mpaxdp00 - Red Lion Controls
Contents
1. key in data apply signal The decimal point position is dependent on the selection made in the Display Decimal Point parameter INPUT VALUE FOR SCALING POINT 1 P t 9 gt anan For Key in VEY enter the known first Input Value by using the arrow keys The Input Range selection sets up the decimal location for the Input Value For Apply APLY apply the input signal to the meter adjust the signal source externally until the desired Input Value appears In either method press the PAR key to enter the value being displayed In the APL H style the RST key can be pressed to advance the display past the HP value or other input value without storing it This is useful for application scaling of the second scaling point i e when the tank is full or some other point in multipoint applications 4333 to 99 999 DISPLAY VALUE FOR SCALING POINT 1 dSP t 9 gt anan Enter the first coordinating Display Value by using the arrow keys This is the same for FEM and APL scaling styles The decimal point follows the dEL Pt selection For Square Root Extraction Input Range the Display 1 value must be zero 3333 to 99999 INPUT VALUE FOR SCALING POINT 2 P EN S aa For Key in VEY enter the known second Input Value by using the arrow keys For Apply APLY adjust the signal source externally until the next desired Input Value appears Follow the same procedure if using more than 2 scaling points2. 22 w 2 G S REAR TERMINALS 3 0 INSTALLING OPTION CARDS The option cards are separately purchased optional cards that perform specific functions These cards plug into the main circuit board of the meter The option cards have many unique functions when used with the PAX CAUTION The option and main circuit boards contain static sensitive components Before handling the cards discharge static charges from your body by touching a grounded bare metal object Ideally handle the circuit boards at a static controlled clean workstation Dirt oil or other contaminants that may contact the circuit boards can adversely affect circuit operation TOP VIEW Alignment x Analog Output Card Connectors Setpoint Output Card Communications Card Finger Tab SISISISICISSSISASISISI 4 0 WIRING THE METER WARNING Exposed line voltage will be present on the circuit boards when power is applied Remove all power to the meter AND load circuits before accessing the meter To Install 1 For option card specific installation instructions see the installation instructions provided with the option card being installed 2 When handling the main circuit board hold it by the rear cover When handling the option card hold it by the terminal block Go Remove the main assembly from the rear of the case by squeezing both finger holds on the rear cover and pulling the assembly out of t
3. ES Selection Value 10 Only accessible with appropriate option card STEP BY STEP PROGRAMMING INSTRUCTIONS PROGRAMMING MODE ENTRY PAR KEY The Programming Mode is entered by pressing the PAR key If this mode is not accessible then meter programming is locked by either a security code or a hardware lock See Modules 2 and 3 for programming lock out details MODULE ENTRY ARROW amp PAR KEYS Upon entering the Programming Mode the display alternates between Pra and the present module initially 18 The arrow keys F1 and F2 Y are used to select the desired module which is then entered by pressing the PAR key PARAMETER MODULE MENU PAR KEY Each module has a separate parameter menu These menus are shown at the start of each module description section which follows The PAR key is pressed to advance to a particular parameter to be changed without changing the programming of preceding parameters After completing a module the display will return to Pra AG From this point programming may continue by selecting and entering additional modules See MODULE ENTRY above PARAMETER SELECTION ENTRY ARROW amp PAR KEYS For each parameter the display alternates between the parameter and the present selection or value for that parameter For parameters which have a list of selections the arrow keys F1A and F2 Y are used to sequence through the list until the desired selection is displayed Pressing the PAR key stores an
4. 4333 to 99 999 The decimal point position is dependent on the selection made in the Display Decimal Point parameter DISPLAY VALUE FOR SCALING POINT 2 dSP 2 4 Dang Enter the second coordinating Display Value by using the arrow keys This is the same for FEY and APLY scaling styles Follow the same procedure if using more than 2 scaling points 3333 to 99999 General Notes on Scaling 1 Input Values for scaling points should be confined to the limits of the Input Signal ie 4 20 mA or 0 10 VDC The same Input Value should not correspond to more than one Display Value Example 20 mA can not equal 0 and 10 This is referred to as readout jumps vertical scaled segments NO Go The same Display Value can correspond to more than one Input Value Example 0 mA and 20 mA can equal 10 This is referred to as readout dead zones horizontal scaled segments 4 The maximum scaled Display Value spread between range maximum and minimum is limited to 65 535 For example using 20 mA range the maximum 20 mA can be scaled to Is 32 767 with 0 mA being 0 and Display Rounding of 1 Decimal points are ignored The other half of 65 535 is for the lower half of the range 0 to 20 mA even if it is not used With Display Rounding of 2 20 mA can be scaled for 65 535 32 767 x 2 but with even Input Display values shown 5 For input levels beyond the first programmed Input Value the meter extends the Display Value
5. ANALOG UPDATE TIME Gf to IDH Enter the analog output update rate in seconds A value of 0 0 allows the meter to update the analog output at the ADC Conversion Rate E E D rr a 6 9 MODULE 9 Factory SERVICE OPERATIONS 95 F 5 PARAMETER MENU Display Intensity Level Factory Service Code DISPLAY INTENSITY LEVEL Enter the desired Display Intensity Level 0 15 by using the arrow keys The display will actively dim or brighten as the levels are changed This parameter also appears in Quick Programming Mode when enabled RESTORE FACTORY DEFAULTS Use the arrow keys to display dE 66 and press PAR The meter will display r ESEE and then return to LOdE 580 Press DSP key to return to Display Mode This will overwrite all user settings with the factory settings L dE CALIBRATION The meter has been fully calibrated at the factory Scaling to convert the input signal to a desired display value is performed in Module 1 If the meter appears to be indicating incorrectly or inaccurately refer to Troubleshooting before attempting to calibrate the meter When recalibration is required generally every 2 years it should only be performed by qualified technicians using appropriate equipment Calibration does not change any user programmed parameters However it may affect the accuracy of the input signal values previously stored using the Apply APLY Scaling Style Calibration may be aborted by disconnecting power
6. PAXDP will wait this minimum amount of time in seconds before issuing a serial response OD dto e50 CRIMSON SOFTWARE When communicating with Crimson 2 software the PAXDP must be set in default configuration type of Communications Type MODBUS RTU t Baud Rate 38400 Data Bit 8 ParityBit no Meter Unit Address 247 Parameters below only appear when communications type t HPE parameter is set tor LE Rbru RB Select AG for full print or Command T transmissions meter address parameter data and mnemonics or HE5 for abbreviated print transmissions parameter data only This will affect all the parameters selected in the print options If the meter address is 00 it will not be sent during a full transmission ABBREVIATED PRINTING YES n SERIAL MODBUS COMMUNICATIONS Modbus Communications requires that the Serial Communication Type Parameter k HPE be set to Mlbrt or P IbRS SUPPORTED FUNCTION CODES FC03 Read Holding Registers 1 Up to 32 registers can be requested at one time 2 HEX 8000 is returned for non used registers FC04 Read Input Registers 1 Up to 32 registers can be requested at one time 2 Block starting point can not exceed register boundaries 3 HEX 8000 is returned in registers beyond the boundaries 4 Input registers are a mirror of Holding registers FCO06 Preset Single Register 1 HEX 8001 is echoed back when attempting to write to a read only register
7. TOTALIZER USING TIME BASE Totalizer accumulates as defined by Input Display x Totalizer Scale Factor Totalizer Time Base Where Input Display the present input reading Totalizer Scale Factor 0 001 to 65 000 Totalizer Time Base the division factor of EbRSE Example The input reading is at a constant rate of 10 0 gallons per minute The Totalizer is used to determine how many gallons in tenths has flowed Because the Input Display and Totalizer are both in tenths of gallons the Totalizer Scale Factor is 1 With gallons per minute the Totalizer Time Base is minutes 60 By placing these values in the equation the Totalizer will accumulate every second as follows 10 0 x 1 000 0 1667 gallons accumulate each second 60 This results in 10 0 gallons accumulate each minute 600 0 gallons accumulate each hour TOTALIZER SCALE FACTOR CALCULATION EXAMPLES 1 When changing the Totalizer Decimal Point dEEPE location from the Input Display Decimal Point dEL PE the required Totalizer Scale Factor is multiplied by a power of ten Example Input dELPE 0 0 Totalizer Scale dELPE Factor Input dEL PE 0 00 Totalizer Scale dELPE Factor x Totalizer display is round by tens or hundreds 2 To obtain an average reading within a controlled time frame the selected Totalizer Time Base is divided by the given time period expressed in the same timing units Example Average flow rate per hour in a 4 hour period the
8. s voltage and current ratings All cabling should conform to appropriate standards of good installation local codes and regulations It is recommended that power supplied to the meter DC or AC be protected by a fuse or circuit breaker When wiring the meter compare the numbers embossed on the back of the meter case against those shown in wiring drawings for proper wire position Strip the wire according to the terminal block specifications stranded wires should be tinned with solder Insert the lead into the correct terminal and then tighten the terminal until the wire is secure Pull wire to verify tightness EMC INSTALLATION GUIDELINES Although Red Lion Controls Products are designed with a high degree of immunity to Electromagnetic Interference EMI proper installation and wiring methods must be followed to ensure compatibility in each application The type of the electrical noise source or coupling method into a unit may be different for various installations Cable length routing and shield termination are very important and can mean the difference between a successful or troublesome installation Listed are some EMI guidelines for a successful installation in an industrial environment 1 A unit should be mounted in a metal enclosure which is properly connected to protective earth 2 Use shielded cables for all Signal and Control inputs The shield connection should be made as short as possible The connection point for the s
9. signal m D an lt m O gt lt LLI lvs ICOMM 18 V COMM B IV 3 WIRE TRANSMITTER CAUTION Sensor Input B common is NOT isolated from user input common In order to preserve the safety of the meter application the sensor input common must be suitably isolated from hazardous live earth referenced voltages or input common must be at protective earth ground potential If not hazardous live voltage may be present at the User Inputs and User Input Common terminals Appropriate considerations must then be given to the potential of the user input common with respect to earth common and the common of the isolated option cards with respect to input common 4 3 USER INPUT WIRING Before connecting the wires the User Input Logic Jumper should be verified for proper position If not using User Inputs then skip this section Only the appropriate User Input terminal has to be wired Sinking Logic Sourcing Logic Terminal 9 Connect external switching device between Terminal 9 VDC thru external switching device Terminal 10 11 appropriate User Input terminal and User Comm Terminal 10 11 VDC thru external switching device In this logic the user inputs of the meter In this logic the user inputs of the meter are are internally pulled up to 5 V with 22 internally pulled down to 0 V with 22 K resistance O K resistance The input is active when it s The input is active when a voltage greater than
10. 13 VDC g 9 After 20 minute warm up Accuracy is specified in two ways Accuracy over an 18 to 28 C and 10 to 75 RH environment and accuracy over a 0 to 50 C and 0 to 85 RH non condensing environment Accuracy over the 0 to 50 C range includes the temperature coefficient effect of the meter 9 EXCITATION POWER Transmitter Power 18 VDC 20 unregulated 70 mA max per input channel GENERAL METER SPECIFICATIONS 10 LOW FREQUENCY NOISE REJECTION Normal Mode digital filter off Note 19 8 Hz Input Rate provides best rate performance and simultaneous 50 60 Hz rejection Common Mode gt 100 dB 50 60 1 Hz 19 8 or 20 Input Rate 11 USER INPUTS Three programmable user inputs Max Continuous Input 30 VDC Isolation To Sensor Input A Common 500 Vrms for 1 min Isolation To Sensor Input B Common Not isolated SINKING INPUTS SOURCING INPUTS INPUT STATE 22 KO pull up to 5 V 22 KO pull down Active Vin lt 0 9 VDC Vin gt 3 6 VDC Inactive Vin gt 3 6 VDC Vin lt 0 9 VDC Response Time 20 msec max Logic State Jumper selectable for sink source logic 12 TOTALIZER Function Time Base second minute hour or day Batch Can accumulate gate input display from a user input Time Accuracy 0 01 typical Decimal Point 0 to 0 0000 Scale Factor 0 001 to 65 000 Low Signal Cut out 19 999 to 99 999 Total 9 digits display alternates between high order and low order readouts 13 CUSTOM LINEARIZATION
11. CURRENT I 1 CURRENT I VOLTAGE V J VOLTAGE V Note In the figures above the text shown in parenthesis is printed on the circuit board to help with proper jumper positioning While holding the unit in place push the panel latch over the rear of the unit so that the tabs of the panel latch engage in the slots on the case The panel latch should be engaged in the farthest forward slot possible To achieve a proper seal tighten the latch screws evenly until the unit is snug in the panel Torque to approximately 7 in lbs 79N cm Do not over tighten the screws Installation Environment The unit should be installed in a location that does not exceed the maximum operating temperature and provides good air circulation Placing the unit near devices that generate excessive heat should be avoided The bezel should be cleaned only with a soft cloth and neutral soap product Do NOT use solvents Continuous exposure to direct sunlight may accelerate the aging process of the bezel Do not use tools of any kind screwdrivers pens pencils etc to operate the keypad of the unit PANEL CUT OUT 1 0 1 24 45 t5 User Input Logic Jumper This jumper selects the logic state of all the user inputs If the user inputs are not used it is not necessary to check or move this jumper FRONT DISPLAY ET INPUT JUMPER LOCATIONS INPUT B CURRENT VOLTAGE V INPUT A a i es USER INPUT T JUMPER LOCATION
