iSeries User Manual
Contents
1. Revision 0 1 Page 23 of 43 3 2400 Baud 4 4800 Baud 5 9600 Baud 6 19200 Baud 7 38400 Baud 8 57600 Baud 9 115200 Baud PAR Parity Value Parity 0 None 1 Odd 2 Even DB Data Bits Value Bits 0 7 1 8 SB Stop Bits Value Bits 0 1 1 2 4 28USB Communications Configuration Revision 0 1 Page 24 of 43 USB Communications Configuration ID Classes Parameters 0x320 GPRW PROT DM LFE ECHO SEP This is for use with a virtual com serial port The usage of the parameters is the same as for the Serial Communications Message 4 29 USB Data Mode Configuration USB Communications Data Mode Config ID Classes Parameters 0x321 GPRW MODE Interval seconds float The usage of the parameters for this command is the same as for the Serial Communications Data Mode ID 0x311 4 30 USB Modbus Mode USB Modbus Mode ID Classes Parameters 0x323 GPRW MODE MODE Modbus 0 RTU 1 ASCII 4 31 USB Data Format Serial Data Format ID Classes Parameters 0x312 GPRW AS RE PE VE UE Revision 0 1 Page 25 of 43 The usage of the parameters for this command is the same as for the Serial Data Format ID 0x312 4 32Ethernet Communications Configuration Ethernet Communica2. 0x621 GPRW NAL Hi Value float variable length NAL alarm number 1 2 4 54Low Value Revision 0 1 Page 35 of 43 Alarm Low Value ID Classes Parameters 0x622 GPRW NAL Low Value float variable length 4 550n Delay Alarm On Delay ID Classes Parameters 0x623 GPRW NAL On Delay seconds float variable length NAL alarm number 1 2 4 56 Off Delay Alarm Off Delay ID Classes Parameters 0x624 GPRW NAL Off Delay seconds float variable length NAL alarm number 1 2 4 57 HiHi Mode HiHi Mode ID Classes Parameters 0x625 GPRW NAL ON OFF NAL alarm number ON OFF 0 On 1 Off Revision 0 1 4 58 HiHi Offset Alarm HiHi Offset ID Classes Parameters 0x626 GPRW NAL Offset float variable length 4 59 Output Retransmission Reading 1 Output Retransmission Reading 1 ID Classes Parameters 0x630 GPRW NOUT Reading Value float variable length NOUT output number 1 4 4 60 Output Retransmission Output 1 Output Retransmission Output 1 ID Classes Parameters 0x631 GPRW NOUT Output Value float variable length NOUT output number 1 4 4 61 Output Retransm
3. Revision 0 1 Page 19 of 43 Serial Communications Configuration ID Classes Parameters 0x310 GPRW PROT DM LFE ECHO SEP The parameters are as follows PROT Protocol Value Protocol 0 Omega Protocol 1 Modbus Protocol Data Mode Data Mode Value Voltage 0 Command 1 Continuous LFE Line Feed Enabled Value Voltage 0 Don t insert line feed on responses 1 Insert line feed ECHO Response Echo Enabled Value Voltage 0 No echo Revision 0 1 Page 20 of 43 1 Echo command in response SEP Separation Character Omega Protocol Value Effect 0 Use space character between records 1 Use CR between records The Serial Communications Configuration must be set before the Serial Data Mode ID 0x311 4 24 Serial Data Mode Config Serial Communications Data Mode Config ID Classes Parameters 0x311 GPRW MODE Interval seconds variable length float MODE Omega Protocol 0 Interactive command mode 1 Continuous mode Serial Modbus Mode Config The interval is specified as a floating point number in seconds when the continuous mode is specified Example setting serial to continuous mode with 5 second interval P311 1 5 0 lt CR gt 4 25 Serial Modbus Mode Serial Modb
