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Electrical Safety Analyzer 19032-P User`s Manual

1. STEP 1 GB STEP SETTING 01 TEST STEP 4 UP 02 TEST MODE GB 03 CURRENT 3 00 A 04 HIGH LIMIT 100 0 mt 05 LOW LIMIT OFF DOWN 06 TEST TIME 3 0 sec 07 TWIN PORT OFF 08 CHNL H L INSERT DELETE SELECT STEP Remote Lock lo set Error STEP 2 AC STEP SETTING 01 TEST STEP UP 02 TEST MODE AC 03 VOLTAGE 0 050 KV 04 HIGH LIMIT 0 500 mA 05 LOW LIMIT OFF DOWN 06 ARC LIMIT OFF 07 ARC FILTER 3 230 kHz 08 TEST TIME 3 0 sec 09 RAMP TIME OFF INSERT 10 FALL TIME OFF 11 CHNL H L OFF DELETE SELECT STEP Remote Lock joffset Error STEP 3 IR STEP SETTING 01 TEST STEP UP 02 TEST MODE IR 03 VOLTAGE 0 050 KV 04 LOW LIMIT 0 1 MQ 05 HIGH LIMIT OFF DOWN 06 TEST TIME OFF 07 RAMP TIME 3 230 kHz 08 FALL TIME 3 0 sec 09 RANGE OFF INSERT 10 CHNL H L OFF DELETE SELECT STEP Remote Lock joffset Error 4 40 Description of Panel Test Step a First of all please confirm there is no voltage output and high voltage output DANGER LED isn t light Connect the test cable for low potential to HV2 terminal on the rear panel To short circuit the test cable and high voltage output terminal Confirm there is no high voltage to output Meanwhile plug the two high voltage tes
2. Figure 4 24 Parameter settings are as below 01 TEST STEP Select step 02 TEST MODE Select mode GB AC DC IR LCoption PA 03 CURRENT 3 40A 04 HIGH LIMIT 0 1 510mQ 05 LOW LIMIT 0 510mCO 0 OFF 06 TEST TIME 0 3 999Sec 0 CONT 07 TWIN PORT Select ON or OFF When this function is ON STEP 2 can be set as AC DC or IR in order to process Twin Port test for STEP1 and STEP2 simultaneously After parameter setting is completed enter MAIN MENU by pressing Function Key MENU and then press Function Key TEST to enter TEST menu as figure 4 25 TWIN PORT OFF MODE SOURCE LIMIT RES OFFSET 01 GB 25 00 A 100 0 mQ Get Cs PAGE UP PAGE DOWN SCANNER 1 12345678 GB Standby Remote Lock joffset Error Figure 4 25 Press Function Key STOP START on figure 4 25 then to start test TWIN PORT ON EX STEP 2 is to set IR 4 36 Press Function Key STOP START on this menu then to start test b Withstand voltage test _ AC Mode After entering STEP SETTING menu move the highlight to TEST MODE by pressing 4 key and select AC MODE as figure 4 27 shown key in n
3. Figure 7 2 7 1 Electrical Safety Analyzer 19032 P User s Manual To perform the below procedures Q Select the COM Port you want to connect Q Set Baud Rate to 19200 Baud by pressing FUNCTION KEY Baud Rate After pressing Load File select the program you desire to update Tick the columns of Erase Chip Blank Check Program and Verify off in Process Press RUN Waiting until confirm Erase Chip Blank Check Program and Verify are completed About 10 minutes The perform screens of 19032 P are as the following in sequence Firmware Update Version 3 00 Erase chip PASS Cancel BR 19200 BRemote Lt Firmware Update Version 3 00 Blank Check PASS Cancel BR 19200 Remote iL Firmware Update Version 3 00 Transmit Firmware Write Address 2AE00 HEX Cancel BR 19200 Remote iL Firmware Update Version 3 00 Transmit Firmware Read Address 71935 HEX Cancel BR 19200 Remote iL Firmware Update Version 3 00 Read Address 79980 HEX Transference abort Error log BR 19200 Remote Transmit Firmware Baud Rate INC CONT DEC CONT Firmware Update 7 3 Electrical Safety Analyzer 19032 P User s Manual After the above procedures are performed it means Firmware Update is completed The PC screen is as figure 7 3 shown f Firmware Update Wizard Up
4. 5 51 Electrical Safety Analyzer 19032 P User s Manual B Using status reporting from GPIB Basic example Please run the ULI file before this program This program is that getting results through GPIB from the device Device GPIB address is 3 eui AR Rs E m I EI Bd GGG US SEE LS INT Program is running PEN GPIBO FOR OUTPUT AS 1 set the talker PEN GPIB 0 FOR INPUT AS 2 set the listener define the SRQ handling routine EN GOSUB MySRQRoutine Enable the on SRQ functionality N 1 ABORT initializing complete 1 GPIBEOS IN LF set the end code waiting for SRQ from device 1 OUTPUT 3 SOURCe SAFEty STOP STOP the Device 1 OUTPUT 3 SRE 32 set status enable register 1 OUTPUT 3 ESE 60 set standard enable register Ty OUTPUT 3 5Sdf send undefined command FOR I 1 TO 10000 PRINT Please wait for SRQ I NEXT I PRINT Program is stopped GOTO END1 MySRQRoutine SRQ interrupt PEN OFF PRINT Running the SRQ PRINT 41 OUTPUT 3 ESR P I RINT 1 ENTER 3 NPUT 2 C get the questionable state IF C 32 THEN PRINT All Pass ELSE PRINT Fail END IF End of SRQ interrupt END1 CLOSI END 5 52 GPIB RS232 Operation Description IEEE 488 2 5 6 2 Example of RS232 Basic Program compiled using Microsoft v
5. 30V t RC e 0 03 t RC 1n 0 03 3 5Sec E m aee E Gs O34 Cy High Voltage Output Terminal 100 DUT Mo HIPOT Tester i O Low Terminal Lx hcodu AE Figure 3 4 10 Remote control the main unit The instrument with remote control high voltage output control by external control signal usually For your safety and prevent from hazard please obeys the following rules e Don t allow any unexpected high voltage output that may cause danger e When the main unit output high voltage don t permit the operator or others personnel to contact DUT test cable and probe output terminal X Notice X 11 Turn on or turn off power switch When power switch is cut off it needs a few seconds to re turn on Please don t turn on 3 3 Electrical Safety Analyzer 19032 P User s Manual 12 13 14 15 16 17 and turn off continuously It is very danger to do that under high voltage output When turn on or turn off power don t connect any object to high voltage output terminal to avoid hazard that result from abnormal high voltage output Others notice items Don t make short circuited of output cable grounding cable transmission cable or AC power to prevent from the analyzer is full of voltage Please connect the cover of the analyzer to earth firstly when high voltage output terminal HV1 is short circuited with HV2 terminal lt lt lt Dangerous Event gt gt gt The danger management Under any
6. DUT 2 l pou Return 3tor ho M Operator fi 4 14 Description of Panel There is a current ig produced and flowed through human body when users touch high voltage terminal carelessly iz i lg If ig is over 0 5mA the high voltage will be cut off to protect the safety of operator 4 7 3 2 Set GFI to FLOAT 19032 P high voltage displays Floating status when set GFI to FLOAT The high voltage output terminals HV1 and HV2 on 19032 P are outputting high voltage 5k VAC or 6k VDC the relationship of HV lor HV2 terminal to Earth is given as below figure V Meter 5kVAC or 6kVDC Relationship of 19032 P HV1 terminal to Earth Relationship of 19032 P HV2 terminal to Earth 19032 P a Meter lt 3 5mA Limitations when set GFI to FLOAT 1 HV1 and HV2 terminals on rear panel can t set high voltage output when set GFI to FLOAT 2 GFI can t set to FLOAT when HV1 and HV2 terminals on rear panel are with high voltage output 3 When Dynamic HV Leakage Auto Scanners 6000 0X are installed in the analyzer GFI can t set to FLOAT i e 19032 P is without Floating function 4 15 Electrical Safety Analyzer 19032 P User s Manual 4 7 4 Auto Range 1 Auto Range function sets as ON 2 The current range sets to high range i e 40mA as figure 4 4 shown MODE SOURCE M RES OFFSET oi ac 1 000 kv 0 00 ma Get Cs PAGE UP
7. 0 QO front panel SENSE SENSE rear panel RL4 DRIVE O _o o2 DRIVE HV2 High voltage High voltage output on front output on rear panel P panel gvi O o7 02 HV1 Figure 4 14 RELAY states RL1 RL2 RL3 RL4 ON RL5 RL8 ON RL6 RL7 OFF 4 9 Program Setting 4 9 1 Operation Method 1 When title shows STEP SETTING press A V keys to move the highlight cursor to the parameter item which want to set 2 Press numeral character keys or Function Keys to set this item parameter data 3 Press ENTER to confirm or press CLR to reset 4 9 2 Various Parameter Settings TEST STEP It sets test step TEST MODE Test mode selection There are GB AC DC IR LC option PA OSC test modes can be selected The following describedparameter settings of various test modes Ground Resistance Test Mode GB CURRENT It sets ground resistance test needed current Note Because the high limit of multiplying test current by resistance can t higher than 6 3V High limit of resistance will auto modify to adaptable value when it isn t orrespondence with the above conditions HIGH LIMIT It sets ground resistance judgment high limit value The high limit value is 510mQ or 6 3V CURRENT LOW LIMIT It sets ground resistance judgment low limit value the range is from 0 to high limit of resistance Input 0 means OFF TEST TIME It sets test needed time Input 0 means continuo
8. 5 53 Electrical Safety Analyzer 19032 P User s Manual PRINT 1 SAFEty RESult ALL MMET FOR J 1 TO STEPNUMS INPUT 1 RESULTS PRINT STEP J RESULTS NEXT J END IF D PRINT 1 SOURce SAFEty STOP E 1 5 54 Calibration Step 6 Calibration Step Before processing the calibration step in this section the analyzer should be warm up at least 30 minutes Open the top cover then power on after pressing BW402 When MAIN MENU displayed on the title bar press numerical key corresponded to CALIBRATION will pop up the window of ENTER CALIBRATION PASSWORD Key in password 7 9 3 1 by numerical key After pressing ENTER to select DEVICE on the LCD will enter calibration step of the analyzer Press SW402 for once after the calibration is completed It prevents the calibrated data from losing Voltage Calibration See section 6 2 ACV 5kV Offset 500V AC Voltage OFFSET point ACV 5kV Full 4kV AC Voltage FULL point DCV 6kV Offset 500V DC Voltage OFFSET point DCV 6kV Full 4kV DC Voltage FULL point IRV IkV Offset 500V IR Voltage OFFSET point IRV 1kV Full 1kV IR Voltage FULL point Current Calibration See section 6 3 ACA 3mA Offset 0 12mA AC2 99mA range OFFSET point ACA 3mA Full 2 5mA AC2 99mA range FULL point ACA 30mA Offset 2 5mA AC29 99mA ra
9. VERSion SAFEty FETCh lt item gt lt item gt STARE ONCE OFFSet GET OFF OFFSet CSTandard GET STOP STATus SNUMber RESult ALL JUDGment JUDGement OMETerage MMETerage NORMal MODE TIME ELAPsed RAMP TEST DWELL COMPleted LAST JUDGment JUDGement AREPort lt boolean gt ON OFF RS232 interface only AREPort RS232 interface only ITEM lt item gt lt item gt RS232 Interface only ITEM RS232 Interface only ASAVe lt boolean gt ON OFF RS232 Interface only STEP lt n gt DELete SET MODE GB LEVel lt numeric value gt LEVel LIMit HIGH lt numeric value gt HIGH LOW lt numeric value gt LOW TIME TEST numeric value gt TEST TPORt lt boolean gt ON OFF TPORt CHANnel HIGH lt channel list gt HIGH CURRent OFFSet lt numeric value gt 5 5 Electrical Safety Analyzer 19032 P User s Manual 5 6 OFFSet AC LEVel lt numeric value gt LEVel LIMit LHIGH lt numeric value gt HIGH LOW lt numeric value gt LOW ARC LEVel lt numeric value gt LEVel FILTer numeric value gt FILTer TIME RAMP lt numeric value gt RAMP TEST numeric value gt TEST FALL lt numeric value gt FALL CHANnel
10. 6 2 Voltage Calibration 6 2 1 ACV Calibration Connect an ACV high voltage meter to withstand tester or connecting 9102 to select ACV MODE 100MQ Display ACV 5kV Offset 100V ACV OFFSET POINT calibration Press STOP START Read out the HV meter value Example 0 092kV Press 0 0 9 2 ENTER Press STOP Stop ACV OFFSET POINT calibration Press A key to display Display ACV 5kV Full 4kV ACV FULL POINT calibration Press STOP START Read out the HV meter value Example 4 052kV Press 4 L 0 5 2 ENTER Press STOP Stop ACV voltage calibration 6 2 2 DCV Calibration Connect a DCV high voltage meter to withstand tester or connecting 9102 to select DCV MODE 1 00G Press A key to display Display DCV 6kV Offset 100V DCV OFFSET POINT calibration Press STOP START Read out the HV meter value Example 0 092kV Press 0 0 9 2 ENTER Press STOP Stop DCV OFFSET POINT calibration Press A key to display Display DCV 6kV Full 4kV DCV FULL POINT calibration 6 2 Calibration Step Press STOP START Read out the HV meter value Example 4 052kV Press 4 L 0 5 2 ENTER Press STOP Stop DCV Voltage calibration 6 2 3 IR Voltage Calibration Connect DCV high voltage meter to withstand tester or connecting 9102 to select DCV MODE 1 00GQ Press A key to display Display IRV 1kV Offset 100V IRV OFFSET POINT calibration Press STOP ST
11. RINT RINT 1 OUTPUT 3 SAE ESult ALL MMET RINT 1 ENTER 3 FOR J 1 TO STEPNUMS INPUT 2 RESULTS PRINT STEP J R NEXT J LE 1 OUTPUT 3 SOURce SAFEty STOP SYSTEM B Save and recall from GPIB Basic example Program compiled using Microsoft version 1 1 MS DOS 6 22 Please run the ULI file before this program Device GPIB address is 3 AA EH Bd SSS ERE PEN GPIBO FOR OUTPUT AS 1 open 1 for output write PEN GPIBO FOR INPUT AS 2 open 2 for input read PRINT ABORT initializing complete PRINT GPIBEOS IN LF set the end code PRINT OUTPUT 3 Rce STEP1 GB LEVel 25 PRINT OUTPUT 3 Rce Ety STEP1 GB LIMit HIGH 0 02 PRINT OUTE d Rce STEP2 AC LEVel 500 PRINT OUTP Rce Ety STEP2 AC LIMit HIGH 0 04 PRINT OUTP Work memory were Stored in memory 1 PRINT OUTE MI DEFine AAA 1 Define the name of memory 1 is AAA PRINT OUTE SAFEty STEP3 DC LEVel 700 PRINT OUTE SAFEty STEP3 DC LIMit HIGH 0 01 PRINT TO F E SAFEty STEP4 IR LEVel 800 PRINT OUTE Rce SAFEty STEPA IR LIMit HIGH 5000000 PRINT OUTE P SAV 3 Work memory were Stored in memory 3 PRINT OUTP MEMory DEFine BBB 3 Define the name of memory 3 is BBB RCL 1 Recall the memory 1
12. 0 means OFF During DWELL TIME don t judge the high and low limit value of leakage current The limitation is not over 1 5 multiples of high limit of setting range or high limit of leakage current ARC LIMIT It sets high limit value of arc ARC FILTER It selects frequency range of detection arc There are fourrangesof 3 23 kHz 3 50 kHz 3 100 kHz 3 230 kHz can be selected TEST TIME It sets test needed time It inputs 0 means continuous test RAMP TIME The needed time which rises to setting voltage It inputs 0 means OFF FALL TIME The needed time which falls from setting voltage value to zero 0 means OFF CHNL H L The setting is the same as AC CHANNEL Vt 4 26 Description of Panel Vt TEST VOLTAGE T1 RAMP TIME Voltage Ramping Time T2 DWELL TIME Judgment Delay Time T3 TEST TIME T4 FALL TIME Voltage Falling Time Insulation Resistance Test Mode IR VOLTAGE It sets insulation resistance test needed voltage LOW LIMIT It sets low limit value of insulation resistance HIGH LIMIT It sets high limit value of insulation resistance The value is higher than low limit value of insulation resistance or OFF TEST TIME It sets test needed time It inputs 0 means continuous test RAMP TIME The needed time which rises to setting voltage It inputs 0 means OFF FALL TIME The needed time which falls from setting voltage value to zero 0 means OFF RANGE It sets the test file of insulation resistance AUT
13. 1 500000E 01 means open circuit voltage is 15V when testing ground bond SOURce SAFEty PRESet AC FREQuency lt numeric value gt It sets the output voltage frequency when testing AC withstand voltage The unit is hertz HZ Range 50 600 Example Input command SAFE PRES AC FREQ 60 Description It sets the output voltage frequency to 60Hz when testing AC withstand voltage SOURce SAFEty PRESet AC FREQuency It queries the output voltage frequency when testing AC withstand voltage Example Input command SAFE PRES AC FREQ Return message 6 000000E 01 5 43 Electrical Safety Analyzer 19032 P User s Manual Description Return message 6 000000E 01 means the output voltage frequency is 60Hz when testing AC withstand voltage SOURce SAFEty PRESet WRANge AUTO lt boolean gt ON OFF It sets if withstand voltage auto range function is ON or OFF Example Input command SAFE PRES WRAN ON Description It sets withstand voltage auto range function to ON SOURce SAFEty PRESet WRANge AUTO It queries if withstand voltage auto range function is ON or OFF Example Input command SAFE PRES WARN Return message 1 Description Return message 1 means withstand voltage auto range function is ON SOURce SAFEty PRESet AGC SOFTware lt boolean gt ON OFF It sets if software AGC is ON or OFF Example Input command SAFE PRES AGC ON Description It s
14. A key to display Display DCA 0 3mA Offset 0 012mA DCA 2 999uA range Offset point calibration Press STOP START Read out the ammeter value Example 0 012mA 6 4 Press Press Press Display Press Press Press Press Display Press Press Press Calibration Step 0 1 2 4 ENTER STOP Stop DCA 2 999uA Offset point calibration A key to display DCA 0 3mAFULL 0 12mA DCA 299 9uA range full point calibration STOP START Read out the ammeter value Example 0 120mA 0 1 2 0 ENTER STOP Stop DCA 299 9uA range calibration A key to display DCA 3mA Offset 0 12mA DCA 2 999mA range Offset point calibration STOP START Read out the ammeter value Example 0 124mA 0 1 2 4 ENTER STOP Stop DCA 2 999mA Offset point calibration Change the load resistor to 500k 2 50watt or higher or connecting 9102 to select DCA MODE 500kQ Press Display Press Press Press Press Display Press Press Press A key to display DCA 3mAFULL 2 5mA DCA 2 999mA range full point calibration STOP START Read out the ammeter value Example 2 039mA 2 0 3 9 ENTER STOP Stop DCA 2 999mA range calibration A key to display DCA 20mA Offset 2 5mA DCA 20 00mA range Offset point calibration STOP START Read out the ammeter value Example 2 903mA 2 9 0 3 ENTER STOP Stop DCA 20 00mA Offset point c
15. SAFE STEP 7 LC TIME DWEL 2 0 Description It sets dwell time required for main STEP 7 is 2 0sec SOURce SAFEty STEP lt n gt LC TIME DWELI It queries dwell time required for selected STEP Example Input command SAFE STEP 7 LC TIME DWEL Return message 2 000000E 00 Description Return message 2 000000E 00 means dwell time setting for STEP 7 in the main unit is 2 0sec SOURce SAFEty STEP n LC POWer MODE VOLTage CURRent VA SIMUlation SOURce It sets power measurement mode of selected STEP Example Input command SAFE STEP 7 LC POW MODE VOLTage Description It sets power measurement mode for STEP 7 of the main unit is VOLTAGE SOURce SAFEty STEP n LC POWer MODE It queries power measurement mode of selected step 5 37 Electrical Safety Analyzer 19032 P User s Manual Example Input command SAFE STEP 7 LC POW MODE Return message VOLTAGE Description Return message VOLTAGE means power measurement mode of STEP 7 in the main unit is VOLTAGE SOURce SAFEty STEP lt n gt LC POWer VOLTage LIMit HIGH lt numeric value gt It sets power voltage measurement high limit value of selected step The unit is volt V Range 0 or 0 1 300 0 0 is for setting OFF Example Input command SAFE STEP 7 LC POW VOLT 220 Description It sets power voltage measurement high limit value of STEP 7 in the main unit to 220V SOURce SAFEty STEP n LC POWer VOLTage LI
16. SAFEty STEP n GB LIMit HIGH This command queries selected step its grounding resistance judgment high limit value Example Input command SAFE STEP GB LIM Return message 1 100000E 01 Description Return message 1 100000E 01 means grounding resistance judgment high limit value is 0 11 ohm SOURce SAFEty STEP n GB LIMit LOW This command sets selected step its grounding resistance judgment low limit value The unit is Ohm Range 0 0001 0 51 low limit value of grounding resistance judgment x setting high limit value Example Input command SAFE STEP 1 GB LIM LOW 0 01 Description This command sets step 1 grounding resistance judgment low limit value is 0 01 ohm SOURce SAFEty STEP lt n gt GB LIMit LOW This command queries selected step its grounding resistance judgment low limit Example Input command SAFE STEP GB LIM LOW Return message 1 000000E 02 Description Return message 1 000000E 02 means grounding resistance judgment low limit value is 0 01 ohm SOURce SAFEty STEP n GB TIME TEST numeric value gt This command sets selected step which test needed time The unit is second Range 0 or 0 3 999 0 0 is for setting CONTINUE Example Input command SAFE STEP 1 GB TIME 0 5 Description This command sets step 1 test needed time is 0 5 second SOURceJ SAFEty STEP n GB TIME TEST This command queries selected step which test needed
17. Stop DC arc calibration 6 6 Resistor Calibration for Insulation Resistance Mode The standard load resistor is connecting between high potential terminal and low potential terminal of withstand voltage tester Press A key to display Display IRR 370M2 Offset 40MQ Connect IR standard resistor to 40MQ Press STOP START Read out the IRR value If IR standard resistor is 40MQ Press 4 0 ENTER Press STOP Stop Change the standard load resistor to 250MQ Press A key to display Display IRR 370MQ Full 250MQ Connect IR standard resistor to 250MQ Press STOP START Read out the IRR value If IR standard resistor is 250MQ Press 2 5 0 ENTER Press STOP Stop Change the standard load resistor to 4 00MQ Press A key to display Display IRR 3 7GO Offset 400MQ Connect IR standard resistor to 400MQ Press STOP START Read out the IRR value If IR standard resistor is 400MQ Press 4 0 0 ENTER Press STOP Stop Change the standard load resistor to 2 5GO Press A key to display Display IRR 3 7GQ Full 2 5GQ Connect IR standard resistor to 2 5GQ Press STOP START Read out the IRR value If IR standard resistor is 2 5GQ Press 2 5 0 0 ENTER Press STOP Stop 6 7 Electrical Safety Analyzer 19032 P User s Manual Change the standard load resistor to 4GQ Press A key to display Display IRR 50GQO Offset 4GQ Connect IR standard resistor to 4GQ Press STOP STAR
18. e Connect the test cable of HV2 terminal to DUT finally and then HV1 high voltage test cable also be connected 5 Test stop When the test is over the and no need to use or the tester is not run status or needs to exit during use please be sure power switch is on OFF that is turn off power As figure 3 2 shown W ME y Chroma ELECTRICAL SAFETY ANALYZER 19032 P MAIN MEN METER 1 gt SYSTEM NT id 2 OPTION r2 3 qus C 3 CALIBARTION A 4 gt KEY LOCK F3 4 s 6 K 5 gt NEW SECURITY CODE 2 a ets 6 gt FAIL LOCK x ORE SENSE SENSE DRIVE C 7 ERROR LOG sz S CUM oO F6 e eJ a 99199 9919 n EE Es gemi aa cili e ER Power switch Figure 3 2 6 The dangerous area under test mode It is very danger to touch high voltage area under operation status Such as touch DUT test cable probe and output terminal When the main unit is under test status please don t touch alligator clip on test cable Because the insulation of plastic layer is not enough touch it may cause hazard As figure 3 3 shown Figure 3 3 Please don t touch here when outputs high voltage lt lt lt Warning When the output terminal is cut off gt gt gt 7 Test complete confirmation You may touch DUT high voltage test cable or output terminal etc high voltage areas under modifying circuit or others test requested conditions Please confirm the 3 2 Notice Items
19. gt It sets test data for auto report lt item gt is for character data its meaning is listed below MODE Measurement MODE OMETerage Output value MMETerage Measurement value LACMETerage LAC measurement value LDCMETerage LDC measurement value RELApsed The elapsed time for Ramp DELApsed The elapsed time for Dwell TELApsed The elapsed time for Test Return 9 9000001E 37 while Test Time sets as CONT and it higher than 999 sec FELApsed The elapsed time for Fall Time STATe The test result code The sequence for report data MODE OMETerage MMETerage LACMETerage LDCMETerage RELApsed DELApsed TELApsed FELApsed STATe Example 1 Input command SAFE RES AREP ON It sets to enable auto report 2 Input command SAFE RES AREP ITEM STAT MODE OMET It sets the data which require to report It assumed the test as AC MODE then return message is as below AC 5 200000E 01 116 Description It follows the data reported to set it after the test completed Note The parameter setting is no need to follow the sequence but the data will be reported by sequence SOURce SAFEty RESult AREPort ITEM It queries data item of device auto report test as well as returns data report item RS232 interface only Example Input command SAFE RES AREP ITEM Return message MODE OMET STAT Description The return message means auto report data at present including Measurement MODE