12. Data Point Pairs Selectable from 2 to 16 Display Range 19 999 to 99 999 Decimal Point 0 to 0 0000 14 MEMORY Nonvolatile memory retains all programmable parameters and display values 15 CERTIFICATIONS AND COMPLIANCES CE Approved EN 61326 1 Immunity to Industrial Locations Emission EN 55011 Class A IEC EN 61010 1 UL Recognized Component File E179259 UL Listed File E137808 Type 4X Enclosure rating Face only IP65 Enclosure rating Face only IP20 Enclosure rating Rear of unit Refer to EMC Installation Guidelines section of the bulletin for additional information 16 ENVIRONMENTAL CONDITIONS Operating Temperature Range 0 to 50 C Storage Temperature Range 40 to 60 C Vibration to IEC 68 2 6 Operational 5 150 Hz 2 g Shock to IEC 68 2 27 Operational 25 g 10 g relay Operating and Storage Humidity 0 to 85 max RH non condensing Altitude Up to 2000 meters 17 CONNECTIONS High compression cage clamp terminal block Wire Strip Length 0 3 7 5 mm Wire Gage 30 14 AWG copper wire Torque 4 5 inch lbs 0 51 N m max 18 CONSTRUCTION This unit is rated for NEMA 4X IP65 outdoor use IP20 Touch safe Installation Category H Pollution Degree 2 One piece bezel case Flame resistant Synthetic rubber keypad Panel gasket and mounting clip included 19 WEIGHT 10 4 oz 295 g OPTION CARDS WARNING Disconnect all power to the unit before installing option cards Adding Option Cards The PAX and MPA
13. Isolated from all other commons Rating Output Voltage 18 24 VDC unit dependent 10 30 mA max total both outputs QUAD FORM C RELAY CARD PAXCDS60 Type Four FORM C relays Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Contact Rating Rated Load 3 Amp 30 VDC 125 VAC Total Current With All Four Relays Energized not to exceed 4 amps Life Expectancy 100 K cycles min at full load rating External RC snubber extends relay life for operation with inductive loads ALL SETPOINT CARDS Response Time See update rates step response specification add 6 msec typical for relay card LINEAR DC OUTPUT PAXCDL Either a 0 4 20 mA or 0 10 V retransmitted linear DC output is available from the analog output option card The programmable output low and high scaling can be based on various display values Reverse slope output is possible by reversing the scaling point positions ANALOG OUTPUT CARD PAXCDL IO Self Powered Output Active Types 0 to 20 mA 4 to 20 mA or 0 to 10 VDC Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Not Isolated from all other commons Accuracy 0 1796 of FS 18 to 28 C 0 496 of FS 0 to 50 C Resolution 1 3500 Compliance 10 VDC 10 KQ load min 20 mA 500 O load max Step Response See update rates step response specification Update time See ADC Conversion Rate and Update Time parameter UNITS LABEL KIT PAXLBK Each meter has a units indicator with backlighting tha
14. Lo word 40015 Setpoint 2 Value Hi word 19999 99999 200 Read Write 40016 Setpoint 2 Value Lo word 40017 Setpoint 3 Value Hi word 19999 99999 300 Read Write 40018 Setpoint 3 Value Lo word Read Write 40019 Setpoint 4 Value Hi word 19999 99999 400 40020 Setpoint 4 Value Lo word Status of Setpoint Outputs Bit State O Off 1 On Read Write Bit 3 SP1 Bit 2 SP2 Bit 1 SP3 Bit 0 SP4 Setpoint Output Register SOR 15 N A Sea Nole Outputs can only be activated reset with this register when respective bits in Manual Mode MMR register are set Bit State O Auto Mode 1 Manual Mode Manual Mode Register MMR 31 Bit 4 SP1 Bit 3 SP2 Bit 2 SP3 Bit 1 SP4 40021 40022 Read Write Bit 0 Linear Output Bit State 1 Reset Output Bit is returned to zero following reset processing Bit 3 SP1 Bit 2 SP2 Bit 1 SP3 Bit 0 SP4 40023 Read Write Functional only if Linear Output is in manual mode MMR bit 0 1 Linear Output Card is written to only if Linear Out MMR bit 0 is set 40024 Read Write Analog Output Register AOR Gross value of present Input A level This value is affected by Input Type Resolution Scaling but not affected by Offset Value A Read Only Ce cO C1 N A 40026 Input A Absolute Value Lo word P 40027 Input B Absolute Value Hi word N N A 40028 Input B Absolute Value Lo word 40029 Input A Offset Value Hi word 19999 99999 40030 Input A
15. Offset Value Lo word 40031 Input B Offset Value Hi word 19999 99999 40032 Input B Offset Value Lo word 40033 Main Setpoint 1 Value Hi word 19999 99999 100 40034 Main Setpoint 1 Value Lo word 40035 Main Setpoint 2 Value Hi word 19999 99999 200 40036 Main Setpoint 2 Value Lo word 40037 Main Setpoint 3 Value Hi word 19999 99999 300 40038 Main Setpoint 3 Value Lo word 40039 Main Setpoint 4 Value Hi word 19999 99999 400 Read Write Setpoint List A 40040 Main Setpoint 4 Value Lo word 40041 Alternate Setpoint 1 Value Hi word 19999 99999 100 Read Write Setpoint List B 40042 Alternate Setpoint 1 Value Lo word 1 For Input Registers replace the 4xxxx with a 3xxxx in the above register address The 3xxxx are a mirror of the 4xxxx Holding Registers 2 An attempt to exceed a limit will set the register to its high or low limit value Gross value of present Input B level This value is affected by Input Type Resolution Scaling but not affected by Offset Value 40025 Input A Absolute Value Hi word N A N A N A Read Only Relative Input Value standard meter value is sum of Read Write Input Offset Value and Input Absolute Value Relative Input Value standard meter value is sum of Input Offset Value and Input Absolute Value Read Write Setpoint List A Read Write Setpoint List A Read Write Setpoint List A Read Write 23 REGISTER 2 2 FACTORY s 1 REGISTER NAME LOW LIMIT HIGH LIMIT SET
16. The time duration of tl is dependent on the number of characters and baud rate of the channel tl 10 of characters baud rate At the start of time interval t2 the meter starts the interpretation of the command and when complete performs the command function This time interval t2 varies from 2 msec to 15 msec If no response from the meter 1s expected the meter is ready to accept another command If the meter is to reply with data the time interval t2 is controlled by the use of the command terminating character and the Serial Transmit Delay parameter dELRM The standard command line terminating character is This terminating character results in a response time window of the Serial Transmit Delay time dELRY plus 15msec maximum The dELRY parameter should be programmed to a value that allows sufficient time for the release of the sending driver on the RS485 bus Terminating the command line with results in a response time window t2 of 2 msec minimum and 15 msec maximum The response time of this terminating character requires that sending drivers release within 2 msec after the terminating character is received At the beginning of time interval t3 the meter responds with the first character of the reply As with t1 the time duration of t3 is dependent on the number of characters and baud rate of the channel t3 10 of characters baud rate At the end of t3 the meter is ready to receive the next command
17. and to minimize radiated and conducted noise EMI some type of contact protection network is normally installed across the load the contacts or both The most effective location is across the load a Using a snubber which is a resistor capacitor RC network or metal oxide varistor MOV across an AC inductive load is very effective at reducing EMI and increasing relay contact life b If a DC inductive load such as a DC relay coil is controlled by a transistor switch care must be taken not to exceed the breakdown voltage of the transistor when the load is switched One of the most effective ways is to place a diode across the inductive load Most RLC products with solid state outputs have internal zener diode protection However external diode protection at the load is always a good design practice to limit EMI Although the use of a snubber or varistor could be used RLC part numbers Snubber SNUB0000 Varistor ILS11500 or ILS23000 Care should be taken when connecting input and output devices to the instrument When a separate input and output common is provided they should not be mixed Therefore a sensor common should NOT be connected to an output common This would cause EMI on the sensitive input common which could affect the instrument s operation N ON N Visit RLC s web site at http www redlion net emi for more information on EMI guidelines Safety and CE issues as they relate to Red Lion Controls products 4
18. be used for weighing applications where accumulation is based on a completed event If the Totalizer is not needed its display can be locked out and this module can be skipped during programming TOTALIZER ASSIGNMENT R rEL b rEL CALE R rEL This parameter determines which value is to be totalized TOTALIZER DECIMAL POINT M S Bg For most applications this should match the decimal point position of the meter value selected in the totalizer assignment If a different location is desired refer to Totalizer Scale Factor D m ra a rr H HEH CoG UJUUU LUUUU TOTALIZER TIME BASE EbRSE ser seconds 1 haur hours 3600 i Pn fli min minutes 60 d days 86400 This is the time base used in Totalizer accumulations If the Totalizer is being accumulated through a user input programmed for Batch then this parameter does not apply TOTALIZER SCALE FACTOR SLFRE S gt UB For most applications the Totalizer reflects the same decimal point location and engineering units as the assigned Input Display In these cases the Totalizer Scale Factor is 1 000 The Totalizer Scale Factor can be used to scale the Totalizer to a different value than the Input Display Common possibilities are 1 Changing decimal point location example tenths to whole 2 Average over a controlled time frame Details on calculating the scale factor are shown later If the Totalizer is being accumulated through a user input
19. by calculating the slope from the first two coordinate pairs UIP dSP t amp RPE dSPe If IP 4 mA and d5P 0 then 0 mA would be some negative Display Value This could be prevented by making IP 1 0 mA dS8P 0 RP 4 mA dSP2 0 with P3 20 mA d5P the desired high Display Value The calculations stop at the limits of the Input Range Jumper position 6 For input levels beyond the last programmed Input Value the meter extends the Display Value by calculating the slope from the last two sequential coordinate pairs If three coordinate pair scaling points were entered then the Display Value calculation would be between APZ dSP2 amp RPI d5P3 The calculations stop at the limits of the Signal Input 6 2 MODULE 2 USER INPUT AND FRONT PANEL FUNCTION KEY PARAMETERS 2 F fil PARAMETER MENU The two user inputs are individually programmable to perform specific meter control functions While in the Display Mode or Program Mode the function is executed the instant the user input transitions to the active state The front panel function keys are also individually programmable to perform specific meter control functions While in the Display Mode or when viewing meter values in Quick Programming mode the primary function is executed the instant the key is pressed Holding the function key for three seconds executes a secondary function It is possible to program a secondary function without a primary functi
20. constant expressed in tenths of a second The filter settles to 99 of the final display value within approximately 3 time constants This is an Adaptive Digital Filter which is designed to steady the Input Display reading A value of 0 disables filtering Filter Scaling Scaling Display x Band Points Style Value Scaling Scaling Display x Points Style Value FILTER BAND bANd S gt os U The digital filter will adapt to variations in the input signal When the variation exceeds the input filter band value the digital filter disengages When the variation becomes less than the band value the filter engages again This allows for a stable readout but permits the display to settle rapidly after a large process change The value of the band is in display units independent of the Display Decimal Point position A band setting of 0 keeps the digital filter permanently engaged Eto 250 display units SCALING POINTS eto b PES Q gt el Linear Scaling Points 2 For linear processes only 2 scaling points are necessary It is recommended that the 2 scaling points be at opposite ends of the input signal being applied The points do not have to be the signal limits Display scaling will be linear between and continue past the entered points up to the limits of the Input Signal Jumper position Each scaling point has a coordinate pair of Input Value AP and an associated desired Display Value d5P Square R
21. it provides access to all meter values and parameters Since the Modbus protocol is included within the PAXDP the PAX Modbus option card PAXCDC4 should not be used The PAXCDCI RS485 or PAXCDC2 RS232 card should be used instead BAUD RATE bR d s so io zvan MS 38408 Y80G 9600 9200 38400 Set the baud rate to match the other serial communications equipment on the serial link Normally the baud rate is set to the highest value that all the serial equipment are capable of transmitting and receiving t The Communication Type factory settings must be changed from the Modbus RTU for Crimson 2 communications 21 SETPOINT ANNUNCIATORS L nj S nor The BFF mode disables display setpoint annunciators The nar mode displays the corresponding setpoint annunciators of on alarm outputs The rEu mode displays the corresponding setpoint annunciators of off alarms outputs The FLASH mode flashes the corresponding setpoint annunciators of on alarm outputs OFF rEu FLASH Alternate Setpoints An Alternate list of setpoint values can be stored and recalled as needed The Alternate list allows an additional set of setpoint values The setpoint numbers nor rear terminal numbers will change in the Alternate list The Alternate list can only be activated through a function key or user input programmed for L 5E in Module 2 When the Alternate list is selected the Main list is stored and becomes inactive When chang