4. 0x721 Classes RW Parameters PLS SC TE Revision 0 1 Page 39 of 43 PMS PLS form the profile number in hex form PMS is the most significant hex digit PLS the least significant For example segment 31 0x1f would be encoded as PMS 1 PLS F SC is the segment count 0 15 encoded as a single hex digit TE Tracking Enabled 0 Disabled 1 Enabled 4 68 Multi Ramp Soak Segment Event Configuration Multi Ramp Soak Event Config ID Classes Parameters 0x730 RW NSEG RE SE PMS PLS identify the profile number as in Multi Ramp Soak Profile Configuration ID 0x721 NSEG is the segment number encoded as a single hex digit 0 F RE Ramp enabled 1 or disabled 0 for segment SE Soak enabled 1 or disabled 0 for segment 4 69 Multi Ramp Soak Profile Segment Ramp Time Multi Ramp Soak Segment Ramp Time ID Classes Parameters 0x731 RW NSEG Ramp Time Seconds float variable length NSEG is a single hex digit identifying the segment number 4 70Multi Ramp Soak Profile Segment Soak Process Value Multi Ramp Soak Segment Soak Process Value Revision 0 1 Page 40 of 43 ID Classes Parameters 0x732 RW NSEG Soak Value float variable length NSEG is a single hex digit identifying the segment number 4 71 Multi Ramp Soak Profile Segment Soak Time Multi Ramp Soak
5. 24 3 USB Virtual Comti tai nain EENS 6 2 1 4 Ethernet inse ouier EE 6 Prot col Description E 7 3 1 LU EE 7 3 2 Command Structure entree nen i etit esie eEEEEEEASESAEEEEERAEEhEEEEEEESEE Eh IEEE EEGEN 7 3 3 Response Format asset leede gege ER 7 3 4 Error Messages ned 7 Platinum Series Messages ssssnvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnnnnnennnnnnnnnnn 8 4 1 Input Conflgurallon ooi rere tiber tenente rt ha ote ette eade 8 4 2 dite rc Ar SETES 11 4 3 Guren e oet e etii RE 11 4 4 ludin 12 4 5 Valley Tt BEE 12 4 6 TG Calibration WR A E 12 4 7 TC Calibration Single GE 13 4 8 TC Calibration Double Point LOW sswvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnr 13 4 9 TC Calibration Double Point High 1rnnnnnnvvnnnnnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnen 13 4 10 Process Heading 1 LOW EE 13 4 11 Process Range Input 1 Low annnnnnnnnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 14 4 12 Process Range Reading 2 High rrrnnnnnvvvnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnnnne 15 4 13 Process Range Input 2 High rrnnnnnnnnnnnvvvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnne 15 4 14 Display Conflqutrall n eret EENS Seege 15 4 15 Excltatlon Voltage iieeiereter reete mter tiia tare a emn tari tne si
6. Values converted to oC 2 Values converted to oF Color Value Effect 1 GREEN 2 RED 3 AMBER BRT Brightness Value Brightness 0 LOW 1 MEDIUM 2 HIGH 4 15Excitation Voltage Excitation Voltage ID Classes Parameters 0x210 GPRW EV The parameters are as follows EV Excitation Voltage Revision 0 1 Page 16 of 43 Value Voltage 0 0 Volts 1 5 Volts 2 10 Volts 3 12 Volts 4 24 Volts 4 16Safety Configuration Safety Configuration ID Classes Parameters 0x220 GPRW POR OR LBE The parameters are as follows POR Power On Run Value Voltage 0 Go to standby when powered on 1 Go to run when powered on OR Operate Run Value Voltage 0 Disabled 1 Enabled LBE Loop Break Enabled Value Enabled Disabled Revision 0 1 Page 17 of 43 0 Disabled 1 Enabled 4 17Loop Break Configuration Loop Break Configuration ID Classes Parameters 0x221 GPRW LBE MINMS MINLS SECMS SECLS LBE Loop Break Enabled Value Enabled Disabled 0 Disabled 1 Enabled The parameters MINMS MINLS define the minutes in the loop break time MINMS is the most significant part of the minutes MINLS the least significant Both are in he
7. reboot The SEL parameter determines the method to be used SEL Firmware Upgrade Method 1 EIP Serial Port 2 User Serial Port 3 USB Thumb drive Example to upgrade using the USB Thumb drive the drive would be inserted into the USB port followed by the serial command PF21 3 lt CR gt Revision 0 1 Page 42 of 43 4 76Bootloader Version Bootloader Version Number ID Classes Parameters OxF22 G This retrieves the bootloader version number in exactly the same manner as the version number command ID OxF20 4 77 Set Factory Defaults Bootloader Version Number ID Classes Parameters OxF30 P EN To reset factory defaults use the command PF30 1 lt CR gt Revision 0 1 Page 43 of 43 WARRANTY DISCLAIMER OMEGA