20. output terminal HV 1 is low potential terminal when GFI setting is ON or OFF High electric potential terminal of high voltage output This terminal belongs to high electric potential output usually is high voltage output Therefore this terminal is very dangerous Don t touch it when DANGER LED is light there is high voltage outputting Ground Bond current test terminal The grounding impedance test negative Sense negative terminal The grounding impedance testing positive terminal Sense positive terminal Description of Panel 15 DRIVE High electric potential terminal of mass current output When the terminal is grounding resistances test the high electric potential terminal of mass current output 4 2 Rear Panel a 2 3 56 7 8 9 0 AD 2 Figure 4 2 1 HV2 Reference terminal of high voltage output terminal HV1 is low electric potential terminal 2 HV1 High electric potential terminal of high voltage output 8g p 3 Rear Panel GB Output Terminal This terminal Floating status is selectable that is open circuited with front panel GB terminal 4 USB USB terminal 5 SCAN Interface This interface can connect with 9030A Scanning Box Option 6 GPIB Interface Option This socket is for optional GIPB interface IEEE 488 1978 The detailed descriptions please refers Chapter 5 Description of GPIB Interface in this manual 7 RS
21. 28 Example Input command SAFE RES ALL Return message 116 Description Return message 116 means judgment result is pass SOURce SAFEty RESult COMPleted This command queries if the device complete the execution action of all setting values Return 1 or 0 Example Input command SAFE RES COMP Return message 1 Description Return message 1 means the execution actions of all setting values are completed SOURce SAFEty RESult LAST JUDGment This command queries the judgment result code of the last step Example Input command SAFE RES LAST Return message 116 Description This command means the judgment result of the last step is pass SOURce SAFEty RESult AREPort boolean ON OFF This command sets if automatic reports test result RS232 Interface only GPIB RS232 Operation Description IEEE 488 2 Example Input command SAFE RES AREP ON Description It means the main unit auto report test result after the test is completed SOURce SAFEty RESult AREPort This command queries if auto reports test result Return 1 or 0 RS232 interface only Example Input command SAFE RES AREP Return message 1 Description Return message 1 means auto report test result after the main unit test is completed SSOURce SAFEty RESult AREPort ITEM lt item gt lt item
22. 3 DC LIM LOW Return message 1 000000E 06 Description Return message 1 000000E 06 means DC withstand voltage leakage current low limit value of the main unit STEP 3 is 0 001mA SOURce SAFEty STEP n DC LIMit ARC LEVel lt numeric value gt This command sets selected step its ARC checking value The unit is ampere A Range 0 or 0 001 0 01 0 is for setting OFF Example Input command SAFE STEP 3 DC LIM ARC 0 0025 Description This command sets ARC checking value of STEP 3 in the main unit to 2 5mA SOURce SAFEty STEP n DC LIMit ARC LEVel This command queries ARC checking value of selected step Example Input command SAFE STEP 3 DC LIM ARC Return message 2 500000E 03 Description Return message 2 500000E 03 means ARC checking value of STEP 3in the main unit is 2 5mA SOURce SAFEty STEP lt n gt DC LIMit ARC FILTer lt numeric value gt This command sets ARC bandwidth selection of selected step Range ARC bandwidth 23 kHz 2 300000E 04 ARC bandwidth 50 kHz 5 000000E 04 ARC bandwidth 100 kHz 1 000000E 05 ARC bandwidth 230 kHz 2 300000E 05 Example Input command SAFE STEP 3 AC LIM ARC FILT 230000 Description This command sets ARC bandwidth of STEP 3 in the main unit is 230000Hz 230kHz SOURce SAFEty STEP n DC LIMit ARC FILTer This command queries ARC bandwidth selection of selected step Example Input command SAFE STEP 3 AC LIM ARC FI
23. 4 2 4 8 1 Notice Items before Operating ener enne 4 21 4 8 2 Description of GB Floating Function sese enemies 4 21 4 9 Progr mi Setit i5 care estoit quO petia heat E dosi ERROTA 4 23 4 9 1 Operation Method 2 nti terti HT EY e ER ILI TERRA EO e RAe 4 23 4 9 2 Various Parameter Settings sss 4 23 4 10 Howto Process TOSS orte o e tae ea i aae eatis aen e sdre Dus eti edis 4 28 4 10 1 Offset Value Calibration of Test Cable Fixture eese 4 28 4 10 2 Standard Capacitance Value GET Cs Description sesssssseeee 4 28 4 10 3 Method of DUT Connection eessessseseeeeeeeenee nnne 4 28 4 10 4 Test PIOCedUTe i acte ede i Dette P eL EN D ESSI E A TR ia 4 29 4 11 CALIBRATION Function sce etre ebbe aye deri dbi ei done eus 4 31 4 11 1 Enter Calibration Method gne nap menie e hv dS 4 31 4411 2 Clear Memory iro adserit tese denar dibetelvigtetiee tite ta 4 31 4 12 KEY LOCK Fuentes uester edo inter Art eee erre at needs 4 3 4 13 Setting User FACS WOT aeos odeur t tese needs Ead aU ons ates tea 4 32 4 14 FAIL EOCK Eufetiot a5 oet ec eut EE E Rust RED eetia i bei euh 4 32 4 14 1 FAIL LOCK Setting and Using sees 4 32 AANA 2 Release FAT LOCK ss ine e eer tel ee t as set CR e 4 33 4 15 Remote Contool sninen loasc sate am emus a anes nee didis 4 33 4 16 Output Signals ease a n thua cosa eeu dept iur 4 34 4 17 Test Parameter and Example reed ter ee De te aea ta Peer
24. 5 of rang Q Output Waveform 50Hz 60Hz 0 1 sine wave sinewave Crest Factor 1 3 1 5 a Test Time Note 2 0 3 999 Sec Continue a Ramp Time a Fall Time a DWELL Time a Maximum Short Current a Detection Current a Min pulse width B TwinportTM function SPC WV and GB test can be performed at the same time IY ON OFF B Insulation Resistance Test Note 4 a Test Voltage DC 0 05kV 1kV Constant Voltage a V display Accuracy 2 of reading 0 5 of full scale 0 IMQ 50GQ 500V 1 1000M O 5 of reading 0 5 of full scale 1001 9999MQ 10 of reading 0 5 of full scale 10GQ 50GQ 15 of reading 1 of full scale Q Measuring Accuracy lt 500V 0 1 1000MO 1096 of reading 0 5 of full scale lt 100V 0 1 1000MO 15 of reading 0 5 of full scale a Test Time Note 2 0 3 999 Sec Continue B Ground Bond Test Note 5 3 00 40 00Aac Constant Current 0 01A step 2 1 Electrical Safety Analyzer 19032 P User s Manual 2 of setting 0 1 of full scale Q Output Waveform 50Hz 60Hz 0 1 sine wave 0 00 40 00A 196 of reading 0 17 of full scale 10 0 510 0mQ with offset value 2 of reading 0 1 of full scale at gt 10A a Resistance Accuracy 2 of reading 1 of full scale at lt 10A lt 210mQ 3 of reading 2 of full scale at lt 10A gt 210mQ Current 40A i i Resistance 10mQ 100mQ 510mQ a
25. Command Description eiecit e tet ET Er Ee e eR EET D tao veut 5 9 5 4 3 Start Test by Serial NO 4 etr cetero te ERE P ETE pepe laa eter 5 46 5 4 4 SCPI Status System entre o mper ee ce t D e e EAR ERES REA UE a a Poen quae eR YES 5 47 5 5 Error Messaer Lm utem rude aM MM 5 48 5 6 Basic Example os oo asc eos nola Dee s e s ise du DOT cA Sez eu 5 50 5 6 1 GPIB E osito moe INIM 1 4 Sats cis 5 50 5 6 2 Example of RS232 Basic iuis ect e Re rs Pa RH S eerie Ven dS 5 53 6 Calibration SEED me 6 1 6 1 CAPTION Cents seas cicero Set ea oath ceed E Stu c UMS cuc Aon 6 2 6 2 Voltage C aliBEACI BS d ne et hse ettet d entre e eh Pact ed m tot Med 6 2 6 2 1 ACV Cahbration xia o ettet dete tete eei v eese tt dee tete dee eee ovra eds 6 2 6 2 2 DGV Calibration EREE ERN e n RE UE IRIS 6 2 6 2 3 IR Voltage Calibration sis inei aeie a a REE nnne 6 3 6 3 Current C al bratioths ci sec e recae a a A E a IERE 6 3 6 3 1 AC Current Calibration ane cet E estt tubes ede e erae aa eda 6 3 6 3 2 DC Current Calibration una nos undo eere eed edidere erede 6 4 6 4 GBA GBY Calibration caer eere io eto aec DO oed uve 6 5 6 5 Withstand Voltage Mode Arc Calibration essere 6 6 6 6 Resistor Calibration for Insulation Resistance Mode ussss 6 7 6 7 Complete Calibration Sess bum ste suena lain aut tare itu enun ei itte pre 6 8 7 Firniware Update scassi sed i arasso ER Sa
26. Description Return message 2 000000E 00 means test ramps to setting voltage needed time of STEP 3 in the main unit is 2 0 sec SOURce SAFEty STEP n DC TIME TEST numeric value gt This command sets selected step which test needed time The unit is second s Range 0 or 0 1 999 0 0 is for setting CONTINUE Example Input command SAFE STEP 3 DC TIME 1 Description This command sets test needed time of STEP 3 in the main unit is 1 0sec SOURce SAFEty STEP lt n gt DC TIME TEST This command queries test needed time of selected step Example Input command SAFE STEP 3 DC TIME Return message 1 000000E 00 Description Return message 1 000000E 00 means test needed time setting of STEP 3 in the main unit is 1 sec SOURce SAFEty STEP n DC TIME FALL numeric value gt It sets the time required for set voltage to fall to 0 for selected STEP The unit is second s Range 0 or 0 1 999 0 0 is for setting OFF Example Input command SAFE STEP 3 DC TIME FALL 3 Description It sets the time required for set voltage to fall to 0 for STEP 3 in the main unit is 3 0sec SSOURce SAFEty STEP lt n gt DC TIME FALL 5 26 GPIB RS232 Operation Description IEEE 488 2 It queries the time required for set voltage to fall to 0 for selected STEP Example Input command SAFE STEP 3 DC TIME FALL Return message 3 000000E 00 Description Return message 3 000000E 00 means the
27. HIGH lt channel list gt HIGH LOW channel list gt LOW CURRent OFFSet lt numeric value gt OFFSet DC LEVel lt numeric value gt LEVel LIMit HIGH lt numeric value gt HIGH LOW lt numeric value gt LOW ARC LEVel lt numeric value gt LEVel FILTer lt numeric value gt FILTer TIME DWELI lt numeric value gt DWELI RAMP lt numeric value gt RAMP TEST lt numeric value gt TEST FALL lt numeric value gt FALL CHANnel HIGH lt channel list gt HIGH LOW channel list gt LOW CURRent GPIB RS232 Operation Description IEEE 488 2 OFFSet lt numeric value gt OFFSet IR LEVel lt numeric value gt LEVel LIMit HIGH lt numeric value gt HIGH LLOW lt numeric value gt LOW TIME RAMP lt numeric value gt RAMP TEST numeric value gt TEST FALL lt numeric value gt FALL RANGe UPPer numeric value UPPer LOWer lt numeric_value gt LOWer AUTO ON OFF or boolean AUTO CHANnel HIGH lt channel list gt HIGH LOW channel list gt LOW PAuse MESSage string data gt UTSIgnal lt boolean gt ON OFF gt TEST lt numeric_value gt TEST OSC LIMit OPEN numeric value gt OPEN SHORT lt numeric value gt SHORT CHANnel HIGH lt channel list gt HIGH LO
28. PAGE DOWN SCANNER 1 12345678 AC H Standb Remotel Lock joffset Error Figure 4 30 Press Function Key STOP START on this menu to start test c Withstand voltage test DC Mode Insulation impedance test _ IR Mode The setting methods are the same as b Withstand voltage test _ AC Mode d Short open circuit detection test _ OSC Mode After entering STEP SETTING menu press 4 key to move the highlight to TEST MODE for selecting OSC MODE key in parameter value as your need is shown as figure 4 31 STEP SETTING 01 TEST STEP 1 PA 02 TEST MODE 03 OPEN CHK 50 OSC 04 SHORT CHK 300 05 CHNL H L OFF PAGE 2 2 SELECT MODE Remote Lock joffset Error Figure 4 31 Parameter setting ranges are as the following 01 TEST STEP Select step 02 TEST MODE Select mode OSC 03 OPEN CHK Set the judgment test result to open condition compare the test reading with the read standard capacitance value Cs 04 SHORT CHK Set the judgment test result to short condition compare the test reading with the read standard capacitance value Cs 05 CHNL H L It is the same as AC DC CHANNEL setting 4 39 Electrical Safety Analyzer 19032 P User s Manual 4 17 2 Auto Mode Setting
29. Register Enable Register Operation Com NetUsed SP NerUsed ESR ESE lt value gt ESE 5 47 Electrical Safety Analyzer 19032 P User s Manual 5 5 Error Message Error messages are saved in error queue which access by FIFO method The first returned error message is the first being saved When the error message is over 30 the last position will save 350 Queue overflow The error queue can t save error message any more till there is error message out When there is no error occurred the first position will save 0 No error in error queue 102 Syntax error Syntax error usually includes not allowed character symbol in command 103 Invalid separator Invalid separator characters are found in command string 108 Parameter not allowed The device receives parameter is not allowed 109 Missing parameter Parameter is missed 112 Program mnemonic too long The header contains more than twelve characters 113 Undefined header The device is received undefined header 114 Header suffix out of range The value of a numeric suffix attached to a program mnemonic is out of range 120 Numeric data error The numerical parameter is error 140 Character data error The input character data is error 151 Invalid string data Uncompleted string data usually double quotation is missing 158 String data not allowed The device is received disallowed string data 70 X Expression error The device is received uncomplete
30. Sur EELEE CESE eA EEEa Ea EEES E eaS 7 1 5 Maimtenanee E A E E E E EEEE 8 1 8 1 Genera lassak ote e A A E E E eA atf LM AS 8 1 8 2 Battery Replacement booa tease iste cc bati blast oa acp base qu tein tchat ded at 8 1 8 3 Instrument Return as cei e EHE ra eU ERE et IR Ee EN ewes 8 1 xii Introduction 1 Introduction 1 1 An Overview of Product Automatic withstand insulation grounding testers of the instrument are designed for automatic withstand insulation resistance grounding resistance short open circuit detection and dynamic leakage current test of electromechanical and electronic equipments The aspect of withstand voltage testing the output power is AC 500VA S5kV 100mA DC 120VA 6kV 20mA Therefore it is for withstand test of electronic and electromechanical and component Testing aspect of insulation resistance the measurement range is 0 1MQ 50GQ and test voltage range is 50V 1000V can be set arbitrary Testing aspect of grounding resistance the grounding resistance range can be measured is 10 150mQ under 10A can up to 510mQ The output test current range is 3 40A can be set arbitrary Testing aspect of dynamic leakage current the measurement range is 0 01mA 50 0mA rms The output test voltage range is 90V 280VAC The test rule matches to IEC950 UL544 UL2601 etc In the testing aspect of short open circuit detection please test if capacitance is short or open before testing high voltage P
31. That is cut output and clear all of judgments simultaneously After pressing this key the main unit is under testing status The testing terminal has output and each judgment function starts simultaneously Function key Under different display menus there are different functions The right side of display has corresponding function description Ifthe description is blank it means corresponding function is invalid Under each main display mode press this key return to MAIN MENU mode When the main unit under Remote status return the control right to main unit by pressing this key The A and V keys are for moving highlighted cursors 8 Data Entry Keys Program Keys 0 9 ENTER CLR 9 Indicator 10 HV2 11 HV1 12 DRIVE 13 SENSE 14 SENSE Numeral character key for inputting each test parameter data numeral or alphabet Under MAIN MENU display mode 1 2 3 4 5 keys can enter various display modes Confirmation key After inputting test parameter press this confirmation key Then the value of inputting will be confirmed Clear key When input test parameter if there is any error can press this key to cancel error data and then input again With UNDER TEST to indicate LED and judge display LED This terminal includes two states 1 High voltage output terminal when GFI setting is FLOAT 2 Reference terminal of high voltage
32. There is a ground terminal on the rear panel cover of the tester Please use appropriate implement to connect the ground terminal to earth actually If not there may be high voltage existed on the cover of the tester It is very danger whatever touches the machine under the above statuses It may cause shock hazard therefore please make sure to connect ground terminal to earth As figure 3 1 arrow shown Ground Figure 3 1 3 Connect test cable to HV1 HV2 terminal It is necessary to check if there is loosen or drop occurred in test cables of HV1 and HV2 terminals under operating condition at any time If you want to connect DUT by test cable please connect test cable of HV2 terminal to DUT Device Under Test The uncompleted connection of test cable of HV2 terminal or drop is very danger as there is full of high voltage on DUT After plugging high voltage jack in HV1 and HV2 and then rotate 90 to screw up clockwise for avoiding the drop of test cable 4 Connection test of high voltage output terminal After the test cable of HV2 terminal has been connected Then follow the below procedures to connect high voltage output cable e Press STOP key firstly e Confirm DANGER indication LED is not light e The test cable of HV2 terminal with HV1 terminal is short confirm there is no voltage output 3 1 Electrical Safety Analyzer 19032 P User s Manual e Plug high voltage test cable in HV1 terminal
33. This command queries the rest PRESET parameter number in the main memory Example Input command MEM FREE STAT Return message 97 3 Description Return message 97 3 means the rest parameter data number 97 can be set there are 3 groups have been used MEMory FREE STEP This command queries the rest STEP number in the main memory Example Input command MEM FREE STEP Return message 497 3 Description Return message 497 3 means the rest STEP 497 can be set there are 3 steps have been used MEMory NSTates This command queries the maximum value plus 1 of the analyzer SAV RCL parameter can be used Example Input command MEM NST Return message 101 Description Return message 101 means the storage capacity of the main memory is 100 groups 101 1 5 11 Electrical Safety Analyzer 19032 P User s Manual SYSTem ERRor NEXT This command reads message in Error Queue Returned message please refer section 5 5 Error Message Example Input command SYST ERR Return message 0 No error Description Return message 0 No error means there is no error message in queue SYSTem OPTion GBCurrent RATE It queries ratio value of GB current Return GB current rate which be set according to Option screen Return values are as below 1 30 30 2 30 40 3 30 45 4 30 60 Example Input command SYSTem OPTion GBCurrent RATE Return message 30 30 Description Return
34. before Use following at the first X Power switch is turned off X As the insulation resistance test unit DUT may full of high voltage when test is completed In the meantime you need to pay attention to obey descriptions of section 3 8 and 3 9 Please follow the described procedures to execute lt lt lt Note When testing insulation resistance is charging gt gt gt 8 Charge When the insulation resistance is testing DUT capacitor test cable probe and output terminal even includes the tester are full of high voltage After turning off the power switch it needs a period of time to discharge Please obeys the above descriptions don t touch any place may cause shock especially on power just turn off 9 Confirm charging voltage has been discharged completely The discharged time of charging voltage depends on testing voltage and DUT characteristic To assume that high voltage add to DUT is equivalent to high voltage add to 0 01uF capacity parallel 100M O resistance circuit After turning off power the voltage which add on testing and DUT decrease to lower than 30V and its needed time about 3 5 seconds When test voltage is 500V needs about 2 8 seconds To assume the time constant of DUT is known if you want to know the voltage decrease to below 30V needed time Please follow the above procedures multiply decrease to below 30V needed time by time constant As figure 3 4 shown t RC Formula Vo e Vir Ex 1000V x e
35. danger circumstances such as shock DUT burning or the main unit burning Please obey the following procedures to avoid the more danger e Cut off power switch firstly e Then pull off the plug of power cord lt lt lt Solution gt gt gt Problems Under the below circumstances the occurred problem are very danger Even press STOP key the output terminal may output high voltage e When press STOP key DANGER indication LED is still light e The voltage meter without voltage reading but DANGER LED is still light When the above conditions are occurred please turn off power and pull off AC power plug immediately Don t use any more please send to our company or office for reparation DANGER indication LED error When press START key there is already reading on the voltage meter and DANGER LED is still not light In the meantime the indication LED may be error please turn off immediately Please send it to our company or office for reparation If the analyzer needs long time using under normal operation Please notice the following items If the high limit setting value is 100 0mA withstand voltage test please notice its ambient temperature When the ambient temperature is higher than 40 C please stop operation until it cools down to normal temperature The used AC INPUT power of analyzer is 90Vac 250Vac 50 or 60 Hz Only can replace fuse under power disconnected status remove fuse stand from power socket and pre
36. hoo o ma Lr Get Cs PAGE UP PAGE DOWN I SCANNER 1 T 2 8 4 56 7 8 GB GB CONTACT 2 3s RemotellLock offset Error Figure 4 7 4 After GB CONTACT counting down for three seconds Start Wait setting time then process test as figure 4 8 shown MODI SOURCE LIMIT RES OFFSET o1 e 25 00 Al 1 9 mQ LH Get Cs PAGE UP PAGE DOWN I SCANNER 1 12345678 GB TEST TIME 1 3s Remote lLock offset Error Figure 4 8 4 17 Electrical Safety Analyzer 19032 P User s Manual 5 When the test 1s end if judged as PASS the screen as figure 4 9 shown ee MODE SOURCE LIMIT RES OFFSET 01 GB 25 01 A 1 9 mQ Get Cs PAGE UP PAGE DOWN SCANNER 1 1 2 3 4 5 6 7 8 GB WAIT GB OPEN RemotellLock offset Error Figure 4 9 6 Meanwhile the output is stopped and DUT can be changed When the test cable exits from DUT the screen as figure 4 10 shown MODE SOURCE LIMIT RES OFFSET o1 e 25 00 A 10
37. keys to input PASSWORD 0 0 0 0 when NEW SECURITY CODE is not set 3 Press ENTER key FAIL LOCK function will be released and message indication box LOCK highlight will also be released 4 15 Remote Control This analyzer has REMOTE socket of remote switch on rear panel When you want to control this analyzer by external signal plug the control cable in the socket Please don t touch high voltage terminal or it may cause dangerous Remote control by high voltage test bar usually You can use other control circuit instead of high voltage bar Please notice that is switch of controlling high voltage output Be careful that the control cables don t close high voltage terminal and test cables to avoid dangerous 1 Ifyou want to single control START and STOP can refer to as this figure 4 20 described method to connect to REMOTE position on rear panel i O00000000 o wx opooooooco LI Les Las INTER Ue START INTER Ue START LOCK COM RESET LOCK COM RESET Figure 4 19 Figure 4 20 2 As figure 4 20 the main unit is under STOP status NC point is connecting to STOP and NO point connecting to START 4 33 Electrical Safety Analyzer 19032 P User s Manual 3 Some logical components such as transistor FET coupler Also can be used to connect as control circuit as figure 4 21 The connecting signal and circuit as figure 4 21 Only the circuit includes the following statuses it can co
38. of scanning test of STEP 4 in the main unit is channel 2 and 4 LOW output Example Input command SAFE STEP 4 IR CHAN LOW 2 0 Description It sets LOW output channel status of scanning test of STEP 4 in the main unit is OFF SOURce SAFEty STEP n IR CHANnel LOW It queries RETURN channel setting of selected step Example Input command SAFE STEP 4 IR CHAN LOW Return message 2 2 4 Description Return message 2 2 4 means output channel status of scanning test of STEP 4 in the main unit is BOX 2 channel 2 and 4 LOW output SOURce SAFEty STEP n PAuse MESSage string data gt It sets the message string of pause mode Example Input command SAFE STEP 5 PA MESS CHROMA Description This command sets message string of STEP 5 in the main unit to CHROMA SOURce SAFEty STEP lt n gt PAuse MESSage It queries the setting string of message Example Input command SAFE STEP 5 PA MESS Return message CHROMA Description Return message CHROMA means message string of STEP 5 in the main unit is CHROMA SOURce SAFEty STEP lt n gt PAuse UTSIgnal lt boolean gt On OFF It sets the status of UNDER TEST SIGNAL Parameter is ON or indicates the setting ON Parameter is OFF or 0 indicates the setting OFF Example Input command SAFE STEP 5 PA UTSI ON Description It sets the status of UNDER TEST SIGNAL of the main unit STEP 5 to ON Elec
