wait times are approximate and can vary based on the user s network 172 A d ASSOCIATED RESEARCH INC 10 GPIB Interface This option provides all of the function control of the RS232 interface with the addition of SRQ functions All commands can be found in section 7 Bus Remote Interface USB GPIB RS 232 of this manual 11 DUT Output Return Relay Models 8206 8207 8256 8257 This option provides additional settings to control the DUT Output L and N terminals during ACW DCW and IR tests When this option is installed and the DUT HV setting is enabled in the Setup System screen an additional parameter will be available in the ACW DCW and IR Test Parameter Settings screen The operator can configure the DUT Output L and N terminals to O off
55. fixture resistance during a Ground Bond or Continuity test Using the up and down arrow keys or the ENTER key scroll the highlighted area to the Offset parameter You may now manually or automatically set an Offset value To manually set an Offset value enter a millionm value via the numeric keypad and then press the ENTER key to accept the new value or press the EXIT key to escape from the edit To automatically set an Offset value set the output voltage current and frequency to the values that will be used on the DUT and connect the test cables test fixture or Scanner channel to the instrument Next short the ends of the test cables and press the TEST button The highlighted parameter field will briefly show the word READING and then display the new value The new value is automatically updated in the field and does not allow an escape to the original value or require that the ENTER key be used to accept the new parameter DualCHEK This function allows the instrument to simultaneously run a hipot and AC Ground Bond test While pressing the DualCHEK soft key the DualCHEK pop up screen will appear as follows 71 AC GROUND BOND Current Voltage Hl Limit LO Limit Dwell Time Step Name gt Press ENTER to save Offset Press EXIT to cancel Scanner gt Scanner 12345678 9i i Channel CILLLLLO i Defaults gt Range Current 1 00A 40 00A Use the up or down arrow keys to sel
56. for 10 01 30 00 Amps 0 600 mQ for 6 00 10 00 Amps Resolution 1mQ Accuracy 2 of reading 2 mQ Range 0 600 mQ for 1 00 5 99 Amps Resolution 1mQ Accuracy 3 of reading 3 MQ Range 0 5 999 9 sec 0 Continuous Resolution 0 1 sec Accuracy 0 1 0 05 sec Milliohm Offset Range 0 200m2 Resolution 1mQ Accuracy 2 of setting 2 mQ DTi ASSOCIATED _ RESEARCH INC CONTINUITY TEST MODE Output Current Resistance Display HI and LO Limits Dwell Timer Milliohm Offset DC 0 1A 0 01A DC 0 01A 0 001A DC 0 001A 0 0001A Total Resistance 0 00 12 00 Total Resistance 12 1 120Q Total Resistance 121 1200Q DC 0 0001A 0 00001A Total Resistance 1201 10000Q Range 1 Resolution Accuracy Range 2 Resolution Accuracy Range 3 Resolution Accuracy Range 4 Resolution Accuracy Range 1 Resolution Accuracy Range 2 Resolution Accuracy Range 3 Resolution Accuracy Range 4 Resolution Accuracy Max Limit Range Resolution Accuracy Range Resolution Accuracy 0 00 10 00 Q 0 01 Q 1 of reading 3 counts 10 1 100 0 Q 0 1 Q 1 of reading 3 counts 101 1000 Q 1Q 1 of reading 3 counts 1001 10000 Q 1Q 1 of reading 10 counts 0 00 10 00 Q 0 01 Q 1 of reading 3 counts 10 1 100 0 Q 0 1 Q 1 of reading 3 counts 101 1000 Q 1Q 1 of reading 3
57. for example it is a TTL low level lt 0 8 V and when DAV is false it is a TTL high level 2 0 V Restrictions and Limitations on the GPIB A maximum separation of 4 m between any two devices and an average separation of 2 m over the entire bus A maximum total cable length of 20 m 107 A 2 ASSOCIATED _ RESEARCH INC No more than 15 device loads connected to each bus with no less than two thirds powered on For example 1 GPIB controller and a maximum of 14 GPIB instruments NOTE A bus extender which is available from numerous manufacturers is available to overcome these limitations 7 2 2 GPIB Address Each device on the GPIB IEEE 488 interface must have a unique address You can set the address of the OMNIA to any value between 0 and 30 The address can only be set from the front panel The address is stored in non volatile memory and does not change when the power has been off or after a remote reset The address is set to 8 when the instrument is shipped from the factory 7 3 Interface Functions The capability of a device connected to the bus is specified by its interface functions These functions provide the means for a device to receive process and send messages over the bus The interface functions are listed in the chart below GPIB 488 1 INTERFACE FUNCTIONS INTERFACE SUBSET DESCRIPTION FUNCTION Source Handshake Acceptor Handshake Listener Service Request Remote Local Parallel Poll PPO
58. lead or test fixture return lead to the instrument This connection provides the return current path 16 SENSE TERMINAL Connector used to attach the sense lead for 4 wire Kelvin current measurement This connection provides for accurate current measurement during the Ground Bond test 17 HIGH VOLTAGE OUTPUT TERMINAL Connector used to attach the high voltage test lead adapter box high voltage lead or test fixture high voltage lead to the instrument This connection provides the high voltage used during a Hipot test 26 r 3a i p 2 ASSOCIATED RESEARCH INC 3 2 2 Rear Panel Controls 10 8 1 CALIBRATION BUTTON To put the instrument into the calibration mode push this button and turn on the power switch simultaneously 2 SCANNER CONNECTOR For connection of optional external Scanner 3 REMOTE SIGNAL OUTPUT 9 Pin D sub miniature female connector for monitoring PASS FAIL and PROCESSING output relay signals See section 6 0 Connection of Remote I O for more detailed information 4 REMOTE SIGNAL INPUT 9 Pin D subminiature male connector for remote control of TEST RESET and REMOTE INTERLOCK DISABLE functions as well as MEMORY SELECTION See section 6 0 Connection of Remote I O for more detailed information 5 BUS INTERFACE Standard connector for interconnection to the USB RS 232 Bus interface Optional IEEE 488 or Ethernet may be substituted for USB RS 232 6 CHASSIS GROUND EAR
59. not need to enter a Subnet Mask manually Device Name The Device Name is used to identify the OMNIA II on your server and may be used in place of a dedicated IP Address Use the arrow keys to highlight this parameter Once the parameter is highlighted you may enter the Subnet Mask using the numeric keypad The Device Name may be a maximum of eight characters and MUST start with a letter IP Setup Manai D IP Address 192 168 001 088 Gateway IP 255 255 255 254 Subnet Mask 255 255 255 000 Device Name omnia a Next Page gt e204 OMNIA If the Device Name does not start with a letter the following error message will be 166 II RESEARCH INC displayed ETHERNET once Device Name Error The device name must start with a letter Press EXIT to continue Device Name Next Page b OMNIA II 8204 When the Device Name has been entered press the EXIT key to save the new settings The Device Name parameter is only active when the IP Setup is set to AUTO Next Page Press the Next Page soft key to bring up additional parameters as shown in the following screen ETHERNET CARD MAC Address __ 00 20 44 ET FS eo j Autostart gt Barcode P gt Previous Page b OMNIA Il 8204 From this screen four parameters may be accessed MAC Address Barcode P 167 Dears Autostart and previous MAC Address View the MAC address of the
60. other is to configure it through the drive s properties in Windows 08 Printer Port This option allows the instrument to generate hardcopy printout of the test results The printout can be configured to print automatically with each test or manually by pressing a front panel key There is also capability to enter a device ID number to each test that increments automatically after each test is performed The test can be further configured to print only results from tests that have failed or to print all test results from every test performed The Printer Port is a USB interface and should be compatible with most USB printers The printer port output uses simple ASCII characters and control codes Simply connect the printer to the OMNIA II and configure the printer output using the Setup Systems menu From the System Setup screen press the Print Format soft key The Print Format setting screen will now be displayed From the Print Format setting screen six different parameters may be accessed Device ID number Mode Test Result Test Setting Device ID and Form Feed The Print Format setting screen will appear as follows PRINT FORMAT OMNIA II 8206 Mode 155 D ASSOCIATED Il RESEARCH Inc From the Print Format setting screen press the Mode soft key As the soft key is pressed the mode will change between three available print modes Auto Manual and OFF In the Auto mode the OMNIA II will automatically
61. p7 p2 gt etc indicates the parameters of the test Please refer to the ADD command for a list of parameters for each test type LS2 lt step number gt Lists all the Parameters for the individual step indicated by step number 1 30 The response will be formatted as follows lt step test p1 p2 p3 gt Where lt step gt is the step number lt test gt is the test type and lt p7 p2 gt etc indicates the parameters of the test Please refer to the ADD command for a list of parameters for each test type RS Reads the instrument s scanner port status The query will return either a 0 none 1 external 1 2 external 2 or 3 both external 1 and 2 which describes the number of local scanners connected to the instrument SS Reads the selected step from the instrument 125 DT ASSOCIATED J RESEARCH INC 7 4 7 IEEE 488 2 Common Commands These commands are required by the IEEE 488 2 standard with the exception of PSC PSC Most of these commands are not available over the RS 232 bus except for the IDN command which can be used to retrieve the instrument identification information and the four status reporting commands ESR ESE ESE and STB COMMAND NAME DESCRIPTION IDN Identification Query ARI Model Number Serial Number Firmware Revision Reset Command Resets OMNIA TST Self Test Query OOH OK pe PAI teFesreesnowennon CLS Clear Status Command Clear Standard Event Status Register
62. range The hardware calibration is required to be performed prior to the standard software calibration of the LLT MD Volts x0 1 range only when the LAM board LAM7800 is replaced This is also true if the LLT Board LLT7800 and LAM board LAM 7800 are simultaneously replaced Required Measurement Standard Wideband Voltmeter 100 kHz capable of measuring to 10 VAC Sine Wave Generator 100 Hz to 100 kHz capable Procedure 1 Connect the Probe HI and Probe LO leads to output of the Sine Wave Generator and in parallel with Wideband Voltmeter 2 Select the LLT step and set Leakage HI 10 00mARMS in manual ranging mode with filter set to AC DC Dwell Time 0 0s Measuring Device to Frequency Check and Probe configuration to Probe HI To Probe LO 3 Set the output frequency of the Sine Wave Generator to 100 kHz 4 Adjust output of the Sine Wave Generator to 10 00VRMS or to maximum that generator provides To meet required accuracy the Voltage should be bigger than 5 00VRMS Control the output voltage with the standard Wideband Voltmeter Write down the RMS Leakage current that the OMNIA 2 meter indicates 5 Change the output frequency of the Sine Wave Generator to 100 Hz and adjust the output voltage to the same value 6 Adjust the VR1 on the OMNIA 2 to have the Leakage current as close as possible to the value recorded above 10 3 Calibration Initialization Press and hold the calibration key on the rear panel with a pen p
63. screen press the AC Hipot soft key A pop up message will now be displayed The message will appear as follows VERI CHEK Short HV Output to Return Do not touch leads during test Press TEST to begin verification Press RESET to return to menu Press a function key to select a mode Press EXIT to exit from Verification Follow the instructions given in the pop up message and then press TEST to begin the verification process During the Verification process the metering screen for the related process will be displayed refer to section 5 4 Perform Tests Metering for more information At the end of the Verification process a pop up message will appear indicating the outcome of the process If the instrument passes the Verification test failure indicating the fail detectors are working properly the RESET button will illuminate the alarm will sound and the following pop up message will appear over the metering screen 180 0001 CONT Settings 1 0s 10000 3 Verification OK AC Hipot failure detected Press RESET to return to menu If the instrument fails the Verification test pass indicating the fail detectors are not working properly the TEST button will illuminate and the following pop up message will appear over the metering screen 470001 CONT Settings 10000 0 00 ws Verification Error AC Hipot failure not detected Check connections or call AR local distributor Press RESE
64. sean a a a a Ae a de a AA EA R 5 SEUD a a E A 11 25 31 ACG Withstand cmima eea a e a r a a A a 66 DC UTS INO oc oenrscaceavacinas couseetsiancatencessweansaneseatameseuntannaunecaneassessateseasdoautesaeansonacediesseanashe 67 DUT HAV rsen Datta hates sta heated E A A ke eas 39 59 190 191 E AT E E N TEE AAE A E A A N 110 115 120 Ground COMMIS sssrinin einsi evie aerar Ea e Eae Eara iiY 70 72 Insulation Resistance crass geo cadeere tsb sre dec bes orn Giese nen eect etn 69 Line SAKA C rensei eniri anina Erai E a O EE EEE ERES EENE SREE REES 76 PIN EE AEE E E E EE EEE EEEE E E 73 SaN E ena a E E a a a 58 90 130 Setup DUTH V crs ene r E e 118 UN Me e ee ct evie cathe cuceaecanteataedcenated uecatenceuatadaeseee 110 115 120 SSE ULI YSIS Menera er a a A E AEN 131 138 152 160 161 System ann T ERSS 30 62 131 152 TESE eee So tte Renney Pennie 26 50 51 52 54 56 63 64 65 66 67 69 70 72 73 76 SNO ecean 19 20 53 55 71 73 84 92 98 100 136 189 191 DINGS Step ssiisnssdscianasbsdianssbabidaostanaduatdaladadidassdndadadidaastadhdaasdadtanelentians 42 91 92 93 119 Smat OF renee amen Renee een eme Teme E meer tr Smee rarer Teer 18 36 37 62 119 SOLOS CMS A ONS csc cc tc Pee cis hc EEEE desta EEEE SER EENEN EEN a maid eine 13 fl R Eso 2c eee eee E UNTER E MNT Sten A 153 tA OMe ciceoucce ep coteares cose enrcp ea ean en en races tone pena nap onset dean eansenineenennscamieneneiencusuend 6 7 THP PONI eee meyer enini
65. sequence regardless of whether or not a failure has occurred If the Fail stop is OFF and a failure occurs during the test sequence the RESET button will light and a short alarm will sound but the sequence will continue to the end At the end of the test sequence the RESET button will light and alarm will sound indicating failure during the sequence Pressing the RESET 92 VU RESEARCH INC button will silence the alarm and reset the instrument Turn the Fail Stop function ON and OFF by pressing the Fail Stop soft key If security is enabled you may not turn Fail Stop ON and OFF using the Fail Stop soft key Fail Stop automatically defaults to the setting stored in the file when security is activated Fail Stop with Run and Line Leakage tests Associated Research recommends performing a Hipot test with the Fail Stop ON prior to performing a Run Test or Line Leakage test Performing a Hipot test first can detect if a DUT is shorted line to ground before applying line power to it 5 2 4 Results At the end of a test sequence or single step test you may review the measurements of each test by pressing the Results soft key Results may be accessed from the end of test Summary screen or from the Perform Tests screen The end of test Summary screen appears as follows 0001 GND PASS 24 99A 2mao 3 0s 0002 ACW PASS 1 24kV 0 006mA 5 0s 0 000mA 0003 IR PASS 1000V gt 50Ga 1 0s All Tests Have Passed Fi
66. set to SERIAL PRODUCT or SER PROD The first field contains the Serial Number information and the second field contains the Product Number information Both fields are included regardless of which of these three modes are selected The Ethernet Card will substitute a 0 for the field if it is not applicable to the setting For example if a user had their Barcode P setting set to SERIAL and scanned a Serial Number with the value 123456789 the TD response for an ACW test could be 01 ACW Pass 1 24 1 000 0 900 1 0 123456789 0 Note that there is a 0 in the Product Number field because the Barcode I P setting is SERIAL When the Barcode P setting is RUN FILE or OFF these fields are not included in the TD and RD x responses Autostart Press the Autostart soft key to enable or disable the Autostart feature When Autostart is enabled the test will execute as follows If the Barcode I P is set to PRODUCTH scan the barcode once to input it into the OMNIA II The OMNIA II will then search for a test file name that matches the product number barcode string If the OMNIA II finds a match it will load the file into RAM When the same product number barcode is scanned a second time the test will be executed automatically If OMNIA does not find a file name that matches the barcode string the unit will beep notifying the user that it did not find a matching file name The test file name is limited to 10 chara
67. test failed The connection will open when the next test is initiated or the reset function activated RESET OUT The relay contact closes the connection between pin 7 and pin 8 while the reset function is activated This is only a continuous closure dependent on the length of time the reset button is held in an active state 6 2 Remote Signal Inputs and Memory Access The OMNIA remote connector enables remote operation of the TEST RESET and REMOTE INTERLOCK functions and allows the operator to select one of 10 pre programmed test files When the PLC Remote mode is on the OMNIA will respond to simple switch or relay contacts closures A normally open momentary switch can be wired across pins 3 and 5 to allow 9 remote operation of the TEST function A DID YOU KNOW minimum pulse width or contact closure of 20mS The Remote Signal Input is required to guarantee a test start A normally connector may be used with open momentary switch can be wired across pins various accessories 2 and 5 to allow remote operation of the RESET including light curtains foot function A minimum pulse width or contact switches and safety probes closure of 50mS is required to guarantee that a Contact Associated running test will abort When the PLC remote function is ON the TEST switch on the front panel will be disabled to prevent a test from being activated through this switch For safety the front panel RESET switch remains active even whe
68. the calibration date For example if the calibration is performed on 12 15 2012 the Alert Date will automatically be set to 11 15 2013 Although this date is automatically written into the Alert Date location it may be manually overwritten to any advanced date desired At the Calibration Alert setting screen highlight the Alert Date parameter by using the left or right arrow keys The left and right arrow keys will toggle the highlighted area of the screen between the Calibration Due and Alert Date Within the Alert Date parameter are three separate fields month day and year Using the left and right arrow keys select the field you want to edit Using the numeric keypad enter the new number Once you begin typing a new number the parameter will blank and the cursor will begin blinking This indicates that the parameter is being edited Once a parameter is edited it is necessary to complete the edit either by 35 2 sssoquren INC pressing the ENTER key to accept the new number or the EXIT key to escape from the edit and return to the original number The Calibration Alert Warning screen appears as follows See d a 2a CALIBRATION ALERT Model 8204 Serial number 9999999 is due for calibration on 01 10 2009 Please contact Associated Research Inc to arrange for calibration Associated Research Inc 13860 W Laurel Drive Lake Forest IL 60045 4546 USA Phone 1 847 367 4077 Toll Free 1 800 858 8378 Fax 1 847 36
69. used the barcoding information will be the final entries in the results file with Serial Number being first and Product Number being second Other Displayed Messages 151 DATA CARD RESULTS Se T Data Card Alert The external memory device is full or does not have enough empty space to save this file Foa Ac Press EXIT to continue 1 24KV 0 000mA 0 0V 0 0uA ae 10s 0 000mA 10s Total Results 05 ACW Pass 03 RUN Pass 00000030 124KV 0 000mA 0 00A 1 0s 0 000mA Ow 01 LLT Pass 01 GND Pass 0 0V 0 0uA 25 00A 44m 10s 1 0s File Name 0009 XATS 0 0uA The above message occurs when the user attempts to transfer results from the Data Storage Card onto the USB Flash memory drive but there is not enough empty space on the drive to save the file To save the results file the user needs to create some empty space on the USB Flash memory drive DATA CARD RESULTS 0001 GND PASS 1999A 71mo Delete Result Data Card Alert J The data card s internal memory is full To continue saving results to the card the existing results must be deleted Press EXIT to continue 124kV 0561mA 131 9V uA 49s 0 008mA 2 0s Total Results 0005 ACW PASS 0001 ACW PASS 00000051 1 24kV 0 379mA 1 24kV 0 565mA 49s 0 244mA 49s 0 008mA if 0006 ACW Short 0001 GND PASS kKV mA 1999A 72moa S mA 49s File Name 0001 TEST The above message occurs when the total results accumulated on the Data Storage Card exce
70. will be measured during the test unless the Milliohm Offset feature is used The Scanner will provide output to multiple test points and will have the same operation specifications that apply to the standard instrument with the exception of one Ground Bond Continuity channel limitation due to the characteristics of general purpose High Current relays some additional contact resistance cannot be prevented Although this contact resistance can be offset using the Milliohm Offset feature of the instrument there will be some variation in the contact resistance because the relay must open and close Each relay closure may represent a different resistance value The Ground Bond channels will have the following characteristics GROUND BOND CONTINUITY CHANNEL RESISTANCE DEVIATION Deviation Relay Contact Test Current 210A 03 Dual Remote Test Switches The Dual Remote Test Switch option allows the user to configure dual palm switches for safe production line operation To activate the option you must access the Setup System Menu from the Main Menu screen This process is described in section 4 2 Setup System Menu in this manual Once at the Setup System screen press the Hardware soft key Using the available soft keys set the PLC Remote to ON and Dual Test to ON The rear panel remote interface is reconfigured to allow two test switches instead of the standard reset and test inputs The two test switches have to be pressed withi
71. will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD IEC60990 Fig4 Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active oo gt ASSOCIATED 7 RESEARCH INC Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD IEC60990 Fig5 Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series Wh
72. will now be displayed From this screen five different parameters may be accessed Set Date Set Time Set Day Date Format and Time Format The Time and Date Setting screen will appear as follows 31 TIME AND DATE _ Set Date Set Time Set Day gt OMNIA II 8204 Set Date From the Time and Date Setting screen highlight the Set Date parameter by using the left and right arrow keys Within the Set Date parameter are three separate fields month day and year Using the left and right arrow keys select the field within the date that you want to edit Using the numeric keypad enter the new number Once you begin typing a new number the parameter will blank and the cursor will begin blinking This indicates that the parameter is being edited Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new number or the EXIT key to escape from the edit and return to the original number Set Time From the Time and Date Setting screen highlight the Set Time parameter by using the left or right arrow keys Within the Set Time parameter are three separate fields hours minutes and seconds Using the left and right arrow keys to select the field within the time parameter you want to edit Using the numeric keypad enter the new number Once you begin typing a new number the parameter will blank and the cursor will begin blinking This indicates that the parameter is being edited Onc
73. 00KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 2 7 8uA 130 0UA frequency DC 1MHz Resolution 0 1uA Base Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 3 31 5uA 525 0uA frequency DC 1MHz Resolution 0 1uA Base Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 4 126 0UA 999 9UA 1000UA 2100uA frequency DC 1MHz Resolution 1uA Base Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 5 504uA 999 9UA 1000UA 8400UA frequency DC 1MHz Resolution 1uA Base Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 6 600UA 8399UA 8 40mA 10 00mA frequency DC 100KHz Resolution 1uA 0 01mA Base Accuracy DC 15Hz lt f lt 100KHz 5 of reading 0 01mA 10 00mA 213 A 2 ASSOCIATED 1 RESEARCH INC DISPLAY FIXED RANGE lt 6 OF RANGE Touch Current Display RMS AC DC Range 1 N A Resolution N A Additional Error N A Range 2 0 0uUA 7 8uA frequency DC 1MHz Resolution 0 1uA
74. 01M Range 1000M 50000M Accuracy Same as Resistance Display Accuracy Ramp Timer Range Ramp Up 0 1 999 9 sec Resolution Accuracy 0 1 0 05 sec Accuracy 0 1 0 05 sec 15 counts Range 100 0M 999 9M Resolution 1M Ramp Down 0 0 1 0 999 9 sec Delay Timer Range 0 5 999 9 sec 0 Continuous GFI Trip Current 450 uA max AC or DC Charge LO Range 0 000 3 500uA or Auto Set Resolution 0 1M HI Limit 0 OFF 0 1 sec Resolution 0 1 sec Ground Fault Interrupt HV Shut Down Speed lt 1mS D assocuren A RESEARCH INC ej e 0 e y e p gym 0 2 Output Voltage Range 3 00 8 00 VAC Open Circuit Limit Resolution 0 01 V Accuracy 2 of setting 0 03V O C Condition Range 60 or 50 Hz user selectable Accuracy 0 1 Output Current Range 1 00 40 00 A a Resolution 0 01A Accuracy 2 of setting 0 02 A Accuracy 1 of output 0 02A Within maximum load limits and over input voltage range Maximum Loading 1 00 10 00A 0 600mQ 10 01 30 00A 0 200mQ 30 01 40 00A 0 150mQ Current Display Range 0 00 40 00 A Resolution 0 01A Accuracy 3 of setting 0 03 A HI and LO Limits Range 0 150 mQ for 30 01 40 00 Amps 0 200 mA for 10 01 30 00 Amps 0 600 mQ for 1 00 10 00 Amps Resolution 1mQ Accuracy Same as Ohmmeter Display Ohmmeter Display Range 0 150 mA for 30 01 40 00 Amps 0 200 mA
75. 04 From the Security screen you may turn the Security function ON and OFF by pressing the Security soft key Selecting Security OFF disables all security features and User ID settings Selecting security ON restricts access to parameter settings The level of security is determined by the User Setup function User Setup From the Security screen press the User Setup soft key As the soft key is pressed you will be taken to the User Setup screen There are three functions available in the User Setup screen Add User Edit User and Delete User The User Setup screen will appear as follows USER SETUP User ID Security Level E Se eey eVe ______ Add User gt ADMIN Full System F ROBERTO Run Only Edit User gt Delete User X gt OMNIA Il 8204 40 fassen From the User Setup screen you can view the list of users currently setup and the associated security level The OMNIA will have a default User ID named ADMIN with Full System Access security level This User ID cannot be deleted Add User From the User Setup screen press the Add User soft key As the soft key is pressed you will be taken to the Add User screen User ID OPERATOR Security Level Confirm oo oa From this screen a new user can be added by entering an alpha numeric User ID Password Password Confirmation and desired security level User ID To enter a User ID use the up and down arrow keys to select the User ID parameter Use the alp
76. 10 0uA 999 9uA Range 3 120 0UA 550 0UA frequency DC 15Hz 1MHz Resolution 0 1uA DC 15Hz lt f lt 100KHz 2 Accuracy of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0uA 999 9uA 21 2 assocar o DISPLAY CONT 400uA 2100UA frequency ranges DC 15Hz 1MHz Resolution 1uA DC 15Hz lt f lt 100KHz 2 Aoa of reading 3counts y 100KHz lt f lt 1MHZ 5 of reading 10uA 8500uA Range 5 1800uA 8500uA frequency g DC 15Hz 1MHz Resolution 1uA DC 15Hz lt f lt 100KHz 2 Acamar of reading 3counts y 100KHz lt f lt 1MHZ 5 of reading 10uA 8500uA 8 00mA 10 00mA frequency Range G DC 15Hz 100kHz Resolution 0 01mA Acar DC 15Hz lt f lt 100KHz 5 y of reading 0 01mA 10 00mA Touch Current Display Peak Range 1 tae eee renee En Resolution 0 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHZ 10 of reading 2uA 28 0uA 130 0UA frequency nanga DC 1MHz Resolution 0 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHZ 10 of reading 2uA 120 0UA 550 0UA frequency mange DC 1MHz Resolution 0 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHZ 10 of reading 2uA 22 a DT ASSOCIATED RESEARCH INC DISPLAY CONT MD CIRCUIT MODULE MD1 400uUA 2100UA frequency DC Range 4 MHz Resolution 1uA
77. 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 504mV frequency Range 15Hz 1MHz Resolution imV Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 6 0 0mV 600mV frequency DC 100KHz A ASSOCIATED RESEARCH INC Resolution imV DISPLAY AUTO RANGE Touch Voltage Display RMS AC Only Additional Error Range 1 DC 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 0 0mV 32 0mV frequency DC 15Hz 1MHz Resolution 0 1mV Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 2 28 0mV 130 0mV frequency DC 15Hz 1MHz Resolution 0 1mV Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 3 120 0mV 525 0mV frequency DC 15Hz 1MHz Resolution 0 1mV Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading 3co