ENGINEERING INC warrants this unit to be free of defects in materials and workmanship for a period of 61 months from date of purchase OMEGA s WARRANTY adds an additional one 1 month grace period to the normal five 5 year product warranty to cover handling and shipping time This ensures that OMEGA s customers receive maximum coverage on each product If the unit malfunctions it must be returned to the factory for evaluation OMEGA s Customer Service Department will issue an Authorized Return AR number immediately upon phone or written request Upon examination by OMEGA if the unit is found to be
8. 1 4 62 4 63 4 64 4 65 4 66 4 67 4 68 4 69 4 70 4 71 4 72 4 73 4 74 4 75 USB Data Mode Configuration eerie rennen tan nh anne 25 USB Modbus Mode ide Hate EENS 25 USB Data Format ae 25 Ethernet Communications Configuration eese eene 26 Ethernet Data Mode Configuration sssvvvnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnneen 26 Ethernet Data Format eoe i exin et EE naaraan 26 Ethernet Modbus MOQGG aeri ean nicae Seege 26 Setpoint T ei tas etl ese b eee ent 27 Remote Setpoint Configuration xrrrnnnnvvvvnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnne 27 SetpbIDE 2 orn EE Ee 28 Remote Process Range Setpoint Min eese 28 Remote Process Range Setpoint Max eere 29 Remote Process Range Input Max rrnnnvvvnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnen 29 Remote Process Range Input Min rrnnnnnvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnenen 29 PID Gontlgur tlon e 30 PID Low Clamping Limit 5 neret ce rettet deeg SE geg 30 PID High Clamping R I oett einen nha nente telae 31 PID P Parameter e E 31 PID I Parameter seg gege 31 PID D Parameter iet eee 31 Output Mode f RSRK 32 Output Type ien e SSRS 32 Ou
9. CE d i am OFOMEGA User s Guide PRELIMINARY Shop online at omega com e mail info omega com A e For latest product manuals PLATINUM X Series www omegamanual info CN32Pt CN16Pt CN16PtD CN8Pt CNSPtD DP32Pt DP16Pt DPSPt Serial Communication Protocol CE OMEGA omega com info omega com Servicing North America U S A Omega Engineering Inc One Omega Drive P O Box 4047 Stamford CT 06907 0047 USA Toll Free 1 800 826 6342 USA amp Canada only Customer Service 1 800 622 2378 USA amp Canada only Engineering Service 1 800 872 9436 USA amp Canada only Tel 203 359 1660 Fax 203 359 7700 e mail info omega com For Other Locations Visit omega com worldwide The information contained in this document is believed to be correct but OMEGA accepts no liability for any errors it contains and reserves the right to alter specifications without notice 1 2 3 4 Table of Contents Intro CTO Wh Bo 4 1 1 Purpose ad 4 1 2 Definition of Terms and Acronyms rrnrnnnnnnnnnnvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnenennnnnnnnnnnnnnn 4 1 3 Applicable Documents eric emeret onere n eoa nan anon nic ea ema anb n exa EENEG 5 ele UE 6 2 1 Communications InterfaCes rrrrrnnnnnvvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnn 6 211 Ce EEN 6 2 1 2 gt RS 485 p cused cece tiered ee entered ee eee ded eee na alae 6
10. CR gt 3 3 Response Format The response format depends on whether a command echo has been selected If selected the address if present command class and command ID precede the parameters returned For example if an echo is selected the previous command would return G110 32 0 lt CR gt no address 64G110 32 0 lt CR gt if the unit responding had address 64 hex If echo is not selected in both cases only 32 0 lt CR gt would be returned For put P and Write W type transactions only the command is echoed if echo is on Thus Pxxx yyyyyy lt CR gt will echo Pxxx lt CR gt 3 4 Error Messages In the event of an error in the message format an error string is returned Command Failed Decode 0 Revision 0 1 Page 7 of 43 4 Platinum Series Messages 4 1 Input Configuration Input Configuration ID Classes Parameters 0x100 GPRW STYPE SI SI2 The parameters are as follows STYPE Sensor Type Value Type 0 Thermocouple 1 RTD 2 Process Input 3 Thermistor 4 Remote The meaning of the two sensor info fields SI1 and SI2 depends on the sensor type indicated in the STYPE field For thermocouple type STYPE 0 SH Sensor Info 1 Thermocouple Type Value Type 0 J 1 K 2 T 3 E 4 N 5 Reserved 6 R Revision 0 1 Page 8 of 43 7 S 8 B 9 C 10 Reserved 11