39. offset point calibration Press A key to display GRV full point calibration Display GBV 8V FULL 3V 30Amp into 100mQ 9102 select GRV 0 1000Q Press STOP START Read out GRV value Example 3 002 volts Press 3 0 0 2 ENTER Press STOP Stop GBV calibration 6 5 Withstand Voltage Mode Arc Calibration Caution ARC calibration is very special the high voltage terminal is positioned outside Press A key to display AC arc sensitivity calibration Display AC ARC 40mA 5mA AC withstand voltage arc Press STOP START The high voltage output terminal series 250kQ 5watt resistance by using two high voltage cables The other high voltage cable grounding cable is as close as possible to the first cable but doesn t contact each other and arcing is produced Press 2 2 ENTER For example 2 2mA is critical point of ARC FAIL and ARC PASS Press STOP Stop AC arc calibration 6 6 Calibration Step Press A key to display DC arcing sensitivity calibration Display DC ARC 12mA 5mA DC withstand voltage arc Press STOP START The high voltage output terminal series 250kQ 5watt resistance by using two high voltage cables The other high voltage cable grounding cable is as close as possible to the first cable but doesn t contact each other and arcing is produced Press 2 4 ENTER For example 2 4mA is critical point of ARC FAIL and ARC PASS Press STOP
40. purchaser Shipment should not be made without prior authorization by Chroma This warranty does not apply to any products repaired or altered by persons not authorized by Chroma or not in accordance with instructions furnished by Chroma If the instrument is defective as a result of misuse improper repair or abnormal conditions or operations repairs will be billed at cost Chroma assumes no responsibility for its product being used in a hazardous or dangerous manner either alone or in conjunction with other equipment High voltage used in some instruments may be dangerous if misused Special disclaimers apply to these instruments Chroma assumes no liability for secondary charges or consequential damages and in any event Chroma s liability for breach of warranty under any contract or otherwise shall not exceed the purchase price of the specific instrument shipped and against which a claim is made Any recommendations made by Chroma for use of its products are based upon tests believed to be reliable but Chroma makes no warranty of the results to be obtained This warranty is in lieu of all other warranties expressed or implied and no representative or person is authorized to represent or assume for Chroma any liability in connection with the sale of our products other than set forth herein CHROMA ATE INC No 66 Hwa Ya Ist Rd Hwa Ya Technical Park Kuei Shan Hsiang Taoyuan Hsien Taiwan Tel 886 3 327 9999 Fax 886 3 327 2886 h
41. setting time is up then end the pause mode Short Open Circuit Detection Mode OSC OPEN CHK It sets the judgment test result to open condition compare the test reading with the read standard capacitance value Cs SHORT CHK It sets the judgment test result to short condition compare the test reading with the read standard capacitance value Cs CHNL H L The setting is the same as AC DC CHANNEL 4 10 How to Process Test 4 10 1 Offset Value Calibration of Test Cable Fixture 1 First of all ground test adaptable test cable plug in and terminals of DRIVE and SENSE And then makes test cable short circuit please be sure under grounding test status now Press Function Key OFFSET the display will shows MESSAGE window 2 After pressing START key the title will show GET OFFSET TEST 3 DANGER LED on front panel lights up the current output time is five seconds when TEST TIME set to continue The main unit starts to measure resistance of testing cable and shows its value on the display then stored in the memory 4 When test time is end is highlighted 5 Press START key again found that line resistance of measured test cable is 0 0 1mO it means line resistance of test cable had been deducted 4 10 2 Standard Capacitance Value GET Cs Description 1 Before testing short open detection mode OSC Mode or changing capacitance under test it is necessary to read the standard capa
42. the test mode is WAC WDC or IR capable of setting HV1 terminal on the rear panel is high voltage output terminal grounding terminal or Floating HV2 terminal is grounding or Floating When the test mode is GB or LC option Drive on rear panel connects with Drive on front panel SENSE on rear panel connects with SENSE on front panel Drive on rear panel connects with Drive on front panel SENS on rear panel connects with SENSE on front panel The rear panel is equipped with another set of HV1 Channel 3 When the test mode is WAC WDC or IR capable of setting High Low terminal or Disable When the test mode is LC option HV 1 on rear panel only can be set as Low terminal or Disable i When GFI setting is FLOAT under PRESET option connection diagram of front panel and rear panel terminal is as figure 4 11 shown 1 RL1 2 DRIVE O _ 0 _ DRIVE RL2 SENSE O 1o 02 O SENSE GB output on GB output on front panel SENSE O o 02 O sensk rear panel RL4 DRIVE O o o2 DRIVE RL5 Hieh volt HV2 10702 HV2 oa i 1 RUS 2 High voltage ou om on mon output on rear ane T nodi p RIA panel HV1 O 9 HV1 Figure 4 11 ii When Channel 3 set to H and HV1 terminal on rear panel set to high voltage output connection diagram of front panel terminal and rear panel terminal is as figure 4 12 shown 4 21 Electrical Safety Analyzer 19032 P
43. value gt It sets the buzzer sound continuous time when the main unit passes The unit is second s Range 0 2 99 9 Example Input command SAFE PRES TIME PASS 3 Description It sets the buzzer sound continuous time to 3 seconds when the main unit passes SOURce SAFEty PRESet TIME PASS It queries the buzzer sound continuous time when the main unit passes Example Input command SAFE PRES TIME PASS Return message 3 000000E 00 Description Return message 3 000000E 00 means the buzzer sound continuous time is 3 seconds when the main unit passes SOURce SAFEty PRESet TIME STEP lt numeric value gt KEY It sets the interval time between step and step or the next start command to execute the next step The unit is in second s Range KEY or 0 1 99 9 Example Input command SAFE PRES TIME STEP 0 5 Description It sets the interval time between step and step to 0 5 second SOURce SAFEty PRESet TIME STEP It queries the interval time between step and step the return value is KEY or the unit is second Example Input command SAFE PRES TIME PASS Return message 5 000000E 01 Description Return message 5 000000E 01 means the interval time between step and step is 0 5 second SOURce SAFEty PRESet TIME ASTart lt numeric value gt 5 42 GPIB RS232 Operation Description IEEE 488 2 It sets the time of Start Wait The unit is second s Range 0 or 0 1 99 9
44. 0 0 ma Get Cs PAGE UP PAGE DOWN SCANNER 1 12 3 4 5 6 7 8 GB GB OPEN Remote lLock loffset Error Figure 4 10 7 When the test cable contacts new DUT it is no need to press START key process GB CONTACT count down for 3 seconds at once Start Wait setting time As figure of item 3 shown 8 After GB CONTACT counting down for 3 seconds Start Wait setting time then process test is the same as item 4 description 4 18 Description of Panel WI After Fail Continue RESTART STOP with Ground Bond Smart Start GB S S timing diagram 1 After Fail STOP signal Reset START start signal low GB S S Wait Start Under Test PASS FAIL time 4 19 Electrical Safety Analyzer 19032 P User s Manual 2 After Fail RESTART signal Reset START start signal low G B S S Wait Start Under Test PASS FAIL 3 After Fail Continue signal Reset START start signal low GB S S Wait Start Under Test PASS FAIL 4 20 time time Description of Panel 4 8 Description of GB Floating Board 4 8 1 Notice Items before Operating l Before turning on power please peruse Chapter 3 Notice Items before Use and remember it 2 When turns on power the analyzer will self test LCD shows Find GB Float board it means the analyzer detected this function 4 8 2 Description of GB Floating Function l When
45. 0 is for setting OFF Example Input command SAFE PRES TIME AST 1 Description It sets the time of Start Wait to 1 second SOURce SAFEty PRESet TIME ASTart It queries the time of Start Wait Example Input command SAFE PRES TIME AST Return message 1 000000E 00 Description Return message 1 000000E 00 means the time of Start Wait is 0 5 second SOURce SAFEty PRESet GB FREQuency numeric value gt It sets the output current frequency when testing ground bond The unit is Hertz Hz Range 50 60 Example Input command SAFE PRES GB FREQ 50 Description It sets the output current frequency to 50Hz when testing ground bond SOURce SAFEty PRESet GB FREQuency It queries the output current frequency when testing ground bond Example Input command SAFE PRES GB FREQ Return message 5 000000E 01 Description Return message 5 000000E 01 means the output current frequency is 50Hz when testing ground bond SOURce SAFEty PRESet GB VOLTage numeric value gt It sets open circuit voltage when testing ground bond The unit is volt V Range 6 15 Example Input command SAFE PRES GB VOLT 15 Description It sets open circuit voltage to 15V when testing ground bond SOURce SAFEty PRESet GB VOLTage It queries open circuit voltage when testing ground bond Example Input command SAFE PRES GB VOLT Return message 1 500000E 01 Description Return message
46. 032 P User s Manual SOURce SAFEty STARt OFFSet GET OFF This command gets offset value when the parameter is GET and off offset function when the parameter is OFF Example Input command SAFE STAR OFFS GET Description It means to start the function of getting offset value SOURce SAFEty STARt OFFSet This command queries if do offset action or not Example Input command SAFE STAR OFFS Return message 0 Description Return message 0 means the main unit is without doing offset action SOURce SAFEty STARt CSTandard GET This command is for starting GET Cs function of short open detection mode Example Input command SAFE STAR CST GET Description It means to start GET Cs function of short open circuit detection mode SOURce SAFEty STOP This command is for stopping the test Example Input command SAFE STOP Description It means to stop the main unit test SOURce SAFEty STATus This command queries the execution status of the current device Return character data RUNNING STOPPED Example Input command SAFE STAT Return message RUNNING Description Return message RUNNING means the main unit is testing now SOURce SAFEty SNUMber This command queries how many steps have been set in the memory Example Input command SAFE SNUM Return message 2 Description Return message 2 means 2 steps in the main memory have been set SOURce SAFEty RESul
47. 1950 ULI563 ULS44NP ULS44P UL2601 It sets human body simulation circuit test mode of selected step Example Input command SAFE STEP 7 LC DEV UL544NP Description It sets human body simulation circuit test mode of STEP 7 in the main unit to ULS44NP SOURce SAFEty STEP n LC DEVice It queries human body simulation circuit test mode of selected step Example Input command SAFE STEP 7 LC DEV Return message UL544NP Description Return message UL544NP means human body simulation circuit test mode of STEP 7 in the main unit is UL544NP SOURce SAFEty STEP lt n gt LC DISPlay RMSIPEAK It sets LC leakage current display mode of selected STEP Example Input command SAFE STEP 7 LC DISPlay RMS Description It sets display mode of LC leakage current for STEP 7 in the main unit is RMS SOURce SAFEty STEP n LC DISPlay It queries LC leakage current display mode of selected STEP Example Input command SAFE STEP 7 LC DISPlay RMS Description Return message RMS means display mode of LC leakage current for STEP 7 in the main unit is RMS SOURce SAFEty STEP n LC LAC HIGH Range 0 high limit 0 represents off gt It sets LAC leakage current high limit of selected STEP The unit is ampere A Range LAC HIGH LIMIT value lt LC HIGH LIMIT value 0 is for setting OFF 5 34 GPIB RS232 Operation Description IEEE 488 2 DEVICE is UL544NP 0 0000001 0 006 DEVICE is UL5
48. 232 Interface This socket is for RS232 interface of the instrument GPIB and RS232 interface can t use simultaneously 8 Plug in SCANNER Insert Hole Option new o Option 6000 01 5 points of HV output amp 3 5 6 UL approval sets of grounding terminals e o o o o ey Option 6000 02 3 points of HV output amp 5 UL approval sets of grounding terminals 4 5 Electrical Safety Analyzer 19032 P User s Manual 9 9 7 9 Option 6000 03 8 points of HV output UL approval mmi G 6 oc Option 6000 04 HV LC scanner ag E Option 6000 05 HV LC scanner with probe Option 6000 06 L N Scanner amp Leakage Current Scanner Option 6000 07 HV LC scanner with probe 20A Option 6000 08 HV LC LAC LDC probe scanner 20A Option 6000 11 4 points of HV output amp chic E 7 m m m AD 06000020000 999 Pe sene DNO eet ORME SENE ORME see o o 4 sets of grounding terminals Figure 4 3 9 REMOTE I O The test result signal output terminal START Start test signal input terminal STOP Stop test signal input terminal INTER LOCK The high voltage can be outputted when the two terminals are short circuited UNDER TEST When the analyzer is under test status this output terminal will short circuit Control external signal is by using this short condition The junction specification 125V AC current is lower than 1A action time This analyzer is under tes
49. 3 in the main unit is 4000V SOURce SAFEty STEP n DC LIMit HIGH lt numeric value gt This command sets selected step its DC withstand voltage leakage current high limit value The unit is ampere A Range 0 0000001 0 02 Example Input command SAFE STEP 3 DC LIM 0 002999 Description This command sets DC withstand voltage leakage current high limit value of the main unit STEP 3 is 2 999mA SOURce SAFEty STEP lt n gt DC LIMit HIGH This command queries selected step that DC withstand voltage leakage current high limit Example Input command SAFE STEP 3 DC LIM Return message 2 999000E 03 Description Return message 2 999000E 03 means DC withstand voltage leakage current high limit value of the main unit STEP 3 is 2 999mA 5 24 GPIB RS232 Operation Description IEEE 488 2 SOURce SAFEty STEP n DC LIMit LOW lt numeric value gt This command sets selected step that DC withstand voltage leakage current low limit value The unit is ampere A Range 0 0000001 0 02 low limit value of leakage current lt high limit value of setting Example Input command SAFE STEP 3 DC LIM LOW 0 000001 Description This command sets DC withstand voltage leakage current low limit value of the main unit STEP 3 is 0 001mA SOURce SAFEty STEP n DC LIMit LOW This command queries selected step that DC withstand voltage leakage current low limit value Example Input command SAFE STEP
50. 44P 0 0000001 0 01 DEVICE is UL1563 0 0000001 0 01 DEVICE is UL2601 1 0 0000001 0 01 DEVICE is UL1950 0 0000001 0 01 DEVICE is 1950 U1 RMS 0 0000001 0 05 DEVICE is 1950 U1 PEAK 0 0000001 0 07 DEVICE is 2601 U1 0 0000001 0 01 Example Input command SAFE STEP 7 LC LAC HIGH 0 0001 Description It sets high limit of LAC leakage current for STEP 7 in the main unit is 0 1mA SSOURce SAFEty STEP lt n gt LC LAC It queries LAC leakage current value of selected STEP Example Input command SAFE STEP 7 LC LAC Description Return message 1 000000E 04 means high limit of LAC leakage current for STEP 7 in the main unit SOURce SAFEty STEP n LC LDC HIGH Range 0 high limit 0 represents off gt It sets high limit value of LDC leakage current of selected STEP The unit is ampere A Range 0 or 0 0000001 HIGH LIMIT value If High Limit value is larger than 1mA thus the maximum value can set is 0 001 0 is for setting OFF Example Input command SAFE STEP 7 LC LDC HIGH 0 001 Description It sets high limit value of LDC leakage current for STEP 7 in the main unit to 1 0mA SOURce SAFEty STEP n LC LDC It queries LDC leakage current value of selected STEP Example Input command SAFE STEP 7 LC LDC Description Return message 1 000000E 03 means high limit value of LDC leakage current for STEP 7 in the main unit SOURce SAFEty STEP n LC LINE NORmal REVerse SFNormal SF
51. ART Read out the HV meter value Example 0 092kV Press 0 0 9 2 ENTER Press STOP Stop IRV OFFSET POINT calibration Press A key to display Display IRV 1kV_ Full 1kV IRV FULL POINT calibration Press STOP START Read out the HV meter value Example 1 052kV Press 1 L 0 5 2 ENTER Press STOP Stop IR voltage calibration 6 3 Current Calibration Caution The dummy load must be between high potential terminal and input terminal of ammeter Otherwise the dangerous condition may be occurred 6 3 1 AC Current Calibration Connecting a 1OMQ load resistor in high potential terminal of withstand voltage tester and series high potential terminal HV1 of AC ammeter However connect low potential terminal HV2 of withstand voltage tester to low potential terminal of AC ammeter Press A key to display Display ACA 3mA offset 0 12mA ACA 2 999mA range Offset point calibration Press STOP START Read out the ammeter value Example 0 124mA Press 0 1 2 4 ENTER Press STOP Stop ACA 2 999mA range Offset point calibration Change the dummy load resistor to 500kQ 50watt or higher Press A key to display Display ACA 3mA Full 2 5mA ACA 2 999mA range Full point calibration 6 3 Electrical Safety Analyzer 19032 P User s Manual Press STOP START Read out the ammeter value Example 2 903mA Press 2 L 9 0 3 ENTER Press STOP Stop ACA 2 999mA range calibrati
52. C CURRent OFFSet numeric value This command sets Offset value of AC The unit is Ampere A Range The OFFSET setting range is 0 000000 to 0 002999 when High Limit setting range is from 0 001 to 2 999mA The OFFSET setting range is 0 00000 0 02999 when High Limit setting range is from 3 to 29 99 The OFFSET setting range is 0 00000 0 100 when High Limit setting range is from 30 to 100mA Example Input command SAFE STEP 1 AC CURR OFFS 0 005 Description It means to set AC Offset of STEP 1 in the main unit is 5mA SOURce SAFEty STEP n AC CURRent OFFSet This command queries offset value of selected step Example Input command SAFE STEP 1 AC CURR OFFS Return message 5 000000E 03 Description Return message 5 000000E 03 means offset value of STEP 1 in the main unit is SmA SOURce SAFEty STEP n DC LEVel lt numeric value gt This command sets selected step that DC withstand voltage test needed voltage value The unit is volt V Range 50 6000 Example Input command SAFE STEP 3 DC 4000 Description This command sets DC withstand voltage test needed voltage value of the main unit STEP 3 is 4000V SOURce SAFEty STEP n DC LE Vel This command queries selected step that DC withstand voltage test needed voltage value Example Input command SAFE STEP 3 DC Return message 4 000000E 03 Description Return message 4 000000E 03 means DC withstand voltage test voltage value of STEP
53. C LIMit ARC FILTer This command queries selected step that ARC bandwidth selection Example Input command SAFE STEP 2 AC LIM ARC FILT Return message 2 300000E 05 Description Return message 2 300000E 05 means ARC bandwidth of the main unit STEP 2 is 230000Hz 230kHz SOURce SAFEty STEP lt n gt AC TIME RAMP lt numeric value gt This command sets selected step that ramps to setting voltage needed time The unit is second s Range 0 or 0 1 999 0 0 is for setting OFF Example Input command SAFE STEP 2 AC TIME RAMP 5 Description This command means test ramps to setting voltage needed time of the main unit STEP 2 is 5 0sec SOURce SAFEty STEP lt n gt AC TIME RAMP This command queries selected step that ramps to setting voltage needed time Example Input command SAFE STEP 2 AC TIME RAMP Return message 5 000000E 00 Description Return message 5 000000E 00 means test ramps to setting voltage needed time of the main unit STEP 2 is 5 0sec SOURce SAFEty STEP n AC TIME TEST numeric value gt This command sets selected step that test needed time The unit is second s Range 0 or 0 3 999 0 0 is for setting CONTINUE Example Input command SAFE STEP 2 AC TIME 10 Description This command sets test needed time of the main unit STEP 2 is 10 0sec SOURce SAFEty STEP n AC TIME TEST This command queries selected step that test needed time Example Input command
54. CAN BOX OFF SOURce SAFEty STEP n MODE This command queries MODE in selected step Return character data are AC DC GB IR LC PA or OSC Example Input command SAFE RES ALL MODE Return message DC Description Return message DC means the mode is DC SOURce SAFEty STEP lt n gt GB LEVel lt numeric value gt This command sets selected step the grounding resistance test needed current value The unit is ampere A Range The range can be set is 3 40 Example Input command SAFE STEP 1 GB 5 Description This command sets the needed current value is 5A when testing step 1 grounding resistance SOURce SAFEty STEP n GB LEVel This command queries selected step the grounding resistance test needed current value Example Input command SAFE STEP GB Return message 5 000000E 00 GPIB RS232 Operation Description IEEE 488 2 Description Return message 5 000000E 00 means needed current value of grounding resistance test is 5A SOURce SAFEty STEP lt n gt GB LIMit HIGH lt numeric value gt This command sets selected step the grounding resistance judgment high limit value The unit is Ohm Range 0 0001 0 51 high limit value of grounding resistance judgment x setting current value lt 6 3V Example Input command SAFE STEP 1 GB LIM 0 11 Description This command sets step 1 grounding resistance judgment high limit value is 0 11 ohm SOURce
55. DC VA LIMit HIGH lt numeric value gt HIGH LOW lt numeric value gt LOW SIMUlation TVOLtage lt numeric value gt TVOLtage SOURce TVOLtage lt numeric value gt TVOLtage TFRequency lt numeric value gt 5 8 GPIB RS232 Operation Description IEEE 488 2 TFRequency CHANnel LOW channel list gt LOW PRESet TIME PASS lt numeric value gt PASS STEP numeric value KEY STEP ASTart lt numeric value gt GB FREQuncy numeric value gt FREQUery VOLTage lt numeric value gt VOLTage AC FREQuncy numeric value gt FREQuery WRANge AUTO lt boolean gt ON OFF AUTO AGC SOFTware boolean gt ON OFF SOFTware NUMber PART lt string data gt PART LOT lt string data gt LOT SERIal lt string data gt SERIaI IEC boolean gt ON OFF TEC RJUDgment boolean gt ON OFF GFI ON OFF FOLAT SCREen lt boolean gt ON OFF RJUDgment TRIGger SOURce EX Ternal STATe boolean gt ON OFF TRIGger SOURce EX Ternal STATe 5 4 2 Command Description IEEE 488 2 Command CLS Clear status command data configuration the following actions are needed Clear standard event status register Clear status bit group register except for MAV bit bit 4 ESE numeric value gt Use setting standard event status enable register value lt me
56. ES SCRE OFF Description It sets Screen of the analyzer to off TRIGger SOURce EXTernal S TATe boolean ON OFF 5 45 Electrical Safety Analyzer 19032 P User s Manual It sets if START KEY being blocked under remote state START KEY won t be blocked under remote state when parameter is 1 START KEY will be blocked under remote state when parameter is 0 Example Input command TRIG SOUR EXT STAT 0 Description It sets START KEY being blocked under remote state for the main unit TRIGger SOURce EXTernal S TATe It queries if START KEY being blocked under remote state Example Input command TRIG SOUR EXT STAT Return message 0 Description Return message 0 means START KEY will be blocked under remote state for the main unit 5 4 3 Start Test by Serial No This device will start test when the remote interface receives a string to conform to the setting of Serial Number For example when Serial No set as AA means changeable character Input AA00001 or AA00300 from remote interface this device will start test 5 46 GPIB RS232 Operation Description IEEE 488 2 5 4 4 SCPI Status System Q tri d S g 3 ve lt Q E 5 e 3 Q c Q c Q Summary Register Enable Register NotUsed Tas Result E I 4 Message Availhb D 5 Request Servio 6 Request Servier SX Not Used Serial PolI SPOLL SRE lt value gt STB SRE Event
57. Electrical Safety Analyzer 19032 P User s Manual Version 1 0 May 2009 P N A11 000208 Legal Notices The information in this document is subject to change without notice Chroma ATE INC makes no warranty of any kind with regard to this manual including but not limited to the implied warranties of merchantability and fitness for a particular purpose Chroma ATE INC shall not be held liable for errors contained herein or direct indirect special incidental or consequential damages in connection with the furnishing performance or use of this material CHROMA ATE INC No 66 Hwa Ya Ist Rd Hwa Ya Technical Park Kuei Shan Hsiang Taoyuan Hsien Taiwan Copyright Notices Copyright 2009 Chroma ATE INC all rights reserved Reproduction adaptation or translation of this document without prior written permission is prohibited except as allowed under the copyright laws Warranty All Chroma instruments are warranted against defects in material and workmanship for a period of one year after date of shipment Chroma agrees to repair or replace any assembly or component found to be defective under normal use during this period Chroma s obligation under this warranty is limited solely to repairing any such instrument which in Chroma s sole opinion proves to be defective within the scope of the warranty when returned to the factory or to an authorized service center Transportation to the factory or service center is to be prepaid by