78. 2 113 114 116 117 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 NSA tacace tees ina theca E E E Deuce eta E E E EEO 3 GPIB 18 62 106 107 108 109 120 126 129 130 133 135 137 155 170 205 Hl Limit oaaae 57 60 61 67 68 69 71 73 98 112 113 114 116 Interlock stench ntetenset ieireibocitndttadendioedsnmdsendlbadeline 18 27 89 99 104 105 120 121 204 SD aiacein tion pecan T AS 25 111 121 134 135 137 204 GANAS Gwe cedeeinceencigesctastanstensegnes a e a aA a a 4 8 11 37 59 Applied Paitessieciseninstuicnn e E S E 29 78 Eart E ar eee re ereeery er eerreersery i rseer ee 74 75 78 Leakage Hiho ciiisean NE 57 62 74 75 76 112 114 En gt fass ASSOCIATED 7 RESEARCH INC keakag LO ss sesarecet ces arevuanendarauapea seaurtesanaganadeaausoaranseteaseaenutenemaraeenane 57 62 74 76 112 114 MN ics vats nate doesent baie acess hee eee 29 76 80 84 96 UMTS nsec AEE SEEE ENE EEE A E ET E SA AE AEEA SE A EE 98 LOCKOUT eae S A E E 89 99 104 LO Limit a a 13 16 17 57 60 61 67 70 98 112 113 114 116 MDE e eaa e E E 58 Meas ring DOWICE iincinstseaticenanibinstantiantbumeenneeaniniaiabiunananeenaln 29 57 76 78 80 83 84 Medical PRESMICUGIS ccdcciedevctinsed csidnevicdesesenasiencuicsiisissicsisieiia tidal tn tine lotiestscasiGae lon ssibeisioueniotesibeial 7 Memory 18 70
79. 2mV Accuracy 15Hz lt f lt 1MHz 10 of reading 2mV Rance 4 400mV 999 9mV 1000mV 2100mV 9 frequency DC 15Hz 1MHz Resolution 0 1mV 1mV Accuracy DC 2 of reading 2mV 15Hz lt f lt 1MHz 10 of reading D assoqures 2mV 1800mV 8400mV frequency DC Pange s 15Hz 1MHz Resolution imV DC 2 of reading 3counts Accuracy 15Hz lt f lt 1MHz 10 of reading 2mV 8000mV 8399mV 8 40V 10 00V mangah frequency DC 15Hz 100KHz Resolution 1imV 0 01V DC 2 of reading 3counts Accuracy 15Hz lt f lt 100KHZz 10 of reading 2counts DISPLAY FIXED RANGE gt 6 OF RANGE Touch Voltage Display Peak AC DC 0 0mV 32 0mV frequency panga 15Hz 1MHz Resolution 0 1mV Base Accuracy DC 2 of reading 2mV 15Hz lt f lt 100KHz 10 of reading 2mV 100KHz lt f lt 1MHZ 10 of reading 2mV Range 2 7 8mV 130 0mV frequency 15Hz 1MHz Resolution 0 1mV Base Accuracy DC 2 of reading 2mV 15Hz lt f lt 100KHz 10 of reading 2mV 100KHz lt f lt 1MHZ 10 of reading 2mV Range 3 31 5mV 525 0mV frequency 15Hz 1MHz Resolution 0 1mV Base Accuracy DC 2 of reading 2mV 15Hz lt f lt 100KHz 10 of reading 2mV 100KHz lt f lt 1MHZ 10 of reading 2mV Range 4 126 0mV 999 9mV 1000mV 2100mV frequency 1
80. 5Hz 1MHz Resolution imV Base Accuracy DC 2 of reading 2mV 15Hz lt f lt 100KHz 10 of reading 2mV 100KHz lt f lt 1MHZ 10 of reading 2mV 235 A 2 ASSOCIATED 9 1 RESEARCH INC 504mV 999 9mV 1000mV Range 5 8400mV frequency 15Hz 1MHz Resolution imV Base Accuracy DC 2 of reading 2mV 15Hz lt f lt 100KHz 10 of reading 2mV 100KHz lt f lt 1MHZ 10 of reading 2mV Range 6 600mV 8399mV 8 40V 10 00V frequency 15Hz 1MHz Resolution imV 0 01V Base Accuracy DC 2 of reading 3counts 15Hz lt f lt 100KHz 10 of reading 2counts DISPLAY FIXED RANGE lt 6 OF RANGE Touch Voltage Display Peak AC DC Range 1 N A Resolution N A Additional Error N A 0 0mV 7 8mV frequency nanga 15Hz 1MHz Resolution 0 1mV Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 31 5mV frequency mangas 15Hz 1MHz Resolution 0 1mV Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base ac
81. 7 4080 Email info asresearch com Web www asresearch com OMNIA i 8204 At the Calibration Alert Warning screen there are three options Show this screen again Password and OK Show this screen again is asking if you would like to continue seeing the Calibration Alert Warning screen every time you power up the instrument You may turn this screen OFF by toggling to the word No using the soft key next to this parameter If the instrument is password protected you will need to enter the password in order to turn off the Show this screen again parameter Selecting the Show this screen again parameter OFF will disable the Calibration Alert function Pressing the OK soft key will exit the Calibration Alert Warning screen and go to the standard introduction screen Calibration Alert On Off From the Cal Alert Setting screen you may turn the Calibration Alert function ON and OFF by pressing the Calibration Alert soft key If the Show this screen again function has been turned OFF at the Calibration Alert Warning screen this parameter will automatically be set to OFF Turning this parameter ON will activate the Cal Alert function and when the date matches the Alert Date the instrument will display the Calibration Alert Warning screen upon power up 4 2 4 Hardware From the System Setup screen press the Hardware soft key The Hardware Setting screen will now be displayed From the Hardware Setti
82. 8206 and 8207 have an access panel on the back of the instrument that can be removed to access the MD external PCB The MD external PCB may be configured for a simple resistive measuring device No components are supplied for the population of the PCB 83 K h l aa 2 ASSOCIATED 9 RESEARCH INC TEEN ie EEA A en I Leakage H1I 0 0uA 10000uA Frequency Check The Line Leakage test can be configured to verify the bandwidth of the leakage current voltmeter by setting the Probe configuration to Probe HI to Probe LO and selecting the medical device Frequency Check The selection is intended for meter verification purposes only and has no application for normal testing The calculation of the displayed leakage current will use 1000 Q for R in the calculation of V R I where is the leakage current displayed and V is voltage across the measuring device MD When an external frequency generator is applied to the probe inputs the current display will be equal to Voltage generator 1000 The readings can then be correlated to verify the voltmeter bandwidth Since the voltage is being applied directly across the MD voltmeter amplifier inputs it is not necessary to actually install a 1KQ resistor to the external MD input Itis necessary to have the 0Q resistors installed in position R1 and R3 on the external measuring device PCB to operate in this mode If the external Measuring Device has been populated in a differ
83. 94 99 104 108 109 111 121 122 124 126 132 133 134 135 137 138 139 140 145 147 149 150 152 Menu 30 31 50 51 63 65 66 91 119 131 132 134 138 144 145 146 150 151 152 158 160 172 My Ment eeaeee e e a e E 8 25 48 50 86 87 Offset e E E On Ean Re Omen Ent 8 90 109 112 113 131 S e c a peer ener eter emer ene tere cetera eran ore 6 7 8 11 12 18 26 29 37 79 103 156 ODNONS causes iacannenananraanmonnanisnes 18 28 36 64 106 109 130 139 158 159 Parameters System Parameters oducts esestvedendctncas bdcsnedesdersuensechsaiceshencendeeedenesde tenes 118 153 Test PArAIMQte rs sicsiccxsscctcrdisstd cctoaeetonznceeducbtanntes bons 39 51 52 56 59 90 106 108 110 153 eee eee eee 18 36 38 62 103 119 131 132 133 134 135 POWE merere tears eatin Rat mada E cal inseltn dela Ss noida dada acelin Secaaanatianaeaien 4 6 11 Power FAC Wicieaititesitiditanceuieiaocdndinennendbgadtdrnensadedandndidparacaidnaians 4 19 20 74 100 148 PIN iire eben tier cteatenctatt laine ila ndlatiien dtr ea iho e aaa Eaa E E 152 Probe HI 29 78 79 80 84 113 114 117 191 192 193 194 195 196 197 198 199 200 201 202 Probe LO 29 78 79 80 84 113 114 117 191 192 193 194 195 196 197 198 199 200 201 202 ProgrammiiNgieserereien inne e 30 51 Ramp Mi aaeeea e cere err ee rreny ees 13 58 61 68 69 112 117 RAMPING ccc aaa inte a cs ease sete cl 97 Rear Pan
84. A 20 00mA frequency 15Hz 1MHz Resolution 1uA 0 01mA Base Accuracy 15Hz lt f lt 100KHz 5 of reading 0 01mA 20 00mA DISPLAY FIXED RANGE lt 6 OF RANGE Touch Current Display RMS AC Only Range 1 N A Resolution N A Additional Error N A 0 0UA 7 8uA frequency 15Hz Range 2 MHz Resolution 0 1uA Additional Error 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0UA 31 5uA frequency Range 3 15Hz 1MHz Resolution 0 1uA Additional Error 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 4 0 0uA 126 0UA 1MHz frequency 15Hz Resolution 1uA Additional Error 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 5 0 0uA 504uA 1MHz frequency 15Hz 217 ASSOCIATED RESEARCH INC gt Resolution 1uA Additional Error
85. AKAGE Leakage H MENIT Leakage RMS Leakage LO Conti OFF on inuous OFF Voltage H 125 0V Step Name Voltage LO Dwell Time 0 5s Delay Time OS Defaults More Range Leakage HI 0 0uA 10000uA From the Line Leakage Parameter Setting screen the following parameters may be controlled Leakage HI Leakage LO Voltage HI Voltage LO Dwell Time Delay Time Offset Leakage Continuous Step Name Scanner Channel Defaults and More Pressing the More key will bring up additional parameters Reverse Neutral Ground Measuring Device and Probe Pressing the More soft key again will bring up additional parameters AC Source AC DC Select Meter and Ranging Mode Line Configuration Soft keys The LINE configuration is determined by the relays S1 S2 and S3 see Figure below and is set using the corresponding Line Configuration Soft keys The S1 relay is represented as NEUTRAL and is controlled by the Neutral soft key The S2 relay is 76 f ASSOCIATED L RESEARCH INC represented as REVERSE and is controlled by the Reverse soft key The S3 relay is represented as GROUND and is controlled by the Ground soft key Pressing the relay s corresponding soft key will toggle it between its two available states Line Configuration Setting A ugs t T ip o DUT heceptacte power VY i Probe HI input eo gt 52 o gt A A B 1 9 L o Nn A oB tf Probe LO Line Conf
86. ARCH INC O O O CRYSIS 1999A 71ma Delete Result 49s eee i 0002 GND PAS Serene Aola aS Somme E 1999A 51 i 28s Delete All Results 0003 GND PA 48s Press ENTER to delete Press EXIT to cancel LL 0004 ACW Pi Peg o 00S eee E ty wi ata Results 0005 ACW PASS 0001 ACW PASS 00000051 1 24kV 0 379mA 1 24kV 0 565mA 49s 0 244mA 49s 0 008mA H 0006 ACW Short 0001 GND PASS M 19 99A 72mo 49s Caps Lock i ON l Symbol Key File Name zz Follow the instructions on the screen in order to create a name for the file you wish to transfer There is a limit of 8 characters for the name of the results file Press the Enter soft key when you have finished entering the file name After pressing Enter you will see the following message 149 Caps Lock gt Symbol Key p Downioadmo Data File Nam Time Remaining 00 04 This message will appear on the screen until the Time Remaining reaches 00 00 For each transfer the Data Storage Card will copy all results in the internal Flash memory regardless if some or all of the results have been transferred before During each transfer the Data Storage Card will create a txt file that will contain the information for all of the results To view this txt file remove the USB Flash memory disk from the Data Storage Card and connect it to a PC with a USB port Contents of Results File The following is an example entry in the Data Sto
87. D RESEARCH INC and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD UL 544NP Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD UL 544NP Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration Press the TEST button to activate
88. ER SWITCH Turns the Hipot tester ON or OFF 8 MY MENU KEY Selects the My Menu screen with user customizable soft keys 9 EXIT KEY Key used to escape from parameter editing and return to prior screens 10 UP DOWN LEFT AND RIGHT ARROW KEYS Keys used to scroll the highlighted area or cursor up and down left and right When more than 5 steps are programmed in a test file the left and right arrow keys will page through the screens of steps The screens where the paging function is available are as 25 D ASSOCIATED ll RESeancH Inc follows Setup Tests Perform Tests Results Summary and Results 11 ENTER KEY Key used to finalize parameter entries The ENTER key may also be used to scroll the highlighted area to different parameters in the parameter setting screens 12 SENSE TERMINAL Connector used to attach the sense lead for 4 wire Kelvin current measurement This connection provides for accurate current measurement during the Ground Bond test 13 CURRENT OUTPUT TERMINAL Connector used to attach the high current output lead adapter box high current lead or test fixture high current lead to the instrument This connection provides the output current for the ground bond and continuity 14 HIGH VOLTAGE INDICATOR This indicator flashes to warn the operator that high voltage is present at the high voltage output terminal 15 RETURN OUTPUT TERMINAL Connector used to attach the return test lead adapter box return
89. Earth Leakage A Probe HI to Line Enclosure Leakage or Patient Leakage Probe HI to Line P Probe HI to Probe LO Probe HI to Probe External Applied Part or LO Surface to Surface Leakage A diagram of the probe configurations is shown in the image below 78 i ie AZ ae Ground To Line Probe HI To Line Probe HI To Probe Lo i Neutral Switch Ground Switch MD UL544NP Leakage HI 0 0uA 10000uUA Ground to Line indicates the MD is connected to measure the leakage current in the line cord from the earth ground conductor back to the system neutral This is referred to as an EARTH LEAKAGE TEST Probe HI to Line indicates the MD is connected between the PROBE HI terminal on the instrument which should be connected to the ENCLOSURE of the DUT and the system neutral This is known as an ENCLOSURE LEAKAGE TEST Probe HI to Probe LO indicates the MD is connected between the PROBE HI and the PROBE LO terminals on the instrument which allow the operator to connect the MD between applied parts 79 fassen Measuring Device The Measuring Device is an impedance circuit that simulates the human body The Measuring Device is specified differently for different applications and specifications Repeatedly pressing the Measure Device soft key will allow you to select one of the many measuring devices listed in the table below The table below indicates the available measuring devices and the appropriate agency standar
90. F gt Amp HI Power HI Select Meter b Amp LO 0 00A Power LO Dwell Time PF HI Step Name gt Delay Time PF LO Defaults p Range Voltage H1 0 0V 277 0V From the Run Test Parameter Setting screen the following parameters may be controlled Voltage HI Voltage LO Amp HI Amp LO Dwell Time Delay Time Leakage HI Leakage LO Power HI Power LO PF HI and PF LO AC Source Continuous Select Meter and Step Name PF Power factor Power Factor W VA where W Watts Real Power and VA Volts x Amps apparent power It is important to note that the closer the power factor is to 1 the more resistive the DUT is The closer the power factor is to 0 the more reactive inductive or capacitive the DUT is Leakage Leakage HI and Leakage LO Leakage in the Run Test mode refers to the amount of current which flows from the enclosure case of the DUT to the neutral side of the line input The Leakage HI trip limit is used to program the maximum allowable earth leakage current of the DUT before failure The Leakage LO trip limit is used to program the minimum allowable earth leakage current of the DUT before failure The Leakage HI trip limit also controls the earth leakage configuration as shown below 74 Q associato o Leakage HI amp LO When the Leakage HI trip limit is set to 0 S2 is placed in position 2 which disables the earth leakage test and connects the neutral of the DUT input to the ground of the DUT
91. I 8207 4 Use the up arrow key to scroll to the English setting 47 TERS meh ie ENTER te PARA H EXIT RARE HRE p OMNIA II 8207 5 Press the Enter key to confirm 4 2 7 Power On Screen You may configure the OMNIA to power on at the Main Menu screen the Perform Tests screen or the My Menu screen From the User Interface screen press the Power On Screens soft key The Power On Setting screen will now be displayed From the Power On Setting screen two different parameters may be accessed Animation and Home Screen The Power On Screens will appear as follows Animation gt Home Screen gt Animation The OMNIA Animation screen is the very first screen to appear when the instrument is powered up You have the option to PAUSE the instrument at this screen after power 48 I RESEARCH INC up or CONTINUE through to the next screen after the Animation screen is displayed for four seconds or SKIP the Animation screen completely The option to PAUSE CONTINUE or SKIP may be selected by pressing the Animation soft key When PAUSE is selected the words Press any key to continue will appear at the bottom of the OMNIA Animation screen From the Power On Screens press the Animation soft key As the soft key is pressed the Animation pop up screen will appear as follows POWER ON SCREENS Animation i CONTINUE Press ENTER
92. IL info asresearch com Service Interval Associated Research Inc will not be held liable for injuries suffered if the instrument is not properly maintained and safety checked annually See section 1 1 Warranty Policies for more information 1 4 2 Test Station Location Q ASSOCIATED 7 RESEARCH INC Select an area away from the mainstream of activity where employees do not walk while performing their normal duties If this is not practical because of production line flow then the area should be roped off and marked for HIGH VOLTAGE TESTING No employees other than test operators should be allowed inside If benches are placed back to back be especially careful about the use of the bench opposite the test station Signs should be posted DANGER HIGH VOLTAGE TEST IN PROGRESS UNAUTHORIZED PERSONNEL KEEP AWAY Work Area When possible use the instrument on a non conducting table or workbench If you cannot avoid using a conductive surface be certain that it is connected to a good earth ground and the high voltage connection is insulated from the grounded surface There should not be any metal in the work area between the operator and the location where products being tested will be positioned Any other metal in the work area should be connected to a good ground never left floating Keep the area clean and uncluttered All test equipment and unnecessary test leads should be removed from the test bench a
93. Interface screen five different parameters may be accessed Alarm Volume Step Name Language Color Style and Power On Screens The User Interface screen will appears as follows Alam Volume mumm Step Name b Language gt Color Style b Power On Screens gt OMNIA Il 8204 Alarm Volume In the User Interface screen the Alarm Volume parameter will automatically be highlighted Use the alpahnumeric keypad to set the volume of the alarm in the instrument then press the ENTER key The numbers corresponding to the different volume settings are 1 through 9 1 meaning the volume is off and 9 being the loudest setting After the number is entered a momentary alarm chirp will occur to indicate the volume of the new setting Step Name From the User Interface screen press the Step Name soft key As the soft key is pressed the step name parameter will toggle between ON and OFF Setting the step name parameter to ON will allow the user to enter an alphanumeric name for each individual step in a test sequence Please refer to section X X X for more information 44 DNase Language From the User Interface screen press the Language soft key As the soft key is pressed the Language pop up screen will appear as follows USER INTERFACE _ Traditional Chinese Simplified Chinese Press ENTER to save Press EXIT to cancel Use the up or down arrow keys to select the preferred language setting for the unit
94. LO Accuracy 5 0 of setting 3 Counts Power Factor Range 0 000 1 000 PF HI Resolution 0 001 PF LO Accuracy 8 of setting 2 Counts Leakage Current Range 0 00 10 00 mA 0 OFF Leak HI Resolution 0 01 mA Leak LO Accuracy 2 of setting 2 Counts Leakage current measuring resistor MD 2KQ 1 METERING METERING 00 Voltmeter Range 0 0 277 0 VAC Resolution 0 1 V Accuracy 1 5 of reading 2 Counts 30 0 277VAC Ammeter Range 0 0 16 00 AAC ee Resolution 0 01A Accuracy 2 0 of reading 2 Counts Wattmeter Range 0 4500 W Resolution 1W Accuracy 5 of reading 3 Counts _METERING 19 esses RUN TEST MODE MODELS 82X6 AND 82X7 Power Factor Range 0 000 1 000 Resolution 0 001 Accuracy 8 of reading 2 Counts Leakage Current Range 0 00 10 00 mA Resolution 0 01 mA Accuracy 2 of reading 2 Counts Leakage current measuring resistor MD 2KQ 1 Timer display Range 0 0 999 9 seconds Resolution 0 1 second Accuracy 0 1 of reading 0 05 seconds LINE LEAKAGE TEST MODE 82X6 AND 82X7 ONLY DUT POWER 0 277 VAC 16AAC max continuous Voltage Display 0 0 277 0 VAC Full Scale Resolution 0 1 V Accuracy 1 5 of reading 0 2V 30 0 277 0VAC Short Circuit Protection 23 AAC Response Time lt 3s LINE CONDITION Reverse Power Switch Reverse polarity switch setting select ON OFF AUTO ON Reverse power
95. LT MD Volts AC x 256 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 02VAC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC Peak x 256 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 03Vp AC When the power supply Enter Standard Voltage supply and a voltmeter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration After the RMS value has been input the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard 202 J ASSOCIATE
96. NET CARD Invalid settings One or more of the settings are invalid Please verify the settings and try again Press EXIT to continue 255 000 000 000 se Name OMNIA 2 OMNIA Il 8204 Press the EXIT key to save the new settings If the IP Setup parameter is set to AUTO you do not need to enter an IP Address manually Gateway IP A specific Gateway IP must be entered into this field if the IP Setup parameter is configured to MANUAL Use the arrow keys to highlight this parameter Once the parameter is highlighted you may enter the Gateway IP using the numeric keypad The Gateway IP must be entered in the following format XXX XXX XXX XXX Press the EXIT key to save the new settings If the IP Setup parameter is set to AUTO you do not need to enter a Gateway IP manually Subnet Mask A specific Subnet Mask must be entered into this field if the IP Setup parameter is configured to MANUAL Use the arrow keys to highlight this parameter Once the parameter is highlighted you may enter the Subnet Mask using the numeric keypad The Subnet Mask must be entered in the following format XXX XXX XXX XXX If an invalid Subnet Mask is entered the following error message will be displayed 165 E Invalid settings One or more of the settings are invalid Please verify the settings and try again Device Name Next Page b Press the EXIT key to save the new settings If the IP Setup parameter is set to AUTO you do
97. OPERATION AND SERVICE MANUAL OMNIA II models 8204 8254 OMNIA II models 8206 8256 OMNIA II models 8207 8257 Electrical Safety Compliance Analyzer AC DC HIPOT WITH INSULATION RESISTANCE TESTER GROUND BOND AND CONTINUITY TESTER 825x INCLUDES 500VA OUTPUT CAPABILITY 82x6 INCLUDES RUN TEST AND LINE LEAKAGE TEST 82x7 INCLUDES 500VA AC POWER SOURCE SERIAL NUMBER ee a eG a E Models Associated Research Inc 2013 8204 8254 8206 8256 take Fores inois 60046 4646 8207 8257 U S A Item 39334 Ver 3 11 Printed June 26 2013 CE DECLARATION OF CONFORMITY Manufacturer Associated Research Inc Address 13860 W Laurel Dr Lake Forest IL 60045 USA Product Name OMNIA II Electrical Safety Compliance Analyzer Model Number Conforms to the following Standards Safety EN EN EMC EN EN IEC IEC IEC IEC IEC IEC IEC Supplementary Information NO 0AA AD OO 000 4 z2 3 4 Soe 6 8 61010 1 2001 61010 031 2002 A1 2008 61326 1 2006 Class A 61000 3 3 2008 N 61326 1 2006 industrial 61 1000 4 1000 4 1000 4 1000 4 1000 4 1000 4 2008 2006 A1 20074 gt 2004 A1 2010 2005 2008 22009 11 2004 8204 8254 8206 8256 8207 8257 locations tA2 2010 The product herewith complies with the requirements of the Low Voltage Directive 2006 95 EC and the EMC Directive 2004 108 EC The CE marking has been affixed on the device according to article 10 of t
98. Off EDO Voltage IR EDW lt value gt Edit Dwell ACW 0 0 999 9s EDW EF 1 0 Edit Frequency 1 60Hz 0 50Hz EF 2 400Hz option 3 800Hz option 4 SYNC EG 110 Edit Ground 1 Open 0 Close EG EH lt value gt Edit HI Limit DCW 0 0 20000uUA EH IR 0 05 50000MQ GND 0 600MQ CONT 0 00 10 002 EHR lt value gt Edit HI Limit R ACW 0 000 50 00mA Edit HI Limit T 0 000 50 00mA EHT 100 00mA Models 825x IR 0 600MQ EL lt value gt Edit LO Limit 0 0 20000UA EL 0 00 100002 0 05 500002 GND CONT ELR lt value gt Edit LO Limit R 0 000 50 00mA ELT LLT 100 00mA Models 825x ELM 1 0 Edit Leakage 1 Peak 0 RMS ELM Mode 119 A ASSOCIATED RESEARCH INC COMMAND TEST TYPES EM Edit Meas Device LLT 0 UL544NP 0 1 2 3 4 5 6 7 8 1 UL544P EM 2 IEC601 UL2601 3 UL1563 4 IEC60990 FIG4 U2 5 IEC60990 FIG5 U3 6 NAK 7 External 8 Frequency Check EN EO CONT 0 00 10 000 EPFH EPFL lt value gt Edit PF LO RUN 0 000 1 000 SS EPOH lt value gt Edit Power HI RUN EPOL lt value gt Edit Power LO RUN 0 4500W gt ail lel EP 0 1 2 Edit Probe LLT 0 Ground to Line EP 1 Probe HI to Line 2 Probe HI to Probe LO ERD lt value gt Edit Ramp Down ACW 0 0 999 9s ERD DCW IR ERH 1 0 Edit Ramp HI DCW 1 On 0 Off ERH ERU lt value gt Edit Ramp Up ACW 0 0 999 9s ERU DCW IR ER 1 0 Edit Reverse LLT 1 On 0 Off ER ES lt scann
99. R Voltage 1240VAC HI Limit T 10 00mA LO Limit T 0 000mA Ramp Up 0 1s Dwell Time 1 0s Ramp Down 0 0s Arc Sense 5 HI Limit R 10 00mA LO Limit R 0 000mA Offset 0 000mA Scanner OQOOQOQOQOQOQOOOQOOO00000 Frequency 60Hz Arc Detect OFF Continuit OFF 60 faseen TEST TYPE PARAMETER Voltage HI Limit LO Limit Ramp Up Dwell Time Ramp Down Charge LO Arc Sense Offset Scanner Ramp HI Arc Detect Continuit Voltage HI Limit LO Limit Ramp Up Dwell Time Delay Ramp Down Charge LO Scanner Current Voltage HI Limit LO Limit Dwell Frequency Offset Scanner DualCHEK HI Limit LO Limit Dwell Offset Scanner GND Channel Scanner HV Channel 1500VDC 10000A 0 0uA 0 4s 1 0s 1 0s 0 0uA 5 0 0uA OOOO 00000000000 OFF OFF OFF 500VDC 0 00MQ 0 05MQ 0 1s 0 5s 1 0s 0 0s 0 0004 A OOo o0o0o00000000000 OOOOOQOOQOQO0O00000000 61 fassen TEST TYPE PARAMETER Setup Sys Security PLC Remote Address GPIB only Measurement Language Volume Step Name Color Style Smart GFI User ID Password Securit MODELS 82X6 AND 82X7 Run Test Voltage Hl Voltage LO Amp HI Amp LO Dwell Time Delay Time Leakage HI Leakage LO Power Hl Power LO PF HI PF LO Continuous MODEL 82X6 AND 82X7 Leakage HI Leakage LO Voltage Hl Voltage LO Dwell Time Delay Time Offset Leakage Continuous Reverse Neutral Ground Meas Device Probe AC DC Ranging Mode Scanner OFF 8 True RMS Engli
100. RANGE Touch Current Display RMS 0 0UA 32 0UA frequency DC 15Hz AC DC Hange 1 MHz Resolution 0 1uA DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9uUA 28 0UA 130 0UA frequency DC Range 15Hz 1MHz Resolution 0 1uA DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9uUA 120 0UA 525 0uUA frequency DC Hangos 15Hz 1MHz Resolution 0 1uA DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9uUA 400uA 2100UA frequency DC 15Hz Range 4 MHz Resolution 1uA DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10uA 8500uUA 1800UA 8400UA frequency DC Ranges 15Hz 1MHz Resolution 1uA DC 15Hz lt f lt 100KHz 2 of reading 3counts Accuracy 100KHz lt f lt 1MHZ 5 of reading 10uA 8500uUA 8 00mA 10 00mA frequency DC Bande 15Hz 100kHz Resolution 0 01mA Accuracy DC 15Hz lt f lt 100KHz 5 of reading 0 01mA 10 00mA 212 a D ASSOCIATED RESEARCH INC DISPLAY FIXED RANGE gt 6 OF RANGE Touch Current Display RMS AC DC Range 1 0 0UA 32 0UA frequency DC 1MHz Resolution 0 1uA Base Accuracy DC 15Hz lt f lt 1
101. RCH INC Base Accuracy 15Hz lt f lt 100KHz 10 of reading 2mV 100KHz lt f lt 1MHZ 10 of reading 2mV Range 6 600mV 8399mV 8 40V 10 00V frequency 15Hz 1MHz Resolution imV 0 01V Base Accuracy 15Hz lt f lt 100KHz 10 of reading 2counts DISPLAY FIXED RANGE lt 6 OF RANGE Touch Voltage Display Peak AC Only Range 1 N A Resolution N A Additional Error N A 0 0mV 7 8mV frequency Range 2 15Hz 1MHz Resolution 0 1mV Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 31 5mV frequency Hance 15Hz 1MHz Resolution 0 1mV Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 126 0mV frequency Ranges 15Hz 1MHz Resolution imV Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 504mV frequency Pangas 15Hz 1MHz Resolution imV 239 En 2 ASSOCIATED RESEARCH INC Additional Error 15Hz lt f lt 100KHZ add 2 of reading 0 2 of range to base
102. RESET button 204 J ASSOCIATED RESEARCH INC Calibration of LLT MD IEC 60990 Fig5 U3 Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe press TEST to start the LO calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD External The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen
103. Research The following Fatal Error identification numbers will represent the type of failure that has occurred Error Code 9001 will appear on the display if the instrument has a recognizable internal component failure Error Code 9002 will appear on the display if the instrument s System Data or the Model Option Serial Number Data are corrupted and do not match the settings Error Code 9003 will appear on the display if the instrument s Calibration Data is corrupted 101 Q ASSOCIATED L 4 RESEARCH INC 6 CONNECTION OF REMOTE O Two 9 pin D type connectors mounted on the rear panel provide REMOTE INPUT OUTPUT control and information These connectors mate with a standard 9 pin D sub miniature connector provided by the user The output mates to a male plug connector while the input mates to a female receptacle connector For best performance a shielded cable should be used To avoid ground loops the shield should not be grounded at both ends of the cable Suggested AMP part numbers for interconnecting to the Remote I O are shown below 205204 4 PLUG SHELL WITH GROUND INDENTS 205203 3 RECEPTACLE SHELL 745254 7 CRIMP SNAP IN PIN CONTACT for plug 745253 7 CRIMP SNAP IN SOCKET CONTACT for receptacle 745171 1 SHIELDED CABLE CLAMP for either plug or receptacle 747784 3 JACKSCREW SET 2 SIGNAL OUTPUT SIGNAL INPUT L RESET TEST E INTERLOCK 5 9 RESET OUT PROCESSING 6 1 Remote Sign
104. Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard load is Automatic Calibration 50MQ load from H V to connected press TEST to Processing Return start the calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active This calibration is automatic and does not require data entry Calibration of IR 9999 9M Range The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard load is Automatic Calibration 50MQ load from H V to connected press TEST to Processing Return start the calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active This calibration is automatic and does not require data entry Calibration of IR 50000M Range The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard load i