22. keyed in to intentionally add or remove display offset See Relative Absolute Display and Zero Display explanations in Module 2 9999 to 9999 MAX CAPTURE ASSIGNMENT H RSS R rEL Select the desired parameter that will be assigned to the Max Capture R rEL R Rb5 h rEL b RbS ERLE MAX CAPTURE DELAY TIME HIE S gt When the Input Display is above the present MAX value for the entered delay time the meter will capture that display value as the new MAX reading A delay time helps to avoid false captures of sudden short spikes D to 327158 sec MIN CAPTURE ASSIGNMENT R rEL R AbS b r EL b RbS CALC Select the desired parameter that will be assigned to the Min Capture Min Capture Assignment Calculation Constant Value 16 Min Capture Delay Time Display Update Calculation Filter Band Calculation Filter Setting Calculation Rounding MIN CAPTURE DELAY TIME gt When the Input Display is below the present MIN value for the entered delay time the meter will capture that display value as the new MIN reading A delay time helps to avoid false captures of sudden short spikes DU to 3275 8 sec DISPLAY UPDATE RATE e ef updates sec This parameter determines the rate of display update UNITS LABEL BACKLIGHT un OFF The Units Label Kit Accessory contains a sheet of custom unit overlays which can be installed in to the meter s bezel display assembly The backlight for these
23. of values are available for 5P 1 5P 2 SP 3 5P The two lists are named L 5E H and L 5E b If a user input is used to select the list then L5t R is selected when the user input is not active and and L5k b is selected when the user input is active maintained action If a front panel key is used to select the list then the list will toggle for each key press momentary action The display will only indicate which list is active when the list is changed To program the values for L 5E R and L5E b first complete the programming of all the parameters Exit programming and switch to the other list Re enter programming and enter the values for 5P t 5P 2 5P 3 5P If any other parameters are changed then the other list values must be reprogrammed PRINT REQUEST JS 14 Fr Pr E S Prank The meter issues a block print through the serial port when activated and the serial type is set to r L E The data transmitted during a print request and the serial type is programmed in Module 7 If the user input is still active after the transmission is complete about 100 msec an additional transmission occurs As long as the user input is held active continuous transmissions occur 6 3 MODULE 3 DISPLAY ASSIGNMENT AND PROGRAM LOCK OUT PARAMETERS 1 106 PARAMETER MENU Calculation Assignment Max Display Assignment Min Display Assignment Assignment Assignment Module 3 is the programming for the Display Display assign
24. programmed for Batch then this parameter does not apply aud to 65 000 TOTALIZER LOW CUT VALUE Lacut 9 18993 A low cut value disables Totalizer when the Input Display value falls below the value programmed 19999 to 88888 The decimal point position is dependent on the selection made in the Totalizer Decimal Point parameter Totalizer Scale Factor 18 Totalizer Power Up Reset Totalizer Low Cut Value TOTALIZER POWER UP RESET P uP Q RB The Totalizer can be reset to zero on each meter power up by setting this parameter to reset AU Do not reset totalizer YES Reset totalizer TOTALIZER HIGH ORDER DISPLAY When the total exceeds 5 digits the front panel annunciator flashes if assigned to A B or C display In this case the meter continues to totalize up toa 9 digit value The high order 4 digits and the low order 5 digits of the total are displayed alternately The letter h denotes the high order display TOTALIZER BATCHING The Totalizer Time Base and scale factor are overridden when a user input or function key is programmed for store batch bRE In this mode when the user input or function key is activated the Input Display reading is one time added to the Totalizer batch The Totalizer retains a running sum of each batch operation until the Totalizer is reset This is useful in weighing operations when the value to be added is not based on time but after a filling event
25. r Eu the below alarm states are opposite SP Hys L SP SP 7eHys ALARM STATE asoca owl On Time Off Time Output Reset Delay Logic Action Standby Operation Setpoint Annunciators SETPOINT ACTION REk aQ n Ab Hi Rh LD RU M G f uin dE Hi dE LO BANA b din kotla kakh Enter the action for the selected setpoint alarm output See the Setpoint Alarm Figures in the Setpoint Card Bulletin for a visual detail of each action The Inside Band action is shown here as it only applies to the PAXDP n No Setpoint Action Rh H Absolute high with balanced hysteresis Rb LU Absolute low with balanced hysteresis RU H Absolute high with unbalanced hysteresis RU LU Absolute low with unbalanced hysteresis dE H Deviation high with unbalanced hysteresis dE L Deviation low with unbalanced hysteresis bAfid Outside band with unbalanced hysteresis bfid in Inside band with unbalanced hysteresis totLa Lower Totalizer absolute high unbalance hysteresis kotH Upper Totalizer absolute high unbalance hysteresis Setpoint 2 or Setpoint 4 deviation and band action setpoints are relative to the value of setpoint 1 or Setpoint 3 respectively It is not possible to configure setpoint 1 or 3 as deviation or band actions It is possible to use setpoint 1 or 3 for an absolute action while its value is being used for deviation or band These modes only appea
26. scale factor would be 0 250 To achieve a controlled time frame connect an external timer to a user input programmed for rtat2 The timer will control the start reset and the stopping hold of the totalizer 6 6 MODULE 6 SETPOINT ALARM PARAMETERS 5 5Pt V PARAMETER MENU P Setpoint Setpoint Setpoint Setpoint Select Assignment Action Value Setpoint Hysteresis Delay V A setpoint card must be installed in order to access this module Repeat programming for each setpoint SELECT SETPOINT SPSEL IS no SP SP i SP 2 SP W gt m Select a setpoint alarm output to open the remaining module menu The a in the following parameters will reflect the chosen setpoint number A fter the chosen setpoint is programmed the display will default to 5PSEL AD Select the next setpoint to be programmed and continue the sequence for each setpoint Pressing PAR at SPSEL fl will exit Module 6 SETPOINT ASSIGNMENT RSa na nmn R rEL R RbS b rEL Q RDRE b Ab5 CALE kat Selects the meter value that is used to trigger the Setpoint Alarm The r Et settings cause the setpoint to trigger off of the relative net input value The relative input value is the absolute input value that includes the Display Offset Value The Rb5 settings cause the setpoint to trigger off of the absolute gross input value The absolute input value is based on Module 1 d5P and AP entries Setpoint Alarm Figures With reverse output logic
27. signal 9 Repeat the above procedure for each input range to be calibrated Uo Nn 28 ANALOG OUTPUT CARD CALIBRATION Before starting verify that the precision voltmeter voltage output or current meter current output is connected and ready Perform the following procedure 1 Use the arrow keys to display LOdE 48 and press PAR 2 Use the arrow keys to choose BUE and press PAR 3 Using the chart below step through the five selections to be calibrated At each prompt use the PAX arrow keys to adjust the external meter display to match the selection being calibrated When the external reading matches or if this range 1s not being calibrated press PAR SELECTION EXTERNAL METER ACTION BU RF 0 00 Adjust if necessary press PAR HR 4 00 Adjust if necessary press PAR 200 RF 20 00 Adjust if necessary press PAR Blu 0 00 Adjust if necessary press PAR alu 10 00 Adjust if necessary press PAR 4 When R appears remove the external meters and press PAR twice TROUBLESHOOTING PROBLEM REMEDIES 00000 NO DISPLAY CHECK Power level power connections Module 3 programming CHECK Active lock out user input Pon ERE tele ENTER Security code requested 222 universal access code DISPLAY LOCKED OUT CHECK Module 3 programming CHECK Module 1 programming Input Jumper position input connections input signal level INCORRECT INPUT DISPLAY VALUE Module 4 Display Offset is zero press DSP for Input Display PERFOR
28. to the PAX Start Crimson Select Link tab then select Options to configure verify Communications Port Configure PAXDP serial settings for Modbus RTU 38400 No Parity and address 247 Select File tab then click on New Select PAX Panel Meters under the Product Family selection and then select the PAX model and version according to the PAX unit to be programmed Click OK A programming selection screen will appear Double click on an applicable programming selection and make program specific parameter selections When completed click Close and continue selecting applicable programming selections and making appropriate parameter selections Continue until all necessary programming parameters have been configured Hovering the cursor over a parameter selection will often provide a description of the parameter For additional information regarding a parameter selection see the PAX user manual When all programming configuration selections have been completed save the configuration file Download the configuration file to the PAX by clicking the Link tab and then selecting Update m DISPLAY 5 digit 0 56 14 2 mm variable intensity red sunlight readable 19999 to 99999 POWER AC Versions AC Power 85 to 250 VAC 50 60 Hz 21 VA Isolation 2300 Vrms for 1 min to all inputs and outputs DC Versions Derate operating temperature to 40 C if three opt
29. 1 POWER WIRING AC Power N wN DC Power Terminal 1 VAC AC AC Terminal 1 VDC Terminal 2 VAC Terminal 2 VDC 4 2 INPUT SIGNAL WIRING Before connecting signal wires the Input Range Jumper must be verified for proper position INPUT A SIGNAL WIRING Voltage Signal self powered Terminal 4 VDC Terminal 5 VDC Current Signal self powered Terminal 4 ADC Terminal 5 ADC lt lt s om o9 J x O o Z 2 a x i 10 VDC MAX INPUT B SIGNAL WIRING Voltage Signal self powered Terminal 7 VDC Terminal 8 VDC Current Signal self powered Terminal 7 ADC Terminal 8 ADC m m m m x mE Z k 2 E o 2 T s 8 Z 8 2 e 7 s ET b LOAD 10 VDC MAX Current Signal 2 wire requiring excitation Terminal 3 ADC Terminal 5 ADC lt lt lt gt 202 g x o LE U O lt 2 WIRE TRANSMITTER ES Current Signal 2 wire requiring excitation Terminal 6 ADC Terminal 8 ADC o a m gt o0 2 Sx o k W o Z 2 WIRE TRANSMITTER EI Voltage Current Signal 3 wire requiring excitation Terminal 3 Volt supply Terminal 4 ADC common Terminal 5 ADC signal lt lt lt 20 2 g 2X O W O lt jCOMM 3 WIRE TRANSMITTER Voltage Current Signal 3 wire requiring excitation Terminal 6 Volt supply Terminal 7 ADC common Terminal 8 ADC
30. 10 PAXUSB PAX USB Programming Card PAXUSBOO CBLUSB USB Programming Cable Type A Mini B CBLUSBO 1 f ICM8 Ethernet Gateway ICM80000 Accessories I PAXLBK Units Label Kit Accessory PAXLBK10 SFCRD Crimson 2 Programming Software for Windows OS SFCRD200 Notes 1 For Modbus communications use RS485 Communications Option Card and configure communication k YPE parameter for Modbus This card is not suitable for use in older PAX models For proper installation a case knock out feature must be present on the top surface of the PAX case This feature began to be introduced to the standard PAX units in July of 2014 2614 Crimson software is available for free download from http www redlion net USING THIS MANUAL This manual contains installation and programming instructions for the PAX and all applicable option cards To make installing the option card easier it is recommended to use the Installation Guide provided with the card Only the portions of this manual that apply to the application need to be read Minimally we recommend that General Specifications Reviewing the Front Buttons and Display and Crimson Programming Software portions of this manual be read in their entirety We recommend that unit programming be performed using Crimson programming software When using Crimson the programming portion of this expanded explanations of some of the PAX programming features found in Crimson For users who do not inte
31. 1uiodjes u siojJelounuuV uomneJledo uonoy 21607 Kejeq Kejeq sis 1 s H en eA uonov jueuuuBissy o S Juiod S qpueis jeses jndino Su HO eui UO Jjuiod S u10d S juiodjes juiodjes juiodjes 2 3 3 3 3 3 33 IWC _ n josey dn en EA IND JO 9Ed 9 E2S seg oul juiog ewINeGg jusluUBiIssyy J MOd 1 ZI E O MO J89Zi 8E O J ZI E O Jezi 81o Jezi e oL Jezi e1o d d 3n291 30435 1433P pueg 1 1l d Bumas 1 ll d4 Bulpunoy enipAjuejsuo UI jeueg uonoun4 u amp ipoeg uone no e2 uone no e5 uone noje2 uone no e2 uone noje2 uone no e5 leqe7 siu 9jeH aul Aejaq jusluUBIssyy oul Aejaq jusluUBissyy ane SHO ajepda Aejdsig ainjdeg ull ainjdey uiv eunyde2 xel eJnjde xey 9n EA JOSHO v yndu 14H opo SSO20V ssoo00V ss 5 5 v ss 55 v jueuuuBissy jueuuuBissy jueuuf issy X jueuuuDissy jueujuBissy jueujuBissy Aunoes p 1utodies JUIOd asS Z uiodjeg julodjas ej dsiq 8 amp 0 ejdsiq ul Ke dsiq xe W uonejnoje2 g indu V EE SA3 NOILONNA OY L ane ane S S UlOd pueg Bum s Bulpunoy 3julog Jeulroeq 918 ed x e dsiq x 1ndu DuiJeog DuiJeog 1 d 1 d Ae dsiq Kejdsiq UOISISAUOO n 8A ane S S UIOd pueg Dunes Bulpunoy julog euuroeq 9jeH uey x e dsiq x 1ndu Duijeog DuiJeog 1 d 1 d Kejdsiq Kejdsiq UOISJ9AUO indu C3 D 3 LR RN 31 LIMITED WARRANTY a Red Lion Controls Inc Sixnet Inc N Tron Corporation or Blue Tree Wireless Data Inc the C
32. 2 If the write value exceeds the register limit see Register Table then that register value changes to its high or low limit It is also returned in the response FC08 Diagnostics The following is sent upon FC08 request Module Address 08 FC code 04 byte count Total Comms 2 byte count Total Good Comms 2 byte count checksum of the string Total Comms is the total number of messages received that were addressed to the PAXDP Total Good Comms is the total messages received by the PAXDP with good address parity and checksum Both counters are reset to 0 upon response to FC08 and at power up FC16 Preset Multiple Registers 1 No response is given with an attempt to write to more than 32 registers at a time 2 Block starting point cannot exceed the read and write boundaries 40001 41280 22 PRINT OPTIONS GOPE 19 RD YES Enters the sub menu to select the meter parameters to appear during a print request For each parameter in the sub menu select HE5 for that parameter information to be sent during a print request or AG for that parameter information not to be sent A print request is sometimes referred to as a block print because more than one parameter information meter address parameter data and mnemonics can be sent to a printer or computer as a block PARAMETER DESCRIPTION RP R input A Value IP b Input B Value ERLE Calculation tat Total Value HILU Max amp Min SPHk Setpoint V