58. Function Key STORE the highlighted cursor become underscore blinking cursor At the same time input the memory name by using numeral character keys Press the same numeral character keys repeatedly can circle switch display between numeral and alphabet If you want to input name can use Function Key NEXT CHAR to move the underscore blinking cursor to next character Press ENTER to confirm or press Function Key EXIT to cancel 4 6 3 Delete Memory l If you want to delete test parameter data which be stored in memory Please follows the below procedures to process When title display MEMORY SETUP press A V keys or Function Key NEXT PAGE to move the highlighted cursor to the memory name which want to delete Press Function Key DELETE and then show confirm window Press ENTER to confirm or press Function Key EXIT to cancel 4 7 Test for Preset Setting 4 7 1 Operation Method l 2 3 4 7 l 2 3 4 12 When title shows PRESET SETUP press A A keys to move the highlight cursor to the parameter item which want to set Press numeral key character key or Function Keys to set this item parameter data Press ENTER to confirm or press CLR to reset 2 Simple Setting Wizard When title shows PRESET SETUP press ENTER key to move the highlight cursor to the parameter item which want to set Press numeral key character key or Function Keys to set this item parameter data When the
59. I version is 1990 0 SOURce SAFEty FETCDh lt item gt lt item gt The command can query the metered data command responds the following data Return Data The lt item gt is character data The STEP The current step number MODE The current mode OMETerage The current output meterage MMETerage The current measured meterage The current LAC meterage The current LDC meterage RELApsed The current elapsed time of ramp RLEAve The current leave time of ramp DELApsed The current elapsed time of dwell DLEAve The current leave time of dwell TELApsed The current elapsed time of test Return 9 9000001E 37 while Test Time sets as CONT and it higher than 999 sec TLEAve The current leave time of test Return the leave time when Test Time is limited Return 9 9000001E 37 when Test Time is CONT FELApsed The current elapsed Fall Time FLEAve The current leave Fall Time CHANnel The current Channel Example Input command SAFE FETH STEP MODE OMET Return message 1 AC 45 000000 E02 Description Return message 1 AC 5 000000E 02 means query the current STEP MODE and output value results are STEP1 AC MODE and 0 500kV SOURce SAFEty STARt ONCE This command is for starting the test Example Input command SAFE STAR Description This command means to start the test 5 13 Electrical Safety Analyzer 19
60. LOW LIMIT OFF 06 ARC LIMIT OFF 07 ARC FILTER 3 230 kHz 08 TEST TIME 3 0 sec 09 RAMP TIME OFF 10 FALL TIME OFF Tie CHNL H L PRESS FUNCTION KEY Remote lLock loffset Error Figure 4 28 By pressing Function Key SETUP to enter SETUP SCANNER 1 setting as the menu in figure 4 29 STEP SETTING Ol TEST STEP 1 02 TEST MODE AC Q3 VOLTAGE OFF Lo 2 3 46 5 06 4 8 NEXT BOX 09 PAMP TIME OFF 10 FALL TIME OFF 11 CHNL H L EXIT PRESS NUMBER KEYS Remotel Lock loffset Error Figure 4 29 In the meantime press numerical key 3 several times then can select H L X H It means HV OUTPUT on rear panel and front panel is ON L It means HV OUTPUT on rear panel and DRIVE on front panel are short grounding DRIVE on rear panel is Floating X It means HV OUTPUT on rear and front panel are open circuit GB four terminals on front panel and rear panel are ON After the parameter settings are completed press Function Key EXIT MENU to enter MAIN MENU and then press Function Key TEST to enter TEST menu as below figure 4 30 shown 4 38 Description of Panel MODE SOURCE LIMIT RES OFFSET 0 AC 1 000 kV 0 500 mA Get Cs PAGE UP
61. LT Return message 2 300000E 05 Description Return message 2 300000E 05 means ARC bandwidth of STEP 3 in the main unit is 230000Hz 230kHz SOURce SAFEty STEP n DC TIME DWELI lt numeric value gt 5 25 Electrical Safety Analyzer 19032 P User s Manual This command sets selected step which DWELL needed time The unit is second s Range 0 or 0 1 999 0 0 is for setting CONTINUE Example Input command SAFE STEP 3 DC TIME DWEL 2 5 Description This command sets dwell needed time of STEP 3 in the main unit is 2 5 sec SOURce SAFEty STEP lt n gt DC TIME DWELI This command queries selected step which DWELL needed time Example Input command SAFE STEP 3 DC TIME DWEL Return message 2 500000E 00 Description Return message 2 500000E 00 means dwell time of STEP 3 in the main unit is 2 5 sec SOURce SAFEty STEP lt n gt DC TIME RAMP lt numeric value gt This command sets selected step that ramps to setting voltage needed time The unit is second s Range 0 or 0 1 999 0 0 is for setting OFF Example Input command SAFE STEP 3 DC TIME RAMP 2 Description This command sets test ramps to setting voltage needed time of STEP 3 in the main unit is 2 0 sec SOURce SAFEty STEP n DC TIME RAMP This command queries selected step that ramps to setting voltage needed time Example Input command SAFE STEP 3 DC TIME RAMP Return message 2 000000E 00
62. Laboratory mt FOC CAB Code TW 1083 11 Lanes1 Fushuas St Jungshan Chiu NYLAP Lah Code 20057545 Taipei Taiwan 104 R O C t E Tel 889 2 25984568 i IC Code 4699 4 Fax 586 2 25984546 Te VECI Aczep No R 1327 C 1605 T 121 T 1441 AA T Jc x Tsun Y Shih General Manage H3 ESENTIUM AP PCS ME MAE RUE BERT ASS RT ENS ENTERS ONSET ES Mee EDT e T TTE M QU Qu CE A ACC A No de ADAGE vi VERIFICATION of conformity with Low Voltage Directive Verification No ACT201845L VD Document holder Type of product CHROMA ATE INC Electrical Safery Analyzer Address Type designasion 66 Hwa Ya lot Rd Hwa Ya Technology Park 19032 P and 19055 Kuei Shaz Hsiang Taoyuan Hsien 333 Tarman Technical data 100 240V 50 60Hz 1200W Class I A sample of the product bas been assessed with respect to CE marking according to the Low Voltage Directive 2006 95 EC and found to comply with the essential requirement of the Directive The Standard wsed for showing the compliance and the fall details of the results are given in the Test Report as detailed below Standard IEC EN 61010 1 2001 The bolder of the verification i authorized to use this verification iu commection with the EC declaration of conformity according to the Directive The CE marking may only be used if all relevant aud effective EC Directives are complied with Together with the manufacture
63. Limit Value Setting HI LIMIT 0 1 510 0mQ a Offset Range 0 500 0mQ a Test Time Note 6 0 3 999 sec Continue B Secure Protection Function O Ground Fault Interrupt Leakage Current AC 0 25mA 0 75mA ON OFF selectable for WVAC only HV Floating Output 5 Fast Discharge 5 Panel Operation Lock Leakage Current 100 groups of memory each memory includes max 50 Steps o Memories Steps TOTAL 500 steps B PASS FAIL Judgment Window PASS Short Sound H Indication Alarm FAIL W Arc W Hi W Lo IR Lo IR Hi GR Hi GR Lo GFI GBVO Long Sound B Remote Connector o Rear Panel 9 Pins connector START RESET UNDER TEST PASS FAIL rH Start Reset Control TTL Low Level Active minimum 20mS BH RS232 Interface Baud rate 300 19200 data bits 8 stop bit 1 2 2 Specification B Power Requirement Note 8 a Line Input 90Vac 250Vac 50 or 60 Hz a Power Consumption No load lt 100W Rated load 1000W Maximum load 1200W a Dimension 430 W x 133 Hx 500 D mm a Weight lt 24 kg Ground Bond Floating HV Output HV output can set to HV Low or Off Fixed port 3 Maximum Voltage is 5k Vac 6k Vdc Maximum Current is 100mA ac or peak dc Wac maximum add 10 counts extra error Wdc maximum add 2 counts extra error Ground Bound Output Ground Bound can set to Close or Open Floating Voltage Floating Ground 1000Vrms or 1400Vpeak ac maximum Ground Bond Close the maximum current is 40Amp Maximum add
64. Mit HIGH It queries power voltage measurement high limit value of selected step Example Input command SAFE STEP 7 LC POW VOLT Return message 2 200000E 02 Description Return message 2 200000E 02 means power voltage measurement high limit value of STEP 7 in the main unit is 220V SOURce SAFEty STEP lt n gt LC POWer VOLTage LIMit LOW lt numeric value gt It sets power voltage measurement low limit value of selected step The unit is volt V Range 0 or 0 1 300 0 0 is for setting OFF low limit value of voltage measurement lt high limit value Example Input command SAFE STEP 7 LC POW VOLT LOW 110 Description It sets power voltage measurement low limit value of STEP 7 in the main unit to 110V SOURce SAFEty STEP n LC POWer VOLTage LIMit LOW It queries power voltage measurement low limit value of selected step Example Input command SAFE STEP 7 LC POW VOLT LOW Return message 1 100000E 02 Description Return message 1 100000E 02 means power voltage measurement low limit value of STEP 7 in the main unit is 110V SOURceJ SAFEty STEP n LC POWer CURRent LIMit HIGH lt numeric value gt It sets power current measurement high limit value of selected step The unit is ampere A Range 0 or 0 001 20 0 is for setting OFF Example Input command SAFE STEP 7 LC POW CORR 5 Description It sets power current measurement high limit value of STEP 7 in t
65. No Parallel poll requirement All device clear requirement No Device trigger requirement No controller requirement 5 2 3 Interface Message The analyzer is capable of responding to the following messages Message Meaning Response Go To Local Can switch the analyzer to Local status Selected Device Clear Restart the analyzer Local Lockout From LOCAL key switch to Local status is forbidden Interface Clear Reset GPIB interface 5 Electrical Safety Analyzer 19032 P User s Manual 5 2 4 Command Format Description The analyzer GPIB function is composed of command string which inputted by ASCII code to attain functions of remote control and setting The length of the command string is limited in 1024 characters include end code Command Parameter composes a command Two commands can be connected by semicolon and ended by end code The end code can be any one of the following types the analyzer can distinguish it by self End of String CR LF EOI 5 2 5 Related Panel Description 1 Address Setting Under MAIN MENU menu press numerical key to enter OPTION MENU menu Press Function Key GPIB to enter GPIB SETUP and then selects GPIB Address by using Function Key UP or DOWN The setting is completed and press Function Key EXIT to exit 2 Remote Local Control The signal block Remote is highlighted it means the analyzer is on Remot
66. O SOURce SAFEty STEP lt n gt IR LIMit LOW It queries IR low limit value of selected step Example Input command SAFE STEP 4 IR LIM Return message 1 000000E 05 5 28 GPIB RS232 Operation Description IEEE 488 2 Description Return message 1 000000E 05 means IR low limit value of STEP 4 in the main unit is 0 1MO SOURce SAFEty STEP n IR TIME RAMP lt numeric value gt It sets selected step which ramps to setting voltage needed time The unit is second s Range 0 or 0 1 999 0 0 is for setting OFF Example Input command SAFE STEP 4 IR TIME RAMP 0 5 Description This command sets test ramp to setting voltage needed time of STEP 4 in the main unit is 0 5 sec SOURce SAFEty STEP lt n gt IR TIME RAMP It queries selected step which ramps to setting voltage needed time Example Input command SAFE STEP 4 IR TIME RAMP Return message 5 000000E 01 Description Return message 5 000000E 01 means test ramp to setting voltage needed time of the main unit STEP is 0 5 sec SOURce SAFEty STEP lt n gt IR TIME TEST lt numeric value gt It sets selected step which test needed time The unit is second s Range 0 or 0 3 999 0 0 is for setting CONTINUE Example Input command SAFE STEP 4 IR TIME 1 Description It sets test needed time of STEP 4 in the main unit is 1 0sec SOURceJ SAFEty STEP n IR TIME TEST It queries test needed time of sele
67. O means auto range The relationship between current range and resistance measurement scope are shown as below table IR Value Range Setting Voltage Setting Voltage 50V 499V 500V 1000V 10mA 3 10mA 0 1MO 1MO 0 1IMQ 4 5MQ 3mA 0 3 3mA 0 5MQ 4 5MQ 3 0MQ 15 0MQO 300uA 30 300uA 3 0MQ 15 0MQ 10 0MQ 45MQ 30uA 3 30uA 10 0MQ 45MQ 35 0MQ 450MQ 3uA 0 3 3uA 45MQ 0 45GQ 0 40GQ 4 5GO 300nA 20 300nA 0 40GQ 4 9GQ 4 0GQ 50 0GQ Note Please follow test voltage and insulation impedance of DUT to calculate the value of current thus follow this to choose suitable current range CHNL H L The setting is the same as AC DC CHANNEL Or scanning test selection point please use with optional device for example 6000 03 Leakage current test mode LC Option Pause test mode PA MESSAGE Message hint string The string are inputted by alphabet Arabic numerals or symbol The max is 13 characters UNDER TEST It sets as ON or OFF 1 When set as ON UNDER TEST terminal on rear panel is short circuited condition under pause mode 2 When set as OFF UNDER TEST terminal on rear panel is open circuited condition under pause mode TEST TIME It sets the action method of pause mode 4 27 Electrical Safety Analyzer 19032 P User s Manual 1 When set to CONTINUE pause mode will be ended till press START on panel or re trigger START signal on rear panel 2 The setting is 0 3 999sec When the
68. OW 2 0 Description It sets LOW output channel of scanning test of STEP 3 in the main unit is OFF SOURce SAFEty STEP lt n gt DC CHANnel LOW It queries return channel setting of selected step Example Input command SAFE STEP 3 DC CHAN LOW Return message 2 2 4 Description Return message 2 2 4 means output channel status of scanning test of STEP 3 in the main unit is BOX 2 channel 2 and 4 LOW output SOURce SAFEty STEP n DC CURRent OFFSet numeric value It sets offset value of DC The unit is in Ampere A Range The Offset setting range is 0 0000000 0 0002999 when High Limit setting range is from 0 1uA to 299 9uA The Offset setting range is 0 000000 0 002999 when High Limit setting range is from 0 3mA to 2 999mA The Offset setting range is 0 000000 0 02000 when High Limit setting range is 5 27 Electrical Safety Analyzer 19032 P User s Manual from 3mA to 20mA Example Input command SAFE STEP 1 DC CURR OFFS 0 005 Description It sets DC offset of STEP 1 in the main unit is 5mA SOURce SAFEty STEP n DC CURRent OFFSet It queries offset value of selected STEP Example Input command SAFE STEP 1 DC CURR OFFS Return message 5 000000E 03 Description Return message 5 000000E 03 means offset value of STEP1 in the main unit is 5mA SOURce SAFEty STEP lt n gt IR LEVel lt numeric value gt It sets selected step which IR test needed voltage v
69. Output value and Test result code 5 17 Electrical Safety Analyzer 19032 P User s Manual SOURce SAFEty RESult ASAVe lt boolean gt ON OFF This command is for setting 1f the function of auto report is saved until power on next time RS232 interface only Example Input command SOUR SAFE RES ASAV ON Description There is still the function of with auto report when set this command to ON after powering on next time SOURce SAFEty RESult ASAVe It queries the device if the function of auto report is saved until power on next time Example Input command SOUR SAFE RES ASAV Description It returns 1 to represent the setting of auto report function is saved until power on next time SOURce SAFEty STEP lt n gt DELete This command deletes lt n gt represented step and the step which behind lt n gt will fill a vacancy forward Example Input command SAFE STEP 1 DEL Description This command means to delete step 1 setting value in the main memory SOURce SAFEty STEP lt n gt SET This command queries all setting values in the selected step Example Input command SAFE SETP 1 SET Return message 1 AC 5 000000E 03 6 000000E 04 7 000000E 06 8 000000E 03 2 300000E 05 3 000000E 00 1 000000E 00 2 000000E 00 0 0 Description This command means STEP setting value is STEP 1 AC VOLT 5 000kV HIGH 0 600mA LOW 0 007mA ARC 8 0mA ARC FILTER 230kHz TIME 3 0s RAMP 1 0s FALL 2 0s S
70. PAGE DOWN SCANNER 1 1 2 3 4 5 67 8 AC H Remote Lock joffset Error Figure 4 4 Before ending the test 0 6 sec if the tested current can be represented by low current range then auto range to low as figure 4 5 shown MODE SOURCE m RES OFFSET BC 1 000 kv Q 503 mad Get Cs PAGE UP PAGE DOWN SCANNER 1 12345678 AC H TEST TIME 0 0s Remote Lock offseti Error Figure 4 5 4 7 5 Start Wait Function 1 It sets Start Wait time for example the setting is 3 seconds According to paragraph 4 8 2 for setting various parameters of GB MODE Take for example CURRENT set as 25 00A HIGH LIMIT 100mQ TEST TIME 3 0sec TEST screen is as figure 4 6 shown 4 16 Description of Panel MODI SOURCE LIMIT R 0 GB 25 00 A 100 0 mQ Cd Lr 05 OFFSET Get Cs PAGE UP PAGI LH DOWN SCANNER 1 T0223 4 25 16 02 8 GB Remotel lLock ooffset Error Figure 4 6 3 After DUT is connected press Stop Test to start test meanwhile GB CONTACT counts down as figure 4 7 shown MODI SOURCE LIMIT RES OFFSET Ecs 25 00 A
71. PIB connect to PC Atthe same time all of keys are malfunction except for STOP and LOCAL keys Lock When this area is highlighted it means the main unit is under setting parameter protected mode Other keys are malfunction except for MEMORY TEST and KEY LOCK modes Offset When this area is highlighted it means the main unit zeroed the leakage current of test cable and test lead currently Error When this area is highlighted it means there is error message produced Description of Panel Simplified Function Flow Chart MENU MAIN MENU vsreM SETUP RS232 SETUP GPIB SETUP OPTION MENU EXIT MENU CALIBRATION MENU ey LOCK SETUP hew SECURITY CODE an LOCK SETUP STORE STOP TEST PAGEUP TEST MENU EXIT MENU DELETE amp e GET OFFSET TEST MEMORY SETUP az gt 2 S STOP OFFSET TEST PAGE DOWN PRESET SETUP EXIT MENU PROGRAM SETUP 4 3 Electrical Safety Analyzer 19032 P User s Manual Key Area 1 Power Switch 2 STOP Key 3 START Key 4 Function Keys 5 MENU Key 6 LOCAL Key 7 Cursor Keys The switch provides AC power source that the analyzer is needed Before starting please read Chapter 3 Notice Items before Use firstly Reset key after pressing this key the main unit returns to standby testing status immediately
72. Reverse It sets power circuit status simulation mode of selected step Example Input command SAFE STEP 7 LC LINE REV Description It sets power circuit status simulation mode of STEP 7 in the main unit to Reverse SOURce SAFEty STEP n LC LINE It queries power circuit status simulation mode of selected step Example Input command SAFE STEP 7 LC LINE Return message REVERSE Description Return message REVERSE means power circuit status simulation mode of STEP 7 in the main unit is Reverse SOURce SAFEty STEP n LC METErL P PIG It sets leakage current measurement point of selected step Example Input command SAFE STEP 7 LC METE L P 5 35 Electrical Safety Analyzer 19032 P User s Manual Description It sets leakage current measurement point of STEP 7 in the main unit to L P SOURce SAFEty STEP n LC METEr It queries leakage current measurement point of selected step Example Input command SAFE STEP 7 LC METE Return message L P Description Return message L P means the leakage current measurement point of STEP 7 in the main unit is L P SOURce SAFEty STEP n LC GSWlItch boolean gt ON OFF It sets ground switch status of selected step Example Input command SAFE STEP 7 LC GSWI ON Description It sets ground switch status of STEP 7 in the main unit to ON SOURce SAFEty STEP n LC GSWlItch It queries ground switch status of selected step Ex
73. SAFE STEP 2 AC TIME Return message 41 000000E 01 Description Return message 1 000000E 01 means test needed time of the main unit STEP 2 is 5sec 5 22 GPIB RS232 Operation Description IEEE 488 2 SOURce SAFEty STEP lt n gt AC TIME FALL numeric value gt It sets the time required for set voltage to fall to 0 for selected STEP The unit is second s Range 0 or 0 1 999 0 0 is for setting OFF Example Input command SAFE STEP 2 AC TIME FALL 3 Description It sets the time required for set voltage to fall to 0 for STEP 2 of the main unit is 3 0sec SOURce SAFEty STEP lt n gt AC TIME FALL It queries the time required for set voltage to fall to 0 for selected STEP Example Input command SAFE STEP 2 AC TIME FALL Return message 3 000000E 00 Description Return message 3 000000E 00 means the time required for set voltage to fall to 0 for STEP 2 of the main unit is 3 0sec SOURce SAFEty STEP lt n gt A C CHANnel HIGH lt channel list gt This command sets selected step that the setting of output terminal lt channel list gt formats are as below SN C1 C2 C3 SN is Scan Box number C1 C2 and C3 are Channels numbers Example Input command SAFE STEP 2 AC CHAN 2 1 2 Description This command sets output channel status of scanning test of the main unit STEP 2 is BOX 2 channel 1 and 2 HIGH output Example Input command SAFE STEP 2 AC CHAN 2 0 De
74. T Read out the IRR value If IR standard resistor is 4GQ Press 4 0 0 0 ENTER Press STOP Stop Change the standard load resistor to 40GQ Press A key to display Display IRR 50GO Full 40GQ Connect IR standard resistor to 40GQ Press STOP START Read out the IRR value If IR standard resistor is 40GQ Press 4 0 0 0 ENTER Press STOP Stop 6 7 Complete Calibration Press EXIT MENU Go to MAIN MENU 6 8 Firmware Update 7 Firmware Update Please follows the below procedures to perform Firmware Update The error operation may cause abnormal or damage of the instrument 1 Connect RS232 and PC by RS232 link cable 2 Open the upper cover and then press SWA01 3 When the analyzer powered on LCD as figure 7 1 shown Firmware Update Version 3 00 Warning Baud Rate Incorrectly use will cause the breakdown This function is only for Error Log the professionals INC CONT DEC CONT BR 19200 Remote Error Figure 7 1 4 To perform PC software Firmware Update Wizard PC screen as figure 7 2 shown Firmware Update Wizard X R5232 HiGrIB COM Por GPIB Board Baud Rate Address Memory SE Information Manufacture Device Load File 071880 HEX Backup Firmware gt Prigoes 7 2 Iv icd Unless 3 Jv Blank Che 4 V Program ps E Backup 5 IV Verify 2 About
75. TEP lt n gt GB CHANnel HIGH This command queries selected step its output terminal setting Example Input command SAFE STEP 1 GB CHAN Return message 2 1 2 Description Return message 2 1 3 means output channel of scanning test of the main unit STEP 1 is set to BOX 2 channel 1 and 2 HIGH output SOURce SAFEty STEP n GB CURRent OFFSet numeric value This command sets Offset value of GB The unit is Q Range 0 000 0 5000 Example Input command SAFE STEP 1 GB CURR OFFS 0 005 Description This command means setting STEP 1 GB Offset of the main unit is 5mQ SOURce SAFEty STEP n GB CURRent OFFSet This command queries selected step its Offset value Example Input command SAFE STEP 1 GB CURR OFFS Return message 5 000000E 03 Description Return message 5 000000E 03 means STEP1 Offset value of the main unit is 5mQ SOURce SAFEty STEP n AC LEVel lt numeric value gt This command sets selected step that AC withstand voltage test needed voltage value The unit is volt V Range 50 5000 Example Input command SAFE STEP 2 AC 3000 Description This command means STEP 2 AC withstand voltage test needed voltage value is 3000V 5 20 GPIB RS232 Operation Description IEEE 488 2 SOURce SAFEty STEP lt n gt AC LEVel This command queries selected step that AC withstand voltage test needed voltage value Example Input command SAFE STEP 2 AC Retur
76. UNCTION Eke DANGER MAIN MENU 1 gt SYSTEM phe pi 2 gt OPTION 3 gt CALIBARTION A 4 gt KEY LOCK A 5 gt NEW SECURITY CODE E 6 FAIL LOCK RT 7 gt ERROR LOG 5 z t s LEN Ey Ee ES cun q DUT DRIVE SENSE and DRIVE SENSE of GB output terminals are separately connected to DUT by GB test cable DRIVE and DRIVE terminals should screw up test cable by sleeve tool 4 5 System Parameter Setting Operation methods 1 When title shows SYSTEM SETUP press A V keys to move the highlighted cursor to the parameter item which want to set 2 Press numeral character key or Function Keys to set this item parameter data 3 If shows blinking cursor it means parameter data is not completed When data input is error can press CLR to clear and input again Please press ENTER to confirm parameter data is correct finally 4 8 Description of Panel SYSTEM SETUP 01 Contrast UP 02 Beeper Vol HIGH 03 Compensate 20 04 DC 50V AGC OFF 05 Discharq V 3 6kV DOWN 06 PASS ON CONTINUE 07 Use Source OFF 08 After Fall RESTART 09 AC OFFSET 0 10mA 10 LC OFFSET 0 00mA 1 31 Remote lLock offset Error System parameter setting data description Setting Item Initial Setting Description 1431 17 Adjust LCD brightness LOW MEDIUM HIGH Ad