105. SS e SAL SCA 121 fs ASSOCIATED 4 ESEARCH INC COMMAND NAME VALUE sn s meas F SCDA dd mm yy same as SDF setting SCDU lt value gt Cal Due mm dd yy or yy mm dd or setting SDAY 6 5 4 3 2 110 0 1 2 3 4 5 6 SDAY Sun M T W T F Sat SDF lt value gt Date Format 0 yy mm dd 1 mm dd yy SDH 1 0 DUT HV 1 On 0 Off SDH SDS Scanner 1 GND Channel SDT lt value gt Date mm dd yy or yy mm dd_ or SDT dd mm yy same as SDF setting SF SL 1 0 Lock 1 On 0 Off SL SMM 2 1 0 2 My Menu 1 Perform SMM Tests 0 Menu SPR 1 0 PLC Remote 1 On 0 Off Ee a SSG SSG2 SSI STM lt value gt Time hh mm 24hr according to STF setting STF 10 Time Format 0 12hr 1 24hr gg ree eee CAD SAN SLA lt value gt Set Language 0 English 1 Traditional SLA Chinese 2 Simplified Chinese n DT ASSOCIATED L RESEARCH INC COMMAND NAME SCS lt value gt Set Color Scheme 3 Midnight 2 Arctic 1 SCS Granite 0 Basic SSN 110 Set Step Name 1 On 0 Off SSN SUA lt p p p p gt Add User Pointer name password level Pointer 1 8 Name 8 character max Password 8 character max Level 0 Run only 1 Edit step 2 recall step 3 full fe cia lt value gt Geen User eee lt P p p p gt hale User eee name password level Pointer 1 8 Name 8 character max Password 8 character max Level 0 Run only 1 Edit step 2 recall step 3 full system
106. Scanner Channel Continuity ADD2 CONT 1000 0 00 1 0 0 00 00000000 Adding a Functional Run Test ADD2 RUN Voltage Hl Voltage LO Amp HI Amp LO Dwell Delay _Leakage HI Leakage LO Power HI Power LO PF HI PF LO Continuous PLC Control Voltage Frequency A Hi Output N G Volt Rang OC Fold ADD2 RUN 125 0 0 0 10 00 0 00 1 0 0 2 10 00 0 00 1000 0 1 000 0 000 OFF M1 Adding a Line Leakage Test ADD2 LLT Leakage HI Leakage LO Voltage Hl Voltage LO Dwell Time Delay Time Neutral Reverse Ground Meas Device Probe Peak RMS Continuous AC DC Ranging Mode PLC Control Voltage Frequency A Hi Output N G Volt Rang OC Fold Scanner Setup ADD2 LLT 6000 0 0 125 0 0 0 0 5 1 0 0 0 CLOSED OFF CLOSED UL544NP Ground To Line RMS OFF AC DC Auto M1 0QQQO000 117 Q assocar o SAA SAD SAI SAG SAC SAGA SAGD SAL SAR These commands insert or add a new step to the test sequence This command will add or insert the test at the step location that has been selected When a test has already been created at a selected step then the new step will be inserted and the previous step will move down to the next step and all other step will be renumbered accordingly See the command summary tables to see the specific test type for each of these commands SD Deletes the active step from the setup file sequence All step after this step will move up and be renumbered accordingly SD lt step number gt Deletes the step indicated by the number from the se
107. T VERIFY ii 0001 CONT Settings 10s 10000 0 000 Be a 3 Verification Error 2 DC Hipot failure not detected Check connections or call AR local distributor Press RESET to return to menu 9 1 5 IR Verification From the VERI CHEK screen press the IR soft key A pop up message will now be displayed The message will appear as follows Continuity gt Short HV Output to Return Do not touch leads during test Press TEST to begin verification Press RESET to return to menu Press a function key to select a mode f Press EXIT to exit from Verification Follow the instructions given in the pop up message and then press TEST to begin the verification process During the Verification process the metering screen for the related process will be displayed refer to section 5 4 Perform Tests Metering for 183 A JT ASSOCIATED a RESEARCH INC more information At the end of the Verification process a pop up message will appear indicating the outcome of the process If the instrument passes the Verification test failure indicating the fail detectors are working properly the RESET button will illuminate the alarm will sound and the following pop up message will appear over the metering screen AR HIPOT VERIFY 0001 CONT Settings 10s 10000 0 000 Verification OK IR failure detected Press RESET to return to menu If the instrument fails the Verification test pass indicating the fai
108. T to return to menu 9 1 4 DC Hipot Verification From the VERI CHEK screen press the DC Hipot soft key A pop up message will now be displayed The message will appear as follows 181 VERI CHEK Continuity gt Short HV Output to Return Do not touch leads during test Press TEST to begin verification Press RESET to return to menu Press a function key to select a mode Press EXIT to exit from Verification Follow the instructions given in the pop up message and then press TEST to begin the verification process During the Verification process the metering screen for the related process will be displayed refer to section 5 4 Perform Tests Metering for more information At the end of the Verification process a pop up message will appear indicating the outcome of the process If the instrument passes the Verification test failure indicating the fail detectors are working properly the RESET button will illuminate the alarm will sound and the following pop up message will appear over the metering screen DC HIPOT VERIFY _ 4 0001 CONT Settings 1 0s anne 3 Verification OK DC Hipot failure detected Press RESET to return to menu 182 wil RESEARCH INC If the instrument fails the Verification test pass indicating the fail detectors are not working properly the TEST button will illuminate and the following pop up message will appear over the metering screen DC HIPO
109. TH CONNECTION This terminal should be connected to a good earth ground before operation 7 REAR PANEL OUTPUT TERMINALS 2 set of output connectors in parallel with the front panel connectors 8 FUSE RECEPTACLE To change the fuse unplug the power mains cord and turn the fuse receptacle counter clockwise The fuse compartment will be exposed Please replace the fuse with one of the proper rating 9 INPUT POWER RECEPTACLE Standard IEC 320 connector for connection to a standard NEMA style line power mains cord 27 JT ASSOCIATED 7 RESEARCH INC 10 SCANNER OUTPUTS Optional scanner matrix that provides 8 HV Return connections and 8 Ground Bond connections Please refer to the Options section of this manual for additional connection information 3 2 3 Additional Rear Panel Controls Models 82x6 and 82x7 28 pror REMOTE INTERFACE ne BCANAER wena OCuTeuT n oom o D _ _ OUTPUT w DUT POWER INPUT CONNECTOR This connector provides the Line and Neutral input power connections on pin 1 and 2 respectively An external single phase unbalanced AC power supply with a single Hot or Line conductor should be connected here to supply power to the DUT while performing the leakage test This input is rated for 0 277 volts 50 60 Hz REMOTE OUTPUT Optional connector used to interface the OMNIA with an APT AC power source for remote memory selection Option 07 L OUTPUT TERMINAL Conn
110. The language options are English Traditional Chinese and Simplified Chinese Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value Color Style From the User Interface screen press the Color Style soft key As the soft key is pressed the Color Style pop up screen will appear as follows 45 USER INTERFACE Midnight Press ENTER to save Press EXIT to cancel OMNIA Il 8204 Use the up or down arrow keys to select the preferred color style setting for the unit The color style setting options are Basic Granite Arctic and Midnight Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value Reverting to English If the OMNIA II s interface has been set to Chinese and needs to be configured for English the following steps may be followed 1 Turn the instrument ON The home screen will be displayed RRE BUGLE iT Mat HARON AE HERZ AR OMNIA Il 8207 46 DIERA 2 Press the System Settings soft key ee rad 40 H Haixe BOE PEAKE HE a a hy gt pa ie a at E he OMNIA II 8207 3 Press the User Interface soft key EE So PERE ERPI gt MERE gt SV TEL IBLE gt HERE p OMNIA Il
111. V 999 9mV 1000mV 2100mV frequency DC 15Hz 1MHz Resolution 1imV Basic Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10mV 8500mV Range 5 504 0mV 999 9mV 1000mV 8400mV frequency DC 15Hz 1MHz Resolution imV Basic Accuracy DC 15Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10mV 8500mV Range 6 600mV 8399mV 8 40V 10 00V frequency DC 15Hz 100kHz Resolution imV 0 01V 227 A ASSOCIATED 9 1 RESEARCH INC Basic Accuracy DISPLAY FIXED RANGE lt 6 OF RANGE Touch Voltage Display RMS DC 15Hz lt f lt 100KHz 5 of reading 0 01V 20 00V AC DC Range 1 N A Resolution N A Additional Error N A 0 0mV 7 8mV frequency PANIGI 15Hz 1MHz Resolution 0 1mV 228 Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 31 5mV frequency Hanger 15Hz 1MHz Resolution 0 1mV Additional Error 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 126 0mV frequency Ranges 15Hz 1MHz Resolution imV Additional Error
112. V 1000mV 2100mV Ranges frequency 15Hz 1MHz Resolution 0 1mV 1mV 237 A P ASSOCIATED 1 RESEARCH INC 15Hz lt f lt 1MHz 10 of reading Accuracy omV Range 5 bread 8400mV frequency 15Hz Resolution imV Accuracy pi lt f lt 1MHz 10 of reading 8000mV 8399mV 8 40V 10 00V 2n frequency 15Hz 100KHz Resolution 1mV 0 01V Accuracy 15Hz lt f lt 100KHz 10 of reading DISPLAY FIXED RANGE gt 6 OF RANGE 2counts Touch Voltage Display Peak AC Only 0 0mV 32 0mV frequency Rangs 15Hz 1MHz Resolution 0 1mV 15Hz lt f lt 100KHz 10 of reading 2mV Base Accuracy 100KHz lt f lt 1MHZ 10 of reading 2mV 7 8mV 130 0mV frequency Range 15Hz 1MHz Resolution 0 1mV 15Hz lt f lt 100KHz 10 of reading 2mV Base Accuracy 100KHz lt f lt 1MHZ 10 of reading 2mV 238 31 5mV 525 0mV frequency Ranges 15Hz 1MHz Resolution 0 1mV 15Hz lt f lt 100KHz 10 of reading 2mV Base Accuracy 100KHz lt f lt 1MHZ 10 of reading 2mV 126 0mV 999 9mV 1000mV Range 4 2100mV frequency 15Hz 1MHz Resolution imV 15Hz lt f lt 100KHz 10 of reading 2mV Base Accuracy 100KHz lt f lt 1MHZ 10 of reading 2mV 504mV 999 9mV 1000mV Range 5 8400mV frequency 15Hz 1MHz Resolution 1mV a D ASSOCIATED RESEA
113. W Voltage HI Limit _O Limit Ramp Up Dwell Ramp Down Charge LO Arc Sense Ramp HI Arc Dectect Continuity DUT Output Scanner Setup ADD DCW 1200 10000 0 0 0 4 1 0 0 0 0 0 5 OFF OFF OFF OFF O0OOOO000 Adding an Insulation Resistance Test ADD IR Voltage HI Limit LO Limit Ramp Up Delay Ramp Down Charge LO DUT Output Scanner Setup ADD IR 1000 0 00 0 05 0 1 1 0 0 0 0 000 OFF OOOOO000 113 D ASSOCIATED wil RESEARCH INC Adding a Ground Bond Test ADD GND Current Voltage HI Limit _LO Limit Dwell Time Offset Scanner Channel Frequency ADD GND 25 00 8 00 100 0 1 0 0 0 60 Adding a Continuity Test ADD CONT HI Limit LO Limit Dwell Offset Scanner Channel Continuity ADD CONT 1000 0 00 1 0 0 00 00000000 Adding a Functional Run Test ADD RUN Voltage HI Voltage LO Amp HI Amp LO Dwell Delay Leakage HI _Leakage LO Power HI Power LO PF HI PF LO Continuous PLC Control ADD RUN 125 0 0 0 10 00 0 00 1 0 0 2 10 00 0 00 1000 0 1 000 0 000 M1 Adding a Line Leakage Test ADD LLT Leakage HI Leakage LO Voltage HI Voltage LO Delay Neutral Reverse Ground Meas Device Probe Peak RMS PLC Control ADD LLT 6000 0 0 125 0 0 0 1 0 CLOSED OFF CLOSED UL544NP Ground To Line RMS M1 ADD2 This command inserts or adds a new step to the test sequence This command will add or insert the test at the step location that has been selected When a test has already been created at a selected step then the new step will be inserted and the
114. W Pass 1 25KV 0 008mA 10s 0 005mA 01 ACW Pass 1 25KV 0 008mA 10s 0 004mA 01 ACW Pass 1 01KV 0 006mA 1 0s 0 005mA 01 ACW Pass 1 01KV 0 006mA 01 ACW Pass 1 01KV 0 006mA 10s 0 005mA 01 ACW Abort 0 10KV 0 000mA 25s 0 000mA 01 ACW Abort 0 10KV 0 000mA 35s 0 000mA 0001 GND PASS 25 00A 68mo 99s 0002 ACW PASS 1 24kV 0 555mA Delete Result Delete ALL Download Results Total Results 00000051 10s 0 005mA 9 9s 0 008mA 47 01 ACW Pass 1 01KV 0 006mA 10s 0 005mA 2 0s File Name 0001 TEST From this menu the user can view the stored results delete results and transfer the results to the external USB Flash memory drive To navigate through the results use the up down left and right soft keys on the OMNIA II front panel The following message will display if the Delete Result soft key is pressed DATA GARD RESULTS 0001 GND PASS 1999A 71mo 49s 0002 GND PA 19 99A 5 428 Delete The Result 0003 GND P 1999A 7 49s 0004 ACW P Press ENTER to delete Press EXIT to cancel 0001 ACW PASS 00000051 1 24kV 0565mA 0 008mA 0001 GND PASS 1999A 72ma 49s 0005 ACW PASS 1 24kV 0379mA 49s 0 244mA File Name 0001 TEST Pressing Enter will verify that the user wants to delete all of the results on the Data Storage Card and pressing Exit will cancel deleting the results The following message will appear if the Delete ALL soft key is pressed 148 Dh ASSOCIATED NOUS RESE
115. Zz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 2 28 0UA 130 0UA frequency 15Hz 1MHz Resolution 0 1uA Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 3 120 0uA 525 0uA frequency 15Hz 1MHz Resolution 0 1uA Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 4 400uUA 2100uA frequency 15Hz 1MHz Resolution Accuracy 0 1uA 1 UA 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 5 1800uUA 8400UA frequency 15Hz 1MHz Resolution 1uA Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 6 8 00mA 10 00mA frequency 15Hz 100kHz Resolution 1uA 0 01mA 215 A ASSOCIATED 1 RESEARCH INC Accuracy DISPLAY FIXED RANGE gt 6 OF RANGE Touch Current Display RMS AC Only Range 1 15Hz lt f lt 100KHz 5 of reading 0 01
116. a GT OTR C TOO S a 11 2 2 2 Power REQUIFEMOENIS oxcieksays costvanatactadsesosseayeenchaadetnc ipa ncadpaiaeyeas 11 2 23 BASIC COMECON S s errores tiressi esteit os teenies ues 11 2 2 4 Environmental Conditions ccccceceescceseceeeseeeeeeeeesseeseeeteeeaes 12 3 SPECIFICATIONS AND CONTROLS 0 cc eeceeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeees 13 3 1 OMNIA II Functional Specifications eee eeeeseceseeeeeeeeeeneenseeeeeens 13 3 2 Instrument Controls hac ciuetoanensnesanccuutaacwat annnd else Muem eee asceanesteels 25 3 2 1 Front Panel Conttols a4 anscndgoatacadsunsncndioata gins 25 3 2 2 Rear Panel GOmilsas5 cts dsanedastaastaseuiacatnaatusanednencsdecinneduactanaes 27 3 2 3 Additional Rear Panel Controls sssssseeseeseeseesessesseseesresresreseses 28 4 PROGRAMMING INSTRUCTIONS cccccsssseeceeeeeeeeeeeeeeeneeeeeeseeneeeeeeneeneeees 30 4 1 Power UD eccidi nns a a a aR 30 4 2 SOUP SYSTEM eiie aaa ia eea teon aai aana inoen aaa 30 4 2 1 Setup System KEyS wi feces sissies esos sisiasieenasiaanasinun teen 31 4 2 2 Time and Date ieee ee ene re re Se SR eI OPO tre 31 4 2 3 Calibration Alert acs xc pcos arena etc Reseed ee baa Ate ia utes 34 42 4 ALO WANG sin 5s lac sctsce sus dary aeran a N E T aE a AaS 36 Aa eT Dene ae E A TE 39 4 2 6 Power On Screen ssssssseseeseesseseesessessestesresresessrssessesresesteseesesses 48 4 3 Setup Tests Menu 2 ac mars ivleriitenndciiend Sa
117. a from the device s output buffer 7 4 2 Test Execution Commands The following commands are used to control actual output voltage and current from the instrument Please observe all safety precautions DESCRIPTION TEST RESET Abort a test in Process or Reset Failures Set Auto Offset TEST Starts the test sequence at the selected step loaded into memory RAM RESET Stop or abort a test Also used to reset a latched failure condition SAO Set the offset for the Ground bond test or Continuity test The cables and any test fixture should be connected before executing the command This command will 109 A DT ASSOCIATED gt 1 RESEARCH INC perform an actual test and all safety precautions should be observed when using this command SACG Set the Charge LO parameter for the DCW or IR test The cables and any test fixture should be connected before executing the command The test parameters that are set for the step will be used when performing the auto setting This command will perform an actual test and all safety precautions should be observed when using this command 7 4 3 File Editing Commands The following commands are used to create or modify Test Setup Files COMMAND DESCRIPTION VALUE File Load nn nn 01 9999 File Delete Active selected File S FD nn File Delete by nn 01 9999 Number Active selected File FSA nn xxxx File Save as nn 01 9999 xxx name FN nn xxxx File New nn 01 9999 xxxx
118. ading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 222 0 0UA 31 5uA frequency Ranges 15Hz 1MHz Resolution 0 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy a D ASSOCIATED RESEARCH INC Range 4 0 0uA 126 0uUA frequency 15Hz 1MHz Resolution 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0UA 504uUA frequency 15Hz Range 5 MHz Resolution 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 6 0 0uA 600UA frequency DC 100KHz Resolution 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy
119. al Outputs The rear panel connector provides three output signals to remotely monitor PASS FAIL and PROCESSING conditions The monitoring signals are provided by three normally open internal relays that toggle ON and OFF to indicate the condition of the tester These are normally open free contacts and will not provide any voltage or current The ratings of the contacts are 1 AAC 125 VAC 0 5 ADC 30 VDC The signal outputs are provided on the 9 pin female D type connector Below is a list that indicates what conditions activate each pin When a terminal becomes active the relay closes thereby allowing the external voltage to operate an external device 102 oN 2 ASSOCIATED RESEARCH INC Pins 1 and 2 provide the PASS signal Pins 3 and 4 provide the FAIL signal Pins 5 and 6 provide the PROCESSING signal Pins 7 and 8 provide the RESET signal The following describes how the relays operate for each test condition PROCESSING The relay contact closes the connection between pin 5 and pin 6 while the instrument is performing a test The connection is opened at the end of the test PASS The relay contact closes the connection between pin 1 and pin 2 after detecting that the item under test passed all tests The connection is opened when the next test is initiated or the reset function is activated FAIL The relay contact closes the connection between pin 3 and pin 4 after detecting that the item under
120. ameters may be controlled Voltage Hl Limit LO Limit Ramp Up Dwell Time Ramp Down Charge LO Arc Sense Offset Ramp HI ON OFF Arc Detect ON OFF Continuity DC continuity or OFF Scanner Channel Step Name and More Pressing the More soft key will display the additional parameter Defaults Charge LO The Charge LO function is used to check if the cables are connected properly at the beginning of a test A capacitive DUT will draw charging current on the DC Withstand Voltage test when the Output is activated If the charging current is lower than the setting the test cables may not be connected properly The instrument can set the Charge LO parameter manually or automatically To manually set the Charge LO current use the up and down arrow keys or the ENTER key and scroll the highlighted area to the Charge LO current parameter Enter the new Charge LO current via the alphanumeric keypad and then press the ENTER key to accept the new parameter or press the EXIT key to escape from the edit To automatically set the Charge LO current use the up and down arrow keys or the ENTER key and scroll the highlighted area to the Charge LO current parameter Set the voltage and ramp times to the values that will be used on the DUT and connect the test cables or test fixture between the instrument and DUT Press the TEST button Please be aware that the program will activate high voltage WARNING on the output connector when the Test button is p
121. and in between Line Leakage and Functional Run test steps 58 ASSOCIATED 9 1 RESEARCH INC Select Meter This parameter allows you to select the meter orientation during testing Step Name This parameter allows you to enter a text name for each step Leakage This parameter allows you to measure leakage using either Peak or RMS measurements Neutral This parameter controls the Neutral relay during Line Leakage testing Reverse This parameter controls the Reverse relay during Line Leakage testing Ground This parameter controls the Ground relay during Line Leakage testing Measure Device This parameter allows you to select the MD used during Line Leakage testing Probe This parameter allows you to set the probe configuration during Line Leakage testing AC DC The metered value of leakage current during a Line Leakage test Can be set to AC DC AC or DC When set to AC DC the unit measures the composite leakage current through the MD When set to AC the unit measures only the AC component of the leakage current through the MD When set to DC the unit measures only the DC component of the leakage current through the MD NOTE If the AC DC parameter is set to DC or AC the minimum delay time is automatically set to a minimum of 1 3sec If the AC DC parameter is set to AC DC the minimum delay time is automatically set to a minimum of 1 8sec Ranging Mode Unit ranging setting used during the Line Leakage test Can b
122. ase Accuracy DC 2 of reading 3counts gt 10uUA Range 3 31 5uA 525 0uA DC Resolution 0 1uA Base Accuracy DC 2 of reading 3counts gt 10UA Range 4 126 0uA 999 9UA 1000UA 2100uA DC Resolution 1uA Base Accuracy DC 2 of reading 3counts gt 10uA Range 5 504uA 999 9uA 1000UA 8400UA DC Resolution 1uA Base Accuracy DC 2 of reading 3counts gt 10uA 600uA 8399UA 8 40mA 10 00mA Range 6 DC Resolution 1uA 0 01mA DC 5 of reading 0 01mA Base Accuracy 10 00mA Range 1 N A Resolution N A Additional Error N A Range 2 0 0UA 7 8uA DC 219 A P ASSOCIATED 1 RESEARCH INC Resolution 0 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy Range 3 0 0uA 31 5uA DC DISPLAY AUTO RANGE Resolution 0 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy Range 4 0 0uA 126 0UA DC Resolution 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy Range 5 0 0uA 504uA DC Resolution 1uA Additional Error DC add 2 of reading 0 2 of range to base accuracy Range 6 0 0uA 999 9UA 1000UA 1200UA DC Resolution 1uA Additional Error DC add 2 of reading 0 2 of range to b
123. ase accurac Touch Current Display Peak AC DC 220 0 0UA 32 0UA frequency DC 15Hz Range 1 L 4MHz Resolution 0 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHz 10 of reading 2uA 28 0UA 130 0UA frequency DC Range 2 15Hz 1MHz Resolution 0 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHz 10 of reading 2uA 120 0UA 525 0uUA frequency DC Range 15Hz 1MHz Resolution 0 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHz 10 of reading 2uA Range 4 400uA 999 9UA 1000UA 2100UA a ASSOCIATED RESEARCH INC frequency DC 15Hz 1MHz Resolution 0 1uA 1UuA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHz 10 of reading 2uA 1800UA 8400uA frequency DC mangas 15Hz 1MHz Resolution 1uA DC 2 of reading 2uA Accuracy 15Hz lt f lt 1MHz 10 of reading 2uA 8000UA 8399UA 8 40mA Range 6 10 00mA frequency DC 15Hz 100KHz Resolution 1uA 0 01mA DC 2 of reading 3counts Accuracy 15Hz lt f lt 100KHz 10 of reading DISPLAY FIXED RANGE gt 6 OF RANGE Touch Current Display Peak AC DC 2counts 0 0UA 32 0UA frequency 15Hz Range 1 1MHZz Resolution 0 1uA Base Accuracy DC 2 of reading 2uA 15Hz lt f lt 100KHz 10 of reading 2UA 100KHz lt f lt 1MHZ 10 of reading 2UA Range 2
124. ation Alert is a feature that will allow the instrument to give an advanced alert that the calibration for the instrument is coming due From the System Setup screen press the Calibration Alert soft key The Calibration Alert Setting screen will now be displayed From the Calibration Alert Setting screen three different parameters may be accessed Calibration Due Alert Date Calibration Alert The Calibration Alert Setting screen also displays the date of the last performed calibration The Calibration Alert Setting screen will appear as follows 34 RATION ALERT Calibration Date 91 10 2009 Calibration Due Alert Date Calibration Alert gt OMNIA Il 8204 Calibration Due Date It is recommended that calibration should be performed at least once a year Itis recommended that the Calibration Due Date not bet set greater than one year from the Calibration Date displayed From the Calibration Alert Setting screen highlight the Calibration Due parameter by using the left or right arrow keys The left and right arrow keys will toggle the highlighted area of the screen between the Calibration Due and Alert Date Using the left and right arrow keys and the numeric keypad enter the Calibration Due Date Press the ENTER key to finish Alert Date The Alert Date is like an alarm clock that will warn you in advance of the actual calibration due date After a calibration is performed the Alert Date is automatically set 11 months after
125. ation mode 10 1 Warranty Requirements Associated Research Inc offers a standard one year manufacturer s warranty This warranty can be extended an additional four years provided that the instrument is returned each year to Associated Research Inc for its annual recertification In order to be eligible for the extended warranty instruments must be returned to Associated Research Inc for certification service at least once every twelve months A return material authorization number RMA must be obtained from Associated Research Inc before returning this instrument for calibration To obtain an RMA number or for information regarding our warranty please contact our customer support representatives at 1 800 858 TEST 8378 or setup an RMA online at http www asresearch com support RMA request aspx Required Calibration Equipment 0 6 KV AC DC Metered Voltage Divider 40 mA AC 20 mA DC Ammeter 0 30 mV AC Millivoltmeter 30 AAC Current Shunt 10Q 0 25 watt resistor 250 volt 50MQ 0 25 watt resistor 1000 volt 500MQ 0 25 watt resistor 1000 volt 100KQ 175 watt resistor 5000 volt 1MQ 20 watt resistor 5000 volt Adjustable DC power supply 0 032 volts to 20 volts 185 A ASSOCIATED V L RESEARCH INC Adjustable AC power supply 0 277 volts 5KVA Low impedance adjustable load 109 309 4000 watts 10 2 Hardware Calibration This paragraph covers the hardware calibration procedure for the LLT Leakage 8 00mA 10 00mA
126. bles below When the scanner is installed it should be the last parameter for all test types except GND For the GND test type the scanner settings should be inserted between offset and frequency The list of parameters can also be found in the default parameters section of the manual The parameter values should use complete text and not use the coded values that are associated with the individual parameter setting commands Such as ON and OFF and any toggle field that use words or phrases like OPEN CLOSE The LS companion command will also list all parameters in complete text as they appear on the setting screen 1 Voltage Voltage Voltage 2 Hl Limit T HI Limit HI Limit 3 LO Limit T LO Limit LO Limit 4 Ramp Up Ramp Up Ramp Up 5 Dwell Time Dwell Time Delay Time 6 Ramp Down Ramp Down Ramp Down 7 _ Arc Sense Charge LO Charge LO 8 HI Limit Real Arc Sense DUT Output 9 LO Limit Real Ramp HI ON OFF Scanner Setup 10 Frequency Arc Detect ON OFF 11 Arc Detect ON OFF Continuity ON OFF 12 Continuity ON OFF DUT Output 13 DUT Output Scanner Setup 14 Scanner Setup ce CONT RUN LLT 1 Current HI Limit Voltage HI Leakage HlI 2 Voltage LO Limit Voltage LO Leakage LO 3 Hi Limit Dwell Amp HI Voltage HI 4 LO Limit Offset Amp LO Voltage LO 5 Dwell Scanner Dwell Time Delay Time Channel 6 Offset Continuity
127. bols Calls attention to a procedure practice or condition that could possibly cause bodily injury or death Calls attention to a procedure practice or condition that could possibly cause damage to equipment or permanent loss of data CAUTION 1 3 Glossary of Terms il As used in this manual Alternating Current AC Current that reverses direction on a regular basis Utility power is usually generated in the form of a sinusoid at a frequency of 60 times per second in the United States and 50 times per second in other countries Arc A partial momentary breakdown due to the force of a strong electric field on closely spaced conductors sometimes evidenced by corona or a luminous flashover Breakdown The failure of insulation to effectively prevent the flow of current If the test voltage is gradually raised breakdown will begin suddenly at a certain voltage level and current flow will not be directly proportional to voltage Once a breakdown occurs especially for a period of time the next gradual application of voltage will often cause a breakdown to begin at a lower voltage Conductor A solid or liquid material which permits the flow of electrons A material which has a volume resistivity of no more than 103 Q cm Current The movement of electrons through a conductor Current is measured in amperes A milliamperes mA microamperes uA Symbol I Dielectric An insulating material that is positioned between two cond
128. creen Load Meter Prompt Prompt Cal Active Short the Current and When the leads are Enter Standard Voltage Return leads together shorted press TEST to Reading start the Calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of GND Bond Current The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard current Enter Standard Current 40AAC current meter meter is connected press Reading from Current to Return TEST to start the calibration process Press the TEST button to activate the calibration After the calibration is activated the 192 J ASSOCIATED RESEARCH INC lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Ca
129. cters However if the user names a test file with the maximum 10 characters this function will still load a test file if the first 10 characters of the product number match the file name If the Barcode I P is set to SER PROD scan the serial number once to input it into the OMNIA Next scan the product number From this point OMNIA II will operate the same as when the Barcode I P setting is set to PRODUCTH H The Autostart feature will not work with the SERIAL setting The Autostart feature will enable the instrument s output once the product number barcode is scanned a second time when in the PRODUCT and SER PROD modes Do not touch the DUT at any time when using this feature in order to avoid potential shock or serious injury 171 A DT ASSOCIATED RESEARCH INC Ethernet Card Settings Commands and Companion Queries _ _ COMMAND NAME VALUE DHCP BOOTP SIA 192 168 1 50 SGA Address SSM SDN a letter 00 20 4A 8B B4 30 SBI 0 1 21314 0 0ff 1 Ser Prod 2 Serial SBI 3 Product 4 Run File SAS Communication Considerations All of the above commands excluding the query commands will respond with the 06 hex 6 decimal Acknowledge ACK ASCII control code if the transfer was recognized by the instrument If there was an error with the command string the instrument will respond with 15 hex 21 decimal the Not Acknowledge NAK ASCII control code However the presence of this response