11. ID Classes Parameters 0x504 GPRW I parameter Value float variable length 4 48 PID D Parameter PID D Parameter ID Classes Parameters 0x505 GPRW D parameter Value float variable length Revision 0 1 4 49 Output Mode Output Mode ID Classes Parameters 0x600 GPRW NOUT MODE NOUT the output number 1 4 MODE Output Mode Value Mode 0 Output maintained in OFF state 1 Output control by PID control function 2 Output controlled by ON OFF control function 3 Output retransmits the scaled process variable 4 Output set by ALARM 1 state 5 Output set by ALARM 2 state 6 Output set by Ramp amp Soak RE ON control bit 7 Output set by Ramp amp Soak SE ON control bit 4 50 Output Type Output Type ID Classes Parameters 0x601 G NOUT NOUT the output number Revision 0 1 Page 32 of 43 This returns the output type for the specified output as a hex encoded string as follows Output Types Code Returned hex encoded Type 000 No output available 001 Single Poll Relay 002 SSR output 004 Double Poll Relay 008 DC Pulse output 010 Analog Output 020 Isolated Analog Output 4 51Output ON OFF Configuration Output On Off Config ID Classes Parameters 0x610 GPRW NOUT RD Dead Band Value float variable length NOUT is t
12. NS please have the FOR NON WARRANTY REPAIRS consult OMEGA following information available BEFORE for current repair charges Have the following contacting OMEGA information available BEFORE contacting OMEGA 1 Purchase Order number under which the product 1 Purchase Order number to cover the COST was PURCHASED of the repair 2 Model and serial number of the product under 2 Model and serial number of the product and warranty and 3 Repair instructions and or specific problems 3 Repair instructions and or specific problems relative to the product relative to the product OMEGA s policy is to make running changes not model changes whenever an improvement is possible This affords our customers the latest in technology and engineering OMEGA is a registered trademark of OMEGA ENGINEERING INC Patent Pending Copyright 2015 OMEGA ENGINEERING INC All rights reserved This document may not be copied photocopied reproduced translated or reduced to any electronic medium or machine readable form in whole or in part without the prior written consent of OMEGA ENGINEERING INC Where Do I Find Everything I Need for Process Measurement and Control OMEGA Of Course Shop online at omega com TEMPERATURE G Thermocouple RTD amp Thermistor Probes Connectors Panels amp Assemblies Wire Thermocouple RTD amp Thermistor 4 Calibrators amp Ice Point References 4 Recorders Controllers amp Process Monitors G Infra
13. Reserved For thermocouple the SI2 field is irrelevant Example to set input type to Type K thermocouple W100 010 lt CR gt For RTD Sensor type STYPE 1 SI1 Sensor Info 1 RTD Configuration Value Type 0 2 Wire 1 3 Wire 2 4 Wire SI2 Sensor Info 1 RTD ACRV Ohm Types Value Type 0 385 Curve 100 ohms 1 385 Curve 500 ohms 2 385 Curve 1000 ohms 3 392 Curve 100 ohms 4 3916Curve 100 ohms Revision 0 1 Page 9 of 43 For Process Input STYPE 2 SI1 Process Range Value Range 0 4 20 mA 1 0 24 mA 2 NS 3 NS 2 NS 5 10 Vdc 6 1 0 Vdc 7 0 1 Vdc NS Not currently supported SI2 Sensor Info 2 Process Manual Live Live Manual For Thermistor Type STYPE 3 SE1 Sensor Info 1 Thermistor Type 0 2 25K 1 5K 2 10K The Sensor Info 2 Field is irrelevant when STYPE 3 For Remote Sensor Type STYPE 4 This is not currently supported and is for future expansion Revision O 1 4 2 Filter Constant Filter Constant Classes Parameters 0x101 GPRW FC The parameters are as follows FC Value Effect 0 No filtering 1 X rate 1 X 2 filtering 2 X 4 filtering 3 X 8 filtering 4 X 16 filtering 5 X 32 filtering 6 X 64 filtering 7 X 128 f