77. User s Manual 1 RL1 2 DRIVE4O 9 97 O pRIVE 1 RL2 2 O_o QO GB output on RENTE e S GB output on front panel SENSE O o o2 O SENSE rear panel DRIVE HV2 High voltage High voltage output on front output on rear panel panel HV1 Figure 4 12 RELAY states RLI RL2 RL3 RL4 ON RL5 RL7 RL8 ON RL6 OFF iii When Channel 3 set to L and HV1 terminal on rear panel set to low voltage terminal connection diagram of front panel terminal and rear panel terminal is as figure 4 13 shown 1 RL1 2 DRIVE4O lt 00 O DRIVE 1 RL2 2 GB output on SENSE O _ _ 00 O SENSE GB output on front panel 4RL3 5 rear panel SENSE O o 0 _ 0 SENSE 1 RL4 2 DRIVE O 9 a an DRIVE 1 RL5 2 HV2 HV2 High voltage 5 High voltage output on front output on rear panel panel 1 4 RLZ HV1 O _ HV1 Figure 4 13 RELAY states RL1 RL2 RL3 RLA OFF RL5 RL7 OFF RL6 RL8 ON iv When Channel 3 set to X and HV1 terminal on rear panel set to Floating connection diagram of front panel terminal and rear panel terminal is as figure 4 14 shown 4 22 Description of Panel 1 RL1 2 DRIVE4 O 9 0 O DRIVE 1 RL2 2 SENSE 4 O 9 07 O SENSE GB output on QRG GB output on Q M 0
78. W lt channel list gt LOW CRANge lt MA Ximun MINimum NOW gt CURRent lt m gt OFFSet lt numeric value gt OFFSet CSTandard lt range gt lt numeric value gt CSTandard LC 6000 04 6000 05 6000 06 6000 07 and 6000 08 only DEVice UL1950 UL1563 UL544NP UL544P UL2601 1950 U1 12601 U1 1950 U1 2601 U1 6000 08 only DEVice DISPlay RMS PEAK 6000 08 only 5 7 Electrical Safety Analyzer 19032 P User s Manual DISPlay LAC HIGH Range 0 high limit 0 means off 6000 08 only LAC HIGH 6000 08 only LDC HIGH Range 0 high limit 0 means off 6000 08 only LDC HIGH 6000 08 only LINE NORmal REVerse SFNormal SFReverse LINE METEr LIP PIG 6000 05 07 08 only METEr 6000 05 07 08 only GSWItch lt boolean gt ON OFF 6000 05 07 08 only GSWItch 6000 05 07 08 only LIMit HIGH lt numeric value gt HIGH LOW lt numeric value gt LOW TIME TEST lt numeric value gt TEST DWELI lt numeric value gt DWEL POWer MODE VOLTage CURRent VA SIMUlation SOURce MODE VOLTage LIMit HIGH lt numeric value gt HIGH LOW numeric value gt LOW CURRent LIMit HIGH lt numeric value gt HIGH LOW numeric value gt LOW CURRent OFFSet LC lt numeric value gt ELC LAC lt numeric value gt LAC LDC lt numeric value gt L
79. a 2mQ extra error Note 1 Twin Port ON for 50mAac 6mAdc maximum Twin Port ON for less than 1 2 duty cycle output only Less than 1 2 duty cycle of 120sec when output power is greater than 300VA The current resolution is 1 2count for WAC and 1 6count for WDC calculated value Note 2 The minimum testing time arrives at 9096 output voltage specification NO load Note 3 Design in Specifications Validation point is 1 25kV with a 250kQ resistor Note 4 10GQ 50GQ without scan unit only Note 5 Twin Port ON for 40Amps output maximum Twin Port ON for less than 1 2 duty cycle output only GB Scanner output add extra 2mC error For reaching optimal accuracy please use the standard four wires type for measuring When offset lower than 10mQ it is over test specification By using offset can add extra 5mQ error Note 6 The minimum testing time arrives at 90 output current specification NO load Note 7 Except TWIN PORT ON GFI ON OFF Scanner installed Note 8 Except GB F 4kV option Scanner installed 2 3 Notice Items before Use 3 Notice Items before Use The tester is with high voltage output up to 6K V sending to external test It may occur injury and death result from error operation Please peruse notice item of this chapter and remember to avoid accident 1 Shock Hazard For preventing shock be occurred Before using the tester put on insulation glove firstly and then running function related to electricity 2 Grounding
80. alibration Change the load resistor to 100k 2 100watt or higher or connect 9102 to select DCA MODE 100kQ Press Display Press Press Press A key to display DCA 20mA Full 10mA DCA 20 00mA range full point calibration STOP START Read out the ammeter value Example 10 01mA 1 0 0 1 ENTER STOP Stop DCA 20 00mA range calibration 6 4 GBA GBV Calibration Connecting an ammeter is over 30A mp by four wires sense and driver or connecting 9102 to select GRA MODE gt 0Q 6 5 Electrical Safety Analyzer 19032 P User s Manual Press A key to display Display GBA 40A Offset 3A GRA offset point calibration Press STOP START Read out the ammeter value Example 2 897Amp Press 2 L 8 9 7 ENTER Press STOP Stop GBA offset point calibration Press A key to display Display GBA 40A FULL 25A GRA full point calibration Press STOP START Read out the ammeter value Example 24 87Amp Press 2 4 L 8 7 ENTER Press STOP Stop GBA calibration Connecting 0 1Q 200watts resistor and an ammeter is over 30Amp by four wires sense and driver or connecting 9102 to select GRV MODE 0 1000Q Press A key to display GRV offset point calibration Display GBV 8V offset 0 3V 3 0Amp into 100mO 9102 select GRV 0 1000Q Press STOP START Read out GRV value Example 0 301 volts Press 0 3 0 1 ENTER Press STOP Stop GBV
81. alue The unit is volt V Range 50 1000 Example Input command SAFE STEP 4 IR 1000 Description This command sets IR test needed voltage value of STEP 4 in the main unit is 1000V SOURce SAFEty STEP lt n gt IR LEVel It queries selected step which IR test needed voltage value Example Input command SAFE STEP 4 IR Return message 1 000000E 03 Description Return message 1 000000E 03 means IR test needed voltage value of STEP 4 in the main unit is 1000V SOURce SAFEty STEP lt n gt IR LIMit HIGH lt numeric value gt It sets selected step which IR high limit value The unit is ohm Range 100000 50000000000 Example Input command SAFE STEP 4 IR LIM HIGH 50000000000 Description It sets IR high limit value of STEP 4 in the main unit is 50GO SOURce SAFEty STEP lt n gt IR LIMit HIGH It queries IR high limit value of selected step Example Input command SAFE STEP 4 IR LIM HIGH Return message 5 000000E 10 Description Return message 5 000000E 10 means IR high limit value of STEP 4 in the main unit is 50GO SOURce SAFEty STEP lt n gt IR LIMit LOW lt numeric value gt It sets IR low limit value of selected step The unit is ohm Range 100000 50000000000 low limit value of insulation resistance lt high limit value of being set Example Input command SAFE STEP 4 IR LIM 100000 Description It sets IR low limit value of STEP 4 in the main unit is 0 1 M
82. alue of STEP 7 in the main unit to 60Hz SOURce SAFEty STEP n LC POWer SOURce TFRequency It queries source power frequency value of selected step Example Input command SAFE STEP 7 LC POW SOUR TFR Return message 6 000000E 01 Description Return message 6 000000E 01 means source power frequency value of STEP 7 in the main unit is 60Hz SOURce SAFEty STEP n LC CHANnel LOW lt channel list gt It sets RETURN terminal setting of selected step Example Input command SAFE STEP 7 LC CHAN 1 3 Description It sets output channel status of scanning test of STEP 7 in the main unit is BOX 1 channel 3 LOW output SOURce SAFEty STEP n LC CHANnel LOW It queries return terminal setting of selected step Example Input command SAFE STEP 7 LC CHAN Return message 1 3 Description Return message 1 3 means output channel status of scanning test of STEP 7 in the main unit is BOX 1 channel 3 LOW output 5 40 GPIB RS232 Operation Description IEEE 488 2 SOURce SAFEty STEP lt n gt LC CURR OFFSet LC numeric value It sets offset value of LC The unit is in Ampere A The Offset setting value is above 0 and the ranges are as follows 6000 05 07 range When High Limit setting range is from 0 1uA to 59 9uA thus High Limit Offset setting value x 0 000066 When High Limit setting range is from 60uA to 599uA thus High Limit Offset setting value l
83. alue of setting Example Input command SAFE STEP 2 AC LIM LOW Return message 1 000000E 05 Description Return message 1 000000E 05 means AC withstand voltage leakage current low limit value of the main unit STEP 2 is 0 01mA SOURce SAFEty STEP n AC LIMit ARC LEVel lt numeric value gt This command sets selected step that ARC checking value The unit is ampere A Range 0 or 0 001 0 02 0 is for setting OFF Example Input command SAFE STEP 2 AC LIM ARC 0 004 Description This command means ARC checking value of the main unit STEP 2 is 4mA SOURce SAFEty STEP n AC LIMit ARC LEVel This command queries selected step that ARC checking value Example Input command SAFE STEP 2 AC LIM ARC 5 21 Electrical Safety Analyzer 19032 P User s Manual Return message 4 000000E 03 Description Return message 4 000000E 03 means ARC checking value of the main unit STEP 2 is 4 0mA SOURce SAFEty STEP n AC LIMit ARC FILTer lt numeric value gt This command sets selected step that ARC bandwidth selection The unit is hertz Hz Range ARC bandwidth 23 kHz 2 300000E 04 ARC bandwidth 50 kHz 5 000000E 04 ARC bandwidth 100 kHz 1 000000E 05 ARC bandwidth 230 kHz 2 300000E 05 Example Input command SAFE STEP 2 AC LIM ARC FILT 230000 Description This command sets ARC bandwidth of the main unit STEP 2 is 230000Hz 230kHz SOURce SAFEty STEP lt n gt A
84. amaging your health and well being When replacing old appliances with new one the retailer is legally obligated to take back your old appliances for disposal at least for free of charge x ALTO EAE S AB CASES ES SiS Eno 6 Sais eS ene C EE is cJ amp Verification of Compliance e 77 e Product Name Electrical Safety Analyzer e Trade Name Chroma A Main Mocel Number 19032 P NT Series Model Number 19055 CF Applicant Chroma ATE INC Address 66 Hwa Ya ist Rd Hwa Ya Technical Park Kuei Shan Hsiang Taoyuan Hsien 333 Talwan Report Number C C150 0812 304 TL PEN UL peel ich og T Issue Date February 11 2009 2 Applicable Standards EN 61326 1 2006 Class A in EN 61000 3 2 2006 ur EN 61000 3 3 1995 41 2001 A2 2005 Ve x EN 61326 1 2006 industrial locations n Pi IEC 61000 4 2 2001 M et IEC 61000 4 3 2006 T co IEC 61000 4 4 2004 uM ix IEC 61000 4 5 2005 3 on IEC 61000 4 6 2008 M ees IEC 61000 4 3 2001 rk pe IEC 8 000 4 11 2004 s ae ree One sample of the designated product has been tested in cur laboratory ard found ta he n a compliance with the EMC standards cited above and covered by the EMC Directive T zn e 3 2004 108 EC o re pray A Ge ire wv 7 hi 3 CE e US eT Central Research Technology Co TE TRE EMG Test
85. ample Input command SAFE STEP 7 LC GSWI Return message 1 Description Return message 1 means ground switch status of STEP 7 in the main unit is ON SOURce SAFEty STEP n LC LIMit HIGH numeric value gt It sets leakage current high limit value of selected step Setting range DEVICE is UL544NP 0 0000001 0 006 DEVICE is UL544P 0 0000001 0 01 DEVICE is UL1563 0 0000001 0 01 DEVICE is UL2601 1 0 0000001 0 01 DEVICE is UL1950 0 0000001 0 01 DEVICE is 1950 U1 RMS 0 0000001 0 05 DEVICE is 1950 U1 PEAK 0 0000001 0 07 DEVICE is 2601 U1 0 0000001 0 01 Example Input command SAFE STEP 7 LC LIM 0 006 Description It sets leakage current high limit value of STEP 7 in the main unit to 6mA SOURce SAFEty STEP n LC LIMit HIGH It queries leakage current high limit value of selected step Example Input command SAFE STEP 7 LC LIM Return message 6 000000E 03 Description Return message 6 000000E 03 means leakage current high limit value of STEP 7 in the main unit is 6mA SOURce SAFEty STEP n LC LIMit LOW lt numeric value gt It sets leakage current low limit value of selected step The unit is ampere A Range LOW LIMIT value HIGH LIMIT value 0 is for setting OFF DEVICE is ULS44NP 0 0 0000001 0 006 DEVICE is UL544P 0 0 0000001 0 01 DEVICE is UL1563 0 0 0000001 0 01 DEVICE is UL2601 1 0 0 0000001 0 01 5 36 GPIB RS232 O
86. and Using 1 2 5 6 Jk When title bar shows MAIN MENU press numerical key which is corresponding to FAIL LOCK will show FAIL LOCK window By using numerical keys to input PASSWORD 0 0 0 0 when NEW SECURITY CODE is not set After ENTER key is pressed message indication LOCK will be highlighted All keys are invalid temporary except for STOP START Function Key TEST and FAIL LOCK until FAIL LOCK function is unlock When starts FAIL LOCK function if DUT judged as FAIL will show as figure 4 18 TEST FAIL LOCK MODE SOURCE LIMIT RES oi ENS 0 386kV 0 095 mA PAGE UP PAGE DOWN UNLOCK SCANNER 1 12 3145 67 8 AC H TESET TIME 2 0s Remote offset Error Figure 4 18 Meanwhile press STOP and Function Key UNLOCK to clear buzzer sound then shows UNLOCK window By using numerical keys to input PASSWORD 0 0 0 0 when NEW SECURITY CODE is not set Press START key for restarting test Press MENU to return to MAIN MENU Note When 19032 set as FAIL LOCK ON then to restart and enter TEST menu directly 4 32 Description of Panel 4 14 2 Release FAIL LOCK 1 When title bar shows MAIN MENU press numerical key which is corresponding to FAIL LOCK will show RELEASE FAIL LOCK window 2 By using numerical
87. annels numbers Example Input command SAFE STEP 6 OSC CHAN 2 1 2 Description It sets output channel status of scanning test of STEP 6 in the main unit is BOX 2 channel and 2 HIGH output Example Input command SAFE STEP 6 OSC CHAN 2 0 Description It sets output channel status of scanning test of STEP 6 in the main unit is set BOX 2 original HIGH output channel to OFF SOURce SAFEty STEP n OSC CHANnel HIGH It queries high voltage output terminal setting of selected STEP Example Input command SAFE STEP 6 OSC CHAN Return message 2 1 2 Description Return message 2 1 2 means output channel status of scanning test of STEP 6 in the main unit is being set BOX 2 channel and 2 to HIGH output SOURce SAFEty STEP lt n gt OSC CHANnel LOW lt channel list gt It sets the output status of scanning common test channel RTN LOW Example Input command SAFE STEP 6 OSC CHAN LOW 92 2 4 Description It sets output channel status of scanning test of the main unit STEP 6 to channel 2 and 4 LOW output Example Input command SAFE STEP 6 OSC CHAN LOW 20 Description It sets output channel status of scanning test of STEP 6 in the main unit to OFF SOURce SAFEty STEP n OSC CHANnel LOW It queries RETURN terminal setting of selected STEP Example Input command SAFE STEP 6 OSC CHAN LOW Return message 2 2 4 Description Return messa
88. citance value GET Cs 2 Before reading standard capacitance value GET Cs please press Function Key OFFSET to do OFFSET elimination Doing OFFSET elimination again on changing wire or fixture every time for ensure the accuracy of testing 3 Before reading the standard capacitance value GET Cs please use the standard capacitance sample in testing as DUT Press Function Key GET Cs to read the standard capacitance value for the standard value in testing 4 When testing under short open circuit detection mode OSC Mode judge OPEN SHORT test condition is by GET Cs reading 4 10 3 Method of DUT Connection Ground Resistance Test Mode GB First of all please confirm there is no current output and DANGER LED isn t light screw the 4 28 Description of Panel test cable and terminal up by using sleeve tool and then connects the test cable to DUT Caution Grounding test cable should be screwed up by sleeve tool Withstand Voltage Insulation Resistance Test Mode AC DC IR OSC First of all please confirm there is no voltage output and DANGER LED isn t light And then connecting test cable of low electric potential to HV2 terminal of main unit This test cable and high voltage output terminal are short circuited and confirm there is no high voltage output At the same time high voltage test cable red or white plug in high voltage output terminal OUTPUT Connect the test cable of low electric potential HV2 to DUT f
89. cted step Example Input command SAFE STEP 4 IR TIME Return message 1 000000E 00 Description Return message 1 000000E 00 means test needed time of STEP 4 in the main unit is 1 sec SOURce SAFEty STEP lt n gt IR TIME FALL lt numeric value gt It sets the time required for set voltage to fall to 0 for selected STEP The unit is second s Range 0 or 0 1 999 0 0 is for setting OFF Example Input command SAFE STEP 4 IR TIME FALL 3 Description It sets the time required for set voltage to fall to 0 for STEP 4 in the main unit is 3 0sec SOURce SAFEty STEP lt n gt IR TIME FALL It queries the time required for set voltage to fall to 0 for selected STEP Example Input command SAFE STEP 4 IR TIME FALL Return message 3 000000E 00 Description Return message 3 000000E 00 means the time required for set voltage to fall to 0 for STEP 3 in the main unit is 3 0sec SOURce SAFEty STEP lt n gt IR RANGe UPPer It selects the range upper than the current measured according to current value users inputted The unit is ampere A Range 0 0 01 5 29 Electrical Safety Analyzer 19032 P User s Manual Example Input command SAFE STEP 4 IR RANG 0 0003 Description It sets IR measured current value of STEP 4 in the main unit to 300uA thus the selected IR range upper than the current measured is 3mA SOURce SAFEty STEP n IR RANGe UPPer It queries the range being set Exampl
90. d parameter data such as missing the right parenthesis 200 Execution error Execute command error 203 Command protected The device does not receive this command 221 Settings conflict The device is occupied and the command is not received 222 Data out of range The parameter value is out of range 223 Too much data Received string length is over can t execute 290 Memory use error 5 48 291 292 293 350 361 365 363 400 410 420 GPIB RS232 Operation Description IEEE 488 2 Save or read memory error Out of memory The data cannot store because the main memory is full Referenced name does not exist Referenced name does not exist Referenced name already exist Referenced name is already existed Queue overflow Error message overflow Parity error in program message The parity is error Time out error The device isn t received end character within a certain time Input buffer overrun The input buffer is out of range Queue error The output buffer is out of range Query INTERRUPTED When received a query command you don t read out the query result and then received a query command immediately The query will be interrupted Query UNTERMINATED There is no data in queue meanwhile read the command of output queue data 5 49 Electrical Safety Analyzer 19032 P User s Manual 5 6 Basic Example 5 6 1 GPIB B Example of GPIB Basic Please run the ULI file before this program Th
91. e 6 0 15 0 It sets open voltage when ground impedance testing Auto Range ON OFF It setd withstand voltage auto range function is open or not Soft AGC ON OFF It sets software auto gain compensation function is open or not Part No Not over 13 characters It sets Part No of product Lot No Not over 13 characters It sets Lot No of product Serial No Note 2 Not over 13 characters It sets serial No format of product means changeable character 4 13 Electrical Safety Analyzer 19032 P User s Manual Start Wait 0 1 99 9s OFF Waiting time of Ground Bond Smart Start When set Ramp Judg to ON it will judge if the current value is over High Limit setting value as DC mode executes Ramp time When set Ramp Judg to OFF it won t judge if the current value is over High Limit setting value as DC mode executes Ramp time Ramp Judg ON OFF GFI Ground ON OFF Fault Interrupt FLOAT It sets the function of GFI Note 1 When IEC601 1 set as On the output voltage waveform is as the below shown 1 1 nj 1 1 gt Ramp Test time Ramp time time Note 2 The device will start test when it receives a string command and the format is as same as Serial No Please refer the description for remote interface 4 7 5 ON OFF FLOAT Setting of GFI Ground Fault Interrupt 4 7 3 1 Set GFI to ON Hipot Tester HV
92. e be sure offset resistance When Offset resistance value is lower than 5mohm do Offset is not recommended Incorrect Offset may influence error of real test value OSC OFFSET There is stray capacitance on wire or fixture please does OFFSET elimination again on changing wire or fixture every time for ensure the accuracy of testing 4 6 Memory Management of Test Parameter and Test Preset Parameter When title display MAIN MENU press Function Key MEMORY and then title will display MEMORY SETUP At the same time the memory can be read stored or deleted Each memory includes test parameter test preset parameter and memory name 4 6 1 Read Memory l If there are many sets of test parameter value which be saved in main memory Follow the below procedures to recall test parameter When title display MEMORY SETUP press A V keys or Function Key NEXT PAGE to move the highlighted cursor to the memory name which want to recall Press Function Key RECALL and then show confirm window Press ENTER to confirm or press Function Key EXIT to cancel Electrical Safety Analyzer 19032 P User s Manual 4 6 2 Store Memory l If you want to save testing parameter data which be set in memory Please follows the below procedures to process When title display MEMORY SETUP press A V keys or Function Key NEXT PAGE to move the cursor highlight to the memory number position which want to store Press
93. e Input command SAFE STEP 4 IR AUTO Return message 1 Description Return message 1 means set range for STEP 4 in the main unit is AUTO SOURce SAFEty STEP n IR CHANnel HIGH lt channel list gt It sets selected step which the setting of output terminal lt channel list gt formats are as below SN C1 C2 C3 SN is Scan Box number C1 C2 and C3 are Channels numbers Example Input command SAFE STEP 4 IR CHAN 2 1 2 Description It sets output channel status of scanning test of the main unit STEP 4 is BOX 5 30 GPIB RS232 Operation Description IEEE 488 2 2 channel 1 and 2 HIGH output Example Input command SAFE STEP 4 IR CHAN 2 0 Description It sets output channel status of scanning test of STEP 4 in the main unit is being set BOX 2 original HIGH output channel to OFF SOURce SAFEty STEP lt n gt IR CHANnel HIGH It queries selected step which setting of high voltage output channel Example Input command SAFE STEP 4 IR CHAN Return message 2 1 2 Description Return message 2 1 2 means output channel status of scanning test of STEP 4 in main unit is being set BOX 2 channel 1 and 2 to HIGH output SOURce SAFEty STEP lt n gt IR CHANnel LOW lt channel list gt It sets output status of scanning common test channel RTN LOW Example Input command SAFE STEP 4 IR CHAN LOW 2 2 4 Description It sets output channel status
94. e Input command SAFE STEP 4 IR RANG Return message 3 000000E 03 Description Return message 3 000000E 03 means set range for STEP 4 in the main unit is 3mA SOURce SAFEty STEP n IR RANGe LOWer It selects the range lower than the current measured according to current value users inputted The unit is ampere A Range 0 0 01 Example Input command SAFE STEP 4 IR RANG LOW 0 0003 Description It sets IR measured current value of STEP 4 in the main unit to 300uA thus the selected IR range lower than the current measured is 300uA SOURce SAFEty STEP lt n gt IR RANGe LOWer It queries set range Example Input command SAFE STEP 4 IR RANG Return message 3 000000E 04 Description Return message 3 000000E 04 means set range for STEP 4 in the main unit is 300uA SOURce SAFEty STEP n IR RANGe AUTO It sets if IR range being changed to AUTO It sets to AUTO when parameter is ON or 1 It sets to disable AUTO when parameter is OFF or 0 Note It remains the default setting range when AUTO unset and gives OFF parameter It sets 10mA when the default setting is AUTO and gives OFF parameter Example Input command SAFE STEP 4 IR RANG AUTO ON Description It sets IR measured current range for STEP 4 in the main unit to AUTO SOURce SAFEty STEP n IR RANGe AUTO It queries if IR range being changed to AUTO It sets to AUTO when returns 1 It sets to disable AUTO when returns 0 Exampl
95. e SAFEty PRESet NUMber SERIal It queries serial number format of the product Example Input command SAFE PRES NUM SERI Return message AAP190320 Description Return message AAP190320 means serial number format of the product is AAP190320 SOURce SAFEty PRESet IEC lt boolean gt ON OFF It sets if IEC 601 is ON or OFF Example Input command SAFE PRES IEC ON Description It sets IEC 601 to ON SOURce SAFEty PRESet IEC It queries 1f IEC 601 is ON or OFF Example Input command SAFE PRES IEC Return message 1 Description Return message 1 means IEC 601 ON SOURce SAFEty PRESet RJUDgment boolean gt ON OFF It sets Ramp Judg ON or OFF Example Input command SAFE PRES RJUD ON Description It sets Ramp Judg ON for the main unit SOURce SAFEty PRESet RJUDgment It queries Ramp Judg ON or OFF Example Input command SAFE PRES RJUD Return message 1 Description Return message 1 means Ramp Judg ON SOURce SAFEty PRESet GFI ONIOFFIFLOAT It is used for GFI setting Example Input command SAFE PRES GFI ON Description It means to set GFI ON SOURce SAFEty PRESet GFI It is used for querying GFI Example Input command SAFE PRES GFI Return message ON Description It means GFI ON SOURce SAFEty PRESet SCREenz boolean gt ON OFF It sets if enable Screen Example Input command SAFE PR