130. ctic uandeds 88 5 1 1 Connecting the Test Leads cece ecceseesseeteeeeeceeeeseeeteeeaeeneees 88 5 1 2 Adapter Box Connections cc ecceccceseeseeeeeesceeeeceneeeeeseeeaeeneees 88 5 1 9 Interlock CONNECtOr sessirnir saniert aiana word heap teias 89 5 1 4 DUT Input Voltage Connections for Models 82x6 and 82x7 89 5 1 5 Scanner Connections ssssenssesseeesesseessosseesressesstssressessressessee 90 5 2 Perform tests MMi assistance seca d e raced n 91 52s Load Flener eniennn tonenneg 91 5 22 SINGIC Stepas i a An hn tl Oe Gand eos 92 SRY a ac fe LS 8 eee RRC ERIR Rare Clee cee eee eee a nner Em as errr nee ee S 92 B24 ResUl dnan tin neonan a ai aa O ates asia 93 5 9 Performing a TeSt siea a a aE 94 5 4 P rf rm Tests Metenind cn as8hGiiawhioniindckakaGsine henudads eae 96 5 5 Displayed MESSAGES iictecscnccasta toca pte tecate ntact a ia elagi 96 5 5 1 Test Status Messages all Models ccccecssecsseeeseeeteeeseeeees 97 5 5 2 Error Messages All Models cccceeccccesseesseceseeeseeeseeeeseeeeseees 99 5 5 3 Error Messages Models 82x6 and 82X7 cecceesceeeseeeseeetees 99 6 CONNECTION OF REMOTE U O cssseeeceeeeeeeesseesseceeeeeeeeessneesseeeeeeeeees 102 6 1 Remote Signal Outputs ec ccccccsscestecsseeesseeeseeceseeeseeeeseeseseessaes 102 6 2 Remote Signal Inputs and Memory ACCESS c cccscceeseesteeeteeeeees 103 7 BUS REMOTE INTERFACE USB GPIB RS 232
131. curacy 0 0mV 126 0mV frequency Pangas 15Hz 1MHz Resolution imV 236 a D ASSOCIATED RESEARCH INC DISPLAY AUTO RANGE Touch Voltage Display Peak AC Only Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 504mV frequency nanga g 15Hz 1MHz Resolution imV Additional Error DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHZz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 6 0 0mV 600mV frequency DC 100KHz Resolution imV Additional Error Range 1 DC add 2 of reading 0 2 of range to base accuracy 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 0 0mV 32 0mV frequency 15Hz 1MHz Resolution 0 1mV Accuracy 15Hz lt f lt 1MHz 10 of reading 2mV Range 2 28 0mV 130 0mV frequency 15Hz 1MHz Resolution 0 1mV Accuracy 15Hz lt f lt 1MHz 10 of reading 2mV Range 3 120 0mV 525 0mV frequency 15Hz 1MHz Resolution 0 1mV A 15Hz lt f lt 1MHz 10 of reading ccuracy mV 400mV 999 9m
132. d Reading and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC x 0 1 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 18 0VAC supply When the power supply Enter Standard Voltage and a standard voltmeter and meter are connected Reading to Probe HI and Probe press TEST to start the LO calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC Peak x 0 1 The load meter screen and prompt screens will contain the following text for this calibration point U
133. d Reading from H V to Return press TEST to start the calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of IR DC Voltage The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard Enter Standard Voltage 1KVDC kilovolt meter voltmeter is connected Reading from H V to Return press TEST to start the calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active 188 e ASSOCIATED 9 1 RESEARCH INC Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of AC 50mA Range 100mA Range for 500VA models The load meter screen and prompt screens will contain the following text fo
134. d and the Setup Tests screen will now be displayed with the new file loaded While hitting the Save soft key the following pop up will be displayed indicating the file is being saved 65 i e 0001 GND Settings 25 00A 100mo 3 0s Omo 0002 a oo Setti a oo 10 0 50s 0 00 a903 IR Setting oov 0 00 10s 0 05 The instrument is now ready to perform tests with the new file You may now press the ENTER key to go to the Perform Tests screen or press the EXIT key to return to the Main Menu Inserting Tests From the Setup Tests screen scroll the highlighted area to the step in the sequence where you would like to insert a test Press the Add soft key The highlighted area will blank and the test that was originally at this step in the sequence as well as all of following steps will increment At the same time the Setup Test Tests Selection screen will be displayed You may now select the type of test you wish to insert from the soft key menu Inserting a Text Prompt Refer to section 4 3 4 Prompt for a detailed description of inserting text prompts 4 5 1 AC Withstand From the Setup Tests Selection screen press the Add soft key The test types soft keys will now be displayed Pressing the Dielectric Withstand soft key will display the AC Withstand and DC Withstand soft keys Press the AC Withstand soft key The AC Withstand Parameter Setting screen will now be displayed The AC Wit
135. d earl euksbeatntuaationnkunipundutiussanslenstennienslonstinibenesiitetnnelensl 13 DC Withstand cccccccccccecssceeeeseeeeeseeeeeeueees 39 52 56 58 59 63 67 68 69 96 98 Default Parameters cise wasted ata atstaos dards vei cacs ate deed aiaa 59 60 64 112 113 DelAY ccccecceeeeeeeeeeeeeeeeeeeees 15 19 58 61 62 69 74 76 97 104 112 114 116 148 Dielectric Withstand Test60 61 64 110 112 113 114 115 116 117 118 121 144 147 148 167 168 Discharges anaia eat SS SCO ry Ree oem T Ci meer Tet E 7 14 DOT tase cites eat cst R A wae 7 8 37 59 94 190 191 Dwell 14 16 17 19 57 60 61 62 67 68 71 73 74 97 112 113 114 116 148 Edit Parameters 32 35 50 52 54 59 63 64 68 70 71 73 115 116 117 118 134 135 137 ESD a TOE R CEA WIND LAUR NE TOUT ACHE RU HERUSNN E UN URTAE RLM TE RETR URTATTT 6 7 Ethernet Card 130 155 156 157 158 159 160 161 165 167 168 169 205 206 Exit Ry re eneee EE aE e E EEE E Sanayi EEE EE tees 65 Fail SLO ica rsdsistcalniciturhibenibakacetiesstdiiddabiecdecttiatineedaeiecs 42 50 55 91 92 111 115 119 Fe I eae setae circa tne ceed E A aan E E E E EE 8 137 144 File ee sa ee gee NUP E DTT EER a USES Tee TNO OPENS ge OTT 54 55 63 e121 O12 Renee Ree are oer ae RT OTR PREY TTD TOR ety NST a VERT a e VET OTe ORT 40 OUI detssvesccsance E 54 55 63 65 Frequency 3 4 13 14 16 21 22 23 58 60 61 67 71 73 80 84 11
136. d is only used once to create a sequence Then that sequence can be constantly loaded with the FL command 129 D associare o and added to with the ADD command This will avoid constantly writing to the non volatile memory 130 Dassen Programming flow Charts Start Is Temp file created No Create Temp file Yes FN TEMP Load temp file FL TEMP Add steps ADD LLT More steps needed No Execute TEST 131 gt ASSOCIATED RESEARCH INC FOR MORE INFORMATION ON IEEE GPIB PLEASE CONTACT The Institute of Electrical and Electronic Engineers Inc 345 East 47th Street New York NY 10017 1 212 705 7018 Communications Society of IEEE Internet www ieee org 132 D assoqures 8 OPTIONS M Introduction This section contains a list and descriptions of available factory installed options at the time of this printing The list of options contains an option code number that can be referenced on the data plate on the rear panel of the unit Option Label On the rear panel of the instrument you will find a label that contains the option code For example your options code would appear as follows Fitted with option 01 cceeeeeeeeeeeeeeeeteeeeeees OPT 01 Fitted with option 01 and 05 ceeeeeeeeees OPT 0105 Option List COD DESCRIPTION E 06 Cold Resistance _ 08 PrinterPort O 09 Ethernet Card _
137. d to select the initial Device ID Finish by pressing the ENTER key This number is not saved as part of the non volatile system parameters therefore each time the power to the instrument is turned off the number will be reset to 1 Form Feed From the Print Format setting screen you may turn the Form Feed ON and OFF by pressing the Form Feed soft key This command forces a form feed after each complete test sequence When the form feed is turned off the signature line will not appear When the form feed is turned off the pages will break whenever the page is determined to be full by the printer 156 ON p2s028 he Print Report Example Model 820 Device ID TESTOOOO1 Voltage Ramp Up Arc Sense Offset Frequency TESTOOOO1 Voltage Time 7 Serial Setting ACW 1240V O l1s 5 0 000mA 60Hz Result Pass 1 24kV 10s Number HI Limit T Dwell Time HI Limit R Arc Detect Current T Test File 1 10 00mA 1 Os 10 00mA OFF 0 003mA LO Limit T Ramp Down LO Limit R Continuity Current R 9680004 Time 14 45 45 Date 2012 11 06 0 000mA 0 0s 0O 000mA OFF 0 000mA TESTOOO02 Voltage Ramp Up Charge LO Ramp HI TEST00002 Voltage Setting DCW 1200V 0 4s 0 O0uA OFF Result Pass 120kV HI Limit Dwell Time Arc Sense Arc Detect Current 10000uA 1 0s OFF LO Limit Ramp Down Offset Continuity TESTOOO03 Current LO Limit Frequency TESTOOO03 Current Setting
138. d to which it correlates Cross Agency Specification Application Reference Number Oio UL544 Non patient equipment Medical Equipment UL544 Patient care equipment Medical Equipment 3 IEC601 1 UL2601 EN60601 1 Medical Equipment S e 563 Electric Spas Equipment Assemblies and Associated Equipment pF e Fig4 U2 IEC60950 Laboratory Equipment Information Technology Fig5 U3 Laboratory Equipment Information Technology External User configurable User configurable Frequency The Line Leakage test can be The selection is intended to be Check configured to verify the bandwidth used for meter verification only of the leakage current voltmeter and has no application for by setting the Probe configuration normal testing Probe HI to Probe LO and selecting the measuring device Frequency Check Measuring Device Diagrams Diagrams of the measuring devices are shown in the images below 80 jes aN Veil aS ES Eo Input Lo Leakage H 0 0uA 10000uUA es i AS aA ro seer se Input Lo Measure Device I Leakage H 0 0uA 10000LA 81 82 Measure Device Leakage HI 0 0uA 10000uUA Fetal Bl asd FY ma Measure Device 0 45pF Leakage H1 0 0uA 10000uA SH A St Gi a ADA E e E EEANN E Frequency Check Al Zc Ne ia Ee QAN Eteria il eae aga eR I Se fl emesis wal ad WG a SE Ba etn ea Leakage HI 0 0uA 10000LA External Measuring Device The OMNIA
139. e Ramp Down Charge LO Scanner Channel Select Name and Defaults Charge LO The Charge LO function is used to check if the cables are connected properly at the beginning of a test A capacitive DUT will draw charging current on the DC Withstand Voltage test when the Output is activated If the charging current is lower than the setting the test cables may not be connected properly The instrument can set the Charge LO parameter manually or automatically To manually set the Charge LO current use the up and down arrow keys or the ENTER key and scroll the highlighted area to the Charge LO current parameter Enter the 69 ASSOCIATED y vf ESEARCH INC new Charge LO current via the numeric keypad and then press the ENTER key to accept the new parameter or press the EXIT key to escape from the edit To automatically set the Charge LO current use the up and down arrow keys or the ENTER key and scroll the highlighted area to the Charge LO current parameter Make sure that the voltage and ramp times are set to the values that will be used on the DUT and connect the test cables or test fixture between the instrument and DUT Press the test button WARNING Please be aware that the program will activate high voltage on the output connector when the Test button is pressed The program will read the charging current of DUT and set the Charge LO current at approximately one half 1 2 of the reading The highlighted parameter field will br
140. e and storage of your Associated Research Inc product 2 1 Unpacking and Inspection 2 1 1 Packaging Your instrument was shipped in a custom foam insulated container If the shipping carton is damaged inspect the contents for visible damage such as dents scratches or a broken display If the instrument is damaged notify the carrier and Associated Research Inc s customer support department Please save the shipping carton and packing material for the carrier s inspection Our customer support department will assist you in the repair or replacement of your instrument Please do not return your product without first notifying us and receiving an RMA return material authorization number To receive an RMA number please contact our customer support department at 1 800 858 TEST 8378 NOTE Please retain all of the original packaging materials 2 1 2 Contents of the Carton Inside the carton should be the following DESCRIPTION AR PART NUMBER OMNIA Instrument 8204 8254 8206 8256 8207 8257 High Voltage Cable 04040A 08 3 for 82x6 and 82x7 High Current Output Cable 38489 High Current Return Cable 38490 High Current Test Lead CBLHC40 10TL 82x6 and 82x7 Fuse 38503 10A Slow Blow 250VAC USB Cable AB Type 1 8m 39066 Line Cord 33189 Standard Line Cord 39368 82x6 and 82x7 Adapter Box Adapter Box 38482 Standard 82x4 38578 82x6 and 82x7 Bracket Rack Mount 3U Qty 2
141. e by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC Peak x 1 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 8 0Vp AC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibration After the RMS value has been input the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button 199 lt gt ASSOCIATED 7 RESEARCH INC Calibration of LLT MD Volts AC x 4 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 1 25VAC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the t
142. e Leakage test a warning message will appear in the displayed messages portion of the screen that says Neutral V If you see this message you will need to correct the voltage problem before the instrument will allow you to execute Run Tests or Line Leakage tests 5 1 5 Scanner Connections The Scanner provides 8 High Voltage channels and 8 Ground Bond channels on the rear panel The High Voltage channels can be set to a High or Low level giving the capability to test from one channel to another channel or from any channel to a common Low or Return point The channels can be connected in parallel if desired but there is only one leakage current measurement for all channels The Ground Bond channels can test only from one channel to the common Return and only one channel may be used for each test Instructions for setting the Scanner channels are in the section 4 4 Test Parameters of this manual The Scanner will provide output to multiple test points and will have the same operation specifications that apply to the standard instrument with the exception of one Ground Bond channel limitation Due to the characteristics of general purpose High Current relays some additional contact resistance cannot be prevented Although this contact resistance can be offset using the milliohm offset feature of the instrument there will be some variation of the contact resistance because the relay must open and close Each relay closure may represent a differ
143. e a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new number or the EXIT key to escape from the edit and return to the original number 32 Dfa Set Day From the Time and Date Setting screen press the Set Day soft key As the soft key is pressed the Set Day pop up screen will appear as follows TIME AND DATE _ Set Day o Use the up or down arrow keys to select the day of the week Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value Date Format From the Time and Date Setting screen press the Date Format soft key As the soft key is pressed the Date Format pop up screen will appear as follows 33 TIME AND DATE Date Format mm dd yyyy yyyy mm dd Press ENTER to save Press EXIT to cancel Use the up or down arrow keys to select the date format Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value Time Format From the Time and Date Setting screen press the Time Format soft key As the soft key is pressed the time format will toggle between 12 hour and 24 hour modes 4 2 3 Calibration Alert Calibr
144. e set to Auto or Manual Defaults Pressing this soft key will default the test parameters to their predetermined default values refer to section 4 4 2 Default Parameters Once the default soft key is pressed it is necessary to complete the edit either by pressing the ENTER key to accept the parameter overwrite or the EXIT key to escape from the edit and return to the original values DUT Output 82x6 and 82x7 This function enables or disables high voltage at the DUT outputs during an AC Withstand DC Withstand or IR test The DUT Output parameter will only be present if the DUT HV Setup is selected ON at the Hardware screen The DUT Output parameter will appear on the AC Withstand DC Withstand or IR test parameter screens as follows 59 Voltage ENERTINIA rc sense 5 Continuty OFF gt HI Limit HI Limit Total 10 00 mA Real 10 00mA LO Limit LO Limit l Total 0 000 mA Real 0 000 mA DUT Output on gt Ramp Up Offset 0 000 m Dwell Time Select Meter b Ramp Down More b Range Voltage 0V 5000V 4 4 2 Default Test Parameters In each of the Test Parameter Setting screens there is a Defaults soft key When this key is pressed the test will load with a set of predetermined Default Parameters The following table is a listing of the Default Parameters for each of the different types of tests that are available in the OMNIA II The Default Parameters are as follows Default Parameters TEST TYPE PARAMETE
145. ect the DualCHEK setting for this test The DualCHECK setting options are ACW DCW or OFF Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value For the DualCHEK to function properly the test immediately following the AC Ground Bond test in the sequence must be the test specified in the DualCHEK parameter For example if DualCHEK is set to ACW the next test in the sequence after the AC Ground Bond test must be an ACW test If the test immediately following the AC Ground test does not match the DualCHEK setting the AC Ground Bond test and following test will run sequentially 4 5 6 DC Continuity From the Setup Tests Selection screen press the Add soft key The test types soft keys will now be displayed From the Setup Tests Selection screen press the DC Continuity soft key The DC Continuity Parameter Setting screen will now be displayed The DC Continuity Parameter Setting screen will appear as follows 72 Di esses DC CONTINU ERITA TY SSPE br fe 7 From the Continuity Parameter Setting screen the following parameters may be controlled Hl Limit LO Limit Dwell Time Offset Scanner Channel Step Name and Defaults Offset This function allows the instrument to compensate for lead and test fixture resistance during a Ground Bond or Continuity test Using the up a
146. ector used to attach the adapter box high voltage test lead to the instrument Line power is supplied to the DUT during the run test or line leakage test through this connector and High Voltage is supplied to the DUT through this connector during the Dielectric Withstand or Insulation Resistance tests This terminal and the N terminal are shorted together when the Dielectric Withstand or Insulation Resistance tests are being performed N OUTPUT TERMINAL Connector used to attach the adapter box return test lead to the instrument Line power is supplied to the DUT during the run test or line leakage test through this terminal and High Voltage is supplied to the DUT through this terminal during the Dielectric Withstand or Insulation Resistance tests This terminal and the L terminal are shorted together when the Dielectric Withstand or Insulation Resistance tests are being performed CASE Connector used to attach the return lead to the DUT case or dead metal Provides the return for the Ground Bond Dielectric Withstand and Insulation gt ASSOCIATED 7 RESEARCH INC Resistance tests During a Run test or Line Leakage test this terminal is isolated from the test circuits 6 GND Connector used to attach the adapter box Ground or Earth lead to the instrument 7 PROBE HI Connector used to attach the Probe HI test lead to the DUT When used with an appropriate test lead this terminal connects one side of the MD measuring
147. ecurely Mark the container FRAGILE to insure proper handling Please refer in all correspondence to your RMA number Do not ship more than 1 unit per box 3 ASSOCIATED 9 _ RESEARCH INC 2 2 Installation 2 2 1 Work Area Locate a suitable testing area and be sure you have read all safety instructions for the operation of the instrument and suggestions on the test area setup in section 1 4 Safety Make sure the work area you choose has a three prong grounded outlet capable of supplying the necessary input current to the power source Be sure the outlet has been tested for proper wiring before connecting the instrument to it 2 2 2 Power Requirements This instrument requires a power source of either 115 volts AC 10 50 60 Hz single phase or 230 volts AC 10 50 60 Hz single phase This instrument auto ranges for 115 230V 15 variation See section 3 2 2 Rear Panel Controls for an image of the rear panel OMNIA II maximum rated power is 750VA CAUTION Do not switch the line voltage selector switch located on the rear panel while the instrument is on or operating This may cause internal damage and represents a safety risk to the operator The OMNIA II must be connected to a good ground Be certain that the power wiring is properly polarized and that the proper low resistance bonding to ground is in place 2 2 3 Basic Connections Power Cable The instrument is shipped with a line cord contai
148. eds 100 000 The OMNIA II will not allow any more tests to be run unless the user deletes the results currently on the Data Storage Card or changes the Test Result setting in the Data Card Settings menu to NONE If the 152 faseen Test Result setting is set to NONE the Data Storage Card will not record test results Data Card Alert The external memory drive is not connected to the Data Card To download results please connect the external memory drive 12 0 561mA 131 9V uA 49 0 008mA 2 0s Total Results 0005 ACW PASS 0001 ACW PASS 00000051 1 24kV 0 379mA 1 24kV 0565mA 49s 0 244mA 49s 0 008mA If 0006 ACW Short 0001 GND PASS paler pene 1999A 72mo S mA 49s File Name 0001 TEST The above message occurs when the user tries to transfer results from the Data Storage Card without the USB Flash memory drive connected To transfer results the user needs to have the Flash memory drive connected to the Data Storage Card TENERTE TLE ay Caps Lock ON p Data Card Alert This file name already exists in the external memory drive Please use a different file name Press EXIT to continue The above message appears when the user attempts to give a name to a results file that already exists on the Data Storage Card 153 DATA CARD RESULTS H 0001 GND PASS P 71mo Delete Result Data Card Alert J The internal memory of the Data Card_is nearing ca acity Transfer se and delete old re
149. een BIT and COMMON ACTIVATING MEMORY PROGRAM FUNCTIONS THROUGH WARNING THE REMOTE CONNECTOR SELECTS THE PROGRAM AND STARTS THE TEST WHICH IS PREPROGRAMMED INTO THAT MEMORY DO NOT CONNECT VOLTAGE OR CURRENT TO THE SIGNAL CAUTION inputs THIS COULD RESULT IN DAMAGE TO THE CONTROL CIRCUITRY Remote Interlock OMNIA is equipped with a Remote Interlock feature Remote Interlock utilizes a set of closed contacts to enable the instrument s output If the Remote Interlock contacts are open the output of the instrument will be disabled Remote Interlock could also be referred to as a remote system lockout utilizing fail when open logic If the Remote Interlock contacts are open and the TEST button is pushed a pop up message will be displayed on the screen for two seconds The message will appear as follows 104 Dassen PERFORM TESTS N ag Settings 00A 100mo 3 0s Omo Single Step on gt rae A Se eS 0002 ACW pe 1 0 0 ees Interlock Is Open re 0004 CONT Please check the remote interlock connection 10s 1 0 000 Temata nts 0005 DCW Settings 1300V 3000uA 3 0s 0 0uA H 0006 CONT Settings 1 0s 10000 File Name 0003 DEMO If the Remote Interlock contacts are opened during a test the pop up message will be displayed and the test will abort The hardware and has been configured to provide the interlock connections on pins 4 and 5 of the Remote Interface Signal Input port The ins
150. el Control Siacssisrmegs en etre Ree en tare aver Ser Ro iret Pee ear noe eee 11 27 28 PCCOD LAGS eeens niini a a e a aara a EEE i 27 28 77 102 mielelle LiLo a MAEA E E 14 16 Remote 18 27 36 38 62 89 97 98 102 103 104 105 106 108 119 120 121 131 132 133 134 155 170 Remote INMMETIOC se ciceicecrcececnntcaxdsocenncevanenetaubevencieicsencdenestacseacenncieuens 89 98 104 105 120 FSS UC pogro iiaiai tina iee center tne dats tard tee ide ie Faea Ai daa due edna Ea a EEEa 4 6 11 Be IW eei a E AEE E AE r E AEE E E A E 11 RS 232 neeieenrerrrenrrrerrrnnrrrerrrns 18 27 106 109 123 126 155 167 170 206 UA ei a EE E T PE TENE AE AEE E E EAS 62 73 74 96 132 134 Safty en ee E Ea e E EE EEEE EE ETEEN TAE E E E i li 3 5 7 11 18 Safety Symbols ene re Re nnee ennnn 3 Scanner25 28 60 61 90 112 113 117 118 130 131 136 137 155 167 205 206 CHANDE iinne E T E N 68 69 71 73 90 Conto lBoard omenaa E A 205 Wiem eM cele neee a e e e aai E E ah 130 Optioner ee a E E E E S 130 relta E E E E S 64 a b P z ASSOCIATED 7 RESEARCH INC SS 6 N 210 912 eae ee een eee oe a erence nee n Ce we em eCe E etc eae mene Mt ern rer ety 206 1E 10 ene ea ee ea tee vee ern ve SE TeDT tee vee ern nee res Oar nenry Orato 58 63 90 SECUN csr E E E a T E 18 30 39 40 44 56 62 86 92 93 CNC oa E E E E E A E 55 94 LE V O E ERREEN ATA EEA ETEA A AT AAE T 1 3 5 10 126 181 Service Interval
151. en the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button AC Source Calibration Low Range 150VAC The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the power supply Enter Standard Current voltmeter 150VAC from and meter are connected Reading output L to N press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button 206 e ASSOCIATED 9 RESEARCH INC AC Source Calibration High Range 277VAC The
152. encil or small screwdriver while powering ON the OMNIA The OMNIA enters calibration mode after the power on sequence is complete The Initial Calibration screen will appear as follows 186 Dassen CALIBRATION as Ti 350 0uA 999 99Ma 9999 9Mo 50000Mo IR Smart GFI When the standard GND BOND Voltage voltmeter is connected GND BOND Current press TEST to start faii the calibration DC Continuity SrOcoES The Calibration screen is separated into three sections The left half of the screen lists all of the calibration points necessary for an accurate calibration of the instrument The right half of the screen is split into two smaller screens The upper right section of the screen displays meter and load information required to perform the selected calibration The lower right section of the screen contains prompts that will help guide you through the calibration process 10 4 Selecting Specific Calibration points When the calibration is initialized the first calibration point is automatically selected The calibration is set up so that as each calibration point is completed the highlighted area will automatically scroll to the next calibration point To manually select calibration points use the up and down arrows to scroll the highlighted area to the desired calibration point The load meter screen and prompt screens will automatically update for the calibration point selected 10 5 Calibration points Each calibrati
153. ent Press TEST to begin verification Press RESET to return to menu Press a function key to select a mode Press EXIT to exit from Verification Follow the instructions given in the pop up message and then press TEST to begin the verification process During the Verification process the metering screen for the related process will be displayed refer to section 5 4 Perform Tests Metering for 178 P assocuren a RESEARCH INC more information At the end of the Verification process a pop up message will appear indicating the outcome of the process If the instrument passes the Verification test failure indicating the fail detectors are working properly the RESET button will illuminate the alarm will sound and the following pop up message will appear over the metering screen GROUND BOND VERIFY f 0001 CONT Settings 10s l rs Verification OK Ground Bond failure detected Press RESET to return to menu If the instrument fails the Verification test pass indicating the fail detectors are not working properly the TEST button will illuminate and the following pop up message will appear over the metering screen GROUND BOND VERIFY f 0001 CONT Settings 10s 10000 0 000 i gt 3 Verification Error Ground Bond failure not detected Check connections or call AR local distributor Press RESET to return to menu Dfa 9 1 3 AC Hipot Verification From the VERI CHEK
154. ent configuration it will be necessary to create a temporary short on R1 and R3 to operate in this mode Another option would be to acquire a spare external measuring device PCB for the meter verification purpose AC Source Press the AC Source soft key to enter the AC Source Test Parameter screen The screen will look as follows 84 Dassen ACVOJURCE LELT Voltage LINE LEAKAGE e we oren p A Hi 0 0A i Volt Range LOW b OC Fold OFF gt Range Voltage 0 0V 150 0V From this screen you can control the following test parameters Voltage Frequency A Hi Output N G Volt Range and OC Fold The A Hi parameter allows you to set the AC Source high current limit The Output N G parameter allows you to configure the AC Source output to either open or close the ground connection The Volt Range parameter controls the output range of the AC Source high or low See specifications for more details The OC Fold parameter allows you to set the output of the AC source in constant current mode When active the A Hi parameter can be used to set the output current of the AC source 85 Afaa 4 6 My Menu From the System Setup screen press the My Menu soft key The My Menu screen appears as follows OMNIA Il 8204 The My Menu function allows the user to configure a custom menu In order to customize a softkey selection press and hold one of the softkeys until the My Menu pop appears as follo
155. ent resistance value The Ground Bond channels will have the following characteristics Ground Bond Continuity Channel Resistance Deviation Deviation Relay Contact Test Current 90 5 2 Perform Tests Menu From the Main Menu screen press the soft key Perform Tests The Perform Tests Menu will now be displayed From the Perform Tests screen four different software controls may be accessed Single Step ON OFF Fail Stop ON OFF Load File Results The arrow keys may also be used to scroll the highlighted area to a specific test or page of tests if the file is larger than 10 steps The Perform Tests screen will appear as follows PERFORM TESTS 0001 GND Settings 2500A 100mo 0002 ACW Settings OV 10 00mA E 0003 IR Settings K l 1000V 0 00Mo s t 10s 0 05Mo Load files gt a hl Pere eee File Name 0003 DEMO The Perform Tests screen is the main operational screen of instrument From this screen individual steps are monitored while the test is being performed At the end of a sequence of tests all of the step results may be recalled via the Results soft key on this screen This screen may also be used to debug test files with the use of the single step and fail stop functions 5 2 1 Load File From the Perform Tests screen press the Load File soft key The Load File screen will now be displayed The Load File screen will appear as follows 91 D ASSOCIATED RESEARCH