33. 3 6 Y h LLI is pulled low lt 0 9 V O QN VDC is applied 5 Y Y Y gt LLI LLI LL u 0 u 2 2 2 4 4 SETPOINT ALARMS WIRING 4 5 SERIAL COMMUNICATION WIRING See appropriate option card bulletin for details 4 6 ANALOG OUTPUT WIRING 5 0 REVIEWING THE FRONT BUTTONS AND DISPLAY Displa R i y Optional Custom eadou Units Overlay Legends Setpoint Alarm Annunciators KEY DISPLAY MODE OPERATION PROGRAMMING MODE OPERATION DSP Index display through main displays as programmed in 3 LBL Quit programming and return to display mode PAR Access parameter list Store selected parameter and index to next parameter FlA Function key 1 hold for 3 seconds for Second Function 1 Increment selected parameter value F2W Function key 2 hold for 3 seconds for Second Function 2 Decrement selected parameter value RST Reset Function key Hold with F1A F2W to scroll value by x1000 Display Readout Legends may be locked out in Factory Settings Factory setting for the F1 F2 and RST keys is NO mode 6 DISPLAY MODE Display User Input Assignment Signal Signal Function Program Secondary Input A Input B Key Lock out Function Parameters Parameters Parameters Parameters Parameters O PROGRAMMING THE METER OVERVIEW PROGRAMMING MENU Totalizer Setpoint Serial Analog Factory Integrator Alarm Communication Output Service Parameters Ene Parameters Parameters Operations DISPLAY MODE The meter normally op
34. 6 Timing Diagrams NO REPLY FROM METER Command Meter String Response Transmission Time Ready t Ready Command Terminator Received RESPONSE FROM METER Command Meter String Response Transmission Time Ready i Ready Command First Reply Terminator Character Transmission Received of Reply Time Start bit Stop bit IDLE 0 bol oz bs b4 bs be bz 1 IDLE 8 data no parity 1 stop IDLE bolo b2 bs b lbs lbs P 1 x IDLE i 7 data parity 1 stop IDLE o bol bzlbs balbs bs 1 1 IDLE 7 data no parity 2 stop Note bg b is ASCII data Character Frame Figure Parity bit After the data bits the parity bit is sent The transmitter sets the parity bit to a zero or a one so that the total number of ones contained in the transmission including the parity bit is either even or odd This bit is used by the receiver to detect errors that may occur to an odd number of bits in the transmission However a single parity bit cannot detect errors that may occur to an even number of bits Given this limitation the parity bit is often ignored by the receiving device The PAX meter ignores the parity bit of incoming data and sets the parity bit to odd even or none mark parity for outgoing data Stop bit The last character transmitted 1s the stop bit The stop bit provides a single bit period pause to allow the receiver to prepare to re synchronize to the start of a new transmission start bit of nex
35. A Display will normally show the Relative unless switched by this function The Absolute is a gross value based on Module 1 DSP and INP entries without the Display Offset Value The Absolute display is selected as long as the user input is activated maintained action or at the transition of the function key momentary action When the user input is released or the function key is pressed again the input A display switches back to Relative display Rh5 R absolute or rEL R relative is momentarily displayed at transition to indicate which display is active INPUT B RELATIVE ABSOLUTE DISPLAY US I Fi S b drl S b dri This function will switch the Input B Display between Relative and Absolute The Relative is a net value that includes the Display Offset Value The Input B Display will normally show the Relative unless switched by this function The Absolute is a gross value based on Module 1 DSP and INP entries without the Display Offset Value The Absolute display is selected as long as the user input is activated maintained action or at the transition of the function key momentary action When the user input is released or the function key is pressed again the input B display switches back to Relative display AbS R absolute or rEL A relative is momentarily displayed at transition to indicate which display is active HOLD DISPLAY The shown display is held but all other meter functions continue as long as activated ma
36. ANGE RESOLUTION gt Yolk 10 000 V curr 20 000 mA U S4 10 000 V Square Root Extraction 5 20 000 mA Square Root Extraction Select the input range that corresponds to the external signal Before applying signal configure input jumper to match setting desired ADC CONVERSION RATE i 53 15 5 1 98 o 2 30 105 Select the ADC conversion rate conversions per second The selection does not affect the display update rate however it does affect setpoint and analog output response time The default factory setting of 19 8 1s recommended for most applications Selecting a fast update rate may cause the display to appear very unstable DISPLAY DECIMAL POINT dELPE lt n Dn Dn Q gogg Select the decimal point location for the Input display The TOT display decimal point is a separate parameter This selection also affects raund d5P 1 and d5Pe parameters and setpoint values cogi coooa DISPLAY ROUNDING med fk gt ans i Rounding selections other than one cause the Input Display to round to the nearest rounding increment selected ie rounding of 5 causes 121 to round to 120 and 124 to round to 125 Rounding starts at the least significant digit of the Input Display Remaining parameter entries scaling point values setpoint values etc are not automatically adjusted to this display rounding selection FILTER SETTING B to 258 seconds F tLEr gt u The input filter setting is a time
37. Display _ No annunciator dSP R Assign to Display A d5P b Assign to Display B d5P E Assign to Display C PROGRAMMING MODE ACCESS Total Display Assignment Setpoint 1 Access Setpoint 2 Access Setpoint 3 Access Setpoint 4 Access Security Code SP 1 SP 2 SP 3 SP 4 SETPOINT ACCESS 5P Q SP 2 amp 5P 3 SP 4 amp S toc S iac Lac Lae The setpoint displays can be programmed for LOE rEd or ERE see the following table Accessible only with the Setpoint option card installed Not visible in Quick Programming Mode Only Visible in Quick Programming Mode Only Visible and changeable in Quick Programming Mode Only PROGRAM MODE SECURITY CODE LOdE Q gt d By entering any non zero value the prompt dE D will appear when trying to access the Program Mode Access will only be allowed after entering a matching security code With this lock out a user input would not have to be configured for Program Lock out However this lock out is overridden by an inactive user input configured for Program Lock out B to 250 Factory Setting can be used without affecting basic start up SECURITY USER INPUT USER INPUT WHEN PAR KEY IS T CODE CONFIGURED STATE PRESSED MEET PROGRAMMING MODE ACCESS not PLUE pe Quick Programming w Display Intensity After Quick Programming with correct code at EOdE prompt PLUL Quick Programming w Display Intensity After Quick Programming with correct code at
38. EOdE prompt Throughout this document Programming Mode without Quick in front always refers to Full Programming all meter parameters are accessible 15 6 4 MODULE 4 SECONDARY FUNCTION PARAMETERS 4 SEL PARAMETER MENU Max Capture Assignment Max Capture Delay Time re r LF UNE L il Calculation Calculation Function Decimal Point Offset Value Offset Value P Units Label Backlight INPUT A OFFSET VALUE DUF5S R 9 S gogg Unless a Zero Display was performed or an offset from Module 1 scaling is desired for Input A this parameter can be skipped The Display Offset Value is the difference between the Absolute gross Display value and the Relative net Display value for the same input level The meter will automatically update this Display Offset Value after each Zero Display The Display Offset Value can be directly keyed in to intentionally add or remove display offset See Relative Absolute Display and Zero Display explanations in Module 2 8333 to 9999 INPUT B OFFSET VALUE BF5 b S gogg Unless a Zero Display was performed or an offset from Module 1 scaling is desired for Input B this parameter can be skipped The Display Offset Value is the difference between the Absolute gross Display value and the Relative net Display value for the same input level The meter will automatically update this Display Offset Value after each Zero Display The Display Offset Value can be directly
39. ETRANSMITTED ANALOG OUTPUT W OPTION CARD NEMA AX IP65 SEALED FRONT BEZEL PC SOFTWARE AVAILABLE FOR METER CONFIGURATION RS232 RS485 DeviceNet or Profibus can be used with the meter Readout values and setpoint alarm values can be controlled through the bus Additionally the meters have a feature that allows a remote computer to directly control the outputs of the meter A linear DC output signal is available as an option card The card provides either 20 mA or 10 V signals The output can be scaled independent of the input range and can track either the input totalizer max min readings or math calculation value Once the meters have been initially configured the parameter list may be locked out from further modification in its entirety or only the setpoint values can be made accessible The meters have been specifically designed for harsh industrial environments With NEMA 4X IP65 sealed bezel and extensive testing of noise effects to CE requirements the meter provides a tough yet reliable application solution SAFETY SUMMARY All safety related regulations local codes and instructions that appear in this literature or on equipment must be observed to ensure personal safety and to prevent damage to either the instrument or equipment connected to it If equipment is used in a manner not specified by the manufacturer the protection provided by the equipment may be impaired Do not use this unit to directly command motors valves or
40. M Module 9 Calibration If the above does not correct the problem OLOL in DISPLAY SIGNAL HIGH CHECK Module 1 programming Input Range Jumper position input connections input signal level ULUL in DISPLAY SIGNAL LOW CHECK Module 1 programming Input Range Jumper position input connections input signal level INCREASE Module 1 filtering rounding input range ER DISPLAY CHECK Wiring is per EMC installation guidelines MODULES or PARAMETERS NOT ACCESSIBLE CHECK Corresponding option card installation ERROR CODE Err xxx or EE xxx PRESS Reset KEY If cannot clear contact factory For further assistance contact technical support at the appropriate company numbers listed PARAMETER VALUE CHART PROGRAMMER DATE PAXDP MODEL NUMBER METERZ SECURITY CODE AP Signal Input Parameters DISPLAY PARAMETER E s s eee eae DISPLAY PARAMETER ane Tende TN rRAJE INPUT RANGE loLt RP 1 INPUT VALUE 7 DDD r REE UPDATE RANGE 98 dSP 1 DISPLAY VALUE 7 BUB dELPE DISPLAY RESOLUTION BODL RP H INPUT VALUE 8 HTT DISPLAY ROUNDING dSP BH DISPLAY VALUE 8 HAT round INCREMENT oou RP 3 INPUT VALUE 9 EHHH Filkr FILTER SETTING u dSP 9 DISPLAY VALUE 9 ooog bARd FILTER ENABLE BAND BD Li RP ID INPUT VALUE 10 HT PES SCALING POINTS e dSP ID DISPLAY VALUE 10 ooog SEYLE SCALING STYLE FEY RP amp amp INPUT VALUE 11 ooog MP INPUT VALUE 1 ooog dSP II DISPLAY VALUE 11 BU DU dSP DISPLAY VALUE 1 DU IP d INPUT VALUE 12 ooog RP d I
41. NPUT VALUE 2 00d dSP 2 DISPLAY VALUE 12 HTT dSP Z DISPLAY VALUE 2 EHEHEHEH RP 3 INPUT VALUE 13 ooog MP 3 INPUT VALUE 3 HT dSP 3 DISPLAY VALUE 13 HT dSP 1j DISPLAY VALUE 3 ooog IP IM INPUT VALUE 14 ooog RP M INPUT VALUE 4 HT dSP M DISPLAY VALUE 14 HT dSP DISPLAY VALUE 4 ooog IMP 5 INPUT VALUE 15 ooog RP S INPUT VALUE 5 ooog d5P 5 DISPLAY VALUE 15 HT dSP 5 DISPLAY VALUE 5 DU MP B INPUT VALUE 16 ooog RP B INPUT VALUE 6 ooog dSP b DISPLAY VALUE 16 BU DU dSP B DISPLAY VALUE 6 ooog 29 c FAE User Input and Function Key Parameters DISPLAY uUSr 1 u r e FI Fe r Sk Sc F i Sc Fe PARAMETER USER INPUT 1 USER INPUT 2 FUNCTION KEY 1 FUNCTION KEY 2 RESET KEY 2nd FUNCTION KEY 1 2nd FUNCTION KEY 2 FACTORY SETTING na na na na na na na J LUL Display and Program Lockout Parameters DISPLAY IP R P h CALE Ki LG SP 1 SP e SP 3 SP M L dE 4 SEL DISPLAY GFS R OFS b H i RS Ht t LU R5 L U t d 5P t b L L LFunc dP canbt L rnd L FLE bild PARAMETER INPUT AASSIGNMENT INPUT B ASSIGNMENT CALCULATION ASSIGNMENT MAX DISPLAY LOCKOUT MIN DISPLAY LOCKOUT TOTAL DISPLAY LOCKOUT SETPOINT 1 ACCESS SETPOINT 2 ACCESS SETPOINT 3 ACCESS SETPOINT 4 ACCESS SECURITY CODE FACTORY SETTING d5P R d5P b d5P L Lat Lat Lat Lat Lact Lat Lat H Secondary Function Parameters PARAMETER INPUT A OFFSET VALUE INPUT B OFFSET VALUE MAX CAPTURE ASSIGNMEN
42. NSMIT DELAY ABBREVIATED PRINTING PRINT OPTIONS INPUT A VALUE INPUT B VALUE CALCULATION PRINT TOTAL VALUE PRINT MAX amp MIN VALUES PRINT SETPOINT VALUES FACTORY SETTING PUbRS 38400 B ng ei B5 it n ng n R n ng n ng Shaded area available when communications type is r L L B ut Analog Output Parameters DISPLAY EYPE R5 fl Rn LU RH H u dt g FL5 Factory Setting Parameters PARAMETER ANALOG TYPE ANALOG ASSIGNMENT ANALOG LOW SCALE VALUE ANALOG HIGH SCALE VALUE ANALOG UPDATE TIME DISPLAY PARAMETER d LEU DISPLAY INTENSITY LEVEL SP 2 SP 7 pecie USER SETTING foiled USER SETTING ng ng NURE NORE ng ng Peat Tt 300 ead 300 e e HEH HU uu uu nar nar Ruka Ruka ng ng nar nar 30 FACTORY SETTING 4 20 H H HHH t FACTORY SETTING 3 5P FACTORY SETTING ng NORE ng 400 400 eg Ht Ht nar R ta n nar USER SETTING USER SETTING USER SETTING USER SETTING USER SETTING PAXDP PROGRAMMING QUICK OVERVIEW b Jd 9 9 9po2 9olAJeg Aysueyu Asoyoe 4 Ae dsiq 3901 571 5 oul ayepdn ane ajeos anjeA ajeos jueuuuBissy ed Bojeuy uBiH Bojeuy mo bojeuy Boyeuy DojJeuy 0 8 sane Ul XEW je OL uonej no e 2 g ndu v indu juiodjeg Ud jud jud jud jud jud SHA suondo Dunuud fejeq SseJppyv adh uld pejyei eJqqv pPUSUed p J N yg ued jg amp eq ey pneg suolmeoS51 iunuuuuo O 3 n au 13 DD 3 7 XINO AGOW OTH pejoejes
43. T MAX CAPTURE DELAY TIME MIN CAPTURE ASSIGNMENT MIN CAPTURE DELAY TIME DISPLAY UPDATE TIME UNITS LABEL BACKLIGHT CALCULATION FUNCTION CALCULATION DECIMAL POINT CALCULATION CONSTANT VALUE CALCULATION ROUNDING CALCULATION FILTER SETTING CALCULATION FILTER BAND B SPL Setpoint Alarm Parameters DISPLAY SPSEL AGhi n REE n GP n HYS n EU n EOF ouk n rSk n SEkb n L k n PARAMETER SELECT SETPOINT SETPOINT ASSIGNMENT SETPOINT ACTION SETPOINT VALUE main SETPOINT VALUE alternate SETPOINT HYSTERESIS ON TIME DELAY OFF TIME DELAY OUTPUT LOGIC RESET ACTION STANDBY OPERATION SETPOINT ANNUNCIATORS Select alternate list to program these values FACTORY SETTING EHHH EHHH R rEL ia R rEL u I OFF c 1R db EHHH EHHH HEHH ia BU USER SETTING SP ACIE USER SETTING SETTING no NORE ng TI TI e un un nar R ta n nar USER SETTING USER SETTING S kEDk Totalizer Integrator Parameters DISPLAY RSIR dELPE EbRSE SCFRE Locut P uP PARAMETER TOTALIZER ASSIGNMENT TOTALIZER DECIMAL POINT TOTALIZER TIME BASE TOTALIZER SCALE FACTOR TOTALIZER LOW CUT VALUE TOTALIZER POWER UP RESET FACTORY SETTING R rEL HHI Mlin EHHH 88889 n 1 SrL Serial Communication Parameters DISPLAY YPE bRud dRER PRr Addr dELAY Rhru OPE nP R IP b ERLE tat HILLU SPRE PARAMETER COMMUNICATIONS TYPE BAUD RATE DATA BIT PARITY BIT METER ADDRESS TRA