96. e fourth will show capacitance reading The timer counts down simultaneously as well as shows on status list GOOD judgment When all of test statuses have been tested and the fifth field result shows PASS then the main unit is judged as GOOD and cut off the output The rear panel outputs PASS signal the buzzer functions simultaneously No good judgment If the measurement value is abnormal the main unit is judged as FAIL and stop to output immediately The rear panel outputs FAIL signal the buzzer functions simultaneously Keep on function until STOP key of the main unit be pressed The fifth field test result will show no good status No good status Test Result Meaning OPEN Capacitance open circuit reading is fewer than OPEN CHK setting Capacitance short circuit reading is larger than SHORT CHK ind setting Under any circumstances only need to press STOP key if you want to stop the test output Note When OSC Mode is testing Get Cs current range at this time decides the display of capacity effective digit Example Get Cs voltage 0 018kV Get Cs capacitance value 17 4nF current 1 18mA at the mass current range 4 30 Description of Panel Get Cs voltage 0 016kV Get Cs capacitance value 17 42nF current 0 97mA at the medium current range 4 11 CALIBRATION Function 4 11 1 Enter Calibration Method l Open the upper cover press SW402 and then powered the analyz
97. e status On Remote status can use LOCAL key on panel switch the analyzer to Local status On Remote status all of panel keys are malfunction except for LOCAL switch to Local and STOP reset instrument keys By using LLO Local lockout command of GPIB makes LOCAL key is malfunction 5 3 RS222 Interface Specification 5 3 1 Data Format Baud Rate 300 600 1200 2400 4800 9600 19200 Parity NONE ODD EVEN Flow Control NONE SOFTWARE Bits 1 start bit 8 data bits or 7 data bits add 1 parity bit 1 end bit 5 2 GPIB RS232 Operation Description IEEE 488 2 5 3 2 Command Format Description The analyzer RS232 interface function is composed of command string which is inputted by ASCII code to attain function of remote control and setting The length of the command string is limited in 1024 characters include end code Command Parameter compose a command Two commands can be connected by semicolon and ended by end code The end code are the following types the analyzer can distinguish it by self End of String 5 3 3 Connector RS232 connector of the analyzer is 9 pins female connector 54321 00000 o o 9876 Pin No Description Not to be used 1 2 TxD Transmit data 3 RxD Receive data 4 Not to be used 5 GND Signal grounding 6 Not to be used am Not to be used 8 Not to be used 9 Not to be used 5 3 4 Cable Wiri
98. e test value accuracy Especially when test voltage is higher and leakage current of test fixture and instrument is more increase The happened of Offset current is often caused by capacitance feature According to mathematics when test a resistive load its current value 2 2 Resistance load value Offset Therefore when measured out resistive load 2 2 current value current reading Neat measurement value Offset When tests a capacitive load current reading real measurement value Offset LC OFFSET Before testing dynamic leakage current mode please connects test cable first After the fixture is tested then processes OFFSET for ensure test value accuracy especially when measures small current The leakage current of general test fixture isolation transformer and the instrument are mostly caused by capacitance feature According to mathematics when test a resistive load its current value 2 2 M Resistance load value Offset Therefore when measured out resistive load 2 2 current value current reading Neat measurement value Offset When tests a capacitive load current reading real measurement value Offset GB OFFSET Please use the standard 4 wires test cable to process standard resistance test doesn t need additional OFFSET operation If using with our grounding accessories the maximum test error is possible increased to 2mohm Before Offset test is done pleas
99. eeded parameter value STEP SETTING MODE SOURCE LIMIT RES OFFSET 0 GB 25 00 A 100 0 mQ O IR 0 500 KV 1 0 MO Get Cs PAGE UP PAGE DOWN SCANNER 1 12 3 4 5 6 7 8 GB Standby Remotel Lock offset Error Figrue 4 26 01 TEST STEP 1 GB 02 TEST MODE 03 VOLTAGE OFF AC 04 HIGH LIMIT 0 500 mA 05 LOW LIMIT OFF DC 06 ARC LIMIT OFF 07 ARC FILTER 3 230 kHz IR 08 TEST TIME 3 0 sec 09 RAMP TIME OFF LC 10 FALL TIME OFF 11 CHNL H L OFF PAGE 1 2 SELECT MODE Remote Lock offseti Error Figure 4 27 Parameter settings are as below TEST STEP Select step TEST MODE Select mode GB AC DC IR VOLTAGE 0 05 5K V HIGH LIMIT 0 001 100mA LOW LIMIT 0 100mA 0 OFF 06 ARC LIMIT 0 20mA 0 OFF Description of Panel 07 ARC FILTER Select filter 3 23KHZ 3 50K HZ 3 100K HZ 3 230K HZ TEST TIME 0 3 999Sec 0 CONT 08 09 10 11 RAMP TIME 0 999Sec FALL TIME 0 999Sec CHNL H L Press function key SETUP 0 OFF 0 OFF 4 37 Electrical Safety Analyzer 19032 P User s Manual By pressing 4 key to set various parameters in sequence as figure 4 28 shown STEP SETTING 01 TEST STEP 1 SETUP 02 TEST MODE AC 03 VOLTAGE OFF 04 HIGH LIMIT 0 500 mA 05
100. er on When the title bar shows MAIN MENU press numerical key which is corresponding to CALIBRATION then will show ENTER CALIBRATION PASSWORD window By using numerical keys to input PASSWORD 7 9 3 1 Press ENTER select DEVICE and then enter calibration procedure 4 11 2 Clear Memory l When shows MAIN MENU on title list press numerical key that corresponds to CALIBRATION then will show ENTER CALIBRATION PASSWORD window By using numerical keys to input PASSWORD 8 5 2 4 6 After pressed ENTER key shows MESSAGE window Users can select if want to clear memory by Function Keys YES NO or press EXIT to abort memory clearance If Function Key YES is selected all of saved data will be cleared all setting parameters will be reset as initial value After cleared the memory Option parameter needs to be reset 4 12 KEY LOCK Function KEY LOCK setting method 1 When shows MAIN MENU on title list if text block LOCK isn t highlight press numerical key that corresponds to KEY LOCK then will show KEY LOCK window 2 By using numerical key to input PASSWORD please input 0000 when NEW SECURITY CODE is not set 3 Press ENTER key will show MESSAGE window LOCK text block will be highlighted Users can select if to LOCK MEMORY RECALL function together by Function Keys YES NO 4 Press Function Keys EXIT to complete KEY LOCK func
101. ersion 1 1 MS DOS 6 22 RS232 example program Di pd Dd pH GS GS GS PEN COM1 9600 N 8 1 LF FOR RANDOM AS 1 open serial port 2 as device RINT 1 SOURCe SAFEty STOP send STOP command to 1 SOURCe SAFEty SNUMBer 1 STEPNUMS PNUM gt 0 THEN I STEPNUMs TO 1 ST TEMPS INPUTS LOC 1 P RINT 1 SOURce SAF DI clear all steps data NEXT I END IF PRINT SOURCe SAFEty j pl AC LEVel 500 PRINT SOURCe SAFE i P1 AC LIMit HIGH 0 003 PRINT SOURce SAFE PISAC TIME TEST 3 PRINT SOURce SAFEty P2 DC LEVel 500 PRINT SOURce SAFEty j p2 DC LIMIT 0 003 PRINT SOURCe SAFE p2 DC TIME 3 PRINT SOURCe SAFEty j p3 IR LEVel 500 PRINT SOURCe SAFE 7 P3 IR LIMIT 300000 PRINT SOURCe SAFE P3 IR TIME 3 SOURCe SAFI SNUMBer STEPNUMS SOURce SAFI STARC start test STATUSS RUNNING WHILE STATUSS lt gt STOPPED do while status is not stopped PRINT 1 SOURCe SAFEty STATUS INPUT 1 STATUSS read status IF STATUSS STOPPED THEN if status is not TESTING PRINT 1 SOURce SAFEty STOP send STOP command PRINT 1 SAFEty RESult ALL OMET FOR J 1 TO STEPNUMS INPUT 1 RESULTS PRINT STEP J R EXT J RINT
102. essed The fifth field test result will show fail status 4 29 Electrical Safety Analyzer 19032 P User s Manual Fail Status Description Table Test Result Meaning Measurement current Resistance value over high limit Measurement current Resistance value over low limit Current arc over high limit Ground fail interrupt The voltage for measuring ground resistance is over GB voltage setting Voltage current reading over hardware valid digit Current resistance reading over hardware valid digit Power measurement value over high limit Power measurement value over low limit Under any circumstances only need to press STOP key if want to stop test output 4 10 4 2 OSC Test Procedure l Connection is completed correctly by connecting DUT device method When title shows MAIN MENU press Function Key TEST for entering TEST function list the title will shows TEST The display shows a list with STEP which be set and wait for testing The first field is STEP the second field is test mode OSC the third field is output voltage setting value the fourth field is capacitance reading and the fifth field is test result Please press STOP key ready for testing Press START key to start test When press this key start test voltage output Atthe same time DANGER LED will be lighted Warning Now is test status with voltage output The third field will show output voltage reading and th
103. ets software AGC in the main unit to ON SOURce SAFEty PRESet AGC SOFTware It queries if software AGC is ON or OFF Example Input command SAFE PRES AGC Return message 1 Description Return message 1 means software AGC is ON SOURce SAFEty PRESet NUMber PART lt string data gt It sets part number of the product Example Input command SAFE PRES NUM PART 19032 Description It sets part number of the product to 19032 SOURce SAFEty PRESet NUMber PART It queries part number of the product Example Input command SAFE PRES NUM PART Return message 19032 Description Return message 19032 means part number of the product is 19032 SOURce SAFEty PRESet NUMber LOT lt string data gt It sets lot number of the product Example Input command SAFE PRES NUM LOT 0032 Description It sets lot number of the product to 0032 SOURce SAFEty PRESet NUMber LOT It queries lot number of the product Example Input command SAFE PRES NUM LOT Return message 0032 Description Return message 0032 means lot number of the product is 0032 SOURce SAFEty PRESet NUMber SERIAal lt string data gt It sets serial number format of the product denotes changeable character by 5 44 GPIB RS232 Operation Description IEEE 488 2 Example Input command SAFE PRES NUM SERI AAP190320 Description It sets serial number format of the product to AAP190320 SOURc
104. ge 2 4 means output channel status of scanning test of STEP 6 in the main unit is channel 2 and 4 LOW output SOURce SAFEty STEP n OSC CRANge lt MA Ximun IMINimumINOW gt It queries the maximum minimum value which range can be set and the range is in operating now Example Input command SAFE STEP 6 0SC CRAN NOW Return message 3 Description Return message 3 means OSC range of STEP 6 in the main unit is at 3 now SOURce SAFEty STEP lt n gt O0SC CURRent lt m gt OFFSet numeric value 5 33 Electrical Safety Analyzer 19032 P User s Manual It sets current range of OSC and Offset value Range m RANGE NUMBER 1 3 numeric value Cs value The unitis F Range is 0 9 999nF range 2 is 0 99 99nF and range 3 is 0 500 0nF Example Input command SOURCE SAFETY STEP1 0SC CURR 3 OFFS 0 00000001 Description It means to set current range to 3 offset value to 10nF of STEP 1 OSC in the main unit SOURce SAFEty STEP lt n gt OSC CSTandard lt range gt lt numeric value It sets current range and standard capacitance value of OSC Range range 1 3 numeric value Cs value The unit is in F Range 1 0 001 9 999nF Range 2 0 01 99 99nF Range 3 0 1 500 0nF Example Input command SSOURCE SAFETY STEP1 0SC CSTandard 3 0 000000009 Description It means to set current range to 3 standard capacitance vale Cs to 9nF of STEP 1 OSC in the main unit SOURce SAFEty STEP n LC DEVice UL
105. he main unit to 5A SOURce SAFEty STEP n LC POWer CURRent LIMit HIGH It queries power current measurement high limit value of selected step Example Input command SAFE STEP 7 LC POW CURR Return message 5 000000E 00 Description Return message 5 000000E 00 means power current measurement high limit value of STEP 7 in the main unit is 5A SOURce SAFEty STEP lt n gt LC POWer CURRent LIMit LOW lt numeric value gt 5 38 GPIB RS232 Operation Description IEEE 488 2 It sets power current measurement low limit value of selected step The unit is in Ampere A Range 0 or 0 001 20 0 is for setting OFF low limit value of current measurement lt high limit value Example Input command SAFE STEP 7 LC POW CORR LOW 0 5 Description It sets power current measurement low limit value of STEP 7 in the main unit to 0 5A SOURce SAFEty STEP n LC POWer CURRent LIMit LOW It queries power current measurement low limit value of selected step Example Input command SAFE STEP 7 LC POW CURR LOW Return message 5 000000E 01 Description Return message 5 000000E 01 means power current measurement low limit value of STEP 7 in the main unit is 0 5A SOURce SAFEty STEP lt n gt LC POWer VA LIMit HIGH lt numeric value gt It sets power measurement high limit value of selected step The unit is volt ampere VA Range 0 or 0 1 4400 0 is for setting OFF Example I
106. he packing is no needed when the device under appropriate environment Freight Please use the original packing material when move the device Ifthe packing material is missing please use the equivalent buffer material to pack and mark it fragile and waterproof etc to avoid the device damage during movement The device belongs to precise equipment please use qualified transportation as possible And avoid heavy hitting etc to damage the device Maintenance The device is without any maintenance operation for the general user Except for the notice inthe manual Please contact our company or agent when the device occurred the user judgment abnormal Don t maintain by yourself to avoid occurred unnecessary danger and serious damage to the device viii Revision History The following lists the additions deletions and modifications in this manual at each revision Date Version Revised Sections Feb 2009 1 0 Complete this manual ix Electrical Safety Analyzer 19032 P User s Manual Table of Contents T Introductio epe eb ei DH re tod ohh inse AE Io Spe e E RNEOE eps NEL BRA NER CERT RENE 1 1 1 1 Adi Overview of PEOGUOU uteri rto patte dee t seti iit e ices 1 1 1 2 CANT CS isi atone asas a e EE di dace Less seth Maes 1 1 1 3 Initial INSPEC HOD aso se arse acct Uaec estu mi moti ace 1 2 1 4 Common Environment Conditions essere 1 2 2 Specification 18 C 28 C RH S 7096 sssscvssseresvccscesvsccesbenvscesesonsssess
107. highlighted cursor on the last parameter press ENTER key will go to test parameter setting menu directly for user continuous setting Description of Panel PRESET SETUP 01 Pass Hold 02 Step Hold 0 2 sec 03 AC Freq 60 Hz 04 GB Freq 60 Z 05 IEC 601 OFF 06 GB Voltade 15 0 V 07 Auto Range OFF 08 Soft AGC ON 09 Part No 10 Lot No 11 SERIAL No 0 2 99 9S RemotellLock offset Error Test preset parameter function description table Setting Item Pass Hold 0 2 99 9 Initial Setting Description It sets PASS buzzer sound continuous time Step Hold 0 1 99 9 KEY It sets interval time between test procedures Key It sets test procedure interrupted Please press START to continue when test stop AC Freq 50 600Hz It sets the frequency of outputting voltage when tests AC withstanding GB Freq 50 60 It sets the frequency of outputting current when tests grounding impedance IEC 601 ON OFF The setting is ON When begin the test outputting voltage until it is 1 2 of setting value and then execute RAMP TIME until the output voltage is equal to setting value When end the test execute RAMP TIME until the output voltage is 1 2 of setting value and then fast discharge until the test is ended as waveform shown in Note 1 GB Voltag
108. iGad DTETTETTETTTTTTTTTTI Figure 7 3 Download OK After powered off press SW401 To power on for checking if the version is updated Maintenance 8 Maintenance 8 1 General Our warranty at the front of the manual attests the quality of materials and workmanship in our products If malfunction should be suspected or other information be desired applications engineers are available for technical assistance Application assistance is available in the Taiwan by calling 886 3 3279999 and asking for applications support For support outside of the Taiwan please contact your local Chroma distributor 8 2 Battery Replacement Batteries are included in the instrument Please contact the service center for battery replacement Note Don t open the cover of the equipment for battery replacement by yourself Battery Rating 1 Model number CR2032L 1HF 2 Nominal voltage 3V 3 Typical capacity 225mAh 8 3 Instrument Return Before returning an instrument to Chroma for service please call our Service Department at 886 3 3279688 for return material authorization It will be necessary to include a purchase order number to insure expedient processing although units found to be in warranty will be repaired at no charge For any questions on repair costs or shipment instructions please contact our service department at the above number To safeguard an instrument during storage and shipping please use packaging that is adequate to protec
109. ier 4 35 xi Electrical Safety Analyzer 19032 P User s Manual 4 17 1 Single Test Mode I ob eo e e etd ose edet pese eei d e epe edd 4 35 4172 Auto Mode Setting esee eee iid e Eee ERE ie ren dia 4 40 4 17 3 Test Example for DUT Connection sss nnn nnne 4 42 5 GPIB RS232 Operation Description IEEE 488 2 eee eee e ee eee eee eee enne a 5 1 5 1 Ouidess edet E EE A AE Lt EEA 5 1 5 2 GPIB Interface OPtion issimo basin decia iesu dupla Pod ER EG 5 1 5 2 1 Adaptable Standard 5 s o a er a i ee Ea a Eaa 5 1 5 2 2 Interface Capability rissies BIG p m ER E E EATE Eee E RAES 5 1 5 2 3 Interface Message eod etr nde eere e e date t Reg eR ev re e P Petron 5 5 2 4 Command Format Description ener enne nnns 5 2 5 2 5 Related Panel Description ccccccecsseesseeseeseesseceseceseceseceseeseeeeeeeeeeeeeseeeseeeasecsaeesaees 5 2 5 3 RS232 Interface Spec HICtTOEL uuu at o s bee te E ESAE ERR P A ENS 5 2 5 3 1 Data Format eiieeii ee E EE E Mie caad Reevivahaeibeaiseeivund seas etateaes 5 2 5 3 2 Command Format DeScription cccccccesccessceesceeeceeseeeseeeseeeseecseeessecaecsaecnseenseenaeeees 5 3 5 3 3 CODBSCtOE io Lau aeda better gest e UMP te etel iut is dE 5 3 5 3 4 Cable Wiring Pattern 2 rusas deitas tibiae tete ie deed E RE 5 3 5 4 Remote Command asa ceu sina catheter tco Codes vra tet eon cet Cue ies at 5 4 5 4 1 Command Summary eter hp eta E e TE ET PR e Cete ee E iat 5 4 5 4 2
110. inutes Safety symbol There is lethal voltage on output terminal Please peruse all safety VIN operation notice items There is detailed explanation in the operation manual please peruse the N descriptions of the manual Protective grounding terminal for preventing electrical shock in case of al leakage to the cover The terminal must be connected to ground before operation of equipment Warning Warning sign for preventing a procedure practice or other conditions that may result in injury or death of personnel if it is not rightly operated Caution Warning sign for preventing a procedure practice or other conditions that may result in the instrument and other DUT abnormal Note Note sign Refer to the procedure practice or other conditions please peruse particularly Warning signal of testing DANGER HIGH VOLTAGE TEST IN PROGRESS UNAUTHORIZED 24 PERSON KEEP AWAY TWIN PORT The unit process twin port measurement mode with AC withstand DC withstand or IR insulation impedance on GB grounding impedance When process the maximum 3 5 Electrical Safety Analyzer 19032 P User s Manual 25 3 6 AC or DC output current of this measurement mode please don t work over 1 2 the maximum specification continuously Descriptions of ground bond lead wiring The maximum output current of this unit is 40amp AC a no good connection will cause temperature rising and ground bond output terminal may be burned down P
111. ire For power connector test cable used male female wire length 0 21m 10A fuse 10A SLOW 250VAC Socket wrench For screwing up the grounding test cable GB test fixture Test fixture for GB zero User s Manual A Chinese manual and an English manual Note When order the accessories please name the item vil XXX The Danger of Operating XXX 1 When the instrument is under output voltage please don t touch test area or you may shock hazard and result in death Please obey the following items e Make sure the grounding cable is connected correctly and using the standard power cord Don t touch the output terminal Don t touch test cable of connecting test termination Don t touch test termination object Don t touch any charge component of connecting output terminal As the instrument end the test or turn off output please don t touch test unit immediately 2 The shock accidents are usually occurred on the following conditions e The grounding terminal of the instrument doesn t connect correctly e The insulation glove for testing is not used e After test is completed to touch test unit immediately NOTICE The detailed about using the notice items and the danger of operating are in Chapter 3 Notice items before using of the manual XXX Storage Freight Maintenance XXX Storage When don t use the device please pack it properly and store under a good environment T
112. irstly and then connect the test cable of high electric potential to DUT 4 10 4 Test Procedure 4 10 4 1 GB AC DC IR Test Procedure 1 Connection is completed correctly by connecting DUT device method When title shows MAIN MENU press Function Key TEST for entering TEST function list the title will shows TEST The display shows a list with STEP which be set and wait for testing The first field is STEP the second field is test mode the third field is test setting value the fourth field is output high limit value and the fifth field is test result 2 Please press STOP key ready for testing Press START key to start test When press this key start test current voltage output At the same time DANGER LED will be lighted Warning Now is test status with mass current voltage output The third field will show output current voltage reading the fourth will show output resistance current reading The timer count down or start to count and shows on status list 3 PASS judgment When all of test statuses are been tested and the fifth field test result shows PASS then main unit is judged as PASS and cut off output The rear panel output PASS signal the buzzer function simultaneously 4 FAIL judgment If the measurement is abnormal the main unit is judged as FAIL and stop output immediately The rear panel output FAIL signal the buzzer function simultaneously Keep on function until STOP key of main unit be pr
113. is program is that getting results through GPIB from the device GPIB address is 3 v cer ce ca AA b EI Dd GG GG GS GE NT Program is running EN GPIBO FOR OUTPUT AS 1 open 1 for output write EN GPIBO FOR INPUT AS 42 open 42 for input read oono ABORT initializing message GPIBEOS IN LF set the end code OUTPUT 3 SOURCe Ety STOP send STOP command to device 3 OUTPUT 3 SOURCe Ety SNUMBer ENTER 3 STEPNUM DEL STEPS EPN 0 THEN I STEPNUMS TO 1 STEP 1 PRINT 41 OUTPUT 3 SOURCe SAFEty ST EXT I IF clear all steps ET STE OUTE F 1000 OUTE aes ity E LIMit 0 004 OUT P TIME 2 OUTE DE ity iE 1000 OUTP PE ity iP 2 LIMit 0 02 OUTE Lx E yb E TIME TEST 3 OUTPUT OUTPUT S RUNNING HILE STATUSS lt gt STOPPED PRINT 1 OUTPUT 3 SAFEty STATus PRINT 1 ENTER 3 INPUT 2 STATUSS PRINT STATUSS IF STATUSS STOPPED THEN PRINT 1 OUTPUT 3 SOURCe SAFEty STOP PRINT 1 OUTPUT 3 SAFEty RESult ALL OMET PRINT 1 ENTER 3 FOR J 1 TO STEPNUMS INPUT 2 RESULTS 5 50 GPIB RS232 Operation Description IEEE 488 2 PRINT ST EXT J