14. Segment Soak Time ID Classes Parameters 0x733 RW NSEG Soak Time seconds float variable length PMS PLS pair identify the profile number as in the Multi Ramp Profile Config message ID 0x721 NSEG is a single hex digit identifying the segment number 4 721NIT Password INIT Password ID Classes Parameters OxFOO GPRW EN PWD3 PWD2 PWD1 PWDO EN Enable Init 1 Disable Init 0 The parameters PWDO 3 form a hex encoded number The range of each must be 0 9 For example 1234 would be encoded as PWD3 1 PWD2 2 PWD1 3 PWDO 4 4 73Program Password Program Password ID Classes Parameters OxFO1 GPRW EN PWD3 PWD2 PWD1 PWDO EN Enable Programming 1 Disable Programming 0 Revision 0 1 Page 41 of 43 The parameters PWDO 3 form a hex encoded number The range of each must be 0 9 4 74 Version Number Version Number ID Classes Parameters OxF20 G This command returns the current firmware version number as a hex encoded string The format is Major 2 bytes Minor 2 bytes Fix 2 bytes Build 2 bytes Example If the current version is 01 00 05 00 the command GF20 CR would return 01000500 4 75 Version Upgrade Version Upgrade ID Classes Parameters OxF21 P SEL This command forces a firmware upgrade followed by a
15. aSi ne Res iaia Faida 16 4 16 Safety Conflgurallon reete etui oinnes oct EENS gege 17 4 17 Loop Break Configuration eceerace nnne tnn nan iaa ten 18 4 18 SetPoint Low LIMito iinit anihan iraniana naei tento eS foeni tan teen chere xb ree n sea icaRUE 18 4 19 Set Polnt High Limit corner return ro emnt etian un adnan Rain EEN 18 4 20 Serial Communication Address eese nnn 19 4 21 USB Communication AddresSsS w rrnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 19 4 22 Ethernet Communication AddreSsS rssvvvvnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnner 19 4 23 Serial Communication Config rrrrrnnnnnnnnvvvvnnnnnnnnnnnnnnvvnnnvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnee 19 4 24 Serial Data Mode Config sasvvvvnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnner 21 425 Serial Modbus Modle rri rrr nenne tnn eno EE annama SEN 21 426 Serial Data Format eae eee 22 4 27 Serial Communications Parameters ssvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnne 23 4 28 USB Communications Configuration rrnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnneer 24 Revision 0 1 Page 1 of 43 4 29 4 30 4 31 4 32 4 33 4 34 4 35 4 36 4 37 4 38 4 39 4 40 4 41 4 42 4 43 4 44 4 45 4 46 4 47 4 48 4 49 4 50 4 51 4 52 4 53 4 54 4 55 4 56 4 57 4 58 4 59 4 60 4 6
16. an be assigned 2 1 3 USB Virtual Comm This is used for point to point connections the same as RS 232 2 1 4 Ethernet The serial protocol is transmitted using TCP IP on port 2000 Revision 0 1 Page 6 of 43 3 Protocol Description 3 1 Protocol The protocol is command response based on 4 command classes Get G Put P Read R and Write W A Get is used to read the current value resident in RAM a Put is used to write a parameter to RAM without committing it to non volatile memory A Read is used to retrieve the value of a parameter stored in non volatile memory and a write is used to commit a parameter value to non volatile memory 3 2 Command Structure The overall structure of a command packet is as follows A start of frame SOF character usually A command class GPRW A command ID a hex number identifying the message A mandatory space if there are parameters following the command ID A parameter List An end of frame EOF character usually a carriage return A unit address is optional An address is a hex encoded number in the range 0 199 00 C7 hex between the start of frame and the command class For example to get the current process value without an address would be G110 lt CR gt In this case the command class is G the command ID is 110 hex and this command takes no parameters If this were addressed to unit 100 hex value 64 the command would be 64G110 lt