44. TING ACCESS COMMENTS FREQUENTLY USED REGISTERS Continued 40043 Alternate Setpoint 2 Value Hi word 19999 99999 200 Read Write Setpoint List B 40044 Alternate Setpoint 2 Value Lo word 40045 Alternate Setpoint 3 Value Hi word 19999 99999 300 Read Write Setpoint List B 40046 Alternate Setpoint 3 Value Lo word 40047 Alternate Setpoint 4 Value Hi word 19999 99999 Read Write Setpoint List B 40048 Alternate Setpoint 4 Value Lo word 1 For Input Registers replace the 4xxxx with a 3xxxx in the above register address The 3xxxx are a mirror of the 4xxxx Holding Registers An attempt to exceed a limit will set the register to its high or low limit value SERIAL RLC PROTOCOL COMMUNICATIONS RLC Communications requires the Serial Communications Type Parameter EYPE be set to r SENDING SERIAL COMMANDS AND DATA When sending commands to the meter a string containing at least one command character must be constructed A command string consists of a command character a value identifier numerical data if writing data to the meter followed by a the command terminator character or L gi Chart DESCRIPTION Node Meter Address Specifier NOTES Address a specific meter Must be followed by a one or two a node address Not required when address Transmit Value Read a register from the meter Must be read followed by register ID character Reset Reset a register or output Must be
45. The maximum serial throughput of the meter is limited to the sum of the times tl t2 and t3 COMMUNICATION FORMAT Data 1s transferred from the meter through a serial communication channel In serial communications the voltage is switched between a high and low level at a predetermined rate baud rate using ASCII encoding The receiving device reads the voltage levels at the same intervals and then translates the switched levels back to a character The voltage level conventions depend on the interface standard The table lists the voltage levels for each standard mark idle TXD RXD 3 to 15V a b lt 200 mV space active TXD RXD 3 to 15 V a b gt 200 mV Voltage levels at the Receiver Data is transmitted one byte at a time with a variable idle period between characters 0 to oo Each ASCII character is framed with a beginning start bit an optional parity bit and one or more ending stop bits The data format and baud rate must match that of other equipment in order for communication to take place The figures list the data formats employed by the meter Start bit and Data bits Data transmission always begins with the start bit The start bit signals the receiving device to prepare for reception of data One bit period later the least significant bit of the ASCII encoded character is transmitted followed by the remaining data bits The receiving device then reads each bit position as they are transmitted 2
46. X series meters can be fitted with up to three option cards The details for each option card can be reviewed in the specification section below Only one card from each function type can be installed at one time The function types include Setpoint Alarms PAXCDS Communications PAXCDC or PAXUSB and Analog Output PAXCDL The option cards can be installed initially or at a later date COMMUNICATION CARDS PAXCDC A variety of communication protocols are available for the PAX and MPAX series Only one of these cards can be installed at a time When programming the unit via Crimson a Windows based program a USB RS232 or RS485 Card must be used SERIAL COMMUNICATIONS CARD PAXCDC1_ and PAXCDC2 Type RS485 or RS232 Communication Type RLC Protocol ASCII Modbus RTU and Modbus ASCII Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Not Isolated from all other commons Baud 300 to 38 400 Data 7 8 bits Parity No Odd or Even Bus Address Selectable 0 to 99 RLC Protocol or 1 to 247 Modbus Protocol Max 32 meters per line RS485 Transmit Delay Selectable for 0 to 0 250 sec 2 msec min DEVICENET CARD PAXCDC30 Compatibility Group 2 Server Only not UCMM capable Baud Rates 125 Kbaud 250 Kbaud and 500 Kbaud Bus Interface Phillips 82C250 or equivalent with MIS wiring protection per DeviceNet Volume I Section 10 2 2 Node Isolation Bus powered isolated node Host Isolation 500 Vrms f
47. ale should not be included in the next measurement value When activated momentary action rESEE flashes and the Input A value is set to zero At the same time the Input A value that was on the display before the Zero Display is subtracted from the Input A Display Offset Value and is automatically stored as the new Display Offset Value BF5 R If another Zero tare Display is performed the display will again change to zero and the Input A reading will shift accordingly INPUT B ZERO TARE DISPLAY USr I Ff S S bor EL S bor EL The Zero Tare Display provides a way to zero the Input B value at various input levels causing future Display readings to be offset This function is useful in weighing applications where the container or material on the scale should not be included in the next measurement value When activated momentary action rESEE flashes and the Input B value is set to zero At the same time the Input B value that was on the display before the Zero Display is subtracted from the Input B Display Offset Value and is automatically stored as the new Display Offset Value UF5 5 If another Zero tare Display is performed the display will again change to zero and the Input B reading will shift accordingly INPUT A RELATIVE ABSOLUTE DISPLAY US 14 Fi 4 drl drl This function will switch the Input A Display between Relative and Absolute The Relative is a net value that includes the Display Offset Value The Input
48. also be entered in the Display Mode during Program Lock out when the setpoint is programmed as Ent in Parameter Module 3 When a setpoint is programmed as deviation or band acting the associated output tracks 5P as it is changed The value entered is the offset or difference from 5P f 3333 to 99999 HYSTERESIS VALUE HYS n5 aie Enter desired hysteresis value See Setpoint Alarm Figures for visual explanation of how setpoint alarm actions balance and unbalance are affected by the hysteresis When the setpoint is a control output usually balance hysteresis is used For alarm applications usually unbalanced hysteresis is used For unbalanced hysteresis modes the hysteresis functions on the low side for high acting setpoints and functions on the high side for low acting setpoints to S5000 Note Hysteresis eliminates output chatter at the switch point while time delay can be used to prevent false triggering during process transient events ON TIME DELAY EDn a Q gt BU Enter the time value in seconds that the alarm is delayed from turning on after the trigger point is reached A value of 0 0 allows the meter to update the alarm status per the response time listed in the Specifications When the output logic is rEu this becomes off time delay Any time accumulated at power off resets during power up DU to 32158 sec OFF TIME DELAY EDF n e Um Enter the time value in seconds that the alarm is delayed
49. alues 3 Ifa multiple write includes read only registers then only the write registers will change 4 If the write value exceeds the register limit see Register Table then that register value changes to its high or low limit FC17 Report Slave ID The following is sent upon FC17 request RLC PAXDP ab lt 0100h gt lt 20h gt lt 20h gt lt 10Oh gt L 16 Guid Scratch Pad Max Register Reads 32 Max Register Writes 32 Software Version Number b Linear Card 0 None 1 Yes a SP Card 0 No SP 2 or 4 SP a 0 none 2 4 SP card installed b 0 none or 1 Linear Card installed SUPPORTED EXCEPTION CODES 01 Illegal Function Issued whenever the requested function is not implemented in the meter 02 Illegal Data Address Issued whenever an attempt is made to access a single register that does not exist outside the implemented space or to access a block of registers that falls completely outside the implemented space 03 Illegal Data Value Issued when an attempt is made to read or write more registers than the meter can handle in one request 07 Negative Acknowledge Issued when a write to a register is attempted with an invalid string length PAXDP FREQUENTLY USED MODBUS REGISTERS Only frequently used registers are shown below The entire Modbus Register Table can be found at www redlion net The below limits are shown as Integers or HEX lt gt valu
50. constant expressed in tenths of a second The filter settles to 99 of the final display value within approximately 3 time constants This is an Adaptive Digital Filter which is designed to steady the Calculation Display reading A value of 0 disables filtering BU to 25 8 CALCULATION FILTER BAND E bid gt BU U The digital filter will adapt to variations in the calculation filter When the variation exceeds the calculation filter band value the digital filter disengages When the variation becomes less than the band value the filter engages again This allows for a stable readout but permits the display to settle rapidly after a large process change The value of the band is in display units independent of the Display Decimal Point position A band setting of 0 keeps the digital filter permanently engaged Eto 258 display units The decimal point position is dependent on the selection made in the Display Decimal Point parameter 6 5 MODULE 5 TOTALIZER INTEGRATOR PARAMETERS 5 EZE PARAMETER MENU sete ronse EE Hrouer Totalizer Assignment Totalizer Decimal Point Totalizer Time Base The totalizer accumulates integrates the relative Input value using one of two modes The first is using a time base This can be used to provide an indication of total flow usage or consumption over time The second is through a user input or function key programmed for Batch one time add on demand This can
51. custom units is activated by this parameter CALCULATION FUNCTION ciRdb c 1R b cRrb c R b Abre c Arb l CFunc V e 4A db This parameter determines the math calculation that will be performed on Input A and Input B and shown on the calculation display The above formulas represent the available calculations A Input A relative value b Input B relative value and Calculation Constant Value canSk For the average between A and B inputs scale the display Input A amp Input B d5P x values in half and then use C 1A 1b Note 4 add subtract f division e Arb 1 is displayed in the PAX as Rr b and the function performs with A divided b then 1 is subtracted and the result is multiply by c CALCULATION DECIMAL POINT M DUDD This parameter determines the decimal point location for the Calculation Display For the E 4R4b C R b and 4A b calculation functions Input A Display Decimal Point Input B Display Decimal Point and Calculation Decimal Point must all be in the same position oo HH ooog 000 The decimal point position is dependent on the selection made in the Display Decimal Point parameter CALCULATION CONSTANT VALUE c anSE A gt UB The constant value is used in the Calculation Function formulas to provide offsetting or scaling capabilities For the L 1H 4b L R b and L1R b calculation functions the Constant decimal point matches that Calculation Decimal po
52. d activates the displayed selection and also advances the meter to the next parameter NUMERICAL VALUE ENTRY ARROW RST amp PAR KEYS For parameters which require a numerical value entry the arrow keys can be used to increment or decrement the display to the desired value When an arrow key is pressed and held the display automatically scrolls up or down The longer the key is held the faster the display scrolls The RST key can be used in combination with the arrow keys to enter large numerical values When the RST key is pressed along with an arrow key the display scrolls by 1000 s Pressing the PAR key stores and activates the displayed value and also advances the meter to the next parameter PROGRAMMING MODE EXIT DSP KEY or PAR KEY at Pra RD The Programming Mode is exited by pressing the DSP key from anywhere in the Programming Mode or the PAR key with Pra nn displayed This will commit any stored parameter changes to memory and return the meter to the Display Mode If a parameter was just changed the PAR key should be pressed to store the change before pressing the DSP key If power loss occurs before returning to the Display Mode verify recent parameter changes 6 1 MODULE 1 SIGNAL INPUT PARAMETERS INPUT A PARAMETER MENU B r rH aE Conversion Display Display Filter Rate Decimal Point Rounding Setting Conversion Display Display Filter Rate Decimal Point Rounding Setting INPUT RANGE rRASE Q SELECTION R
53. e write a value of 250 to equal 25 0 Note Since the meter does not issue a reply to value change commands follow with a transmit value command for readback verification Transmitting Data From the Meter Data is transmitted from the meter in response to either a transmit command T a print block command P or User Function print request The response from the meter is either a full field transmission or an abbreviated transmission See Abbreviated Printing Rbr u parameter Full Transmission Byte Description 1 2 2 byte Node Meter Address field 00 99 3 lt SP gt Space 4 6 3 byte Register Mnemonic field 7 18 12 byte numeric data field 10 bytes for number one byte for sign one byte for decimal point 19 lt CR gt Carriage return 20 lt LF gt Line feed 21 lt SP gt Space 22 CR Carriage return 23 LF Line feed These characters only appear in the last line of a block print The first two characters transmitted bytes 1 and 2 are the unit address If the address assigned is 00 two spaces are substituted A space byte 3 follows the unit address field The next three characters bytes 4 to 6 are the register mnemonic The numeric data is transmitted next The numeric field bytes 7 to 18 1s 12 characters long When the requested value exceeds eight digits for count values or five digits for rate values Byte 8 is always a space The remaining ten positions of this field bytes 9 to 18 cons