114. just the buzzer volume HIGH OFF 5 50 20 LC input voltage compensation ON OFF OFF Hardware compensation for above DC 50V 0 05 5 1K V 3 60KV DC discharge setting 0 1 99 9s continue CONTINUE When DUT judged as Good PASS signal shorted time of REMOTE terminal on rear panel ON OFF OFF This instrument connects with AC Source please set as ON CONTINUE RESTART 1 When set as CONTINUE and any RESTART STOP one among STEPs judged as No Good It will continue until all STEPs are tested When set as START and any one among STEPs judged as No Good press START to restart directly When set as STOP and any one among STEPs judged as No Good It is necessary to press STOP then can restart test by pressing START When Offset value is higher than AC OFFSET value Current reading Current real measurement value Offset value 2 When Offset value is lower than AC OFFSET value Current value Veal measurement value Offset 1 When Offset value is higher than LC 4 9 Electrical Safety Analyzer 19032 P User s Manual OFFSET value Current reading Current real measurement value Offset value 2 When Offset value is lower than LC OFFSET value Current reading A 2 2 Real measurement value Offset 4 5 1 Hardware Software AGC The output voltage is changed by load effect and then executing AGC fu
115. lease follows the below steps to make good wiring connection e Using box spanner to tighten up test cable of DRIVE and DRIVE Description of Panel 4 Description of Panel 4 1 Front Panel 4 6 Chroma ELECTRICAL SAFETY ANALYZER 19032 P 2 z TTM amp 3 age 7 gt ERROR LOG REN D e Display Area 7 8 15 14 13 Figure 4 1 Front panel includes several function areas which easy to use This paragraph will introduce each control and information on screen to you Title List Bl Display Area Magnification PS MEMORY Ta EE o 1 gt SYSTEM 28 2 2 OPTION PRESET E 3 gt CALIBRATION Aa 4 gt KEY LOCK BS 5 gt NEW SECURITY CODE 6 gt FAIL LOCK 7 gt ERROR LOG Message Bar Message Indication Display Area Title List This list displays the current setting of main unit or testing mode Function key message display area Under different display menus there are different function descriptions The right side of display has corresponding function keys If the Electrical Safety Analyzer 19032 P User s Manual description is blank or gray scale font it means corresponding function is invalid Message Bar This list indicates the setting method the range of setting value and the testing time Message Indication Diagram Remote When this area is highlighted it means the main unit is under Remote status That is the main unit controlled by PC through RS232 or G
116. lease make sure the DUT good contact then processes high voltage test All of setting status time current voltage resistance value memory number etc are list on the display it is unnecessary to remember any parameter status which be set The tester equipped with Good and No Good judgment machinery and signal output of testing result and remote control It is also for GPIB interface SCANNING interface RS232 interface of automatic test system The above equipments makes high efficient and accurate test 1 2 Features Floating high voltage current simultaneous measurement patent design Standard RS232 USB interface AC DC withstand voltage insulation grounding resistance short open circuit detection and dynamic leakage current scan test option six in one model Simultaneous Twin Port output patent design Dynamic leakage current simulation compensation patent design DC open circuit detection patent design Reformation DC quick discharge patent design 0 2sec quick discharge Keypad locked and data protected function 1 1 Electrical Safety Analyzer 19032 P User s Manual Eight kinds of judgment result indication window Charge current low limit detection function Storage of 500 test setups or 100 sets of memory functions GP IB interface optional Dynamic high voltage leakage current automatic scan function optional Full function front panel calibration With bar code scanning to trigger the test function Ground Bond Smart S
117. m value gt its range is 0 255 STB The controller is for reading status bit register value The output format is metric system value gt its range is 0 255 GPIB RS232 Operation Description IEEE 488 2 SCPI Command MEMory DELete NAME lt name gt This command deletes the parameter data of the lt name gt indicated in the main memory The lt name gt is character data Example Input command MEM DEL LOCA 123 Description This command means to delete parameter data of LOCA 123 in the main memory MEMory DELete LOCAtion lt register number gt This command deletes the parameter data of lt register number gt in the main memory lt register number gt is integral data Example Input command MEM DEL LOCA 1 Description This command means to delete the first parameter data in the main memory MEMory STATe DEFine name gt lt register number gt The command sets the memory name of register number in the main memory Example Input command MEM STAT DEF TEST 1 Description This command means to set parameter data name TEST of the first memory in the main memory MEMory STATe DEFine name gt The command queries lt register number gt memory which lt name gt indicated Example Input command MEM STAT DEF TEST Return message 1 Description Return message 1I means the location of TEST parameter data is at the first group MEMory FREE STATe
118. message 30 30 means ratio value of GB current is 30 30 SYSTem OPTion SCAN GBFLoating It queries if GB Floating Board is installed When there is GB Floating return 1 When there is no GB Floating return 0 Example Input command SYSTem OPTion SCAN GBFloating Return message 1 Description Return 1 means GB Floating Board is installed SYSTem OPTion SCAN INSide TYPE It queries SCAN TYPE is which type of card Return messages are as follows 1 NONE means no card inserted 2 6000 01 3 6000 02 4 6000 03 5 6000 04 6 6000 05 7 6000 06 8 6000 07 9 6000 08 10 6000 11 Example Input command SYSTem OPTion SCAN INSide TYPE Return message 6000 08 Description Return message 6000 08 means SCAN TYPE installed is 6000 08 SYSTem OPTion SOURce AC It queries POWER setting of LC mode can be set to SOURCE or SIMULATION When return value is 1 means the setting can be set to SOURCE 5 12 GPIB RS232 Operation Description IEEE 488 2 When return value is 0 means the setting can be set to SIMULATION Example Input command SYSTem OPTion SOURce AC Return message 0 Description Return message 1 means POWER setting of LC mode can be set to SIMULATION SYSTem VERSion This command queries the SCPI version of this device Example Input command SYST VERS Return message 1990 0 Description Return message 1990 0 means the device supported SCP
119. n message 3 000000E 03 Description Return message 3 000000E 03 means voltage value is 3000V when testing STEP 2 AC withstand voltage SOURce SAFEty STEP n AC LIMit HIGH lt numeric value gt This command sets selected step that AC withstand voltage leakage current high limit The unit is in Ampere A Range 0 000001 0 1 Example Input command SAFE STEP 2 AC LIM 0 01 Description This command sets AC withstand voltage leakage current high limit value of the main unit STEP 2 is 10mA SOURce SAFEty STEP lt n gt AC LIMit HIGH This command queries selected step that AC withstand voltage leakage current high limit value Example Input command SAFE STEP 2 AC LIM Return message 1 000000E 02 Description Return message 1 000000E 02 means AC withstand voltage leakage current high limit value of the main unit STEP 2 is 10mA SOURce SAFEty STEP lt n gt AC LIMit LOW lt numeric value gt This command sets selected step that AC withstand voltage leakage current low limit value Example Input command SAFE STEP 2 AC LIM LOW 0 00001 Description This command sets AC withstand voltage leakage current low limit value of the main unit STEP 2 is 0 01mA SOURce SAFEty STEP n AC LIMit LOW This command queries selected step that AC withstand voltage leakage current low limit value The unit is ampere A Range 0 000001 0 1 low limit value of leakage current lt high limit v
120. nction ACV 50V SKV_ Hardware AGC is always ON software AGC initial setting is ON and also can be set as OFF DCV 50V 499V Hardware AGC initial setting is OFF and also can be set as ON Software AGC initial setting is ON and also can be set as OFF DCV 500V 6KV Hardware AGC is always ON software AGC initial setting is ON and also can be set as OFF IR 50V 1KV No hardware AGC software AGC is always ON Vo Vs RL Rs RL RL 1 Hardware AGC Because Vo lt Vs is result from load effect Vo using hardware comparison circuit Vo voltage compensation is the same as Vs within 0 1sec 2 Software AGC This analyzer using software AGC under DC 50V 500V and IR 50V 1000V Software compensation speed is more slowly so it won t cause voltage shock to DUT The general IR RL is larger than Rs of this analyzer so Vo Vs approximately 4 5 2 Discharg V Discharg V The high limit setting of DC discharge the range is 0 05 5 1kV The voltage below Discharg V setting will be discharged quickly in 0 2sec 4 5 3 OFFSET 1 DC OFFSET Before testing WDC mode please connects test cable first After the fixture is tested then processes OFFSET for ensure test value accuracy The current calculation formula Current reading Current real measurement value Offset value 4 10 Description of Panel AC OFFSET Before testing WAC mode please connects test cable firstly After the fixture is tested then processes OFFSET for ensur
121. nd SENSE terminals on front panel and that on rear panel are short circuited as figure 4 15 shown 1 RL1 2 DRIVE4O 0 9 O DRIVE 1 RL2 2 O 7 _om _ _Q GB output on SEHSET n 2E GB output on front panel SENSE O 1o_ 02 O SENSE rear panel DRIVE High voltage Hue High voltage output on front output on rear panel panel HV1 Figure 4 15 b End test HV1 terminal on front panel and that on rear panel are also short circuited When STOP key is pressed HV1 terminal on front panel and that on rear panel are open circuited 2 When set CHANNEL 3 as L low a Start test HV1 terminal on rear panel and HV2 on front panel are short circuited with low voltage terminal DRIVE SENSE terminals on front panel and DRIVE SENSE terminals on rear panel are open circuited as below figure 4 16 shown 4 24 Description of Panel 1 RL1 2 DRIVE O 9 0 DRIVE 1 RL2 2 GB output on SENSE O 07 00 O SENSE GB output on front panel RLS 5 rear panel SENSE 07 O SENSE 1 RL4 2 DRIVE DRIVE RLS 2 f HV2 HV2 High voltage High voltage output on front 1 output on rear panel panel 1 1 REZ HV1 Oto HV1 Figure 4 16 b End test HV1 terminal on rear panel and HV2 terminal on front panel are also short circuited When STOP key is pressed HV1 terminal on rear panel and HV2 terminal on fro
122. ng Pattern RS232 connector of the analyzer is 9 pins female connector 9 Pin Female Instrument TxD RN RxD ae GND pe 9 Pin Male 9 Pin Female Cable 2 2 35 23 5 5 9 Pin Male PC RxD TxD GND 5 3 Electrical Safety Analyzer 19032 P User s Manual 5 4 Remote Command 5 4 1 Command Summary IEEE 488 2 Command CLS ESE lt enable value gt ESE ESR IDN OPC OPC PSC 011 PSC RST RCL register number gt SAV register number gt SRE lt enable value gt SRE STB The parameter syntax format of SCPI command includes the following 1 Dual arrow symbol lt gt denote the defined parameter of SCPI command standard 2 lt numeric value gt is metric system value lt boolean gt is Boolean equation data and its value is 0 or 1 3 Vertical line denotes OR parameter 4 lt channel list gt denotes Scanner and Channel status their meanings are S C1 C2 S denotes Scan number and C1 C2 denotes Channel number SCPI Command MEMory DELete NAME name LOCAtion lt register number gt STATe DEFine lt name gt lt register number gt DEFine lt name gt FREE STATe STEP NSTates SYSTem ERRor NEXT OPTion GBCurrent RATE SCAN GBFLoating INSide TYPE 5 4 SOURce GPIB RS232 Operation Description IEEE 488 2 SOURCE AC
123. nge OFFSET point ACA 30mA Full 25mA AC29 99mA range FULL point ACA 100mA Offset 25mA AC100 0mA range OFFSET point ACA 100mA Full 37 5mA AC 100 0mA range FULL point DCA 0 3mA Offset 0 012mA DC299 9uA range OFFSET point DCA 0 3mA_ Full 0 12mA DC299 9uA range FULL point DCA 3mA Offset 0 12mA DC2 99mA range OFFSET point DCA 3mA Full 2 5mA DC2 99mA range FULL point DCA 20mA Offset 2 5mA DC20mA range OFFSET point DCA 20mA Full 10mA C20mA range FULL point Grounding Mode Calibration See section 6 4 GBA 40A Offset 3A GB current OFFSET point GBA 40A Full 25A GB current FULL point GBV 8V Offset 03V GB voltage OFFSET point GBV 8V Full 3V GB voltage FULL point Withstand Voltage Mode Arcing Calibration See section 6 5 AC ARC 40mA 5mA AC Arcing Calibration DC ARC 12mA 5mA DC Arcing Calibration Insulation Resistance Mode Leakage Current Meter Calibration See section 6 6 amp 6 7 IRR 370MQ Offset 40M 2 IR Resistor 370MQ OFFSET point IRR 370M O Full 250MQ IR Resistor 370MQ FULL point 6 1 Electrical Safety Analyzer 19032 P User s Manual IRR 3 7GQ Offset 400MQ IR Resistor 3 7GQ OFFSET point IRR 3 7GO Full 2 5GQ IR Resistor 3 7GO FULL point IRR 50GQO Offset 4GQ IR Resistor 50GQ OFFSETpoint IRR 50GO Full 40GQ IR Resistor 50GQ FULL point 6 1 Calibration Press 3 ENTER Display password Press 7 9 3 1 ENTER Press Function key DEVICE
124. nput command SAFE STEP 7 LC POW VA 110 Description It sets power measurement high limit value of STEP 7 in the main unit to 110VA SOURce SAFEty STEP n LC POWer VA LIMit HIGH It queries power measurement high limit value of selected step Example Input command SAFE STEP 7 LC POW VA Return message 1 100000E 02 Description Return message 1 100000E 02 means power measurement high limit value of STEP 7 in the main unit is 110VA SOURce SAFEty STEP lt n gt LC PO Wer VA LIMit LOW lt numeric value gt It sets power measurement low limit value of selected step The unit is volt ampere VA Range 0 or 0 1 4400 0 is for setting OFF low limit value of power measurement lt high limit value Example Input command SAFE STEP 7 LC POW VA LOW 90 Description It sets power measurement low limit value of STEP 7 in the main unit to 90VA SOURce SAFEty STEP n LC POWer VA LIMit LOW It queries power measurement low limit value of selected step Example Input command SAFE STEP 7 LC POW LOW VA Return message 9 000000E 01 Description Return message 9 000000E 01 means power measurement low limit value of STEP 7 in the main unit is 90VA SOURce SAFEty STEP lt n gt LC POWer SIMUlation T VOLtage lt numeric value gt It sets selected step which target value of power voltage simulation The unit is volt V Range 80 300 5 39 Electrical Safety Analy
125. nt panel are open circuited DRIVE SENSE terminals on front panel are short circuited with DRIVE SENSE terminals on rear panel 3 When set CHANNEL 3 as X disable a HV1 terminal on rear panel and that on front panel are open circuited HV2 terminal on rear panel and that on front panel are short circuited b DRIVE and SENSE terminals on front panel are short circuited with DRIVE SENSE terminals on rear panel as below figure 4 17 shown GFI ON 1 RL1 2 DRIVE4O 0 0t O DRIVE RL2 SENSE4O 9 92 O SENSE4 GB output on QR GB output on front panel SENSE O 0 07 9O SENSE rear panel 1 RL4 2 DRIVE DRIVE HV2 16 o2 pan Ne RLG 5 High voltage ouiput on on output on rear panel panel v1 Ooo Figure 4 17 4 25 Electrical Safety Analyzer 19032 P User s Manual Example m 5 Front HV1 d af Rear HV1 4 8 G 1 P S It sets CHANNEL 3 to L Rear HV2 2 P G It sets CHANNEL 3 to X 3 P S G It sets CHANNEL 3 to H Or scanning test selection point please use with optional device for example 6000 03 Withstand Voltage Test Mode DC VOLTAGE It sets withstand voltage test needed voltage HIGH LIMIT It sets high limit value of leakage current LOW LIMIT It sets low limit value of leakage current The range is lower than high limit value of leakage current or OFF DWELL TIME It sets DWELL needed time
126. ntrol the main unit 1 The signal voltage of HIGH should between 4 5 and 5V 2 The signal voltage of LOW should between 0 and 0 6V 3 The signal of LOW flows current is 2mA or less 4 The action time of inputting signal should be over 20mS ESS ws Bpoooocodo LI Los INTER gt START LOC4 COM I 9 RESET 20mS or more 20mS or more Figure 4 21 4 The relay switch control as figure 4 19 and photo coupler control as figure 4 21 are controlled by component contact It is effective to avoid error operation system which caused by interference Although the main unit has a lot of preventions it is necessary to be careful that interferences result from setting measurement system 5 Pin diagram of REMOTE CONTROL as figure 4 22 When you want to control by external please remember this pin diagram o REMOTE OUTPUT ooooooodg c ae Sra UNDER PASS FAIL EOS TEST wes LO looooooog o LI Les INTER Ue START LOCK COM RESET Figure 4 22 4 16 Output Signal The analyzer includes LED and buzzer two kinds of indication signals The rear panel of analyzer has the following output signals 4 34 Description of Panel UNDER TEST When the analyzer is under test the output terminal will short circuit Can use this short circuit condition to control external signal The junction specification 125VAC current is lower than 1A PASS When the analyzer judge DUT is good the output terminal will
127. ommand SAFE RES ALL TIME Return message 3 000000E 00 Description Return message 3 000000E 00 means the test needed time result is 3 seconds SOURce SAFEty RESult A LL TIME ELAPsed DWELI This command queries the test dwell time of all steps Example Input command SAFE RES ALL TIME DWEL Return message 2 500000E 00 Description Return message 2 500000E 00 means the test dwell time is 2 5 seconds SOURce SAFEty RESult ALL JUDGment This command queries the judgment results of all steps Return formats are First Step Result Second Step Result Last Step Result 5 15 Electrical Safety Analyzer 19032 P User s Manual Test Result Code List Mode GB AC DC IR LC OSC ALL Code HEX DEC HEX DEC JHEX DEC HEX DEC HEX DEC HEX DEC HEX DEC STOP 70 112 USER STOP 71 113 CAN NOT 72 114 TEST TESTING 73 115 PASS 74 116 HIGH FAIL 11 17 21 33 31 49 7 41 65 51 81 LOW FAIL 12 18 22 34 32 50 42 66 52 82 ARC FAIL 23 35 33 51 HIGH FAIL 24 36 34 52 44 68 54 84 64 100 CHECK FAIL 35 53 OUTPUT A D 16 22 26 38 36 54 46 70 56 86 66 102 OVER METER A D 17 23 27 39 37 55 47 71 57 87 67 103 OVER POWER HIGH 58 88 FAIL POWER LOW 59 89 FAIL LAC 5A 90 HIGH FAIL LDC 5B 91 HIGH FAIL SHORT FAIL 61 97 OPEN FAIL 62 98 GFI FAIL 2D 45 3D 61 4D 77 6D 109 GBVO 1C
128. on Press A key to display Display ACA 30mA _ Offset 2 5mA ACA 30 00mA range Offset point calibration Press STOP START Read out the ammeter value Example 2 903mA Press 2 L 9 0 3 ENTER Press STOP Stop ACA 30 00mA range Offset point calibration Change the dummy load resistor to 50kQ 200watt or higher Press A key to display Display ACA 30mA FULL 25mA ACA30 00mA range full point calibration Press STOP START Read out the ammeter value Example 24 50mA Press 2 4 5 0 ENTER Press STOP Stop ACA 30 00mA range calibration Press A key to display Display ACA 100mA Offset 25mA ACA 100 0mA range Offset point calibration Press STOP START Read out the ammeter value Example 24 50mA Press 2 4 5 0 ENTER Press STOP Stop ACA 100 0mA range Offset point calibration Change the dummy load resistor to 32kQ 200watt or higher Display ACA 100mA FULL 37 5mA ACA 100 0mA range full point calibration Press STOP START Read out the ammeter value Example 37 12mA Press 3 7 L 1 2 ENTER Press STOP Stop ACA 100 0mA range calibration 6 3 2 DC Current Calibration Connecting a 1OMQ load resistor in high potential terminal of withstand volatge tester and series high potential terminal of DC ammeter However connect low potential terminal of withstand voltage tester to low potential terminal of DC ammeter or connecting 9102 to select DCA MODE 10MQ Press
129. ovcssenvessoseavseesosenss 2 1 Se Notice Items before Br mtn 3 1 zc oulusiiWisuci fec 4 1 4 1 Front Paola eit eene tea ede selbe pibe pi beatos Ee ES 4 1 4 2 Rear Paneles ces eta te eee a E E a a E E A tad 4 5 4 3 Notice Items and Procedures before Operating ssssssssssss 4 7 4 4 DUT Connection Method 2 terni tae n tetro iater itta Par ba etd 4 7 4 5 System Parameter Settings ue tace cete e eq edidbec etuctete elec eld eee ed 4 8 4 5 1 Hardware Sottware AGI irre eir tei e ree e rr egeret ius 4 10 4 5 2 DischargzV 3 2 esteri eat reel o qutt esa d eere E E E RYE eds 4 10 4 5 3 QEESET e 4 10 4 6 Memory Management of Test Parameter and Test Preset Parameter 4 11 4 6 1 Read M emoty 35 ient etre rte i E oct etaed ora bad chu ERE er ore rus 4 11 4 6 2 Store Memloty cirea ee bre te eee Pr e eee Un epe ety eaae 4 12 4 6 3 Del te Memoty 2 eret eet peret eddy ge es Id e rei eee ees 4 12 4 7 Test fot Preset Setting sc das sit eges cer ato E E casei tue 4 12 4 7 1 Operation Method dee editt inen tte ort t det re ERE eee Ree ne Eae nae RENS 4 12 4 7 2 Simple Setting WIZard e ccr rere teet dee e ei eet ees 4 12 4 7 3 ON OFF FLOAT Setting of GFI Ground Fault Interrupt eeseee 4 14 4 7 4 Auto Ranges testet eee ees NEU e esee topi A ER 4 16 4 7 5 Start Wart Eunction z got v Rd e one ed ation eee 4 16 4 8 Description of GB Floating Board sse
130. peration Description IEEE 488 2 DEVICE is UL1950 0 0 0000001 0 01 DEVICE is 1950 U1 RMS 0 0 0000001 0 05 DEVICE is 1950 U1 PEAK 0 0 0000001 0 07 DEVICE is 2601 U1 0 0 0000001 0 01 Example Input command SAFE STEP 7 LC LIM LOW 0 0005 Description This command sets leakage current low limit value of STEP 7 in the main unit to 0 5mA SOURce SAFEty STEP n LC LIMit LOW It queries leakage current low limit value of selected step Example Input command SAFE STEP 7 LC LIM Return message 5 000000E 04 Description Return message 5 000000E 04 means leakage current low limit value of STEP 7 in the main unit is 0 5mA SOURce SAFEty STEP n LC TIME TEST numeric value gt It sets test needed time of selected step The unit is second s Range 0 or 0 3 999 0 0 is for setting CONTINUE Example Input command SAFE STEP 7 LC TIME 5 Description It sets test needed time of STEP 7 in the main unit to 5 0sec SOURceJ SAFEty STEP n LC TIME TEST It queries test needed time of selected step Example Input command SAFE STEP 7 LC TIME Return message 5 000000E 00 Description Return message 5 000000E 00 means test needed time of STEP 7 in the main unit is 5 0sec SOURce SAFEty STEP n LC TIME DWELI numeric value gt It sets dwell time required for selected STEP The unit is second s Range 0 or 0 1 999 0 0 is for setting OFF Example Input command
131. percentage is judged by open circuit as detecting short open circuit Example Input command SAFE STEP 6 OSC LIM OPEN Return message 3 000000E 01 Description Return message 3 000000E 01 means open circuit judgment percentage of the main unit STEP 6 as detecting short open circuit is 30 SOURce SAFEty STEP lt n gt OSC LIMit SHORT lt numeric value gt It sets selected STEP which setting percentage is judged by short circuit as detecting short open circuit The unit is percentage 100 Range 0 or 1 3 0 is for setting OFF Example Input command SAFE STEP 6 OSC LIM SHOR 3 Description It sets short circuit judgment percentage of STEP 6 in the main unit as detecting short open circuit is 300 SOURce SAFEty STEP lt n gt OSC LIMit SHORT It queries selected STEP which setting percentage is judged by short circuit as detecting short open circuit Example Input command SAFE STEP 6 OSC LIM SHOR 5 32 GPIB RS232 Operation Description IEEE 488 2 Return message 3 000000E 00 Description Return message 3 000000E 00 means short circuit judgment percentage of STEP 6 in the main unit as detecting short open circuit is 300 SOURce SAFEty STEP lt n gt OSC CHANnel HIGH lt channel list gt It sets selected step which the setting of output terminal lt channel list gt formats are as below SN C1 C2 C3 SN is Scan Box number C1 C2 and C3 are Ch
132. r s own documented production control rhe manufacturer or bis European ized representative can iu bis EC Declaration of Conformity verify compliance with the Low Voltage Directive a February 20 2009 Acts Certification and Testing Services Co Ltd 1 Floss No 20 Lane 61 Tianzhiazg Road Taipei Taiwan Tol 396 2 25558775 Faz 836 2 25933002 XXX Inspection and Examination XXX Before the instrument exit the factory we have a series of inspection and measurement on mechanical and electrical characteristics Make sure its function of operating for the quality warranty of the product As soon as the instrument is unpacked inspect for any damage that may have occurred in transit Save all packing materials in case that the instrument has to be returned If damage is found please file claim with carrier immediately Do not return the instrument to Chroma without prior approval Standard Accessory US A type power cord Description 90 elbow USA type power cord length 1 8m Euro type power cord Euro type power cord length 1 8m Power adapter US A type power cord 3P 2P adapter HV terminal used test cable Alligator clip cross HV head red HV test cable wire length 1m GB test cable The cable used for GB test wire length 1m Max 40A one pair 2 of cables in total Power connector test cable Test cable used only for connecting power plug wire length 1 5m Power w