156. er Edit Scanner High scanner string 1 16 string gt Voltage Multi port element ASCII string ES consisting of H L or O H HV L RETURN O OPEN ESN lt value gt Edit Scanner Low GND value 0 16 0 ALL ESN Voltage Single CONT OPEN port 120 a D ASSOCIATED LL RESEARCH INC COMMAND NAME TEST TYPES EV lt value gt Edit Voltage ACW EV DCW IR GND EVH LLT EVL LLT EO lt value gt Edit Offset 0 50mA EO 0 20000uUA 0 200mQ 0 10 00 o SN EDC lt value gt Edit Dual Chek GND 0 off 1 ACW 2 EDC DCW EDOC This command is used to control the Continuity and Ground Bond tests at the DUT outputs of the LLT and RUN test interface It should only be used when Continuity or Ground Bond tests are routed through the HS 16 external PC controlled scanner When the EDOC command is set to 0 the Continuity or Ground Bond test will be disconnected from the GND and Case terminals of the DUT outputs to eliminate possible parallel paths with the scanner outputs 7 4 5 System Parameter Editing Commands and Companion Queries These commands are used to modify the system parameters for the instrument These commands require a parameter value to be included with the command The companion query command will read the parameter using the same value that is used for setting the parameter COMMAND NAME VALUE SA lt value gt Alert Date mm dd yy or yy mm dd or SA dd mm yy same as SDF setting SACS
157. er are the standard calibration fees and shipping costs This extended warranty is non transferable and is offered only to the original purchaser A return material authorization RMA must be obtained from Associated Research Inc before returning this instrument for warranty service Please contact our customer support center at 1 800 858 TEST 8378 to obtain an RMA number It is important that the instrument is packed properly for safe transport Please contact our customer support center for proper instructions on packaging Damages sustained as a result of improper packaging will not be honored Transportation costs for the return of the instrument for warranty service must be prepaid by the customer Associated Research Inc will assume the return freight costs when returning the instrument to the customer The return method will be at the discretion of Associated Research Inc 3 Year Program A 3 Year warranty is also available for instruments purchased and used in North America All costs for this warranty are paid with the initial purchase and include warranty coverage annual recertification and standard ground return freight for 3 Years However unlike our 5 Year program annual recertification and inspection by Associated Research Inc is not required Except as provided herein Associated Research Inc makes no warranties to the purchaser of this instrument and all other warranties express or implied including without limitati
158. eturn Do not use the front and rear panel connections at the same time as the L and N connections as this will affect the continuity reading When GND is selected continuity may be measured from the LLT card s GND and Case connections or from the front or rear panel current and return connections Do not use the front or rear panel connections at the same time as GND and CASE connections as this will affect the continuity reading When OFF is selected you may only use the front or rear panel current and return connections to connect the continuity DUT Use the OFF selection when using the OMNIA II with an external scanner as this will provide isolation between the LLT card and external scanner connections As a safety precaution Cold Resistance testing is not allowed directly after a RUN or LLT test If you setup a Continuity test directly after a Run or LLT test the 139 A ASSOCIATED RESEARCH INC MAINS parameter will not be available If you attempt to insert a Run or LLT test before a Cold Resistance test the instrument will give an error beep and not allow the insertion of the test step Not allowing Cold Resistance testing directly after a RUN or LLT test prevents any residual DUT voltage from possibly damaging the instrument The following Test Parameter Editing GPIB commands may be used to control the new toggle parameter COMMAND NAME ata VALUE ata ECR n n 0 2 Edit Cold RUN 0 GND 1 OFF 2 MAINS ECR
159. ext indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC Peak x 4 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0Vp AC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibration After the RMS value has been input the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC x 16 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 32VAC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibrati
160. f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 31 5mV frequency Ranges 15Hz 1MHz Resolution 0 1mV Additional Error 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 126 0mV frequency Range 4 15Hz 1MHz Resolution imV Additional Error 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy 0 0mV 504mV frequency pangas 15Hz 1MHz Resolution imV 231 DICA DISPLAY AUTO RANGE DC Only Touch Voltage Display Additional Error 15Hz lt f lt 30Hz add 2 of reading 0 2 of range to base accuracy 30Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 100KHz lt f lt 1MHZ add 2 of reading 0 5 of range to base accuracy Range 6 0 0mV 600mV frequency DC 100KHz Resolution imV Additional Error Range 1 15Hz lt f lt 100KHz add 2 of reading 0 2 of range to base accuracy 0 0mV 32 0mV DC Resolution 0 1mV Accuracy DC 2 of reading 3counts gt 10 0mV Ra
161. f you make a mistake or want to change the character press the backspace key in the alphanumeric keypad The cursor will decrement and erase the character If you wish to use capital letters in the prompt press the Caps Lock soft key While pressing the Caps Lock soft key the Caps Lock parameter will toggle between ON and OFF If you wish to use symbols in the prompt press the Symbol Key soft key While pressing the Symbol Key soft key the symbol values will toggle between _ and When you have finished editing the prompt press the ENTER key After a prompt is inserted in a step a P will appear within the step parameters below the step number 4 3 6 File From the Setup Tests screen press the File soft key The File Setup screen will now be displayed From the File Setup screen five different file handling controls may be accessed New File Save Save As Delete and Load The File Setup screen will appear as follows LES File Name 0001 TEST 0002 JA 0003 DEMO 0004 New File Save Save As Delete Load New File From the File Setup screen press the New File soft key The Create File screen will now be displayed For a detailed description of creating a new file refer to the section 4 5 Setting Up a Test The Create File screen will appear as follows 54 reece Caps Lock Symbol Key File Name sequence 2m Save To save a file with its current name press the Sa
162. gnals The different states of the Fail and Pass signals are described in the truth table below FAIL PASS CONDITION 0 0 After RESET is pressed 0 1 Pass 1 0 Fail 1 1 Processing 0 OPEN 1 CLOSED For questions related to the standard configuration of the PLC remote please refer to section 6 Connection of Remote I O The following Test Parameter Editing GPIB commands may be used to control the memory send selection COMMAND NAME TEST TYPES VALUE 136 d ASSOCIA wey RESEARCH INC COMMAND NAME TEST TYPES VALUE EPM n n 1 3 E PLC RUN 1 M1 2 M2 3 M3 EPM Memory Send LLT The ADD command can also be used The memory selection should be inserted as the last parameter and should use full text as indicated on the LCD screen such as M1 or M2 05 7 Memories Remote Send Models 8206 8207 8256 8257 This option provides a dedicated signal output connector that is added to the rear panel of the LLT card The new signal output connector can be used to control a compatible device such as an Associated Power Technologies APT AC power source The output is a 3 bit digital control signal that is menu selectable at the Run Test or LLT parameter screen This option is provided with a cable which is designed to interconnect the OMNIA II LLT card 9 pin output to the APT power source Remote 1 O input This cable part number 38772 is a standard 9 pin female to 9 pin male When using this
163. ha numeric keypad to add a User ID The User ID is limited to 8 characters Once the User ID parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new User ID or the EXIT key to escape from the edit and delete the User ID Password Each User ID must have a password associated with it To enter a Password use the up and down arrow keys to select the Password parameter Use the alpha numeric keypad to enter a password The password is limited to 8 characters Once the password is entered it is necessary to complete the edit either by pressing the ENTER key to accept the new password or the EXIT key to escape from the edit and delete the password 41 ss i w J RESEARCH INC Confirm Password In order to complete the password entry the password must be confirmed by retyping the password into the Confirm Password parameter To confirm the password use the up and down arrow keys to select the Confirm Password parameter Use the alpha numeric keypad to retype the password Once the password is entered it is necessary to complete the edit either by pressing the ENTER key to accept the new password or the EXIT key to escape from the edit and delete the password NOTE Once the ENTER key is pressed the User ID will be set Edit the Security Level parameter prior to confirming the password Security Level From the Add User screen press the Security Level soft key As the soft ke
164. he EMC Directive 8 336 EEC The technical file and other documentation are on file with Associated Research Inc Le Buus Joseph Guerriero Vice President General Manager Associated Research Inc Lake Forest Illinois USA June 29 2012 TABLE OF CONTENTS TEINTRODUCTIONS 3G aa aa on ae a as 1 1 1 Warranty PONGCIGS lt 2 a siiacstanceayseiency Rm scnennivneg ais dueee dence ebeen tesa 1 LEZ OAS SVIMDOI See eiea n a A R 3 1 2 1 Product Marking Symbols sii525 s2sccesdeaseasieauadseadabaosedsanadaerdaniagseraanccees 3 1 2 2 Caution and Warning SymbolsS s ssssesseseeseeseesesssssessesresreseesesse 3 1 3 Glossary of Terms ereenn a R TRR RE RRE R 3 tA Sally a insa a a a A A 5 1 4 1 Service and Maintenance sessessesseesessessesreseesesessessesreseeseesessesse 5 142 Test Operator coren enira ae aaa el avec Mea AAEE 6 1 5 Key Features of OMNIA acc cue iin mania anaes 8 2 GETTING STARTED sii vies sacciccissscicctsesisactcotessoanstenisscasiuestsssebiebsesnaacisorenasbcevineras 9 2 1 Unpacking and Inspection i ciaicscecassanicatreadiaacartadeniadeiaake aside teas 9 ZA 2 PACKAQIING ssvsias vices seas venti annann i a e a anes tees 9 2 1 2 Contents Of the Carton rn sidccarssicctucssdiccveantelesaradvancaie eae 9 2 1 3 Returning the Instrument for Service or Calibration 10 Zee ING LANL OM ia io4 ca ateegcadenacaradtn ase E E S E caress 11 22 1 WOK AGa BR Re eC R CTT aE TERENCE a A
165. he screens and parameters that are associated with the Edit soft key on this screen please refer to section 4 4 Test Parameters 4 3 4 Delete From the Setup Tests screen use the up and down arrow keys to scroll the highlighted area to the step you wish to delete While pressing the Delete soft key a pop will appear to confirm the step deletion 52 Bocca m 10001 ACW Stings 1240V 10 0 ball You are about to delete this step Press ENTER to confirm and delete the selected step or EXIT to cancel and return to the Setup Tests screen 4 3 5 Prompt The Prompt function allows you to insert a short line of text in a step The Prompt will appear on the screen before the step is initiated and remain on the screen until the TEST button is pressed After the TEST button is pressed the Prompt will clear and the step will initialize Use the up and down arrow keys to scroll the highlighted area to the step where you would like to insert the text prompt and press the Prompt soft key The Prompt screen will now be displayed The Prompt screen will appear as follows Caps Lock on gt Symbol Key gt CONNECT DUTE 53 gt ASSOCIATED RESEARCH INC To enter a text prompt use the alphanumeric keypad At the text prompt edit the letter or symbol will be inserted at the point where the cursor is flashing The cursor will then increment to the next position and wait for an additional character insertion I
166. he user decides to re scan barcodes when the Barcode P setting is set to SER PROD the Data Storage Card will first replace the data in the Serial Number field and if the user re scans another barcode the Data Storage Card will replace the data in the Product Number field The RUN FILE selection gives the user the ability to automatically load and execute a test file based on what barcode is scanned from the Perform Tests screen Using the RUN FILE feature will enable the instrument s output once the barcode is scanned Do not touch the DUT at any time when using this feature in order to avoid potential shock or serious injury To completely enable this feature the user must name the desired test file for a particular product the exact alpha numeric code that is on the product s barcode label For example if Product A has barcode 123456789 then the test file that the user would like to run when testing Product A should be named 123456789 Upon scanning the barcode the OMNIA II will immediately execute the test associated with that barcode The test file name is limited to 10 characters However if the user names a test file with the maximum 10 characters this function will still initiate a test when a product s barcode begins with those first 10 146 Dassen characters even if the barcode has more than 10 characters When using certain features of barcoding the OMNIA Il s response to the TD and RD x commands w
167. hen the power supply Enter Standard Current to the DUT I P input and meter are connected Reading Connect a standard press TEST to start the current meter to the DUT calibration process outputs from L to G Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD V Offset The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Disconnect power to the When the leads are Automatic Calibration DUT I P input disconnected press TEST Processing to start the calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active This calibration is automatic and does not require data entry 195 lt gt assocuten 7 RESEARCH INC Calibration of LLT MD Volts DC x 0 1 The load meter screen and prompt screens will contain the following text for this calibration point Upper Righ
168. hstand Parameter Setting screen will appear as follows 66 AC WITHSTAND Voltage EA Arc Sense 5 Frequency 60Hz gt sth ua ee an a Ramp Up Offset Dwell Time Ramp Down Defaults More gt Step Name gt Range Voltage OV 5000V From the AC Withstand Parameter Setting screen the following parameters may be controlled Voltage HI Limit Total LO Limit Total Ramp Up Dwell Time Ramp Down Arc Sense HI Limit Real LO Limit Real Offset Frequency Arc Detect ON OFF Step Name Scanner Channel Defaults and More Pressing the More soft key will display the additional parameters Continuity selection DC continuity or OFF and Select Meter 4 5 2 DC Withstand From the Setup Tests Selection screen press the Add soft key The test types soft keys will now be displayed Pressing the Dielectric Withstand soft key will display the AC Withstand and DC Withstand soft keys Press the DC Withstand soft key The DC Withstand Parameter Setting screen will now be displayed The DC Withstand Parameter Setting screen will appear as follows 67 DC WITHSTAND Voltage Charge Lo Ramp HI oFF b Hl Limit 10000uA Arc Sense EE Arc Detect gt LO Limit Offset 0 0uAl Continuity oFF gt Ramp Up 0 4s J Dwell Time Step Name p gt Rame Down 0 08 Range Voltage 0V 5000V From the DC Withstand Parameter Setting screen the following par
169. ibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of Run Test Power The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Set DUT I P voltage to When the load is Enter Standard Power 220VAC Connect a 250 connected press TEST to Reading load Connect power start the calibration meter in series with the process DUT 194 e ASSOCIATED RESEARCH INC Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of Run Test Leakage The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 18 VAC supply W
170. iefly show the word READING and then the display the new value The new value is automatically updated in the field and does not allow an escape to the original value or that the ENTER key be used to accept the new parameter 4 5 4 Continuity and Ground Bond The Continuity test is generally used to test the ground conductor of a line cord Ifthe resistance exceeds the HI Limit trip point or drops below the LO Limit trip point the OMNIA II will signal a continuity failure NOTE When testing products with two pronged plugs do not activate the continuity circuit When the Ground Bond test is selected on the OMNIA the High Current will be applied through the Current lead and flow back through the Return lead The resistance is measured and compared to the HI and LO Limit trip points stored in memory 4 5 5 AC Ground Bond From the Setup Tests Selection screen press the Add soft key The test types soft keys will now be displayed From the Setup Tests Selection screen press the AC Ground Bond soft key The Ground Bond Parameter Setting screen will now be displayed The Ground Bond Parameter Setting screen will appear as follows 70 From the Ground Bond Parameter Setting screen the following parameters may be controlled Current Voltage HI Limit LO Limit Dwell Time Offset Scanner Channel Frequency DualCHEK Step Name and Defaults Offset This function allows the instrument to compensate for lead and test
171. iguration Setting When the Neutral or Ground relays are set to the CLOSED position they are in a normal operating condition When the Neutral or Ground relays are set to the OPEN position they are in a fault condition that represents a fault in the line input wiring When the REVERSE relay is set to ON the relay is in position B refer to Figure above and the Line and Neutral conductors are reversed at the DUT power outputs The power output is represented as the power receptacle in Figure 2 The three relays may be configured into eight different combinations of Line conditions The different combinations are represented in the table below 77 NEUTRAL REVERSE GROUND Relay Fault oft key Relay Fault Relay Fault Soft Soft key key No Open Yes Yes Open Yes No No o o S Yes ON B pen Yes ON B Closed OFF _ A No Open_ Yes B Yes Open_ Yes A No Closed _ No ON Closed N Closed No ON Probe Configuration The Probe configuration is controlled by the relays SH and SL shown in Figure 2 and are set by the Probe soft key These two relays configure the current measuring device into three possible positions Repeatedly pressing the Probe soft key allows the selection of the three different states The three positions are described in the table below Closed ON No MEASURING SH SL DISPLAY AGENCY TEST DEVICE POSITION INDICATION APPLICATION Ground to Line Ground to Line
172. ill differ slightly to an OMNIA II with the standard RS232 interface For all types of tests ACW DCW IR GND CONT LLT RUN two fields are added to the end of the standard response when the Barcode I P setting is set to SERIAL PRODUCT or SER PROD The first field contains the Serial Number information and the second field includes the Product Number information Both fields are included regardless of which of these three modes are selected The Data Storage Card will simply substitute a O for the field if it is not applicable to the setting For example if a user had their Barcode I P setting set to SERIAL and scanned a Serial Number with the value 123456789 the TD response for an ACW test could be 01 ACW Pass 1 24 1 000 0 900 1 0 123456789 0 Note that there is a 0 in the Product Number field because the Barcode I P setting is SERIAL When the Barcode P setting is RUN FILE or OFF these fields are not included in the TD and RD x responses Operation The Data Storage Card Results menu can be viewed by pressing the Results soft key while in the Perform Tests Screen After doing so the following menu will be shown RESULTS MENU File Name 0009 XATS Pressing the soft key labeled Instrument will display the detailed results from the previously executed test file Pressing the soft key labeled Data Card will display the Data Storage Card Results menu as shown below 147 BATA ORRE RESULTS 01 AC
173. ilure to do so could cause the instrument to overheat and may damage internal components Storage and Shipping Environment This instrument may be stored or shipped in environments with the following limits Temperature 40 167 F 40 75 C AltitUd cceeeeeeseeeees 50 000 feet 15 240 meters The instrument should also be protected against temperature extremes that may cause condensation within the instrument Failure to operate this instrument within the specified conditions CAUTION could result in damage More Information For more information on test operator and workstation safety please visit the Events and Training section of our website at http www asresearch com events training Default aspx Dasg 0 3 SPECIFICATIONS AND CONTROLS M 3 1 OMNIA II Functional Specifications INPUT Voltage 115 230V auto range 15 variation 50 60 Hz 5 115 VAC 230VAC 10A Slow Blo 250VAC DIELECTRIC WITHSTAND TEST MODE Output Rating 5KV 50mA AC 5KV 100mA AC Models 825x 6KV 20 mA DC Voltage Setting Range 0 5000V AC 0 6000V DC Resolution 1V Accuracy 2 of setting 5 volts Voltage Display Range 0 00 6 00KV Full Scale Resolution 0 01 KV Accuracy HI and LO Limit AC Total Range 0 000 9 999mA Resolution 0 001mA Range 10 00 50 00mA 100 00mA Models 825x Resolution 0 01mA Accuracy 2 of setting 2 counts AC Real Range 0 000 9 999mA Resolution
174. in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts DC x 64 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 125VDC and a When the power supply Enter Standard Voltage voltmeter to Probe HI and meter are connected Reading and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button 197 lt gt assocuten 7 RESEARCH INC Calibration of LLT MD Volts DC x 256 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 032VDC and a When the power supply Enter Standard Voltage voltmeter to Probe HI and meter are connecte
175. ion number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of DC 20mA Range The load meter screen and prompt screens will contain the following text for this calibration point 189 a gt ASSOCIATED 7 RESEARCH INC Upper Right Screen Load Meter Lower Right Screen Prompt Lower Right Screen Prompt Cal Active Connect the 100KQ load in series with the 20mADC standard current meter from H V to Return When the load is connected press TEST to start the calibration process Enter Standard Current Reading Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of DC 3 5mA Range The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Load Meter Lower Right Screen Prompt Lower Right Screen Prompt Cal Active Connect the 100KQ load in series with the 3 5mADC standard current meter from H V to Return When the load is connected press TEST to start the calibration process Enter Standard Current Reading
176. izes a set of closed contacts to enable the instrument s output If the Remote Interlock contacts are open the output of the instrument will be disabled Remote Interlock can also be referred to as a remote system lockout utilizing fail when open logic To disable the Remote Interlock feature connect the Interlock Key into the Signal Input port located on the back of the tester 5 1 4 DUT Input Voltage Connections for Models 82x6 and 82x7 An unbalanced single phase supply must be used with the OMNIA This means that there is only one HOT or LINE conductor and the other conductor of the power source 89 P ASSOCIATED __ RESEARCH INC must be at a low voltage reference potential The low voltage reference does not need to be physically earth grounded but should not carry any large voltage potential The 220 240V US style line power IS NOT suitable to connect to the DUT inputs This style of power distribution is a balanced type with two HOT or LINE conductors Be sure that the hot lead of the power source is connected to pin 1 L line terminal of the DUT input connector and the return or low voltage lead is connected to pin 2 N neutral terminal of the DUT input connector DO NOT connect a line conductor to the N or Neutral terminal of the DUT inputs This condition can be very dangerous to the OMNIA user If voltage is applied to pin 2 N neutral terminal of the DUT input and you attempt to execute a Run Test or Lin
177. l detectors are not working properly the TEST button will illuminate and the following pop up message will appear over the metering screen IR HIPOT VERIFY 0001 CONT Settings 1 0s Dye 4 Verification Error IR failure not detected Check connections or call AR local distributor Press RESET to return to menu Dagegen 0 10 CALIBRATION PROCEDURE RI You will find in this manual a copy of the DID YOU KNOW Certificate of Calibration It is recommended that you have this instrument recertified at least once This instrument has been per year Associated Research Inc recommends fully calibrated at the factory you use Calibration Standards that are NIST in accordance to our traceable or traceable to agencies recognized by published specifications and NIST to keep this instrument within published with standards traceable to specifications Unless necessary do not the National Institute of recalibrate the instrument within the first 12 Standards amp Technology months NIST End user metrology standards or practices may vary These metrology standards determine the measurement uncertainty ratio of the calibration standards being used Calibration adjustments can only be made in the Calibration mode and calibration checks or verifications can only be made while operating in Test mode NOTE Verification should be performed before and after calibration Calibration effects will only be noticeable after exiting calibr
178. lace the data in the Product Number field The RUN FILE selection gives the user the ability to automatically load and execute a test file based on what barcode is scanned from the Perform Tests screen In order for this feature to work the user must name the desired test file with the exact alpha numeric code that is on the product s barcode label For example if Product A has barcode 123456789 then the test file that the user would like to run when testing Product A should be named 123456789 When the product s barcode is scanned the OMNIA will immediately execute the test associated with that barcode The test file name is limited to 10 characters However if the user names a test file with the maximum 10 characters this function will still initiate a test when a product s barcode begins with those first 10 characters even if the barcode has more than 10 characters Using the RUN FILE feature will enable the instrument s output once the barcode is scanned Do not touch the DUT at any time when using this feature in order to avoid potential shock or serious injury When using a barcode scanner the OMNIA II s responses to the TD and RD x commands will differ slightly from an OMNIA II with the standard RS 232 interface For all types of tests ACW DCW IR GND CONT LLT RUN two fields are added to the 170 a 4 2 ASSOCIATED 9 RESEARCH INC end of the standard response when the Barcode P setting is
179. latile Memory The instrument saves or deletes each parameter in non volatile memory when the file save FS file save as FSA file new FN and file delete FD commands are used to save create and delete the files The non volatile memory has a limited write cycle life Therefore for programmers who wish to send all parameters before executing each test the following commands should not be used FS File Save FSA File Save As FN File New FD File Delete The parameters will be stored in the CPU s Random Access Memory RAM until another memory location is selected However settings written to RAM from GPIB USB RS 232 mode will be lost when power is shut down Parameter changes to RAM are unlimited and will not affect the life of the internal non volatile memory chip A flowchart for an example program is shown on the next page This flowchart exhibits how a program could be written to minimize wear to the write life cycle of the non volatile memory First the FN command is used to create a blank file In this case the file is named TEMP This file is then stored into the memory of the 620L When the sequence needs to be recalled the FL File Load command is used to recall the TEMP file This creates a blank test sequence and steps can be added as necessary Then the steps are added to the file via the ADD command and the sequence is executed Programming in this fashion the FN comman
180. le Name 0003 DEMO 93 V RESEARCH INC The Results screen will appear as follows Sei ase 0002 ACW Settings 1240V 10 00mA 5 0s 0 000mA Voltage Ee y Pee 24w File Name 0003 DEMO Using the up and down arrow keys scroll the highlighted area to the step results you wish to review The left and right arrow keys may be used to page through results if the test contains more than five steps When the highlighted area is on the step you are reviewing the test settings will be displayed in the highlighted area and the results will appear on the right in the form of metering screens The result screens will appear differently for each type of test The results screens are based on the Performing Tests metering screens and are identical in appearance except for the title Refer to section 5 4 Perform Tests Metering for the meters that will be displayed 5 3 Performing a Test 1 As instructed in section 4 2 System Setup select a memory and step that is suitable for the test you would like to perform 2 Attach the appropriate DUT to the instrument refer to section 5 1 Instrument Connections 3 Press the TEST button 4 The instrument will now perform the test or connected sequence of tests If the test is started from any other step than 01 the instrument will return to the originally selected step when you push RESET or TEST buttons 94 esses 5 Ifa Prompt is embedded within a step the test will pause