54. er extends relay life for operation with inductive loads QUAD RELAY CARD PAXCDS20 Type Four FORM A relays Isolation To Sensor amp User Input Commons 2300 Vrms for 1 min Contact Rating One Relay Energized 3 amps 240 VAC or 30 VDC resistive load Total current with all four relays energized not to exceed 4 amps Life Expectancy 100 K cycles min at full load rating External RC snubber extends relay life for operation with inductive loads QUAD SINKING OPEN COLLECTOR CARD PAXCDS30 Type Four isolated sinking NPN transistors Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Not Isolated from all other commons Rating 100 mA max Vsxr 0 7 V max Vmax 30 V QUAD SOURCING OPEN COLLECTOR CARD PAXCDS40 Type Four isolated sourcing PNP transistors Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Not Isolated from all other commons Rating Internal supply 24 VDC 10 30 mA max total External supply 30 VDC max 100 mA max each output DUAL TRIAC DUAL SSR DRIVE CARD PAXCDS50 Triac Type Isolated zero crossing detection Voltage 260 VAC max 20 VAC min Max Load Current 1 Amp 25 C 0 75 Amp 50 C Total load current with both triacs ON not to exceed 1 5 Amps Min Load Current 5 mA Off State Leakage Current 1 mA max 60 Hz Operating Frequency 20 400 Hz SSR Drive Type Two isolated sourcing PNP Transistors Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Not
55. erates in the Display Mode In this mode the meter displays can be viewed consecutively by pressing the DSP key The annunciators to the left of the display indicate which display is currently shown A B or C Each of these displays are programmable and can be locked from view through programming See Module 3 PROGRAMMING MODE Two programming modes are available Full Programming Mode permits all parameters to be viewed and modified Upon entering this mode the front panel keys change to Programming Mode operations This mode should not be entered while a process 1s running since the meter functions and User Input response may not operate properly while in Full Programming Mode Quick Programming Mode permits only certain parameters to be viewed and or modified When viewing parameters SP1 etc the front panel keys change to Programming Mode operations and all meter functions continue to operate properly Quick Programming Mode is configured in Module 3 The Display Intensity Level d LEu parameter is available in the Quick Programming Mode only when the security code is non zero For a description see Module 9 Factory Service Operations Throughout this document Programming Mode without Quick in front always refers to Full Programming Mode PROGRAMMING TIPS Programming the unit using Crimson programming software is recommended The following tips are helpful when programming using the unit front panel keys The Pro
56. es Read and write functions can be performed in either Integers or Hex as long as the conversion was done correctly Negative numbers are represented by two s complement Note The PAXDP should not be powered down while parameters are being changed Doing so may corrupt the non volatile memory resulting in checksum errors REGISTER 2 2 FACTORY ADDRESS 1 REGISTER NAME LOW LIMIT HIGH LIMIT SETTING ACCESS COMMENTS FREQUENTLY USED REGISTERS 40001 Input A Relative Value Hi word Process value of present input level This value is N A N A N A Read Only affected byInputType Resolution Scaling amp Offset Value 40002 Input A Relative Value Lo word Relative Value Absolute Input Value Offset Value 40003 Input B Relative Value Hi word Process value of present input level This value is N A N A N A Read Only affected by InputType Resolution Scaling amp Offset Value 40004 Input B Relative Value Lo word Relative Value Absolute Input Value Offset Value 40005 Calculation Value Hi word N A N A N A Read Only Calculation Result of Math Function 40006 Calculation Value Lo word 40007 Maximum Value Hi word 19999 99999 N A Read Write 40008 Maximum Value Lo word 40009 Minimum Value Hi word 19999 99999 N A Read Write 40010 Minimum Value Lo word 40011 Total Value Hi word 199999000 999999000 N A Read Write 40012 Total Value Lo word 40013 Setpoint 1 Value Hi word 19999 99999 100 Read Write 40014 Setpoint 1 Value
57. followed by register ID character Block Print Request Initiates a block print output Registers are read defined in programming Command String Construction The command string must be constructed in a specific sequence The meter does not respond with an error message to invalid commands The following procedure details construction of a command string Value Change Write to register of the meter Must be followed write by register ID character and numeric data 1 The first characters consist of the Node Address Specifier N followed by a 1 or 2 character address number The address number of the meter is programmable If the node address is 0 this command and the node address itself may be omitted This is the only command that may be used in conjunction with other commands 2 After the address specifier the next character is the command character 3 The next character is the Register ID This identifies the register that the command affects The P command does not require a Register ID character It prints according to the selections made in print options 4 If constructing a value change command writing data the numeric data is sent next 5 All command strings must be terminated with the string termination characters or The meter does not begin processing the command string until this character is received See Timing Diagram figure for differences between terminating characters Register Identification Char
58. for viewing in bright light applications The meters provide a MAX and MIN reading memory with programmable capture time The capture time is used to prevent detection of false max or min readings which may occur during start up or unusual process events The signal totalizer integrator can be used to compute a time input product This can be used to provide a readout of totalized flow calculate service intervals of motors or pumps etc The totalizer can also accumulate batch operations Optional digital output cards provide the meter with up to four setpoint outputs The cards are available as dual relay quad relay quad sinking transistor quad sourcing transistor SSR drive or dual triac dual SSR drive outputs The setpoint alarms can be configured to suit a variety of control and alarm requirements Communication and Bus Capabilities are also available as option cards The standard output is in Modbus Protocol Any of the following option cards DIMENSIONS In inches mm ACCEPTS TWO 4 20 MA OR 0 10 VDC INPUT SIGNALS e PROGRAMMABLE A D CONVERSION RATE 5 TO 105 READINGS PER SECOND 5 DIGIT 0 56 RED SUNLIGHT READABLE DISPLAY VARIABLE INTENSITY DISPLAY LINEARIZATION SQUARE ROOT EXTRACTION INPUT RANGE PROGRAMMABLE FUNCTION KEYS USER INPUTS 9 DIGIT TOTALIZER INTEGRATOR WITH BATCHING OPTIONAL CUSTOM UNITS OVERLAY W BACKLIGHT FOUR SETPOINT ALARM OUTPUTS W OPTION CARD COMMUNICATION AND BUS CAPABILITIES W OPTION CARD R
59. from turning off after the trigger point is reached A value of 0 0 allows the meter to update the alarm status per the response time listed in the Specifications When the output logic is rEu this becomes on time delay Any time accumulated at power off resets during power up DU to 327152 sec 20 Band Outside Acting bARd OUTPUT LOGIC auk n Q S nor Enter the output logic of the alarm output The nar logic leaves the output operation as normal The rEu logic reverses the output logic In rEu the alarm states In the Setpoint Alarm Figures are reversed rEu RESET ACTION Tek S Ruta Enter the reset action of the alarm output Ruta LAEE I LRLL 2 Ruta Automatic action This action allows the alarm output to automatically reset off at the trigger points per the Setpoint Action shown In Setpoint Alarm Figures The on alarm may be manually reset off immediately by a front panel function key or user input The alarm remains reset off until the trigger point is crossed again LREL Latch with immediate reset action This action latches the alarm output on at the trigger point per the Setpoint Action shown in Setpoint Alarm Figures Latch means that the alarm output can only be turned off by front panel function key or user input manual reset serial reset command or meter power cycle When the user input or function key is activated momentary or maintained the corresponding on alarm output is reset
60. gramming Menu is organized into ten modules see above These modules group together parameters that are related in function It is recommended to begin programming with Module 1 and proceed through each module in sequence Note that Modules 6 through 8 are only accessible when the appropriate option card is installed If lost or confused while programming press the DSP key to exit programming mode and start over When programming is complete it is recommended to record the meter settings on the Parameter Value Chart and lock out parameter programming with a User Input or lock out code See Modules 2 and 3 for lock out details FACTORY SETTINGS Factory Settings may be completely restored in Module 9 This is a good starting point if encountering programming problems Throughout the module description sections which follow the factory setting for each parameter is shown below the parameter display In addition all factory settings are listed on the Parameter Value Chart following the programming section ALTERNATING SELECTION DISPLAY In the module description sections which follow the dual display with arrows appears for each programming parameter This is used to illustrate the display alternating between the parameter top display and the parameter s Factory Setting bottom display In most cases selections or value ranges for the parameter will be listed on the right Indicates Program Mode Alternating Display Parameter r ANGE Q
61. he case Or use a small screwdriver to depress the side latches and pull the main assembly out of the case Do not remove the rear cover from the main circuit board 4 Locate the appropriate option card slot location on the main circuit board Align the option card terminal block with the slot terminal block position on the rear cover Align the option card connector with the main circuit board option card connector and then press to fully engage the connector Verify the tab on the option card rests in the alignment slot on the display board Nn If installing an option card that includes a terminal block on the top of the option card a knock out on the top of the PAX case will need to be removed to allow the top terminal block to be inserted later Locate the shaped knock out that aligns with the option slot for which the option card is being installed Carefully remove the knock out being careful not to remove additional knock outs Trim knock out tabs gates that remain on the case The top terminal block on the option card will need to be removed before completing step 6 ON Slide the assembly back into the case Be sure the rear cover latches engage in the case If option card includes a top terminal block install top terminal block at this time WIRING OVERVIEW Electrical connections are made via screw clamp terminals located on the back of the meter All conductors should conform to the meter
62. hield depends somewhat upon the application Listed below are the recommended methods of connecting the shield in order of their effectiveness a Connect the shield to earth ground protective earth at one end where the unit is mounted b Connect the shield to earth ground at both ends of the cable usually when the noise source frequency is over 1 MHz 3 Never run Signal or Control cables in the same conduit or raceway with AC power lines conductors feeding motors solenoids SCR controls and heaters etc The cables should be run through metal conduit that is properly grounded This is especially useful in applications where cable runs are long and portable two way radios are used in close proximity or if the installation is near a commercial radio transmitter Also Signal or Control cables within an enclosure should be routed as far away as possible from contactors control relays transformers and other noisy components 4 Long cable runs are more susceptible to EMI pickup than short cable runs In extremely high EMI environments the use of external EMI suppression devices such as Ferrite Suppression Cores for signal and control cables is effective The following EMI suppression devices or equivalent are recommended Fair Rite part number 0443167251 RLC part number FCORO0000 Line Filters for input power cables Schaffner FN2010 1 07 Red Lion Controls LFIL0000 To protect relay contacts that control inductive loads
63. immediately and remains off until the trigger point is crossed again Previously latched alarms will be off if power up Display Value is lower than setpoint value LRELe Latch with delay reset action This action latches the alarm output on at the trigger point per the Setpoint Action shown in Setpoint Alarm Figures Latch means that the alarm output can only be turned off by front panel function key or user input manual reset serial reset command or meter power cycle When the user input or function key is activated momentary or maintained the meter delays the event until the corresponding on alarm output crosses the trigger off point Previously latched alarms are off if power up Display Value is lower than setpoint value During a power cycle the meter erases a previous Latch 2 reset if it is not activated at power up MANUAL ALARM STATE OFF OFF ON Setpoint Alarm Reset Actions STANDBY OPERATION Eb nj S na When YES the alarm is disabled after a power up until the trigger point is crossed Once the alarm is on the alarm operates normally per the Setpoint Action and Reset Mode YES 6 bud Communications Baud Rate Type Parity Bit V A communication card must be installed in order to access this module COMMUNICATIONS TYPE rLL RLC Protocol ASCII t 3PE k Mibrk Modbus RTU t gt rIbR P ibhR5 Modbus ASCII Select the desired communications protocol Modbus is preferred as
64. ing between Main and Alternate the alarm state of Auto Reset Action alarms will always follow their new value Latched on alarms will always stay latched during the transition and can only be reset with a user input or function key Only during the function key or user input transition does the display indicate which list is being used Abbreviated Printing Transmit YES Options Print Setpoint Max Min Values DATA BIT dRER JA gt B Select either 7 or 8 bit data word lengths Set the word length to match the other serial communications equipment on the serial link PARITY BIT PRe S RB Set the parity bit to match that of the other serial communications equipment on the serial link The meter ignores the parity when receiving data and sets the parity bit for outgoing data If no parity is selected with 7 bit word length an additional stop bit is used to force the frame size to 10 bits n EUER dd METER UNIT ADDRESS Rddr eT Enter the serial meter node address The address range is dependent on the EYPE parameter With a single unit configured for RLC protocol EYPE r LL an address is not needed and a value of zero can be used With multiple units RS485 applications a unique 2 digit address number must be assigned to each meter GG to 33 to 24 RLC Protocol Modbus TRANSMIT DELAY dELAY gt os Following a transmit value terminator or Modbus command the