17. defective it will be repaired or replaced at no charge OMEGA s WARRANTY does not apply to defects resulting from any action of the purchaser including but not limited to mishandling improper interfacing operation outside of design limits improper repair or unauthorized modification This WARRANTY is VOID if the unit shows evidence of having been tampered with or shows evidence of having been damaged as a result of excessive corrosion or current heat moisture or vibration improper specification misapplication misuse or other operating conditions outside of OMEGA s control Components in which wear is not warranted include but are not limited to contact points fuses and triacs OMEGA is pleased to offer suggestions on the use of its various products However OMEGA neither assumes responsibility for any omissions or errors nor assumes liability for any damages that result from the use of its products in accordance with information provided by OMEGA either verbal or written OMEGA warrants only that the parts manufactured by the company will be as specified and free of defects OMEGA MAKES NO OTHER WARRANTIES OR REPRESENTATIONS OF ANY KIND WHATSOEVER EXPRESSED OR IMPLIED EXCEPT THAT OF TITLE AND ALL IMPLIED WARRANTIES INCLUDING ANY WARRANTY OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE HEREBY DISCLAIMED LIMITATION OF LIABILITY The remedies of purchaser set forth herein are exclusive and the total liability of OMEGA with res
18. eters ML Value float PR Process Range Value Range 4 20mA Revision 0 1 1 0 24 mA 2 NS 3 NS 4 NS 5 10 Vdc 6 1 0 Vdc 7 0 1 Vdc ML Manual Live Value Range 0 Manual Mode 1 Live Mode NS not currently supported 4 11 Process Range Input 1 Low Process Range Input Low ID Classes Parameters 0x131 GPRW PR ML Value float The parameters PR and ML are the same as defined for command ID 0x130 Revision 0 1 Page 14 of 43 4 12Process Range Reading 2 High Process Range Reading High ID Classes Parameters 0x132 GPRW PR ML Value float The parameters PR and ML are the same as defined for command ID 0x130 4 13Process Range Input 2 High Process Range Input High ID Classes Parameters 0x133 GPRW PR ML Value float The parameters PR and ML are the same as defined for command ID 0x130 4 14 Display Configuration Display Configuration ID Classes Parameters 0x200 GPRW DP UNIT COLOR BRT The parameters are as follows DP Decimal Point Value Effect 0 Display as F FFF 1 Display as FF FF Revision 0 1 Page 15 of 43 Units Value Effect 0 No units applied 1
19. he output number 1 4 RD Reverse Direct Value Action 0 Reverse 1 Direct 4 520utput Alarm Configuration Output Alarm Configuration ID Classes Parameters Revision 0 1 Page 33 of 43 0x620 G NAL TYP MODE COLOR HHEN LAT CNT PO NAL is the alarm number 1 2 TYP Alarm Type 0 Alarm not active 1 Alarm triggered if PV gt ALM H 2 Alarm trigger if PV lt ALM L 3 Alarm trigger if PV gt ALM H or PV lt ALM L 4 Alarm trigger if PV gt ALM L and PV lt ALM H MODE Alarm Mode Value Mode 0 Alarm setpoint is fixed constant 1 Alarm is offset from Setpoint 1 2 Alarm is offset from Setpoint 2 Color Value Alarm Color 0 No color 1 GREEN 2 RED 3 AMBER HHEN HiHi Mode Value Action 0 Enable Hi Hi Mode 1 Disable Hi Hi Mode Revision 0 1 Page 34 of 43 Value LAT Alarm Latch Control Action Alarm does not latch Alarm state will be latched clear by front panel Alarm state will be latched clear by digital input Alarm state latched clear by front panel or input CNT Contact Polarity Value Polarity Contacts OPEN until activated Contacts CLOSED until activated PO Power On Enable Not active on power on 4 53Hi Value Active on power on Classes Alarm Hi Value Parameters