181. libration of DC Continuity The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Load Meter Lower Right Screen Prompt Lower Right Screen Prompt Cal Active Step 1 Short the Current and Return leads together When the leads are shorted press TEST to start the calibration process Automatic Calibration Processing Step 2 Connect the standard 10Q load from Current to Return When the load is connected press TEST to start the calibration process Automatic Calibration Processing Step 3 Connect the standard 100Q load from Current to Return When the load is connected press TEST to start the calibration process Automatic Calibration Processing Step 4 Connect the standard 1000Q load from Current to Return When the load is connected press TEST to start the calibration process Automatic Calibration Processing Step 5 Connect the standard 10000Q load from Current to Return When the load is connected press TEST to start the calibration process Automatic Calibration Processing Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active This calibration is automatic and does not require data entry 193 lt gt ASSOCIATED 7 RESEARCH INC Calib
182. load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the power supply Enter Standard Current voltmeter 277VAC from and meter are connected Reading output L to N press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button 207 DW assocure 11 REPLACEMENT PARTS LIST M Rev F 10 29 12 ECO 5587 PART QTY REF DESCRIPTION NUMBER DESIGNATOR Supplied Accessories 38788 2 3U Rack Mount Bracket 38787 2 3U Rack Mount Handle 38549 4 Screw for Rack Mount Handle 38503 1 Fuse 10A 250V Slow Blow 20mm 04040A 08 1 High Voltage Cable 39066 1 USB Cable AB Type 1 8m 33189 1 Cable Input Cordset USA 38075 1 Interlock Connector 38482 1 Adapter Box 0404A 08 1 3 High Voltage Cable 3 for 8206 07 56 57 CBLHC40 1 Case wire for 8206 07 56 57 10TL 38489 1 Cable Assembly High Current Output 38490 1 Cable Assembly High Current Return Panel
183. log IC ATF16V8B 20PIN PLCC Board For safety tester interconnect cables refer to Section 5 1 Instrument Connections Daggar 12 SCHEMATIC INDEX M DRAWING DESCRIPTION REF PAGES NUMBER DESIGNATOR Soes werape O e Saor ieaoo mero 6 210 fassent 13 APPENDIX A M These are additional specifications for the OMNIA II for the AC and DC filtering LEAKAGE LIMIT SETTING Touch Current High Limit AC DC Range 0 0uA 999 9UA 1000uA 10 00mA Resolution 0 1uA 1UA 0 01MA Touch Current Low Limit AC DC Range 0 0uA 999 9UA 1000uA 10 00mA Resolution 0 1uA 1uA 0 01mA Touch Current High Limit AC Only Range 0 0uA 999 9UA 1000uA 10 00mA Resolution 0 1uA 1UA 0 01MA Touch Current Low Limit AC Only Range 0 0uA 999 9UA 1000uA 10 00mA Resolution 0 1uA 1uA 0 01mA Touch Current High Limit DC Only Range 0 0uA 999 9UA 1000uA 10 00mA Resolution 0 1uA 1UA 0 01MA Touch Current Low Limit DC Only Range 0 0uA 999 9UA 1000uA 10 00mA Resolution 0 1uA 1uA 0 01mA Touch Current High Limit Peak Range 0 0uA 999 9UA 1000uUA 10 00mA Resolution 0 1UA 1UA 0 01mA Touch Current Low Limit Peak Range 0 0uA 999 9UA 1000uUA 10 00mA Resolution 0 1UA 1UA 0 01mA 211 A 2 ASSOCIATED 9 1 RESEARCH INC DISPLAY AUTO
184. mA 20 00mA 0 0uA 32 0UA 1MHz frequency 15Hz Resolution 0 1uA Base Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 2 7 8UA 130 0UA 1MHz frequency 15Hz Resolution 0 1uA Base Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 3 31 5uA 525 0uUA 1MHz frequency 15Hz Resolution 0 1uA 216 Base Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA Range 4 126 0UA 999 9UA 1000UA 2100uA frequency 15Hz 1MHz Resolution 1uA Base Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHZz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0UA 999 9UA 504uA 999 9uA 1000UA 8400uA Pangea frequency 15Hz 1MHz Resolution 1uA 15Hz lt f lt 30Hz 3 of reading 5counts lt 4190 Base Accuracy A i lt 100KHz 2 of reading 100KHz lt f lt 1MHZ 5 of reading 10 0uA 999 9uUA a D ASSOCIATED RESEARCH INC Range 6 600uUA 8399UA 8 40m
185. meters will be displayed for each of the different test types METERING SCREENS 8204 8206 8207 TEST TYPE CURRENT T CURRENT R VOLTAGE TIME RESISTANCE AC X X X X Withstand DC X X Withstand IR X XXIX Xx gt lt gt lt X lt Continuity Ground X Bond ADDITIONAL METERING SCREENS MODELS 8206 8207 TEST TYPE VOLTAGE CURRENT POWER TIME PF LEAKAGE Run Test X xX X Xx X X ADDITIONAL METERING SCREENS MODELS 8206 8207 TEST TYPE VOLTAGE LEAKAGE TIME MD VOLT l MAX Line Leakage X X X X X The meter layout on the Perform Tests screen can be customized to show the most relevant information in the larger meter windows Please refer to Section 4 Programming Instructions for more information 5 5 Displayed Messages Directly above the Metering screens is the Test Status display This portion of the display is active during the test and allows you to view the type of test being performed and status of the test step At the end of a test the Test Status display will either inform you that the test has passed or give a direct indication of the kind of failure that occurred during the test The following is an example of the Test status display 96 PERFORM TESTS 0 5 000mA 0003 IR Settings PO cL IMC 1000V 0 00M 10s 0 05Mo al OY ee h 1 24 n kV Os 0005 DCW Settings Vv 300 0a aop oe Real Current US 4 0006 CONT Settings Total Current 0 000 ma 10s
186. ministrator Please have your network administrator fill out the required information on the next page and keep it for your records 159 ay 2 ASSOCIATED RESEARCH INC Associated Research Inc Ethernet Card Communications Information To be completed by Network Administrator Ethernet Card Address Device Name Device IP Address Gateway IP Address Subnet Mask 160 Qf Saving New Settings Any time the user edits one of the Ethernet Card parameters and exits the Ethernet Card Settings menu the following message will be displayed ETHERNET CARD Manual 25972597 2090F OMNIA 2 OMNIA The Ethernet Card will attempt to re establish a connection with the server anytime the user modifies a parameter and exits the Ethernet Card Parameters Menu or uses the command set at the end of this option description Thus if the IP Setup is set to AUTO the Ethernet Card will request a new IP Address every time a parameter is edited and as a result the Requesting IP Address message will appear Power Up The Ethernet Card will be installed with the default options listed above After the OMNIA II initially powers up the following pop up message will appear 161 Requesting IP Address Press EXIT to cancel IP request nrormation gt Functional Verification gt OMNIA II 8204 NOTE The Requesting IP Address pop up message only appears at power up when the Etherne
187. n Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD IEC 60990 Fig4 U2 Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe press TEST to start the LO calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the
188. n the 4 5 2 DC Withstand and 4 5 3 Insulation Resistance parameter sections of this manual Offset This function allows the instrument to compensate for lead and test fixture resistance during a Ground Bond or Continuity test A description of how to set up this parameter is given in the 4 5 4 Continuity and 4 5 5 Ground Bond parameter sections of this manual Frequency This parameter is available in AC tests only and is selectable using a soft key between 50 and 60Hz Continuity in ACW and DCW This function checks for a connection between the current and return lead This is a basic DC continuity check and will not disclose a Continuity value Continuity may be selected ON or OFF using a soft key in the ACW and DCW parameters Scanner Setup This parameter will only be seen on units equipped with a scanner This parameter allows for set up of the Scanner channels The three different selectable scanner states are L scanner channel set to the return point H scanner set to the high voltage point and O OFF AC Source This parameter is available in Line Leakage and RUN testing and is used to enter the menu to control the AC Source s test parameters The AC Source s test parameters include Voltage Frequency A Hi current high limit Output N G Voltage Range and OC Fold Continuous When active the Continuous feature keeps the DUT powered from one Line Leakage test to another from one Functional Run test to another
189. n 0 5 seconds to activate the test process The two test switches must remain closed to continue the test If either of the test switches is released the process will be shut down immediately The functions of the Test and Reset switches on the front panel will be disabled if the dual test switches are enabled When the Dual Test parameter is turned OFF the Test and Reset switches on 134 ASSOCIATED RESEARCH INC the front and rear panel behave the same as the standard instrument and are controlled by the PLC Remote On Off selection 04 3 Memories Remote Send Models 8206 8207 8256 8257 With this option installed the PLC remote signal output has been reconfigured to provide a 2 Bit digital control signal that is menu selectable from the Run Test or LLT parameter screen In this configuration the PLC remote signal output may be used to control a compatible Associated Power Technologies APT AC power source This option is provided with a cable which is designed to interconnect the OMNIA II PLC output to the APT power source Remote I O input This cable part number 38774 is custom and can only be purchased from Associated Research When using this option with an APT power source be sure to power up the OMNIA II first and then power up the AC power source When powering down the instruments power down the AC power source first and then power down the OMNIA II The OMNIA II is in an undetermined state without power and ma
190. n ASCII 1 after the command is executed WAI After the command is executed it prevents the instrument from executing any further query or commands until the no operation pending flag is TRUE PSC 1 0 Sets the power on status clear bit When set to 1 the Standard Event Enable register and Status Byte Enable registers will be cleared when power is turned ON 0 setting indicates the Enable registers will be loaded with Enable register masks from non volatile memory at power ON PSC Queries the power on status clear setting Returns 0 or 1 ESR Queries the Standard Event register Returns the decimal value of the binary weighted sum of bits ESE lt value gt Standard Event enable register controls which bits will be logically OR d together to generate the Event Summary bit 5 ESB within the Status Byte ESE Queries the Standard Event enable register Returns the decimal value of the binary weighted sum of bits STB Read the Status Byte Returns the decimal value of the binary weighted sum of bits SRE lt value gt Service Request enable register controls which bits from the Status Byte should be use to generate a service request when the bit value 1 SRE 127 associate L RESEARCH INC Queries the Service Request enable register Returns the decimal value of binary weighted sum of bits 7 4 8 Status Reporting The status reporting system is a way of determining the condition of the tes
191. n a remote reset switch is connected so that high voltage can be shut down from either location Research Inc for more information The Remote File Select function gives the user the capability to quickly change 103 A DT ASSOCIATED RESEARCH INC parameters and initiate a test remotely Ten pre programmed test files can be accessed by connecting pins 1 6 8 and 9 to the common pin 7 in different combinations The memory select bits should be set simultaneously and remain set for a minimum of 20ms to guarantee that the correct memory will be selected However the memory select bits may be set in sequential manner provided that the time delay between each bit is less than 4ms When the desired bit pattern has been established it should remain set for a minimum of 20ms to guarantee that the correct memory will be selected The Remote File Select Truth Table binary shows the different combinations of momentary switch relay closures and which memory programs that will be selected as the result It may be necessary to OR the momentary switches relay contacts to prevent incorrect program selection due to timing errors REMOTE FILE SELECT TRUTH TABLE BIT 4 BIT 3 BIT 2 BIT 1 FILE 0 0 0 1 01 0 0 1 0 02 0 0 1 1 03 0 1 0 0 04 0 1 0 1 05 0 1 1 0 06 0 1 1 1 07 1 0 0 0 08 1 0 0 1 09 1 0 1 0 10 1 Momentary Contact closure between BIT and COMMON 0 No Contact closure betw
192. n aiaa rer etter Perr rere tert er rer vere terete 58 EE eee ner ener E ONCE ELT ONE ELT Ome E eau nem wre enw Tre teen mer Tema rr 172 Unpacking e Pm ae ee rer er ry Ae oer ree emer ee ee 9 Verification c cee cceeeeeeeeeeeeeeeeeeee 80 84 172 173 174 175 176 177 178 179 180 AG HPO laerent neire en a Ea e EAr Ea A Eae E Ern 176 CONUNUNY seie n a A E NE eae eed E E A S 172 BISA TAD ON E E 177 Ground MN esninnannnnnnenannnninn ne i a pee ease dee eee 174 Re e a e E A E ene 179 Wanane ces ace sats cs ce rec azn EEEE eae pes ae aon oa 1 2 181 Warranty Policies asso tas cess ses accopsnncn desta sucsccensadsdess ddsaeceecdeaesnsy sags ueausscespeameesnaedeaedeesiee 1
193. nd NOTE Due to increased leakage caused by the high frequency output of the 400 800 Hz waveforms the SmartGFl feature may return a false failure at low settings Increasing the level of the SmartGFI detection parameter may be required NOTE 500VA models 8256 8257 may produce false arc failures at 800 Hz In order to prevent false failures please set the Arc Level to 7 or less at output current levels gt 50mA 15 3mA Output Option The 3 mA AC and DC Output option limits the Dielectric Withstand Test Mode output current with software control The trip points are adjusted to a maximum of 3 mA and the software has been modified so the high speed maximum current shutdown is fixed at 3 mA The revised Dielectric Withstand Test Mode specifications are as follows INPUT Voltage 115 230V auto range 15 variation 50 60 Hz 5 115 VAC 230VAC 10A Slow Blo 250VAC DIELECTRIC WITHSTAND TEST MODE Output Rating 5KV 3mA AC 5KV 3mA AC Models 825x 6KV 3 mA DC HI and LO Limit AC Total Range 0 000 3 000mA Resolution 0 001mA Accuracy 2 of setting 2 counts AC Real Range 0 000 3 000mA Resolution 0 001mA Accuracy 3 of setting 50 uA Range 0 0 999 9uA Resolution 0 1uA Range 1000 3000uA Resolution 1yA Accuracy 2 of setting 2 counts 174 A 2 ASSOCIATED J RESEARCH INC NOTE The metering is capable of reading more than the output capacity of the inst
194. nd down arrow keys or the ENTER key scroll the highlighted area to the Offset parameter You may now manually or automatically set an Offset value To manually set an Offset value enter a milliohm value via the numeric keypad and then press the ENTER key to accept the new value or press the EXIT key to escape from the edit To automatically set an Offset value set the output voltage current and frequency to the values that will be used on the DUT and connect the test cables test fixture or Scanner channel to the instrument Next short the ends of the test cables and press the TEST button The highlighted parameter field will briefly show the word READING and then display the new value The new value is automatically updated in the field and does not allow an escape to the original value or require that the ENTER key be used to accept the new parameter 4 5 7 Functional Run Test Models 82x6 and 82x7 Associated Research recommends performing a Hipot test with the Fail Stop ON prior to performing a Run Test or Line Leakage test Performing a Hipot test first can detect if a DUT is shorted line to ground before applying line power to it From the Setup Tests Tests Selection screen press the Run Test soft key The Run Test Parameter Setting screen will now be displayed The Run Test Parameter 73 T RESEARCH INC Setting screen will appear as follows KUN TEST Voltage HI Leakage HI Voltage LO Leakage LO RN oF
195. nd put away It should be apparent to both the operator ESD TESTING and to any observers which product is under test Electrical safety tests which product is waiting to be tested and which should not be product has already been tested performed in or around ESD testing areas Power ESD methods should Power to the test station should be arranged so that it can be shut off by one prominently marked switch located at the entrance to the test area In case of an emergency anyone should be able to cut off the power before entering the test area to offer assistance not be employed during electrical safety testing as this could cause a hazardous condition for equipment and test operators More Information For more information on setting up a safe work station please visit the Events and Training section of our website at http www asresearch com events training Default aspx 1 4 3 Test Operator This instrument generates voltages and currents that can cause WARNING harmful or fatal electric shock and must only be operated by a skilled worker trained in its use The operator should understand the electrical fundamentals of voltage current and resistance Rules Operators should be thoroughly trained to follow all national safety standard guidelines for electrical safety testing in the workplace Defeating any safety system 6 n dD ASSOCIATED L RESEARCH INC should be considered a serious offense with severe
196. ng screen six different parameters may be accessed Smart GFI Continuity Scanner PLC Remote DUT HV Setup AC Source and Measurement The Hardware Setting screen will appear as follows 36 om IATED A soc wii RESEARCH INC HARDWARE Smart GFI PLC Remote gt Measurement gt Smart GFI 0 4mA 5mA O OFF Smart GFI Ground Fault Interrupt The high voltage power supply of the OMNIA is internally referenced to earth ground Since the leakage current measuring circuit of the instrument monitors only current that flows through the return lead the possibility exists for current to flow directly from the high voltage output to earth ground without being measured The SmartGFI Ground Fault Interrupt circuit monitors the current between the high voltage output and earth ground Therefore if the operator touches the high voltage lead and earth ground the instrument will detect this hazardous condition and shut off immediately SmartGFI goes beyond a standard GFI circuit by automatically determining the return configuration of the DUT grounded or floating and enabling or disabling depending on the situation When the OMNIA s Return lead is floating the SmartGFI circuit enables protecting the test operator from electric shock When the OMNIA s Return lead is earth grounded the SmartGFI circuit disables and the instrument operates in a grounded return mode of operation If the GFI were to remain active in this state the
197. ng the Fail Stop soft key Fail Stop is a parameter that is stored within the test file but may also be turned ON and OFF temporarily from the Perform Tests screen If security is enabled you may not turn Fail Stop ON and OFF using the Fail Stop soft key Fail Stop automatically defaults to the setting stored in the file when security is activated Fail Stop with Run and Line Leakage tests Associated Research recommends performing a Hipot test with the Fail Stop ON prior to performing a Run Test or Line Leakage test Performing a Hipot test first can detect if a DUT is shorted line to ground before applying line power to it 4 4 Test Parameters From the Setup Tests screen press the Add soft key The Test Selection screen will now be displayed From this screen you may choose what type of test to perform Dielectric Withstand Insulation Resistance AC Ground Bond or DC Continuity If you have model 8206 or 8207 you will have Line leakage and Run Test selections The Tests Selection screen will appear as follows Dielectric Withstand Insulation Resistance AC Ground Bond gt DC Continuity b 4 4 1 Description of Test Parameters Voltage The voltage that is applied to the high voltage and return terminals during a test Voltage HI The voltage high limit that will cause a failure if exceeded during a RUN test Voltage LO The voltage low limit that will cause a failure if not exceeded during a RUN test
198. nge 2 28 0mV 130 0mV DC Resolution 0 1mV Accuracy DC 2 of reading 3counts gt 10 0mV Range 3 120 0mV 525 0mV DC Resolution 0 1mV Accuracy DC 2 of reading 3counts gt 10 0mV Range 4 400mV 2100mV DC Resolution 0 1mV 1mV Accuracy DC 2 of reading 3counts gt 10 0mV Range 5 1800mV 8400mV DC Resolution imV Accuracy DC 2 of reading 3counts gt 10 0mV Range 6 8 00V 10 00V DC Resolution imV 0 01V Accuracy DISPLAY FIXED RANGE gt 6 OF RANGE Touch Voltage Display DC Only 232 Range 1 DC 5 of reading 0 01V 10 00V 0 0mV 32 0mV DC Resolution 0 1mV Base Accuracy DC 2 of reading 3counts gt 10mV Range 2 7 8mV 130 0mV DC Resolution 0 1mV Base Accuracy DC 2 of reading 3counts gt 10mV Range 3 31 5mV 525 0mV DC Resolution 0 1mV Base Accuracy DC 2 of reading 3counts gt 10mV Range 4 126 0mV 999 9mV 1000mV 2100mV DC Resolution imV Base Accuracy DC 2 of reading 3counts gt 10mV Range 5 504mV 999 9mV 1000mV 8400mV DC Resolution imV Base Accuracy DC 2 of reading 3counts gt 10mV Range 6 600mV 8399mV 8 40mV 10 00mV DC Resolution imV 0 01V Touch
199. ning a protective earth ground When the line cord is connected to an appropriate AC power source the cable will connect the chassis to earth ground The main plug shall only be inserted in a socket outlet with a protective ground earth contact This protective ground must not be defeated by the use of an extension cord without a protective conductor Return Connection When the instrument s return is grounded any internal and external stray leakage will be monitored due to currents that flow from high voltage to earth ground such as from high voltage to the chassis of the instrument These currents are inherent and will cause errors when trying to monitor very low leakage currents in the micoamp range The output power supplies of this instrument are referenced directly to earth ground Any conductor that completes a path between the high voltage and earth ground will form a completed circuit 11 gt SSOCIATED 7 RESEARCH INC 2 2 4 Environmental Conditions This equipment is intended for indoor use only The equipment has been evaluated according to Installation Category Il and Pollution Degree 2 as specified in IEC 664 This instrument may be operated in environments with the following limits Temperature cccccee 32 104 F 0 40 C Relative humidity 0 80 AltitUd ccccccssssseeees 6560 feet 2 000 meters NOTE Keep the ventilation slits uncovered during operation Fa
200. nstructions before operation The OMNIA produces l l voltages and currents that This product is a Safety Class instrument can cause harmful or fatal provided with a protective earth terminal electric shock To prevent Before applying power verify that the accidental injury or death instrument is set to the correct line voltage these safety procedures 115 or 230 and the correct fuse is must be strictly observed installed when handling and using the test instrument This product carries an NRTL Nationally Recognized Testing Laboratory and comes equipped with an audible and visual failure indicator 1 4 1 Service and Maintenance User Service To prevent electric shock do not remove the instrument cover There are no internal user SAFETY serviceable parts Routine maintenance or This instrument cleaning of internal parts is not necessary Avoid meets UL the use of cleaning agents or chemicals on the requirements for instrument as some chemicals may damage audible and visual plastic parts or lettering Any external cleaning failure indication should be done with a clean dry or slightly damp cloth Schematics when provided are for reference only Refer servicing and certification to an Associated Research Inc authorized service center ASSOCIATED RESEARCH INC PHONE 1 847 367 4077 13860 WEST LAUREL DRIVE 1 800 858 TEST 8378 LAKE FOREST IL 60045 4546 U S A FAX 1 847 367 4080 E MA
201. on Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active 200 e ASSOCIATED 9 1 RESEARCH INC Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC Peak x 16 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 5Vp AC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibration After the RMS value has been input the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC x 64 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Promp
202. on merchantability or fitness for a particular purpose are hereby excluded disclaimed and waived gt ASSOCIATED RESEARCH INC Operator Modifications Any non authorized modifications tampering or physical damage will void this warranty Elimination of any connections in the earth grounding system or bypassing any safety systems will void this warranty This warranty does not cover accessories not of Associated Research Inc manufacture Parts used must be parts that are recommended by Associated Research Inc as an acceptable specified part Use of non authorized parts in the repair of this instrument will void the warranty Associated Research Inc will not be responsible for any injuries sustained due to unauthorized equipment modifications or use of parts not specified by Associated Research Inc Instruments returned to Associated Research Inc with unsafe modifications will be returned to their original operating condition at the customer s expense gt ASSOCIATED RESEARCH INC 1 2 Safety Symbols 1 2 1 Product Marking Symbols Product will be marked with this symbol when it is necessary to refer to the operation and service manual in order to prevent injury or equipment damage Product will be marked with this symbol when hazardous voltages may be present Product will be marked with this symbol at connections that require earth grounding IH gt gt 1 2 2 Caution and Warning Sym
203. on point requires different loads standards and process As each point is selected the load meter screen and prompt screens will display the meter load and process information required to complete the calibration process for the selected point 187 ay J ASSOCIATED RESEARCH INC Calibration of AC Hipot Voltage The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard Enter Standard Voltage 5KVAC kilovolt meter voltmeter is connected Reading from H V to Return press TEST to start the calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of DC Hipot Voltage The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard Enter Standard Voltage 6KVDC kilovolt meter voltmeter is connecte
204. option with an APT power source be sure to power up the OMNIA II first and then power up the APT power source When powering down the instruments power down the APT power source first and then power down the OMNIA II The OMNIA Il is in an undetermined state without power and may cause inadvertent memory activation of the APT power source If you would like to operate the APT power source independently of the OMNIA II either disconnect the interface cable or disable the PLC remote on the APT power source The Remote Memories send signals are provided by three high voltage high current Darlington drivers These are open collector devices capable of sinking 350mA at voltages as high as 95 VDC With this option installed a new soft key selection will appear on the Run Test or LLT parameter screen In the LLT parameter screen it will be necessary for you to press the More soft key to access the PLC control parameter The new soft key called PLC Control will toggle between M1 through M7 when pressed Setting the PLC Control selection to M1 through M7 will create different digital states at Bit 0 Bit 1 and Bit 2 of the PLC Remote Signal Output refer to the PLC Signal Output drawing below The different states are described in the truth table below The Not used state is undefined and cannot be programmed for use 137 esses OMNIA LIT 9 PIN OUTPUT BIT 2 BIT 1 BIT 0 TEST VOLTAGE
205. otused f PAKS S e Query Error ABORT Device Error TESTIN PROCESS Execution Error _ Message Available MAV Command Error Event Summary Bit ESB Request Service RQS or not used Master Summary Status MSS PROMPT a STB SPOLL ESE SRE 128 a 4 2 ASSOCIATED 7 RESEARCH INC 7 4 9 GPIB Service Request The service request capability is not available with the RS 232 interface The SRQ line will be activated only after one or more of the service request functions have been enabled using the Status Byte Enable register command SRE The Status Byte bit assignments are as described in the previous section for status reporting When the instrument has requested service the enabled bit or bits and the RQS bit 6 will be active or 1 Bits 4 5 and 7 are not used and will be set to false or 0 for all Status Byte reads After the serial poll SPOLL is executed the RQS bit will be cleared to 0 and the remaining bits will remain unchanged The Status Byte will not change value until the Event register is read and cleared for the corresponding Status Byte bit For example after the All Pass SRQ has been enabled when the test s have finished with pass indications the instrument will set the hardware SRQ line and output the Status Byte of 41 hex This means that bit 6 and bit O are set to a value of 1 After reading the Status Byte the Status Byte value will change to 01 hex 7 5 Non Vo