65. int position For these functions the Constant Value must be lowered to a value of 0 for no offset For the Abre cR b and c Rrb calculation functions there is no Constant Value decimal point shown However when Input A Display Decimal Point Input B Display Decimal Point and Calculation Decimal Point are in the same position then the Constant Value decimal point will be assumed to be at the same location as the Calculation Decimal Point For the Calculation Display to have the same resolution as Inputs A amp B the Constant Value must be a value of 1 with trailing 0 s for each assumed decimal point location Example With Input A Input B and the Calculation decimal points entered as 0 00 then the Constant Value would be entered as 100 for no gain 9999 to 33333 CALCULATION ROUNDING E rad 9 4 5 H eu a TI di D Rounding selections other than one cause the Calculation Display to round to the nearest rounding increment selected ie rounding of 0 005 causes 0 121 to round to 0 120 and 0 124 to round to 125 Rounding starts at the least significant digit of the Calculation Display Remaining parameter entries scaling point values setpoint values etc are not automatically adjusted to this display rounding selection The displayed decimal point reflects that programmed in dP 17 CALCULATION FILTER SETTING E FLES gt 1 The calculation filter setting is a time
66. intained action Sr t Q d HLd 13 HOLD ALL FUNCTIONS The meter disables processing the input holds all display L 4 r N contents and locks the state of all outputs as long as activated S R H L d maintained action The serial port continues data transfer SYNCHRONIZE METER READING The meter suspends all functions as long as activated maintained action When the user input is released the meter synchronizes the restart of the A D s with other processes or timing events USr Q S Sunt Input assignment for the totalizer is programmed in Module 5 Totalizer Integrator Parameters Only the assigned input or calculation will be active for the following Totalizer User Functions STORE BATCH READING IN TOTALIZER USr I Ft Q bRE bRE The assigned value is one time added batched to the Totalizer at transition to activate momentary action The Totalizer retains a running sum of each batch operation until the Totalizer is reset When this function is selected the normal operation of the Totalizer is overridden RESET TOTALIZER USr I Ft S Sirtaki S r kot When activated momentary action r ESEt flashes and the Totalizer resets to zero The Totalizer then continues to operate as it is configured This selection functions independent of the selected display RESET AND ENABLE TOTALIZER E r S When activated momentary action rESEE flashes and the Totalizer resets to zero The Totalizer cont
67. inues to E e operate while active maintained action When the user input is released the Totalizer stops and holds its value This selection functions independent of the selected display 4E Ez La re ENABLE TOTALIZER The Totalizer continues to operate as long as activated maintained action When the user input is released the Totalizer stops and holds its value This selection functions independent of the selected display RESET MAXIMUM Fi J pHi When activated momentary action r ESEE flashes and the Maximum resets to the present assigned value The Maximum function then continues from that value This selection functions independent of the selected display RESET MINIMUM USec YS Ft S r Lo r Le When activated momentary action rESEE flashes and the Minimum reading is set to the present assigned value The Minimum function then continues from that value This selection functions independent of the selected display RESET MAXIMUM AND MINIMUM Sr 3 Ft IQ Le Hi r HL When activated momentary action rE SEE flashes and the Maximum and Minimum readings are set to the present assigned values The Maximum and Minimum function then continues from that value This selection functions independent of the selected display Note Following display functions are only available on User Input ADVANCE DISPLAY USr S d 5P When activated momentary action the display advances to the
68. ion cards or PAXCDC 50 are installed DC Power 18 to 36 VDC 13 W AC Power 24 VAC 10 50 60 Hz 16 VA Isolation 500 Vrms for 1 min to all inputs and outputs Must use a Class 2 or SELV rated power supply ANNUNCIATORS A Programmable Display B Programmable Display C Programmable Display SPI Setpoint alarm 1 is active SP2 Setpoint alarm 2 is active SP3 Setpoint alarm 3 is active SP4 Setpoint alarm 4 is active Units Label Optional units label backlight KEYPAD 3 programmable function keys 5 keys total A D CONVERTER 16 bit resolution UPDATE RATES A D conversion rate Adjustable 5 3 to 105 readings sec Step response to within 99 of final readout value with digital filter disabled 220 Display update rate adjustable 1 to 20 readings sec Setpoint output on off delay time 0 to 3275 sec Analog output update rate 0 to 10 sec Max Min capture delay time 0 to 3275 sec DISPLAY MESSAGES OLOL Appears when measurement exceeds signal range ULUL Appears when measurement exceeds signal range 4 Appears when display values exceed display range Appears when display values exceed display range ec SENSOR INPUTS INPUT ACCURACY ACCURACY IMPEDANCE AUS DISPLAY RANGE 18 to 28 C 0 to 50 C COMPLIANCE Gre gap RESOLUTION 20 mA 26 to i M e gt A 246 ohm 90 mA 1 uA 26 mA g H g H 10 VDC c Per se te NI iy SOS om ann
69. ist of a minus sign for negative values a floating decimal point if applicable and eight positions for the requested value The data within bytes 9 to 18 is right aligned with leading spaces for any unfilled positions The end of the response string is terminated with CR byte 19 and lt LF gt byte 20 When a block print is finished an extra lt SP gt byte 21 CR byte 22 and lt LF gt byte 23 are used to provide separation between the transmissions Abbreviated Transmission Byte Description 1 12 12 byte data field 10 bytes for number one byte for sign one byte for decimal point 13 CR Carriage return 14 lt LF gt Line feed 15 SP Space 16 CR Carriage return 17 LF Line feed These characters only appear in the last line of a block print The abbreviated response suppresses the address and register mnemonics leaving only the numeric part of the response Meter Response Examples 1 Address 17 full field response Input A 875 17 INA 875 lt CR gt lt LF gt 2 Address 0 full field response Setpoint 2 250 5 SP2 250 5 lt CR gt lt LF gt 3 Address 0 abbreviated response Setpoint 2 250 last line of block print 250 lt CR gt lt LF gt lt SP gt lt CR gt lt LF gt Auto Manual Mode Register MMR ID U This register sets the controlling mode for the outputs In Auto Mode 0 the meter controls the setpoint and analog output In Manual Mode 1 the outp
70. ments Display lock out and Full and Quick Program lock out When in the main Display Mode the available displays A B C can be read consecutively by repeatedly pressing the DSP key An annunciator indicates the display being shown _ No annunciator A meter display value can be programmed to one of the displays to the quick programming mode or be locked from being visible It is recommended that the meter display value be set to LUE when it is not being used in the application Full Programming Mode permits all parameters to be viewed and modified This Programming Mode can be locked with a security code and or user input When locked and the PAR key is pressed the meter enters a Quick Programming Mode In this mode the setpoint values can still be read and or changed per the selections below The display Intensity Level d LEH parameter also appears whenever Quick Programming Mode is enabled and the security code greater than zero DISPLAY ASSIGNMENT LU There are six meter values that can be individually programmed for one of the main displays A B C or or programmed to be viewable in Quick Programming mode rEd or programmed to be locked out from display LOC see the following table If two or more values are assigned to the same display the last value assigned will be the one that is displayed Not visible in Display Mode or Quick Programming Mode Visible in Quick Programming Mode only Assign to
71. nd to use Crimson to program their unit this manual includes information to provide for a user to program one or all of the programming parameters using the unit s keypad To find information regarding a specific topic or mnemonic it is recommended that the manual be viewed on a computer and the find function be used The alternate method of finding information is to identify the programming parameter involved and review the information contained in the section of the manual that pertains to that parameter manual serves as an overview of the programming options that are available through Crimson The programming section of the manual will serve to provide CRIMSON PROGRAMMING SOFTWARE Crimson software is a Windows based program that allows configuration of the PAX meter from a PC Crimson offers standard drop down menu commands that make it easy to program the controller The unit s program can then be saved in a PC file for future use PROGRAMMING USING CRIMSON Download or check for updates to Crimson at http www redlion net crimson2 nstall Crimson Follow the installation instructions provided by the source from which Crimson is being downloaded or installed Install an appropriate communication option card PAXUSBOO PAXCDC Ix or PAXCDC2x in the PAX and make necessary wiring connections from communication card to the PC Note that only one PAX unit can be programmed at a time Apply appropriate power
72. next display that is not locked out from the Display Mode SELECT DISPLAY A USr I gt dSP R When activated momentary action the display advances to Display A if enabled SELECT DISPLAY B Uae Ho S dSP b When activated momentary action the display advances to Display B if enabled SELECT DISPLAY C bor d5P E When activated momentary action the display advances to Display C if enabled SELECT DISPLAY _ US Q gt d5P When activated momentary action the display advances to the Display _ no annunciator if enabled 14 CHANGE DISPLAY INTENSITY LEVEL USr 3 Ft Q d LEU d LEU When activated momentary action the display intensity changes to the next intensity level of 4 The four levels correspond to Display Intensity Level d LEU settings of 0 3 8 and 15 SETPOINT SELECTIONS The following selections are functional only with the Setpoint option card installed Refer to Module 6 Setpoint Alarm Parameters for an explanation of their operation L St Select main or alternate setpoints r i Reset Setpoint 1 Alarm 1 Setpoint r 2 Reset Setpoint 2 Alarm 2 Card r 3 Reset Setpoint 3 Alarm 3 r Reset Setpoint 4 Alarm 4 Only r 34 Reset Setpoint 3 amp 4 Alarm 3 amp 4 r 21 4 Reset Setpoint 2 3 amp 4 Alarm 2 3 amp 4 r ALL Reset Setpoint All Alarm All SELECT SETPOINT LIST Ur 14 Fi S L ISL o L ISL Two lists
73. ompany warrants that all Products shall be free from defects in material and workmanship under normal use for the period of time provided in Statement of Warranty Periods available at www redlion net current at the time of shipment of the Products the Warranty Period EXCEPT FOR THE ABOVE STATED WARRANTY COMPANY MAKES NO WARRANTY WHATSOEVER WITH RESPECT TO THE PRODUCTS INCLUDING ANY A WARRANTY OF MERCHANTABILITY B WARRANTY OF FITNESS FOR A PARTICULAR PURPOSE OR C WARRANTY AGAINST INFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS OF A THIRD PARTY WHETHER EXPRESS OR IMPLIED BY LAW COURSE OF DEALING COURSE OF PERFORMANCE USAGE OF TRADE OR OTHERWISE Customer shall be responsible for determining that a Product is suitable for Customer s use and that such use complies with any applicable local state or federal law b The Company shall not be liable for a breach of the warranty set forth in paragraph a if the defect is a result of Customer s failure to store install commission or maintain the Product according to specifications ii Customer alters or repairs such Product without the prior written consent of Company c Subject to paragraph b with respect to any such Product during the Warranty Period Company shall in its sole discretion either 1 repair or replace the Product or 11 credit or refund the price of Product provided that if Company so requests Customer shall at Company s expense return such Prod
74. on In most cases if more than one user input and or function key is programmed for the same function the maintained level trigger actions will be performed while at least one of those user inputs or function keys are activated The momentary edge trigger actions will be performed every time any of those user inputs or function keys transition to the active state Note In the following explanations not all selections are available for both user inputs and front panel function keys Alternating displays are shown with each selection Those selections showing both displays are available for both If a display is not shown it is not available for that selection USr t will represent both user inputs F will represent all five function keys 12 NO FUNCTION 5r 5 Ft S o RB e RJ No function is performed if activated This is the factory setting for all user inputs and function keys No function can be selected without affecting basic start up PROGRAMMING MODE LOCK OUT is 14 PLDL Programming Mode is locked out as long as activated maintained action A security code can be configured to allow programming access during lock out INPUT A ZERO TARE DISPLAY i 14 Fi ja R rEL Aer EL The Zero Tare Display provides a way to zero the Input A value at various input levels causing future Display readings to be offset This function is useful in weighing applications where the container or material on the sc
75. oot Extraction Input Range Scaling Points 2 The PAXDP can apply the square root function directly to the sensor signal by selecting the Square Root Extraction Input Range 4 55r or 55 c When configured for Square Root Extraction piecewise multipoint linearization is not required and only the first 2 scaling points are used For proper operation the Display 1 d5P 1 value must be zero Nonlinear Scaling Points Greater than 2 For non linear processes up to 16 scaling points may be used to provide a piece wise linear approximation The greater the number of scaling points used the greater the conformity accuracy The Input Display will be linear between scaling points that are sequential in program order Each scaling point has a coordinate pair of Input Value UP and an associated desired Display Value d5P Data from tables or equations or empirical data could be used to derive the required number of segments and data values for the coordinate pairs In the Crimson 2 SFCRM2 software several linearization equations are available See the Accessories section for more information SCALING STYLE SESLE S VEM t FEM APLY If Input Values and corresponding Display Values are known the Key in VEY scaling style can be used This allows scaling without the presence or changing of the input signal If Input Values have to be derived from the actual input signal source or simulator the Apply RPLY scaling style must be used