133. s before Operating 1 Before plugging AC power cable please confirm power that use firstly and description of rear panel is match or not and power switch is OFF status 2 Before turning on power please peruse Chapter 3 Notice Items before Using and remember it 3 When turns on power the analyzer will self test If there is abnormal condition please turns off switch and pulls off power cord immediately 4 4 DUT Connection Method B DUT Connection Method of AC DC IR OSC mode i i 1 L AILLGIii A AA LL Y ELECTRICAL SAFETY ANALYZER 19032 P iyi 7 kaedanan oa FUNCTION TTE MAIN MENU 1 gt SYSTEM 2 gt OPTION F2 3 gt CALIBARTION 4 gt KEY LOCK ud 5 6 7 gt NEW SECURITY CODE gt FAIL LOCK gt ERROR LOG CLEAR PN 7 f o f a2 J a 7 N WA NS Z n a eo WJ leJ L After plugging high voltage plug then rotate 90 clockwise E HV1 and HV2 of high voltage output terminals are separately connected to DUT by high voltage test cable After plugging high voltage plug in HV1 or HV2 of high voltage stand then rotate 90 clockwise to avoid high voltage cable fall off Electrical Safety Analyzer 19032 P User s Manual B DUT connection method of GB mode f Chroma ELECTRICAL SAFETY ANALYZER 19032 P F
134. scription This command means output channel status of scanning test of the main unit STEP 2 is set BOX 2 original HIGH output channel to OFF SOURce SAFEty STEP n AC CHANnel HIGH This command queries selected step which setting of high voltage output terminal Example Input command SAFE STEP 2 AC CHAN Return message 2 1 2 Description Return message 2 1 2 means output channel status of scanning test of the main unit STEP 2 is BOX 2 channel 1 and 2 HIGH output SSOURce SAFEty STEP lt n gt AC CHANnel LOW lt channel list gt This command sets output status of scanning common test channel RTN LOW Example Input command SAFE STEP 2 AC CHAN LOW 2 2 4 Description This command means output channel status of scanning test of the main unit STEP 2 1s set to BOX 2 channel 2 and 4 LOW output Example Input command SAFE STEP 2 AC CHAN LOW 2 0 Description This command sets LOW output channel of scanning test of the main unit STEP 2 is OFF SOURce SAFEty STEP lt n gt AC CHANnel LOW This command queries selected step which Return channel setting Example Input command SAFE STEP 2 AC CHAN LOW Return message 2 2 4 Description Return message 2 2 4 means output channel status of scanning test of 5 23 Electrical Safety Analyzer 19032 P User s Manual the main unit STEP 2 is BOX 1 channel 2 and 4 LOW output SOURce SAFEty STEP n A
135. short circuit Can use this short circuit condition to control external signal The junction specification 125VAC current is lower than 1A Operating time is from DUT judged as pass to be stopped or restart FAIL When the analyzer judge DUT as no good the output terminal will short circuit Can use this short circuit condition to control external signal The junction specification 125VAC current is lower than 1A Operating time is from DUT judged as fail to be stopped or restart 4 17 Test Parameter and Example 4 17 1 Single Test Mode a Grounding impedance test GB MODE MEMORY 1 SYSTEM 2 gt OPTION RESET 3 gt CALIBRATION 4 gt KEY LOCK PROGRAM 5 gt NEW SECURITY CODE 6 gt FAIL LOCK 7 ERROR LOG TEST Remotel lLock ooffset Error Figure 4 23 After powered on press Function Key PROGRAM at the right side of MAIN MENU in figure 4 23 to enter STEP SETTING screen Move the highlight to TEST MODE by pressing amp key and select GB MODE as figure 4 24 shown key in needed parameter values 4 35 Electrical Safety Analyzer 19032 P User s Manual STEP SETTING 01 TEST STEP 1 GB 02 TEST MODE 03 CURRENT 25 00 A AC 04 HIGH LIMIT 100 0 mO 05 LOW LIMIT OFF DC 06 TEST TIME 3 50 sec 07 TWIN PORT ON IR 08 CHNL H L Tue PAGE 1 2 Remotel Lock joffset Error
136. ss new fuse slightly into fuse stand then plug in the power socket Warning Please use correct specification when replace fuse or may cause hazard 18 19 20 21 22 23 Notice Items before Use Normal operation of the unit is AC power If power is unstable it may cause the unit function is not actual or abnormal Therefore please use appropriate equipment turn to suitable power such as power stabilizer Output power is 500VA When DUT drawing mass current before deadline of fail judgment and output current it may flows mass current about ten amperes up to ten milliseconds Before processing test may be the same condition Please notice the capacity of power cord and the current cable of linking with other instrument or equipment Storage The unit normal operation temperature humidity range is 5 C 40 C 80 RH If over this range then function may malfunction Please don t position the equipment so that it is difficult to operate the disconnecting device The unit storage temperature range is 10 C 50 C 80 RH If you don t use it for a long time please use original material packing and then store it For correct test and safety please keep it from direct sunlight or high temperature vibration humidity and dusty place Warm up All functions of the analyzer are activated when the power switch is turned on However to attain the precision in the specification please warm the instrument over 15 m
137. t 0 00066 When High Limit setting is over 600uA 600uA included High Limit Offset setting value of ULS44NP lt 0 0066 High Limit Offset setting value of UL544P lt 0 011 High Limit Offset setting value of UL1563 lt 0 011 High Limit Offset setting value of UL2061 lt 0 011 High Limit Offset setting value of UL1950 lt 0 011 6000 04 06 08 range When High Limit setting range is from 0 1uA to 599uA thus High Limit Offset setting value 0 00066 When High Limit setting is over 600uA 600uA included High Limit Offset setting value of ULS44NP lt 0 0066 High Limit Offset setting value of UL544P lt 0 011 High Limit Offset setting value of UL1563 lt 0 011 High Limit Offset setting value of UL2061 lt 0 011 High Limit Offset setting value of UL1950 lt 0 011 High Limit Offset setting value of 1950 U1 RMS x 0 055 High Limit Offset setting value of 1950 U1 PEAK lt 0 077 High Limit Offset setting value of 2601 U1 lt 0 011 Note Only 6000 08 can set DEVICE 1950 U1 and 2601 U1 Example Input command SOURCE SAFETY STEP1 LC CURR OFFS 0 0002 Description It means to set LC Offset of STEP 1 in the main unit to 0 2mA SOURce SAFEty STEP n LC CURR OFFSet L C It queries offset value of selected step Example Input command SOURCE SAFETY STEPI LC CURR OFFS Return message 2 000000E 04 Description Return message 2 000000E 04 means offset value of STEP 1 in
138. t ALL OMETerage This command queries OUTPUT METER reading of all steps Example Input command SAFE RES ALL OMET Return message 5 100000E 01 Description Return message 5 100000E 01 means query OUTPUT METER result is 0 051kV SOURce SAFEty RESult ALL MMETerage NORMal This command queries MEASURE METER reading of all steps Example Input command SAFE RES ALL MMET Return message 7 000000E 05 Description Return message 7 000000E 05 means query MEASURE METER result is 0 07mA 5 14 GPIB RS232 Operation Description IEEE 488 2 Example Input command SAFE RES ALL MMET LAC Return message 1 000000E 04 Description Return message 1 000000E 04 means query LAC reading result of MEASURE METER is 0 10mA SOURce SAFEty RESult ALL MODE This command queries MODE of all steps Return character data AC DC GB IR LC PA OSC Example Input command SAFE RES ALL MODE Return message DC Description Return message DC means to set mode as DC SOURce SAFEty RESult A LL TIME ELA Psed RAMP This command queries elapse time of ramp of all steps Example Input command SAFE RES ALL TIME RAMP Return message 1 000000E 00 Description Return message 1 000000E 00 means ramp to the setting voltage needed time is 1 second SOURce SAFEty RESult A LL TIME ELAPsed TEST This command queries the test time of all steps Example Input c
139. t cables into HV1 terminal High on front panel and HV1 Low on rear panel In advance connect the test cable of low potential to DUT and then connect the test cable of high potential to DUT When do P x S withstand voltage test the ground terminal is Floating As the connection in below figure 4 41 Electrical Safety Analyzer 19032 P User s Manual 4 17 3 Test Example for DUT Connection Front Panel Rear Panel HV OUTPUT DRIVE SENSE SENSE DRIVE DRIVE _ SENSE SENSE _ DRIVE AW OO OQ HIGH VOLTAGE GB FLOATING MAX SKV AC Figure 4 32 DUT connection methods in figure 4 32 can be set are as below STEP 1 Set GB Test item Case to G is ON STEP 2 Set AC Channel 3 setting is H Test item Leakage current of P S to Case STEP 3 Set AC Channel 3 setting is L Test item Leakage current of P to S STEP 4 Set AC Channel 3 setting is X Test item Leakage current of P to Case 4 42 GPIB RS232 Operation Description IEEE 488 2 5 GPIB RS232 Operation Description IEEE 488 2 5 1 Guide The user can use computer by GPIB IEEE 488 1978 or RS232 interface to remote control and data transfer 5 2 GPIB Interface Option 5 2 1 Adaptable Standard IEEEA488 1978 standard 5 2 2 Interface Capability Code Meaning Source Handshake Acceptor Handshake Basic Talker requirement Basic Listener requirement Service request requirement All remote local requirement
140. t it from damage i e equivalent to the original packaging and mark the box Delicate Electronic Instrument Return material should be sent freight prepaid to Chroma Ate Inc No 66 Hwa Ya 1st Rd Hwa Ya Technical Park Kuei Shan Hsiang Taoyuan Hsien Taiwan Attention Service Department Note 1 This machine is overweight please use wheelbarrow to avoid injuring 8
141. tart function 1 3 Initial Inspection Before shipment this instrument was inspected and found to be free of mechanical and electrical defects As soon as the instrument is unpacked inspect for any damage that may have occurred in transit Save all packing materials in case that the instrument has to be returned If damage is found please file claim with carrier immediately Do not return the instrument to Chroma without prior approval 1 4 Common Environment Conditions 1 Indoor use 2 Altitude 2000 m 3 Transient Overvoltage at Mains Supply 2500V 4 Pollution Degree 2 Specification 2 Specification 18 C 28 C RH x 7096 B AC DC Withstanding Test Q Output Voltage AC 0 05 5 0 kV steps 0 001kV DC 0 05 6 0 kV steps 0 001kV a Load Regulation lt 2 of setting 0 1 of full scale Rated load a Voltage Accuracy 2 of setting 0 1 of full scale Q Cutoff Current Note 1 OR NC ag DC 0 01mA 20mA Q Output Voltage monitor 1 of reading 0 1 of full scale 2V resolution AC current 3mA range 0 001mA 2 999mA 0 001mA resolution 30mA range 0 01 mA 29 99mA 0 01mA resolution 100mA range 0 1mA 100 0mA 0 1mA resolution Measurement Accuracy 2 of reading 0 5 of range a Leakage Current Meter DC current 300uA 0 1uA 299 9uA 0 1uA resolution 3mA range 0 001mA 2 999mA 0 001mA resolution 20mA range 0 01mA 20 00mA 0 01mA resolution Measurement Accuracy 2 of reading 0
142. the main unit is 0 2mA SOURce SAFEty STEP n LC CURRent OFFSet LAC numeric value It sets offset value of LAC The unit is in Ampere A The LAC Offset setting value is above 0 and the ranges are as follows Range When High Limit setting range is from 0 1uA to 599uA thus LAC High Limit Offset setting value lt 0 00066 5 41 Electrical Safety Analyzer 19032 P User s Manual When High Limit setting is over 600uA 600uA included LAC High Limit Offset setting value of ULS544NP lt 0 0066 LAC High Limit Offset setting value of UL544P lt 0 011 LAC High Limit Offset setting value of UL1563 x 0 011 LAC High Limit Offset setting value of UL2061 x 0 011 LAC High Limit Offset setting value of UL1950 x 0 011 LAC High Limit Offset setting value of 1950 U1 RMS lt 0 055 LAC High Limit Offset setting value of 1950 U1 PEAK x 0 077 LAC High Limit Offset setting value of 2601 U1 lt 0 011 Example Input command SOURCE SAFETY STEP1 LC CURR OFFS LAC 0 0002 Description It means to set LAC Offset of STEP 1 in the main unit to 0 2mA SOURce SAFEty STEP n LC CURRent OFFSet LDC numeric value It sets offset value of LDC The unit is in Ampere A Range LDC High Limit Offset value lt 0 0011 Example Input command SOURCE SAFETY STEP1 LC CURR OFFS LDC 0 0002 Description It means to set LDC Offset of STEP 1 in the main unit to 0 2mA SOURce SAFEty PRESet TIME PASS lt numeric
143. time Example Input command SAFE STEP GB TIME Return message 5 000000E 01 Description Return message 5 000000E 01 means test needed time is 0 5 second SOURce SAFEty STEP n GB TPORt lt boolean gt On OFF This command sets if selected step twin port function on or off The GFI item setting of 5 19 Electrical Safety Analyzer 19032 P User s Manual PRESET SETUP can be set as ON when it sets as FLOAT Example Input command SAFE STEP 1 GB TROP ON Description This command sets step 1 twin port function on SOURce SAFEty STEP n GB TPORt This command queries selected step twin port function Example Input command SAFE STEP GB TROP Return message 1 Description Return message 1 means twin port output function is on SOURceJ SAFEty STEP n GB CHANnel HIGH lt channel list gt This command sets selected step the output channels The lt channel list gt format as following SN C1 C2 C3 The SN is scan box number the C1 C2 and C3 are channels number Example Input command SAFE STEP 1 GB CHAN 2 1 2 Description This command means output channel of scanning test of the main unit STEP 1 is set to BOX 2 channel 1 and 2 HIGH output Example Input command SAFE STEP 1 GB CHAN 2 0 Description This command means BOX 2 original HIGH output channel of scanning test output channel of the main unit STEP 1 is set to OFF SOURce SAFEty S
144. time required for set voltage to fall to 0 for STEP 3 in the main unit is 3 0sec SOURce SAFEty STEP n DC CHANnel HIGH channel list gt It sets selected step that the setting of output terminal lt channel list gt formats are as below SN C1 C2 C3 SN is Scan Box number C1 C2 and C3 are Channels numbers Example Input command SAFE STEP 3 DC CHAN 2 1 2 Description This command sets output channel status of scanning test of STEP 3in the main unit is BOX 2 channel 1 and 2 HIGH output Example Input command SAFE STEP 3 DC CHAN G2 0 Description This command sets output channel status of scanning test of STEP 3 in the main unit is set BOX 2 original HIGH output channel to OFF SOURce SAFEty STEP n DC CHANnel HIGH It queries high voltage output channel setting of selected step Example Input command SAFE STEP 3 DC CHAN Return message 2 1 2 Description Return message 2 1 2 means output channel status of scanning test of STEP 3 in the main unit is set BOX 2 channel 1 and 2 to HIGH output SOURce SAFEty STEP n DC CHANnel LOW lt channel list gt It sets output status of scanning common test channel RTN LOW Example Input command SAFE STEP 3 DC CHAN LOW 2 2 4 Description It sets output channel status of scanning test of STEP 3 in the main unit is BOX 2 channel 2 and 4 LOW output Example Input command SAFE STEP 3 DC CHAN L
145. ting status until STOP is stopped PASS When the analyzer judges DUT as pass this output terminal will short circuit Control external signal is by using this short circuit condition The junction specification 125V AC current is lower than 1A The action time is from judged as pass to be stopped FAIL When the analyzer judges DUT as fail this output terminal will short circuit Control external signal is by using this short circuit condition The junction specification 125V AC current is lower than 1A The action time is from judged as fail to be stopped 10 9Pin Connector All of 9 pin D Sub connector functions are the same as 9 Remote I O 11 AC LINE AC power socket and fuse holder A tri cord power and fuse holder Input AC power which the analyzer is needed from AC power socket The detailed specification of using fuse please refers Chapter 3 Notice Items before Using or descriptions of rear panel in this manual 12 GND Terminal Safety GND terminal please use adaptable implement to connect this grounding terminal actually If there is no grounding actually the circuit with GND terminal or other instruments connecting cable with GND terminal is short circuit The cover of analyzer may exist high voltage This is very dangerous anyone touch the analyzer under the above status may cause damage Therefore it is necessary to connect safety GND terminal to ground Description of Panel 4 3 Notice Items and Procedure
146. tion Note When 19032 set as KEY LOCK ON then to restart and enter TEST menu directly KEY LOCK release method l When shows MAIN MENU on title list if text block LOCK is highlighted press numerical key which is corresponding to KEY LOCK then will show RELEASE KEY LOCK window By using numerical key to input PASSWORD please input 0000 when NEW SECURITY CODE is not set Press ENTER key text block LOCK will release highlight and it means KEY LOCK Function had been cancelled Electrical Safety Analyzer 19032 P User s Manual 4 13 Setting User Password l 2 When title bar shows MAIN MENU press numerical key that corresponds to NEW SECURITY CODE will show ENTER USER PASSWORD window By using numerical key to input PASSWORD please input 0000 when PASSWORD is not set Press ENTER key will shows ENTER NEW PASSWORD window By using numerical key to input NEW PASSWORD the maximum is twelve characters press ENTER key will shows ENTER CONFIRM PASSWORD window Using numerical key to input CONFIRM PASSWORD is the same as NEW PASSWORD press ENTER key will show MESSAGE window At the same time the setting has been done and can press any key to exit Note If the user have forgotten password please follow paragraph 4 11 2 Clear Memory to clear memory PASSWORD will be reset to initial value i e 0000 4 14 FAIL LOCK Function 4 14 1 FAIL LOCK Setting
147. tric system value gt range is 0 255 5 9 Electrical Safety Analyzer 19032 P User s Manual ESE The controller is used for inquiry standard event status of device enable register value The output format is metric system value gt its range is 0 255 ESR The controller inquires the standard event register value of the device After performing this command the standard event register value will be cleared to 0 The output format is metric system value gt its range is 0 255 IDN The controller is for reading the basic data of the device The output format separates four fields by comma it denote separately manufacturer device model serial number and firmware version OPC Operation completes command OPC Operation complete inquiry command The output format is ASCII character 1 PSC O11 Power on status clear command PSC Power on status clear inquiry command The output format is ASCII character 1 or 0 RST The device reset command RCL lt numeric value gt Recall command This command is recalling the saved parameters SAV lt numeric value gt Save command This command is saving the current parameters to memory SRE lt numeric value gt It used for setting service request register value its metric system value value is 0 255 SRE The controller is for reading service request enable register initial setting The output format is metric syste
148. trical Safety Analyzer 19032 P User s Manual SOURce SAFEty STEP lt n gt PAuse UTSIgnal It queries the status of UNDER TEST SIGNAL Return 1 indicates the setting ON Return 0 indicates the setting OFF Example Input command SAFE STEP 5 PA UTSI ON Return message 1 Description Return message 1 means the status of UNDER TEST SIGNAL of STEP 5 in the main unit is ON SOURce SAFEty STEP n PAuse TIME TEST numeric value It sets the time required of PA mode test for selected STEP Example Input command SAFE STEP 5 PA TIME 5 Description It sets the time required for STEP 5 in the main unit is 5 0sec SOURce SAFEty STEP n PAuse TIME TEST It queries the time required of PA mode test for selected STEP Example Input command SAFE STEP 5 PA TIME Return message 5 000000E 00 Description Return message 5 000000E 00 means the time test required for STEP 5 in the main unit to set to 5 0sec SOURce SAFEty STEP lt n gt OSC LIMit OPEN numeric value gt It sets selected STEP which setting percentage is judged by open circuit as detecting short open circuit The unit is percentage 100 Range 0 1 1 0 Example Input command SAFE STEP 6 OSC LIM OPEN 0 3 Description It sets open circuit judgment percentage of STEP 6 in the main unit as detecting short open circuit is 3096 SOURce SAFEty STEP n OSC LIMit OPEN It queries selected STEP which setting
149. ttp www chromaate com iii Material Contents Declaration A regulatory requirement of The People s Republic of China defined by specification SJ T 11364 2006 mandates that manufacturers provide material contents declaration of electronic products and for Chroma products are as below Hazardous Substances Part Nane Lead Mercury Cadmium Hexavalent Polybrominated Polybromodiphenyl Chromium Biphenyls Bthers Cd BINE NEM wm 0 0 mss 9 0 o fo oo fo KAGE me HR INS O indicates that the level of the specified chemical substance is less than the threshold level specified in the standards of SJ T 11363 2006 and EU 2005 618 EC X indicates that the level of the specified chemical substance exceeds the threshold level specified in the standards of SJ T 11363 2006 and EU 2005 618 EC 1 Chroma is not fully transitioned to lead free solder assembly at this moment however most of the components used are RoHS compliant 2 The environment friendly usage period of the product is assumed under the operating environment specified in each product s specification Disposal Do not dispose of electrical appliances as unsorted municipal waste use separate collection facilities Contact your local government for information regarding the collection systems available If electrical appliances are disposed of in landfills or dumps hazardous substances can leak into the groundwater and get into the food chain d
150. us test TWIN PORT It selects twin port can select ON OFF When set as ON and next STEP is 4 23 Electrical Safety Analyzer 19032 P User s Manual AC DC or IR the two steps can operate simultaneously The highest AC rated current when twin port can t over 5kV 50mA and GB current can t over 20A or it may cause output voltage current distortion CHNL H L It sets scan test point please set with optional device for example 6000 01 Withstand Voltage Test Mode AC VOLTAGE It sets withstand voltage test needed voltage HIGH LIMIT It sets high limit value of leakage current LOW LIMIT It sets low limit value of leakage current The range is lower than high limit value of leakage current or OFF ARC LIMIT It sets high limit value of arc ARC FILTER It selects frequency range of detection arc There are four frequency ranges of 3 23 kHz 3 50 kHz 3 100 kHz 3 230 kHz can be selected TEST TIME It sets test needed time It inputs 0 means continuous test RAMP TIME The needed time which rises to setting voltage It inputs 0 means OFF FALL TIME The needed time which falls from setting voltage value to zero 0 means OFF CHNL H L It sets GB Floating test selection point 1 When set CHANNEL 3 to H high a Start test HV1 terminal on front panel and that on rear panel are short circuited with high voltage output HV2 terminal on front panel and that on rear panel are short circuited with low voltage terminal DRIVE a
151. zer 19032 P User s Manual Example Input command SAFE STEP 7 LC POW SIMU TVOL 127 Description It sets target value of power voltage simulation of STEP 7 in the main unit to 127V SOURce SAFEty STEP n LC POWer SIMUlation TVOLtage It queries selected step which target value of power voltage simulation Example Input command SAFE STEP 7 LC POW SIMU TVOL Return message 1 270000E 02 Description Return message 1 270000E 02 means target value of power voltage simulation of STEP 7 in the main unit is 127V SOURce SAFEty STEP n LC POWer SOURce TVOLtage lt numeric value gt It sets source power voltage value of selected step The unit is volt V Range 80 300 Example Input command SAFE STEP 7 LC POW SOUR TVOL 90 Description It sets source power voltage value of STEP 7 in the main unit to 90V SOURce SAFEty STEP n LC POWer SOURce TVOLtage It queries source power voltage value of selected step Example Input command SAFE STEP 7 LC POW SOUR TVOL Return message 9 000000E 01 Description Return message 9 000000E 01 means source power voltage value of STEP 7 in the main unit is 90V SSOURce SAFEty STEP lt n gt LC POWer SOURce TFRequency lt numeric value gt It sets source power frequency value of selected step The unit is hertz Hz Range 50 60 Example Input command SAFE STEP 7 LC POW SOUR TFR 60 Description It sets source power frequency v

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