206. ou wish to edit The parameter that is highlighted may now be edited refer to section 4 4 Test Parameters Enter anew number via the alphanumeric keypad Once you begin typing a new number the parameter will blank and the cursor will begin blinking This indicates that the parameter is being edited Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new number or the EXIT key to 63 N ASSOCIATED L RESEARCH INC escape from the edit and return to the original number 9 Press the EXIT key to Add this test to the sequence of tests The Setup Tests screen will now be displayed again this time with the new parameters 10 At this point you may add more tests to the sequence insert tests insert prompts perform the test sequence or store the sequence to the file name you created Test Parameter Notes Once you begin typing a new number the parameter will go blank and the cursor will begin blinking This indicates that the parameter is being edited Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new number or the EXIT key to escape from the edit and return to the original number The one exception to this rule is the Scanner parameter The Scanner parameter will not go blank when being edited When the ENTER key is pressed to accept a parameter change the instrument will automatically bring up the next Te
207. p Down 8 LO Limit T Arc Sense Charge LO LO Limit R Offset DUT Output 10 Offset Ramp HI Scanner 11 Frequency Arc Detect 12 Arc Detect Continuity ON OFF 13 Continuity ON OFF DUT Output 14 DUT Output Scanner 15 Scanner eJ XD CONT RUN LLT 1 Current HI Limit Voltage HI Leakage HlI 2 Voltage LO Limit Voltage LO Leakage LO 3 Hl Limit Dwell Amp HI Voltage HI 4 LO Limit Offset Amp LO Voltage LO 5 Dwell Scanner Dwell Time Dwell Time 6 Offset Continuity Delay Time Delay Time 7 Scanner Leakage HI Neutral OPEN CLOSED 8 Frequency Leakage LO Reverse ON OFF 9 Dual Chek Power HI Ground OPEN CLOSED 10 Power LO Meas Device UL544NP UL544P IEC60 601UL2601 UL1563 IEC60990FIG4 U2 IEC60990FIG5 U3 EXTERNAL Frequency Check 11 PF HI Probe Ground To Line Probe HI to Line Probe HI To Probe LO 12 PF LO Leakage Mode Peak RMS 13 Continuous Continuous 14 PLC Control AC DC Voltage 115 a J ASSOCIATED 7 1 RESEARCH INC 15 Frequency Ranging Mode 16 A Hi PLC Control Voltage 17 Output N G Frequency 18 Volt Range A Hi 19 OC Fold Output N G 20 Volt Range 21 OC Fold 22 Scanner Setup DUT Output is only a parameter in the ADD string if DUT HV ON in the system settings menu Scanner Setup is only a parameter in the ADD string if either a scanner is installed 8204 8254 w option 01
208. penalties Allowing unauthorized personnel in the area during a test should also be dealt with as a serious offense Test operators should be familiar with methods to properly discharge a device under test in case test leads become disconnected during testing Refer to the following standards for more information NFPA 70E OSHA 1910 subpart S EN50191 Dress Operators should not wear jewelry that could accidentally complete a circuit ESD protocols should not be observed while performing WARNING electrical safety tests Intentionally grounding the test operator could lead to a harmful or fatal electric shock Medical Restrictions Personnel with heart ailments or devices such as pacemakers should be informed that the voltages and currents generated by the instrument are very dangerous KEY SAFETY POINTS TO If contacted the instrument may cause heart related problems REMEMBER Please have the test operator consult Keep unqualified and a physician for recommendations unauthorized personnel away from the test area Arrange the test station in a safe and orderly manner In case of any problem turn off the high voltage first D faes 1 5 Key Features of OMNIA II COLOR TFT DISPLAY 800 x 480 color TFT display 80 larger than the OMNIA 1 series makes setting up test files viewing results and performing tests easier than ever Color coded test steps clearly indicate pass fail conditions Choose from 4 color schemes
209. pper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 30 0Vp AC When the power supply Enter Standard Voltage supply and a voltmeter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration After the RMS value has been input the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard 198 e ASSOCIATED 9 1 RESEARCH INC and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts AC x 1 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 5 0VAC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escap
210. quirements Details of the TVB 2 test file are as follows e Filename TVB 2 e Steps 20 steps e Tests performed Ground Bond Ground Continuity AC Withstand DC Withstand Insulation Resistance 4 3 2 Add From the Setup Tests screen press the Add soft key The Test Selection screen will now be displayed From this screen you may select what type of test you wish to add 51 Afaa to a test sequence Dielectric Withstand Insulation Resistance AC Ground Bond DC Continuity Run Test and Line Leakage The Test Selection screen will appear as follows E O EAEE SSS SETUP TESTS 4 Dielectric Withstand 0002 ACW Settings 1240V 10 00mA 1 0s 0 000mA Insulation Resistance DC Continuity 0004 File Name 0009 XATS Run Test H 0003 RUN Settings 125 0V 10 00A AC Ground Bond 10s 0 00A Line Leakage For a detailed description of how to set up a test sequence please refer to section 4 5 Setting Up a Test For a detailed description of the screens and parameters that are associated with test selection soft keys on this screen please refer to section 4 4 Test Parameters 4 3 3 Edit From the Setup Tests screen use the up down arrow keys and scroll the highlighted area to the step you wish to edit Press the Edit soft key The Parameter Setting screen for the type of test that is in that location will now be displayed The parameters for the test may now be edited For a detailed description of t
211. r this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the 100KQ load When the load is Enter Standard Current in series with the connected press TEST to Reading 50mAAC 100mAAC for start the calibration 500VA models standard process current meter Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of AC 3 5mA Range The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the 100KQ load When the load is Enter Standard Current in series with the connected press TEST to Reading 3 5mAAC standard start the calibration current meter process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibrat
212. rage Card results file for an arbitrary ACW test 00000001 06 14 06 08 26 TEST 1 8106 0120013 M01 S01 ACW Pass 1 24KV 0 004mA 0 000mA 1 0s The following table gives a description of each field for the above ACW test FIELD DESCRIPTION CONTENTS 00000001 Test Entry in Results File 06 14 06 Date of Test 08 26 Time of Test TEST1 Test File Name 8206 Model Number of Testing Unit 0120013 Serial Number of Testing Unit M01 Memory Number of Test File S01 Step Number 150 a D f ASSOCIATED RESEARCH INC FIELD DESCRIPTION CONTENTS ACW Test Type Pass Test Result 1 24KV Test Voltage 0 004mA DUT Leakage Current Total 0 000mA DUT Leakage Current Real 1 0s Test Dwell Time The first ten fields of the test result shown above are included in each test result regardless of the test type The remaining entries are specific to each test type The following table shows in order the information that will be included in each test type s result entry DCW IR CONT ce RUN LLT Test Test DUT Test DUT DUT Voltage Voltage Resistance Current Voltage Voltage oe DUT Test Dwell DUT DUT DUT Leakage Resistance Time Resistance Current l Pakage Current Current Test Dwell Test Delay Test Dwell DUT Teal Time Time Time Power Delay Time Test Dwell Time DUT Leakage Current DUT Power Factor NOTE If barcoding is
213. ration of Run Test Voltage The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Step 1 Disconnect power With the DUT I P input Automatic Calibration to the DUT I P input open press TEST to start Processing the calibration process Step 2 Connect 250VAC Press TEST to start the Enter Standard Voltage and a standard voltmeter calibration process Reading to the DUT I P input Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of Run Test Current The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Set DUT I P 120 277VAC When the load is Enter Standard Current Connect a 15 Amp load at connected press TEST to Reading DUT output in series with start the calibration current meter process Press the TEST button to activate the calibration After the cal
214. ress gt Test Result au D Serial Port oFF_ D Barcode I P __orr_ P OMNIA Il 8204 Results Limit The Results Limit allows the user to receive an alert message on the display of the OMNIA II when the total number of results saved on the Data Storage Card s internal Flash memory has exceeded the predefined limit This value can be set from the default value of 0 disables the function to 100 000 At the conclusion of a test file if the total results on the internal Flash memory exceed the Results Limit the following message will display 141 PERFORM TESTS 0001 ACW PASS 1 24kV 0 002mA Data Card Alert The number of results has exceeded the Results Limit Press ENTER to proceed and display this message again P EXIT proceed and disable this message v File Name 0001 TEST The message gives two options Pressing Enter will clear the message and display it again at the end of the next test file execution Pressing Exit will clear the message and not display it again unless the unit is re booted or the user deletes all previous results and the total results are exceeded once more Time Limit The Results Limit allows the user to receive an alert message on the display of the OMNIA II when any of the results saved on the Data Storage Card s internal Flash memory are older than the predefined setting The Time Limit can be set to its default value of 0 days function is disabled
215. ress the Symbol Key soft key While pressing the Symbol Key soft key the symbol values will toggle between _ and When you have finished editing the file name press the ENTER key From the Setup Tests screen press the Add soft key The Test Selection screen will now be displayed From this screen you may choose what type of test to perform Dielectric Withstand Insulation Resistance AC Ground Bond or DC Continuity From the Test Selection screen press the soft key next to the type of test you wish to add to the test sequence If you press the Dielectric Withstand soft key the AC Withstand and DC Withstand test soft keys will be displayed Press the AC Withstand or DC Withstand soft key to choose a dielectric withstand test type The Parameter Setting screen for the type of test you have chosen will now be displayed From Parameter Setting screen you may set your own custom parameters for the test or choose the defaults from the soft key menu All of the individual parameters for the test may be accessed using the up and down arrow keys and the ENTER key As the arrow keys are pressed the highlighted area will scroll to the different parameters The ENTER key may also be used to scroll to the different parameters At the bottom of the screen is the Scanner Setup parameter for a detailed explanation of how this feature works refer to the section 5 1 5 Scanner Connections Scroll to a parameter y
216. ressed The program will read the charging current of DUT and set the Charge LO current at approximately one half 1 2 of the reading The highlighted parameter field will briefly 68 lt gt assoc IATED l RESEARCH INC show the word READING and then the display the new value The new value is automatically updated in the field and does not allow an escape to the original value or require that the ENTER key be used to accept the new parameter Ramp HI The Ramp HI function is active during the Ramp period only Ramp HI will allow current higher than the normal HI Limit current setting of the DC Withstand test to avoid false failure due to charging current 4 5 3 Insulation Resistance From the Setup Tests Selection screen press the Add soft key The test types soft keys will now be displayed From the Setup Tests Tests Selection screen press the Insulation Resistance soft key The Insulation Resistance Parameter Setting screen will now be displayed The Insulation Resistance Parameter Setting screen will appear as follows y oo eS ee INSULATION R Votase E Ramo Down C 00s o Hi Limit _0 00Mo Charge Lo LO Limit Ramp Up WE Step Name p gt i Dwell Time Delay Time Defaults gt Range Voltage 30V 1000V From the Insulation Resistance Parameter Setting screen the following parameters may be controlled Voltage HI Limit LO Limit Ramp Up Dwell Time Delay Tim
217. rument The automatic range selection will still be used as required by the applied DUT DIELECTRIC WITHSTAND TEST MODE CONT Current Display Auto Range AC Total Range 1 0 000 mA 3 500 mA RMS 0 000 mA 5 500 mA Peak Resolution 0 001 mA Range 2 3 000 mA 50 00mA RMS 5 000 mA 70 07 mA Peak Resolution 0 01 mA Accuracy 2 of reading 2 counts All Ranges Range 1 0 000 mA 9 999 mA Accuracy 3 of reading 50uA All Ranges PF gt 0 1 V gt 250VAC Range 1 0 0 uA 350 0 uA DC 0 0 uA 550 0 uA Peak Resolution 0 1 uA Range 2 0 300 mA 3 500 mA DC 0 400 mA 5 500 mA Peak Resolution 0 001 mA Range 3 3 00 mA 20 00 mA DC 4 00 mA 25 00 mA Peak Resolution 0 01 mA Accuracy 2 of reading 2 counts All Ranges 16 Prompt Interlock Option The Prompt Interlock Option allows user the flexibility to disable the interlock during a prompt without aborting the test Normally during a Run or LLT test if the interlock is broken the unit aborts the test sequence as a safety feature With Option 16 installed the user will be able to continue the test from the step where a prompt occurs For DUT s being tested in a safety enclosure it is sometimes required during a prompt to open the enclosure break the interlock and make some changes to the connection to the DUT In such a situation the Prompt Interlock option will prevent the Omnia II from aborting the test allowing the u
218. s Automatic Calibration 500MQ load from H V to connected press TEST to Processing Return start the calibration process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active This calibration is automatic and does not require data entry 191 ao gt l ASSOCIATED RESEARCH INC Calibration of Smart GFI The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect the standard When the standard load is Enter Standard Current 200k with the 5mAAC connected press TEST to Reading standard current meter start the calibration from H V to Case process Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of GND Bond Voltage The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right S
219. s short circuit protection is tripped Watt Hl This message appears on the display if the DUT input wattage exceeds the Watt Hl Trip setting Watt LO This message appears on the display if the DUT input wattage drops below the Watt LO Trip setting PF HI This message appears on the display if the Power Factor exceeds the PF HI Trip setting PF LO This message appears on the display if the Power Factor drops below the PF LO Trip setting Leak Hl This message appears on the display if the enclosure to neutral leakage current exceeds the Leak HI Trip setting Leak LO This message appears on the display if the enclosure to neutral leakage current drops below the Leak LO Trip setting Neutral V This message appears on the display if there is voltage present on the Neutral of the DUT input receptacle OCP This message appears on the display if the maximum current draw exceeds the capability of the internal power source gt 4 2A A SHDN This message appears on the display when the power amplifier shuts down This is an 100 Disses abnormal condition please call the factory for assistance Fatal Error If the instrument has a recognizable internal component failure and the TEST button is pressed the Fatal Error screen will appear as follows FATAL ERROR OMNIA Il 8204 This type of failure permanently locks the instrument in the Fatal Error mode and requires that the instrument be serviced by Associated
220. s sent to the instrument over the USB RS 232 bus the instrument will send one of two responses If the transfer was recognized and completed the instrument will return with 06 hex or 6 decimal the Acknowledge ACK ASCII control code If there is an error with the command string that is sent the instrument will respond with 15 hex or 21 decimal the Not Acknowledge NAK ASCII control code The ACK or NAK response allows for software handshaking to monitor and control data flow Receiving Data When requesting data from the instrument it will automatically send the data back to the controller input buffer The controller input buffer will accumulate data being sent from the instrument including the ACK and NAK response strings until it has been read by the controller 7 2 GPIB Interface This interface is optional on the OMNIA and provides all of the control commands and parameter setting commands of the RS 232 interface along with 488 2 Common Commands and SRQ capability All commands can be found in section 7 4 RS 232 GPIB Command List 7 2 1 GPIB Connector Connection is usually accomplished with a 24 conductor cable with a plug on one end and a connector at the other end Devices may be connected in a linear star or a combination configuration The standard connector is the Amphenol or Cinch Series 57 Microribbon or AMP CHAMP type The GPIB uses negative logic with standard transistor transistor logic TTL levels When DAV is true
221. seeseeeeteeeseeees 189 10 5 7 Calibration of DC 3 5MA Range cececcceseessseeseeesteeeseeees 190 10 5 8 Calibration of DC 350 0UA Range cee eeccceseesseeeteeeseeeees 190 10 5 9 Calibration of IR 999 99M Range cccccceseessseeseeeteeeseeees 191 10 5 10 Calibration of IR 999 9M Rang cceccceseessseeseeeteeeseeens 191 10 5 11 Calibration of IR 50000M Range cee ececeseeseeeeteeeseeeees 191 10 5 12 Calibration of Smart GRlhucc ccx stots een dares hdeecieed 192 10 5 13 Calibration of GND Bond Voltage cece eeceeseeeteeeseeees 192 10 5 14 Calibration of GND Current 0 0 cee eccecescesteeeteeseeeeseeeens 192 10 5 15 Calibration of Continuity cc ccccesseceseeesseesseeesteeeseeenes 193 10 5 16 Calibration of Run Test Voltage cc cccesecssseeseeeteeeseeeens 194 10 5 17 Calibration of Run Test Current 194 10 5 18 Calibration of Run Test Power ccccccceeesccseesseeeeeenees 194 10 5 19 Calibration of Run Test Leakage cc ceccceseeseeeeteeeseeees 195 10 5 20 Calibration of LLT MD V Offset ee ccceesscceeesneeees 195 10 5 21 Calibration of LLT MD Volts DC x 0 1 ou eee 196 10 5 22 Calibration of LLT MD Volts DC X 1 0 eee eeeeeeees 196 10 5 23 Calibration of LLT MD Volts DC X 4 196 10 5 24 Calibration of LLT MD Volts DC X 16 wu eens 197 10 5 25 Calibration of LLT MD Volts DC X 64 0 197 10 5 26 Calibration of LLT MD Volts DC
222. selecting RS232 the protocol for interfacing and communicating with a PC can be found in section 7 of this manual RS485 Interface 143 ASSOCIATED w Tf ESEARCH INC The RS485 interface of the Data Storage Card is designed to function on a two wire half duplex RS485 network i e data is received and transmitted differentially on the same pair of wires The RS485 cabling should be configured as shown Data Card Serial Port PC Bus Controller DATA 6 SON ONION Fa DATA DATA 8 DATA GND 5 __ GND The wire used to connect the DATA signals from the Data Storage Card to the RS 485 network should be twisted pair Before sending a command to the RS485 enabled Data Storage Card the unit that the command is intended for needs to be addressed To send the address the following format is used X lt RS485 Address gt lt line feed gt Note that there should be a character space between X and the RS485 address After addressing the unit the command can be sent The instrument that was last addressed will receive all subsequent commands sent on the data bus If the RS485 address specified is O then all RS485 instruments on the bus will receive the command The command set used for RS485 is the same as the command set for RS232 When using the RS485 bus and sending the 0 address the instruments will not respond with the Acknowledge 06H or 6 decimal or Not Acknowledge 15H or 21 decimal s
223. send the test results to the printer at the end of every complete test The Enter key may also be used from the end of test summary screen or the results screen to create additional printouts as needed In the manual mode there are three different ways to create a printout The first method is to press the Enter key at the end of a test The second method is to press the Enter key from the Results screen The third way is to press the Print Results soft key from the Perform test screen In the OFF mode the printer card and printer menu are disabled Test Result From the Print Format setting screen press the Test Result soft key As the soft key is pressed the display will toggle between the words All and Fail only This command selects which test results will be printed All selects printing all test results and Fail only selects printing only failed test results Test Setting From the Print Format setting screen you may turn the Test Setting print enable ON and OFF by pressing the Test Setting soft key This command selects printing the test parameters as well as the test results Device ID The Device ID number is a counter that increments once every time a test is performed The number can be set to match the exact serial number or some portion of actual serial number of the item under test or just used as an identifier or tracking number From the Print Format setting screen use the numeric keypa
224. ser to continue testing from where the prompt had occurred For Line Leakage and Run test the continuous feature should be set to OFF in order for this option to work 175 VERI CHEK Verification is the process by which an instrument s failure detectors are proven to be functioning properly Verifying the failure detection circuitry of the electrical safety tester is required by safety agencies such as CSA UL and TUV NOTE Verification should be performed at the beginning of each day or each shift before testing has begun 9 1 VERI CHEK Menu From the Main Menu press the VERI CHEK button VERI CHEK _ Continuity gt Ground Bond gt AC Hipot gt DC Hipot gt IR gt Press a function key to select a mode Press EXIT to exit from Verification The VERI CHEK Menu screen will now be displayed From the VERI CHEK Menu screen five different Verification processes may be accessed Continuity Ground Bond AC Hipot DC Hipot and IR 9 1 1 Continuity Verification From the VERI CHEK screen press the Continuity soft key A pop up message will now be displayed The message will appear as follows 176 VERLCHEC Continuity gt Disconnect Current HV and Return leads from the instrument Press TEST to begin verification Press RESET to return to menu Press a function key to select a mode Press EXIT to exit from Verification Follow the instructions given in the pop up message and then press TEST to
225. sh 5 OFF Arctic CLOSED CLOSED UL544NP Ground to Line AC DC Auto OOQOQOQOOQOQOQOQOQOO00O00000 NOTE Scanner setup depends upon the Continuity Scanner setting See section 4 2 4 Hardware for more details on the Continuity Scanner setting 62 a 4 ASSOCIATED RESEARCH INC 4 5 Setting Up a Test Upon power up OMNIA will initialize with the test file that was last used before power down If the instrument is new it will come loaded with one default file that the instrument will boot up with until it is changed 1 2 From the Setup Tests screen press the File soft key The File Setup screen will now be displayed From the File Setup screen press the soft key New File The Create File screen will now be displayed The Create File screen is separated into two main sections File Name Edit and Soft Key Menu From the Create File screen you must give your new test file a name The file name can be a maximum of fifteen characters in length and may use any combination of the character set plus numbers and symbols To name your file use the alphanumeric keypad If you make a mistake or want to change the character press the backspace key in the alphanumeric keypad If you wish to use capital letters in the prompt press the Caps Lock soft key While pressing the Caps Lock soft key the Caps Lock parameter will toggle between ON and OFF If you wish to use symbols in the prompt p
226. st Parameter Edit screen The Test Parameter Edit screen displays the Range of the parameter that is highlighted Use this as a guide when setting your parameters The soft keys in the Parameter Menus select different conditions and no data entry is required i e the Frequency soft key in the AC Withstand displays a Frequency pop up screen that allows for choices between 50Hz 60Hz or Sync It is necessary to press the ENTER key to accept the new parameter or press EXIT to cancel from the edit If the Step Name parameter is enabled in the System Menu then each step will have a Step Name soft key in the Parameter Menus The step name can be a maximum of 24 characters in length and may use any combination of the character set plus numbers and symbols To name the step use the alphanumeric keypad If you make a mistake or want to change the character press the backspace key in the alphanumeric keypad The cursor will decrement and erase the character If you wish to use capital letters in the prompt press the Caps Lock soft key While pressing the Caps Lock soft key the Caps Lock parameter will toggle between ON and OFF If you wish to use symbols in the prompt press the Symbol Key soft key While pressing the Symbol Key soft key the symbol values will toggle between _ and When you have finished editing the file name press the ENTER key Selecting the test type ACW DCW and IR automatically loads the default
227. sults or change the Test Resu ing to None 1 24kV 0561mA 131 9V uA 49s 0 008mA 2 0s Total Results 0001 ACW PASS 00000051 1 24kV 0 565mA 49s 0 008mA 0006 ACW Short 0001 GND PASS kKV mA 1999A 72mo S_ M 49s File Name 0001 TEST The above message appears when the total results accumulated by the Data Storage Card exceeds 99 900 This is a warning to the user that the total results are nearing the capacity of the Data Storage Card 100 000 When the total results on the Data Storage Card exceed 100 000 the Data Storage Card will cease saving results To avoid this the user can transfer and delete the old test results or change the Test Result setting in the Data Card Settings menu to NONE When the Test Result setting is set to NONE the Data Storage Card will not record test results DATA CARD RESULTS 02 ree ay Data Card Alert Cannot transfer results The external memory drive is write protected 04 rove Press EXIT to continue 1 24KV 0 000mA 0 0V OuA Y 10s 0 000mA 1 0s To Results 05 ACW Pass 03 RUN Pass 000000 1 24KV 0 000mA 00V 000A a 10s 0 000mA 401 LLT Pass 01 GND Pass 0 0V 0 0uA 25 00A 44m 1 0s 10s File Name 0009 XATS 154 The above message appears when the USB Flash memory drive is write protected There are two ways to configure the memory drive as write protected One is to set the switch on the side of the memory drive up towards the drive s connector The
228. t Cal Active Connect 0 08VAC supply When the power supply Enter Standard Voltage and a voltmeter to Probe and meter are connected Reading HI and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button 201 lt gt assocuaten 7 RESEARCH INC Calibration of LLT MD Volts AC Peak x 64 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 125Vp AC When the power supply Enter Standard Voltage supply and avoltmeter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration After the RMS value has been input the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of L
229. t Card has its IP Setup configured to AUTO There are two options to choose from this screen Press the EXIT key to escape from this screen and stop the OMNIA II from requesting an IP address or allow the OMNIA Il to request an IP address automatically from the network to which it is connected The Ethernet Card will wait for an IP Address for approximately 20 seconds If the OMNIA II successfully receives an IP Address from the server the following pop up message will be displayed ERNET CARD IP Address 192 168 Press EXIT to remove this message Device Name Next Page gt OMNIA Il 8204 _ 162 fasses If the OMNIA II fails to receive an IP Address after approximately 20 seconds the following pop up message will be displayed IP Address s None Received Press EXIT to remove this message nformation gt Functional Verification gt OMNIA Il 8204 Press the EXIT key to remove the pop up message and return to the OMNIA II s Main Menu Screen Ethernet Card Menu When the Ethernet Card option is installed the Ethernet Card Menu will appear in the Setup System Screen as shown below SETUP SYSTEM Time and Date Calibration Alert Hardware Security User Interface OMNIA Il 8204 To access the Ethernet Card Menu press the Ethernet Card soft key from the Setup 163 System screen The Ethernet Card Parameters screen will now be displayed as shown below ETHERNET CARD
230. t Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 20 0VDC anda When the power supply Enter Standard Voltage voltmeter to Probe HI and meter are connected Reading and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts DC x 1 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 8 0VDC anda When the power supply Enter Standard Voltage voltmeter to Probe HI and meter are connected Reading and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or
231. t and rear panel HV connectors When the DUT Output parameter is turned OFF no high voltage will be present at the DUT connectors only the front and rear panel HV connectors will have high voltage From the Hardware Setting screen you may turn the DUT HV parameter selection ON and OFF by pressing the DUT HV Setup soft key Selecting the DUT HV OFF will prevent the parameter from appearing on the AC Withstand DC Withstand and IR test parameter setting screens Please refer to section 4 4 Test Parameters for additional parameter information and screen appearance AC Source 82x7 From the Hardware Setting screen you may turn the AC Source parameter selection ON and OFF by press the AC Source soft key When the AC Source is turned ON the 500VA power source is available for use during RUN and LLT testing An additional set of parameters will be available in the RUN Test Parameter Setting screen and the LLT Test Parameter Setting screen Please refer to section 4 4 Test Parameters for additional parameter information and screen appearance Measurement From the Hardware Setting screen press the Measurement soft key As the soft key is pressed the measurement method will toggle between True RMS or Average 4 2 5 Security From the System Setup screen press the Security soft key The Security screen appears as follows 39 Security SECURITY Security gt User Setup gt OMNIA II 82