76. or 1 minute between DeviceNet and meter input common PROFIBUS DP CARD PAXCDC50 Fieldbus Type Profibus DP as per EN 50170 implemented with Siemens SPC3 ASIC Conformance PNO Certified Profibus DP Slave Device Baud Rates Automatic baud rate detection in the range 9 6 Kbaud to 12 Mbaud Station Address 0 to 125 set by rotary switches Connection 9 pin Female D Sub connector Network Isolation 500 Vrms for 1 minute between Profibus network and sensor and user input commons Not isolated from all other commons PAXUSB PROGRAMMING CARD PAXUSBOO Type USB Virtual Comms Port Communication Type RLC protocol ASCII Modbus RTU and Modbus ASCII Connection Type mini B Isolation To Sensor amp User Input Commons 500 Vrms for 1 min Not Isolated from all other commons Baud Rate 300 to 38 400 Unit Address Selectable 0 to 99 RLC protocol or 1 to 247 Modbus protocol SETPOINT CARDS PAXCDS The PAX and MPAX series has 6 available setpoint alarm output option cards Only one of these cards can be installed at a time Logic state of the outputs can be reversed in the programming DUAL RELAY CARD PAXCDS10 Type Two FORM C relays Isolation To Sensor amp User Input Commons 2000 Vrms for 1 min Contact Rating One Relay Energized 5 amps 120 240 VAC or 28 VDC resistive load Total current with both relays energized not to exceed 5 amps Life Expectancy 100 K cycles min at full load rating External RC snubb
77. other actuators not equipped with safeguards To do so can be potentially harmful to persons or equipment in the event of a fault to the unit CAUTION Risk of electric shock CAUTION Risk of Danger Read complete instructions prior to installation and operation of the unit Note Recommended minimum clearance behind the panel for mounting clip installation is 2 1 53 4 H x 5 0 127 W sss sss ID 4 44 5 ms L1 12 IL 16 QJ 20 O D 1310 17 OJI 121 O IJ 4 O 18 O0 22 O 1 75 D11500 110012 O 3 60 91 4 TABLE OF CONTENTS Ordering Information 2 3 0 Installing Option Cards T Using This Manual 3 4 0 Wiring the Meter Crimson Programming Software 3 5 0 Reviewing the Front Buttons and Display 9 General Meter Specifications 4 6 0 Programming the Meter 10 Option Cards 5 6 9 Factory Service Operations S F 5 28 AccessorieS 6 Troubleshooting 29 1 0 Installing the Meter 6 Parameter Value Chart 29 2 0 Setting the Jumpers 6 Programming Quick Overview 31 DP Dual Process Input 0 Red Sunlight Readable Display 0 85 to 250 VAC 1 18 to 36 VDC 24 VAC Option Card and Accessories Part Numbers PAXCDL Analog Output Card PAXCDL
78. r and are the only modes that appear when the setpoint assignment R571 is set to Eat The lower Totalizer action tatLo allows setpoints to function off of the lower 5 digits of the Totalizer The upper Totalizer action EaEh allows setpoints to function off of the upper 4 digits of the Totalizer To obtain absolute low alarms for the Totalizer program the tatLa or Eakh output logic as reverse SP1 SPn ON TRIGGER oie TRIGGER POINTS Absolute High Acting Unbalanced Hys Ru H Absolute High Acting Balanced Hys Rb H SP Hys SP Hys SP SP Hys ETE OFF OFF ALARM ALARM ON STATE STATE TRIGGER POINTS Absolute Low Acting Balanced Hys Rh La This is also for Totalizer alarms tat fa katH n Absolute Low Acting Unbalanced Hys RU La Deviation High Acting SP gt 0 dE H i OFF ON ON i A TRIGGER POINTS Deviation Low Acting SP gt 0 dE La SP1 SPn SP1 SPn SP1 ALARM l STATE ON TRIGGER POINTS Deviation High Acting SP lt 0 dE H SP1 SPn SP1 SP1 SPn ALARM ON STATE l STATE l l OFF ON TRIGGER POINTS Deviation Low Acting SP lt 0 dE La d TRIGGER POINTS TRIGGER POINTS Band Inside Acting Unbalanced Hys bifid in SETPOINT VALUE SP a gt DB Enter desired setpoint alarm value These setpoint values can
79. rea li n Tel 1 717 767 6511 Fax 1 717 764 0839 www redlion net Bulletin No PAXDP L Drawing No LP0578 Released 08 15 MODEL PAXDP 1 8 DIN DUAL PROCESS INPUT METER RST sp PAR FMa F2V A z red lpn C c UL us usten IND CONT EQ 51EB GENERAL DESCRIPTION The PAXDP Dual Process Input Meter offers many features and performance capabilities to suit a wide range of industrial applications Available in two models AC or DC power the meter has the capability to accept two 4 to 20 mA or 0 to 10 VDC input signals Each input signal can be independently scaled and displayed In addition a math function can be performed on the two signals C A B C A B C A B AB C CA B or C A B 1 Any of the three meter values can have Alarms Comms and or a Retransmitted Analog Output capability by simply adding optional cards The optional output cards allow the opportunity to configure the meter for current applications while providing easy upgrades for future needs The update rate of the meter is user selectable This will help in those applications where a quick response from the meter is of the utmost importance The rate can be adjusted from eight selections with a minimum of 5 updates second to a maximum of 105 updates second The meters employ a bright 0 56 14 2 mm red sunlight readable LED display The intensity of display can be adjusted from dark room applications up to sunlight readable making it ideal
80. t 3 VALUE DESCRIPTION E COMMAND SUPPORTED Input A T R reset command zeros Relative Value or bts input Input B OTI Value Ki Value T R reset command zeros E mi yh qo R reset command zeros Total T R reset command loads rius reading T R reset command loads en reading Input A Absolute Gross Value Input B Absolute Gross Value Ka T 13 Far um i Es 1 Register Names are also used as Register Mnemonics during full transmission T V R reset command resets hi output T V R reset command resets ed output T V R reset command resets output T V R reset command resets eem output 2 The registers associated with the P command are set up in Print Options Module 7 Unless otherwise specified the Transmit Details apply to both T and V Commands Command String Examples 1 Address 17 Write 350 to Setpoint 1 String N17VM350 2 Address 5 Read Input A value String NSTA 3 Address 0 Reset Setpoint 4 output String RS Transmitting Data To the Meter Numeric data sent to the meter must be limited to Transmit Details listed in the Register Identification Chart Leading zeros are ignored Negative numbers must have a minus sign The meter ignores any decimal point and conforms the number to the scaled resolution 1e The meter s scaled decimal point position is set for 0 0 and 25 is written to a register The value of the register is now 2 5 In this cas
81. t byte The receiver then continuously looks for the occurrence of the start bit If 7 data bits and no parity is selected then 2 stop bits are sent from the PAXDP 6 8 MODULE 8 ANALOG OuTPUT PARAMETERS 8 2ut V PARAMETER MENU Analog Assignment Analog Low Scale Value Analog High Scale Value Update Time V An analog output card must be installed in order to access this module ANALOG TYPE LUPE Q SELECTION RANGE 0 20 0 to 20 mA d 4 28 4 29 4 to 20 mA B tU 0 to 10 V Enter the analog output type For 0 20 mA or 4 20 mA use terminals 18 and 19 For 0 10 V use terminals 16 and 17 Only one range can be used at a time ANALOG ASSIGNMENT RS f PORE R rEL R RhS b rEL G npnp ERE ke MiO tD Enter the source for the analog output to retransmit rEL Relative net Input Value The Relative Input Value is the Absolute Input Value that includes the Display Offset Value RbS Absolute gross Input Value The Absolute Input Value is based on Module 1 d5P and JP entries LRLE Calculation Value Eat Totalizer Value LU Minimum Display Value H Maximum Display Value ANALOG LOW SCALE VALUE 49999 to 99999 Enter the Display Value that corresponds to 0 mA 0 20 mA 4 mA 4 20 mA or 0 VDC 0 10 VDC Rn LU Q gt nn ANALOG HIGH SCALE VALUE 19999 to 99999 Enter the Display Value that corresponds to 20 mA 0 20 mA 20 mA 4 20 mA or 10 VDC 0 10 VDC RR H IS o 8000
82. t can be customized using the Units Label Kit The backlight is controlled in the programming 1 0 INSTALLING THE METER Installation The PAX meets NEMA 4X IP65 requirements when properly installed The unit is intended to be mounted into an enclosed panel Prepare the panel cutout to the dimensions shown Remove the panel latch from the unit Slide the panel gasket over the rear of the unit to the back of the bezel The unit should be installed fully assembled Insert the unit into the panel cutout PANEL LATCH LATCHING TABS PANEL MOUNTING SCREWS 2 The meter has three jumpers that must be checked and or changed prior to applying power The following Jumper Selection Figures show an enlargement of the jumper area To access the jumpers remove the meter base from the case by firmly squeezing and pulling back on the side rear finger tabs This should lower the latch below the case slot which is located just in front of the finger tabs It is recommended to release the latch on one side then start the other side latch Input Jumpers These jumpers are used to select the proper input types Voltage V or Current I The input type selected in programming must match the jumper setting See the Jumper Selection Figures for more details PAXDP Jumper Selection JUMPER SELECTIONS The indicates factory setting INPUT B VOLT CURRENT USER INPUT J SINK D SOURCE SRC INPUT A VOLT CURRENT XO
83. to the meter before exiting Module 9 In this case the existing calibration settings remain in effect 55 dE Q B INPUT CALIBRATION WARNING Calibration of this meter requires a signal source with an Ne of 0 01 or better and an external meter with an accuracy of 0 005 or better Before starting verify that the Input Ranger Jumper is set for the range to be calibrated Also verify that the precision signal source is connected and ready Allow a 30 minute warm up period before calibrating the meter R and PAR can be chosen to exit the calibration mode without any changes taking place Then perform the following procedure 1 Use the arrow keys to display E dE 48 and press PAR 2 Choose the input channel range to be calibrated by using the arrow keys and press PAR R and PAR can be chosen to exit the calibration mode without any changes taking place When the zero range limit appears on the display apply the appropriate Voltage range dead short applied Current range open circuit 4 Press PAR and the top range limit will appear on the display after approximately 1 second With the top range limit on the display apply the appropriate Voltage range 10 VDC Current range 20 mADC 6 Press PAR and CAL R will appear on the display after approximately 1 second 7 When R appears press PAR twice 8 If the meter is not field scaled then the input display should match the value of the input
84. uct to Company d THE REMEDIES SET FORTH IN PARAGRAPH c SHALL BE THE CUSTOMER S SOLE AND EXCLUSIVE REMEDY AND COMPANY S ENTIRE LIABILITY FOR ANY BREACH OF THE LIMITED WARRANTY SET FORTH IN PARAGRAPH a Red Lion Controls Red Lion Controls Red Lion Controls Red Lion Controls China Headquarters 20 Willow Springs Circle York PA 17406 Tel 1 717 767 6511 Fax 1 717 764 0839 Europe Softwareweg 9 NL 3821 BN Amersfoort Tel 31 0 334 723 225 Fax 31 0 334 893 793 India 201 B 2nd Floor Park Centra Opp 32 Mile Stone Sector 30 Gurgaon 122002 Haryana India Tel 91 984 487 0503 Unit 1102 XinMao Plaza Building 9 No 99 Tianzhou Road ShangHai P R China 200223 Tel 86 21 6113 3688 Fax 86 21 6113 3683
85. uts are defined by the registers SOR and AOR When transferring from auto mode to manual mode the meter holds the last output value until the register is changed by a write Each output may be independently changed to auto or manual In a write command string VU any character besides 0 or 1 in a field will not change the corresponding output mode U abcde ES e Analog Output d SP4 c SP3 b SP2 a SPI Example VU00011 places SP4 and Analog in manual 25 Analog Output Register AOR ID W This register stores the present signal value of the analog output The range of values of this register is 0 to 4095 which corresponds to the analog output range per the following chart Due to the absolute D ee Register Value accuracy rating an Regier ate Sarma erga 0 10V resolution of the output pou 0 000 4 000 0 000 card the actual output signal may differ 0 15 FS from the table values The output signal corresponds to the range selected 0 20 mA 4 20 mA or 0 10 V Writing to this register VW while the analog output is in the Manual Mode causes the output signal level to update immediately to the value sent While in the Automatic Mode this register may be written to but it has no effect until the analog output is placed in the manual mode When in the Automatic Mode the meter controls the analog output signal level Reading from this register TW will show the present value of the analog output signal E
86. xample VW2047 will result in an output of 10 000 mA 12 000 mA or 5 000V depending on the range selected 0 0025 5 000 9 9975 10 000 Setpoint Output Register SOR ID X This register stores the states of the setpoint outputs Reading from this register TX will show the present state of all the setpoint outputs A 0 in the setpoint location means the output is off and a 1 means the output is on X abcd d SP4 c SP3 b SP2 a SPI In Automatic Mode the meter controls the setpoint output state In Manual Mode writing to this register VX will change the output state Sending any character besides 0 or 1 in a field or if the corresponding output was not first in manual mode the corresponding output value will not change It is not necessary to send least significant Os Example VX10 will result in output 1 on and output 2 off COMMAND RESPONSE TIME The meter can only receive data or transmit data at any one time half duplex operation When sending commands and data to the meter a delay must be imposed before sending another command This allows enough time for the meter to process the command and prepare for the next command At the start of the time interval t1 the computer program prints or writes the string to the com port thus initiating a transmission During t1 the command characters are under transmission and at the end of this period the command terminating character is received by the meter
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