232. t drops below the LO Limit setting of the Total current parameter in AC withstand Hi Lmt R This message appears on the display if the DUT leakage current exceeds the HI Limit setting of the Real current parameter in AC withstand LO Lmt R This message appears on the display if the DUT leakage current drops below the LO Limit setting of the Real current parameter in AC withstand CONT Fail This message appears on the display if the DUT fails the basic Continuity check performed during an AC DC Withstand test when Continuity is selected ON Arc Fail This message appears on the display if the DUT arcing current exceeds the Arc Sense limit Arc Sense 1 9 and the Arc function is active Short This message appears on the display if the DUT current is well beyond the metering range of the test Charge LO This message appears on the display if the leakage current during Ramp up falls below the Charge LO setting Breakdown This message appears on the display if the DUT current is well beyond the metering range of the test and the arcing condition beyond the arc sense limit Interlock Open This message appears on the display if the Remote Interlock feature is activated before or during a test The Remote Interlock feature utilizes a set of closed contacts which will disable the instrument s output if they are opened before or during a test 98 Qfare Remote Interlock could also be referred to as a remote system lockout u
233. t the desired number it will be moved to the next higher number and inserted in its place New files may be added to the bottom of the file list but there must not be any numbers that do not have a file defined FN lt file number gt lt file name gt Creates a new file name at the specified file number If there is a file already located at the desired number it will be moved to the next higher number and inserted in its place New files can be added to the bottom of the file list but there must not be any numbers that do not have a file defined SS lt step number gt Selects the active selected step to load into RAM The step must first be selected before any specific parameters can be edited ADD lt test p1 p2 p3 gt This command inserts or adds a new step to the test sequence This command will add or insert the test at the step location that has been selected When a test has already been created at a selected step then the new step will be inserted and the previous step will move down to the next step and all other step will be renumbered accordingly The parameter lt test gt indicated the test type The values ACW DCW IR GND 111 D associare CONT RUN or LLT must be used The parameters lt p1 p2 gt etc indicate the individual settings for each test All parameters must be included with the command and should appear in the same order that is shown on the actual setting screens The correct order is shown in the ta
234. t there is only one leakage current measurement for all channels The Ground Bond Continuity channels can only be used to test from one channel to the common Return Only one channel may be used for each Ground Bond or Continuity test The Ground Bond or Continuity test will be performed between the output channel selected and the Ground Bond Continuity common terminal PLC Remote From the Hardware Setting screen you may turn the PLC remote ON and OFF by pressing the PLC Remote soft key Refer to the section 6 Connection of Remote I O for details When the PLC remote is turned ON the front panel TEST button is disabled and a test may only be started through the rear panel I O If you attempt to start a test from the front panel TEST button when the PLC Remote function is turned ON a pop up message will be displayed The pop up message will appear as follows PLC remote control is ON TEST button is disabled p a File Name 0000 38 a 4 2 ASSOCIATED RESEARCH INC DUT HV Setup 82x6 and 82x7 The DUT HV selection activates an additional parameter in the AC Withstand DC Withstand and IR Tests parameter screens The additional parameter is called DUT Output and its function is to control the high voltage relay at the DUT output When the DUT Output parameter is turned ON during an AC Withstand DC Withstand or IR test high voltage will be present at the DUT outputs as well as the fron
235. tces conceded snsneaetcncestetcosnsdessnonccelcowesdansnsnaneccnecs 176 91 WEREGCHEIK Men sesati uaino a anai aaan 176 9 1 1 Continuity Verificationincvssissasicnasieni asi aantinnesiaietin adie 176 9 1 2 Ground Bond Venticationi cic ete a ate ea et 178 9 1 3 AC Hipot VerilCatiOnivnuencsaiet acon etehoceiten okinawa 180 9 1 4 DC Hipot Verification isc cantimndiwiadacndawiniumadamudatar 181 9 15 R Verificato M sc nar oanien aoaia 183 10 CALIBRATION PROCEDURE sss seeeeeeeeeeenseeesnceeeeeeeeeesnneeeneeeneeeeess 185 10 1 Warranty Requirements o nnnoennseneeossoeseossoeseessessessnesessesseessessee 185 10 2 Hardware Calibration s3 cessesesedtsaeksescastess tate teeciedtceedasdiceasdtadtadestaces 186 10 3 Calibration InitialiZation 25 igese0scctasseesvr lane teianiianantenices 186 10 4 Selecting Specific Calibration points 0 0 eee eeeeseeeteeeeeeteeeneeeeees 187 10 5 Calibration POIMS cessor ies titc bas Gere Us ee aorta ate ean esata tues 187 10 5 1 Calibration of AC Hipot Voltage cee eeccssecesseeseesteeeseeeees 188 10 5 2 Calibration of DC Hipot Voltage ou eee cecccessceteeeteeeseeeens 188 10 5 3 Calibration of IR DC Voltage ixc cc04 vcetcsteceieaedees 188 10 5 4 Calibration of AC 40MA Range cccecccesseeetseeeteeeteeeeeees 189 10 5 5 Calibration of AC 3 5MA Range cccccscesseeeseeeeteeeseeeeeees 189 10 5 6 Calibration of DC 20MA Range ceccccccesseess
236. ter and is configured using two types of registers An Event register and a Summary register The Summary register is known as the Status Byte register and records high level summary information acquired by the Event registers An Event register report defines conditions or messages at each bit The bits are latched and remain in an active state until the register is either Read or Cleared Reading the Event register automatically clears the register and sets all bits to an inactive state or 0 When querying an Event register the information is returned as a decimal number representing the binary weighted sum of all bits within the register The Enable register bits represent the selection of bits that will be logically OR d together to form the summary bit in the Status Byte The CLS command will not clear the Enable registers and if you wish to clear the register you must set it to a value of 0 Like the Event register the Enable register is represented as a decimal number that equals the binary weighted sum of all bits The Enable register will clear to a value of 0 at power on unless the PSC 0 command has been executed before power off The PSC command tells the device whether or not it should clear the Enable registers at power on Using this command will allow SQRs to function immediately after power on EVENT REGISTER STATUS BYTE REGISTER Event Register Enable Summary Register Enable Register Register Operation Complete _ IM
237. the RESET button Calibration of LLT MD Volts DC x 4 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC anda When the power supply Enter Standard Voltage voltmeter to Probe HI and meter are connected Reading and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active 196 e ASSOCIATED 9 1 RESEARCH INC Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD Volts DC x 16 The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 0 5VDC anda When the power supply Enter Standard Voltage voltmeter to Probe HI and meter are connected Reading and Probe LO press TEST to start the calibration Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated
238. the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD IEC60601 1 UL2601 Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Screen Load Meter Prompt Prompt Cal Active Connect 2 0VDC in series When the power supply Enter Standard Current with a current meter to and meter are connected Reading Probe HI and Probe LO press TEST to start the calibration ao gt l ASSOCIATED RESEARCH INC Press the TEST button to activate the calibration After the calibration is activated the lower right screen will change to the text indicated in the table above Cal Active Read the measurement from your standard and enter it using the numeric keypad You may now store the new calibration number by pressing the ENTER key or escape by pressing the EXIT key or the RESET button Calibration of LLT MD UL1563 Measuring Device The load meter screen and prompt screens will contain the following text for this calibration point Upper Right Screen Lower Right Screen Lower Right Scree
239. tilizing fail when open logic The Remote Interlock feature may be disabled by plugging the Interlock Disable Key provided into the Signal Input connector See section 6 2 Remote Signal Inputs and Memory Access for more information GND Fault This message appears on the display if the GFI threshold is exceeded during the test Out Error This message appears on the display if the instrument s output reading does not match the set value If the instrument has an output problem when the TEST button is pressed the Output Error screen will appear as follows elUhalehms i tel OMNIA Il 8204 The RESET button is not active in this situation Only the Exit soft key will allow you to return to the Perform Test screen OTP Fail This message appears on the display if the Power Amplifier has overheated This is abnormal condition please call to the factory for assistance 5 5 3 Error Messages Models 82x6 and 82x7 Volt HI This message appears on the display if the DUT input voltage exceeds the Volt HI Trip setting Volt LO This message appears on the display if the DUT input voltage drops below the Volt 99 D ASSOCIATED ll RESeancH Inc LO Trip setting Amp HI This message appears on the display if the current exceeds the Amp HI Trip setting Amp LO This message appears on the display if the current drops below the Amp LO Trip setting Line OC This message appears on the display if the 20 Amp lt 1
240. to 99 days When the Time Limit is exceeded the following message will appear on the OMNIA II s display 142 PERFORM TESTS ORAR o Sia 1 0s Qais EO Data Card Alert 1 0s SA z pe Test results have exceeded the Time Limit setting pon Press EXIT to continue File Name 0001 TEST By pressing the EXIT soft key the message will be cleared and it won t appear again until the unit is re booted or the Time Limit setting is set to a different value RS485 Address This setting specifies the RS485 address of the Data Storage Card if the user intends to use the unit in an RS485 network This address can be set from 1 99 For more information on this interface see the Serial Port description below Test Result The Test Result setting determines which type of test result is automatically saved to the Data Storage Card The possible settings are Pass Fail All or None If the Test Result setting is set to Pass the Data Storage Card will only save results that resulted in a Pass If the Test Result setting is set to Fail the Data Storage Card will only save results that resulted in a Fail Setting the Test Result setting to All will have the Data Storage Card record all results pass or fail If the Test Result setting is set to None no test result pass or fail will be saved to the Data Storage Card s internal memory Serial Port The serial port can be set to RS232 RS485 or OFF RS232 Interface When
241. to save Press EXIT to cancel Use the up or down arrow keys to select the preferred animation setting for the unit The animation setting options are Continue Pause and Skip Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value Home Screen The Home Screen parameter allows you to select the first screen to appear on the OMNIA after the Animation screen If the Animation screen is set to Skip the selected Home Screen parameter will be the first screen to appear upon power up From the Power On Screens press the Home Screen soft key As the soft key is pressed the Home Screen pop up screen will appear as follows 49 POWER ON SCREENS Home Screen Perform Tests Press ENTER to save Press EXIT to cancel Use the up or down arrow keys to select the preferred home screen setting for the unit The home screen setting options are Menu Perform Tests and My Menu Configure OMNIA to go directly to the Perform Test screen 1 Set OMNIA Animation to CONTINUE or SKIP 2 Set the Home Screen selection to Perform Tests Now when the instrument is powered on it will go directly to the Perform Test screen 4 3 Setup Tests Menu From the Main Menu screen press the Setup Tests soft key The Setup Tests screen will now be displayed From the Setup Tests screen six different sof
242. trings after a command is sent and will not respond to any Query Commands It is also possible to combine the RS485 address and the desired instrument command all in the same string using the following format X lt RS485 Address gt lt Command gt lt line feed gt Important note When communicating with the OMNIA using the RS485 RS232 port results are not saved to the Data Storage Card Barcode Input The Barcode Input setting can be set to SERIAL PRODUCT SER PROD OFF and RUN FILE When the setting is SERIAL PRODUCT or SER PROD the user can scan barcodes in the Perform Tests screen before the test is started When the barcode is scanned one of the following messages will appear on the display 144 Press TEST to start testing Press RESET to cancel Product Number IE 100 Press TEST to start testing Press RESET to cancel Functional Verification OMNIA Il 8204 145 Serial Number A5320715 Product Number IE 100 Press TEST to start testing Press RESET to cancel om paced Ne eee Functional Verification OMNIA II 8204 After the barcodes are scanned pressing TEST will initiate the test sequence Pressing RESET will abort the TEST sequence The Data Storage Card allows for the re scanning of barcodes if the previously scanned barcode was incorrect Re scanning is available in the SERIAL PRODUCT and SER PROD modes Anytime before a test is initiated the user can re scan a barcode If t
243. trument can still be used without the external interlock device as long as the Interlock Disable Key 38075 provided with unit is plugged into the Remote Interface Signal Input port If there is nothing connected to the Remote Interface Signal Input port to provide a connection to the Remote Interlock the instrument will not perform tests 105 7 BUS REMOTE INTERFACE USB GPIB RS 232 BE This section provides information on the proper use and configuration of bus remote interface The USB RS 232 remote interface is standard on model 820X but the GPIB IEEE 488 interface option can be substituted for the USB RS 232 interface Please refer to the Option section of this manual for details on the OMNIA options The USB RS 232 interface also uses the same command set as the GPIB interface for setting of test parameters However there are many functions of the GPIB 488 2 interface that are not available through USB RS 232 The IEEE 488 interface included with OMNIA conforms to the requirements of the IEEE 488 2 standard The USB RS 232 interface card requires the user to download a driver in order for the instrument to recognize the USB interface The driver can be found on the Associated Research Inc website http www asresearch com products software USB driver aspx Click on USB RS 232 Driver to download the driver This link contains an automatic extract and install program Follow the instructions of the installation program to
244. tup file sequence All step after this step will move up and be renumbered accordingly SP lt prompt message gt Adds or edits a prompt message for the active step SP Removes or deletes the prompt that had been created for the active step SF 110 Sets the Fail Stop function OFF or ON for the active setup file loaded into RAM 1 sets the Fail Stop ON 0 sets the Fail Stop OFF 7 4 4 Test Parameter Editing Commands and Companion Queries These commands are used to modify the test parameter within each step These commands require a parameter value to be included with the command The companion query command will read the parameter The writing of the parameter requires that the unit not be included with the value only the numeric value should be included with the command Also when the query commands are used the response will not include the units characters Many of the commands will function the same way for multiple test types however the input range may be different and therefore used a different possible set of values COMMAND NAME TEST TYPES EA lt value gt Edit Arc ACW 1 9 EA DCW EAD EAD DCW ECG IR 0 0 350uA EOT DCW 118 faseen COMMAND NAME TEST VALUE TYPES Edit Current 1 00 40 00A EC ECH lt value gt Edit Current HI RUN 0 00 16 00A ECH ECL lt value gt Edit Current Lo RUN 0 00 16 00A ECL EDE lt value gt Edit Delay IR EDE RUN EDO 1 0 Edit DUT Output ACW 1 On 0
245. tware controls may be accessed Add Edit Delete Prompt File and Fail Stop The Setup Tests screen will appear as follows 50 a SETUP TEST File File Name 0004 DEMO The Setup Tests screen is the central starting point for programming tests into the instrument From this screen test parameters are entered and edited and the order of the test steps can be arranged and then stored to test files The OMNIA is capable of performing a 10 000 step sequential test from a single test file The Setup Tests screen is separated into two main sections The left half of the screen lists the steps and the parameters contained within each step The right half of the screen contains the soft key menu When more than 12 steps are programmed in a test file the left and right arrow keys will page through the screens of steps Individual steps may be scrolled to using the up and down arrow keys 4 3 1 TVB 2 Default Test File The OMNIA II comes programmed with a test file that can be used with Associated Research s TVB 2 load box This test file comes pre configured to verify OMNIA Il s hi and lo limit failure detectors for use with ACW DCW IR Ground Continuity and Ground Bond tests and should be utilized before a production shift in order to verify that the instrument is behaving properly The TVB 2 test file includes text prompts to guide the user through the test routine and can be edited or deleted to meet specific customer re
246. uctive materials in such a way that a charge or voltage may appear across the two conductive materials ao gt l ASSOCIATED RESEARCH INC Direct Current DC Current that flows in one direction only The source of direct current is said to be polarized and has one terminal that is always at a higher potential than the other Frequency The number of cycles an AC waveform repeats over time Usually given in Hertz Hz Ground Refers to the point of low potential in a circuit to which all other voltages are referenced May or may not be tied to the earth Also referred to as Earth Hot Used to refer to the test lead or output side of an instrument that is at high potential Impedance The property of capacitive or inductive items to limit certain frequencies Insulation Gas liquid or solid material which has a volume resistivity of at least 1012 Q cm and is used for the purpose of restricting current flow between conductors Leakage AC or DC current flow through insulation and over its surfaces Current flow is directly proportional to voltage The insulation is thought of as a constant impedance unless breakdown occurs Neutral The point of low potential in a circuit to which all other voltages are referenced Also known as Common Peak Current The maximum amplitude of an AC current waveform For a sinusoid 1 414 x the RMS value Power The amount of work performed by an energy source over time given in Watts W PF
247. unts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 4 400mV 999 9mV 1000mV 2100mV frequency DC 15Hz 1MHz Resolution 0 1mV 1mV Accuracy 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 5 1800mV 8400mV frequency DC 15Hz 1MHz Resolution Accuracy imV 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV Range 6 8000mV 8399mV 8 40V 10 00V frequency DC 15Hz 100kHz 229 gt ASSOCIATED RESEARCH INC Resolution imV 0 01V Accuracy 15Hz lt f lt 100KHz 5 of reading 0 01V 10 00V DISPLAY FIXED RANGE gt 6 OF RANGE Only Touch Voltage Display RMS AC 0 0mV 32 0mV frequency DC Range 1 15Hz 1MHz Resolution 0 1mV 15Hz lt f lt 30Hz 3 of reading 5counts Basic Acard 30Hz lt f lt 100KHZz 2 of reading y 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV 999 9mV 7 8mV 130 0mV frequency DC Range 2 15Hz 1MHz Resolution 0 1mV 15Hz lt f lt 30Hz 3 of reading 5counts 30Hz lt f lt 100KHz 2 of reading Basic Accuracy 3counts 100KHz lt f lt 1MHZ 5 of reading 10 0mV
248. ve soft key from the File Setup screen Save As To save an edited file without overwriting the original or to give a file a new name press the Save As soft key from the File Setup screen The Create File screen will now be displayed For a detailed description of creating a new file refer to the section 4 5 Setting Up a Test Delete To delete a file use the up and down arrow keys and scroll the highlighted area to the file you wish to delete and press the Delete soft key A warning will appear on the screen asking if you want to delete the file Press the ENTER key to complete the deletion or press the EXIT key to escape Load To load a test file use the up and down arrow keys and scroll the highlighted area to the file you wish to load and press the Load soft key 4 3 7 Fail Stop Fail Stop is a function that will stop a sequence of tests if a failure occurs If this function is turned OFF the sequence of tests will continue to the end of the sequence regardless of whether or not a failure has occurred If the Fail Stop is OFF anda failure occurs during the test sequence the RESET button will light and a short alarm will sound but the sequence will continue At the end of the test sequence the RESET button will light and alarm will sound indicating failure during the sequence Pressing the RESET button will silence the alarm and reset the instrument 55 esse Turn the Fail Stop function ON and OFF by pressi
249. w tenudud dens iawelien 50 4 3 1 TVB 2 Default Test Fue aii iuses caisidiicensaoaarcauawhean 51 432 PNAC sid Sas cas ged a A waa eas anata aan ea OEE 51 4 6 Edit n ee na ete Pe ces ries we eae PPE red PRE 52 4 3 5 Prompte vcd e es acietacsa ds a a a id a a axel 53 Avo Oy Pil zeta a ea a a ar iniaseba tienes 54 AD a All LOD syatenscanvoysaneas e ease A ates WL Uae NAA 55 4 4 Test Parameters iine a a a a e i aa 56 4 4 1 Description of Test Parameters cccceseeseeeseeseeeteeeseeeeeeteeeaee 56 4 4 2 Default Paramererss sisi fos clhacerncuntieass Acutite ce ve atataaen 60 4 5 S tting Up a ea eS a gL atl 63 Ae Vo PG WIENS LANG os fo ss waesecoenteede in coctasaresbinrasecenserstetdedinceatensnasksuraneceeseinss 66 45 2 DG NWSI bos 555 cc 330s cesar atease sh landed ea eek ech R 67 4 5 3 Insulation Resistance sic seuss asad tauaendd sc iacadteis eee setnnttevdtimnl eee 69 45 4 CONUMUMY ciosa e i aa a i a sie on nee 70 4 5 5 AC Ground Bond essssssssssesssssssessesssresssrrssresssressersssresseressresseres 70 4 9 6 COMINUIY rainen ae i a a eacaee 72 4 5 7 Functional Run Test Model 82x6 and 82x7 cccceceeteeeteees 73 4 5 8 Line Leakage Test Models 82x6 and 82X7 ccceesseesteeeteees 76 4 6 S tting WD as OSD asr a aes eee eta 86 5 OPERATING INSTRUCTIONG cssssssesssssceessssssssnnnssscceeessessssnnnssseeeessess 88 5 1 Instrument Connections ss cccccceercuececceutee ences la danced epuet he
250. without holding it down 87 DW assocure 5 OPERATING INSTRUCTIONS M 5 1 Instrument Connections The test leads and the adaptor box may be connected to the receptacles located on the front or the back of the OMNIA The HV Current Return Sense and Sense and receptacles located on the front panel of the OMNIA are wired in parallel with another set located on the back of the instrument 5 1 1 Connecting the Test Leads The instrument comes with all cables necessary for performing a Hipot Continuity Ground Bond and Insulation Resistance test Connect the HV lead with the alligator clip and white insulating tip into the HV receptacle on the OMNIA Connect the Return lead with the black alligator clip into the Return receptacle and the Sense receptacle Connect the Ground Bond lead with the red alligator clip into the Current and Sense receptacles 5 1 2 Adapter Box Connections The adapter box provides an easy way to connect a line cord terminated DUT to the OMNIA The following diagrams show how to connect the adapter box to the OMNIA 8204 8206 and 8207 to the device under test Adapter Box Connections Model 8204 Canoe BEAT je omm 88 aN gt ASSOCIATED RESEARCH INC The rear output connections may be used for connecting the adapter box as well Adaptor Box Connections Model 82x6 and 82x7 5 1 3 Interlock Connector OMNIA is equipped with a Remote Interlock feature Remote Interlock util
251. ws MyMENU Function DELETE Press ENTER to save Press EXIT to cancel OMNIA Il 8204 Use the up or down arrow keys to select the preferred function The My Menu setting options are EDIT and DELETE EDIT will allow the user to select a system test or file 86 DI RESEARCH INC parameter DELETE will clear the current softkey selection Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value When selecting EDIT the user will be directed to the main MENU screen All softkey selections highlighted in red can now be added as a My Menu softkey selection To add a selection as a My Menu softkey press and hold the desired softkey until the My Menu Function pop up appears as follows MyMENU Function EXIT Press ENTER to save Press EXIT to cancel Use the up or down arrow keys to select the preferred function The My Menu setting options are EDIT and DELETE Selecting EDIT will input the selected parameter as a My Menu soft key DELETE will clear the current soft key selection Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value To navigate to other menus within the unit simply press the soft key selection
252. x 256 uu eee 198 10 5 27 Calibration of LLT MD Volts AC X 0 1 00 ceeceeeeees 198 10 5 28 Calibration of LLT MD Volts AC Peak x 0 1 0 198 10 5 29 Calibration of LLT MD Volts AC X 1 0 ceeeeesseees 199 10 5 30 Calibration of LLT MD Volts AC Peak X eee 199 10 5 31 Calibration of LLT MD Volts AC X 4 200 10 5 32 Calibration of LLT MD Volts AC Peak X 4 0 200 10 5 33 Calibration of LLT MD Volts AC X 16 200 10 5 34 Calibration of LLT MD Volts AC Peak x 16 0 c ee 201 10 5 35 Calibration of LLT MD Volts AC X 64 201 10 5 36 Calibration of LLT MD Volts AC Peak x 64 202 10 5 37 Calibration of LLT MD Volts AC x 256 eerren 202 10 5 38 Calibration of LLT MD Volts AC Peak x 256 202 10 5 39 Calibration of LLT MD UL 544NP eee 203 10 5 40 Calibration of LLT MD UL 544NP owes 203 10 5 41 Calibration of LLT MD IEC60601 1 UL2601 0000000000 203 10 5 42 Calibration of LLT MD UL 1563 00 eeeeereees 204 10 5 43 Calibration of LLT MD IEC 60990 Fig4 U2 ee 204 10 5 44 Calibration of LLT MD IEC 60990 Fig5 U3 ee 205 10 5 45 Calibration of LLT MD External 205 10 5 46 Calibration of LLT MD IEC 60990 Fig4 ee eeeeee 205 10 5 47 Calibration of LLT MD IEC60990 Fig eeeeeees 206 10 5 48 AC Source Calibration Low Range 150VAC ccee 206 10 5 49 AC Source Calibration High Range 277VAC cceeee 207 11 REPLACEMENT PARTS LIST uuu cc
253. y cause inadvertent memory activation of the APT power source If you would like to operate the APT power source independently of the OMNIA II either disconnect the interface cable or disable the PLC remote on the APT power source The Remote Memories send signals are provided by two normally open internal relays These are normally open free contacts and will not provide any voltage or current The ratings of the contacts are 1A 125 VAC 0 5ADC With this option a new soft key selection will appear on the Run Test parameter or LLT parameter screen In the LLT parameter screen it will be necessary for you to press the More soft key to access the PLC control parameter The new soft key called PLC Control will toggle between M1 M2 and M3 when pressed Setting the PLC control selection to M1 M2 and M3 will create different digital states at Bit 0 and Bit 1 of the PLC Remote Signal Output refer to the PLC Signal Output drawing below The different states are described in the truth table below The Not used state is undefined and cannot be programmed for use 135 Mf assocuren SIGNAL OUTPUT BIT 1 BIT 0 TEST VOLTAGE SETTING 0 0 Not used 0 1 M1 1 0 M2 1 1 M3 0 OPEN 1 CLOSED Because the relay that normally provides the processing signal has been reconfigured for voltage control the Fail and Pass signals have been reconfigured to provide Pass Fail and Processing si
254. y is pressed the Security Level pop up screen will appear as follows User ID Password Security Level Confirm Passwo Run Only Recall Setup Full System Press ENTER to save Press EXIT to cancel Use the up or down arrow keys to select the Security Level Once a parameter is edited it is necessary to complete the edit either by pressing the ENTER key to accept the new value or the EXIT key to escape from the edit and return to the original value The security levels are as follows Run Only This is the most restricted mode of user access The user can only initiate a test reset a failure or abort a test from the Perform Tests screen NOTE whenever a users security level is Run Only Single Step and Fail Stop soft keys will be disabled at the Perform Test screen 42 J RESEARCH INC NOTE whenever a user s security level is Run Only you may only start at test step 1 Recall Setups This mode allows the user to load previously configured test files but it does not allow any editing of the parameters In this mode the user is restricted from access to the Setup Test Parameters screen Edit Setups In this mode the user can load files and edit test parameters Full System Access In this mode the user has full access level to all instrument setup parameters as well as system configuration and security levels Access at this level should be restricted to System Administrators
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