20. iltering Example To set input filter to x2 W101 1 lt CR gt 4 3 Current Reading Current Reading ID Classes Parameters 0x110 G This does not take any parameters Example To get current process reading G110 lt CR gt Revision O 1 4 4 Peak Reading Peak Reading ID Classes Parameters 0x111 G This command does not take any parameters 4 5 Valley Reading Valley Reading ID Classes Parameters 0x112 G This command does not take any parameters 4 6 TC Calibration Type TC Calibration Type ID Classes Parameters 0x120 GPRW Mode The parameters are as follows Mode Value Effect 0 No Calibration 1 1 Point 2 2 Point 3 Ice Point Revision 0 1 Page 12 of 43 4 7 TC Calibration Single Point TC Calibration Single Point ID Classes Parameters 0x121 GPRW Value float 48 TC Calibration Double Point Low TC Calibration Double Point Low ID Classes Parameters 0x122 GPRW Value float 49 TC Calibration Double Point High TC Calibration Double Point High ID Classes Parameters 0x123 GPRW Value float 4 10Process Reading 1 Low Process Reading 1 Low ID Classes 0x130 GPRW PR Param
21. ission Reading 2 Output Retransmission Reading 2 ID Classes Parameters 0x632 GPRW NOUT Reading Value float variable length NOUT output number 1 4 Revision 0 1 Page 37 of 43 4 62 Output Retransmission Output 2 Output Retransmission Output 2 ID Classes Parameters 0x633 GPRW NOUT Output Value float variable length NOUT output number 1 4 4 63 Output Cycle Time Pulse Width Output Cycle Time Pulse Width ID Classes Parameters 0x650 GPRW NOUT Cycle Time seconds float variable length NOUT output number 4 64 Output Range Output Range ID Classes Parameters 0x660 GPRW NOUT RANGE RANGE Value Range 0 0 10V 1 0 5V 2 0 20V 3 4 20V 4 0 24V Revision 0 1 Page 38 of 43 4 65Time Format Time Format ID Classes Parameters 0x700 GPRW FMT FMT Time Format 0 MM SS displayed 1 HH MM displayed 2 S MMM displayed 4 66 Multi Ramp Soak Configuration Ramp Soak Config ID Classes Parameters 0x720 GPRW RS RS Ramp Soak Mode 0 Ramp Soak Disabled 1 Ramp Soak Enabled 2 Ramp Soak Remote Control 4 67 Multi Ramp Soak Profile Configuration Multi Ramp Soak Profile Config
22. nnnnnnnnnnnnnnnennnnnnnennnnnnennnnnnnennnnnnnnennnnnnnennnnnnnennnnnnnvennnnnnr 43 Set Factory ET uses 43 Revision 0 1 Page 3 of 43 1 Introduction 1 1 Purpose The following document defines the use of the Platinum Series Serial Communications Protocol 1 2 Definition of Terms and Acronyms Sensor Element One of the physical sensing elements on a Smart Output AC Alternating Current DC Direct Current CS Chip Select ADC Analog to Digital Converter DAC Digital to Analog Converter RS485 Electrical signals used for serial communications RS232 Electrical signals used for serial communications CSV Comma Separated Values COTS Commercially Off The Shelf ESD Electo Static Discharge FW Firmware HW Hardware IO Input Output LED Light Emitting Diode Hexadecimal Values expressed using base 16 2 Revision 0 1 Page 4 of 43 1 3 Applicable Documents Doc Name Description Rev 4 Omega Engineering Coding Standard Rev 1 2 0 Revision 0 1 Page 5 of 43 2 Hardware 2 1 Communications Interfaces The Platinum Series Protocol is designed to be an updated version of the original iSeries protocol which can be used over serial connections using RS 232 RS 485 USB and serial over Ethernet 2 1 1 RS 232 This is for point to point connections at baud rates up to 115 200 Hardware flow control is not supported 2 1 2 RS 485 This can be used for multi point connections Up to 200 individual addresses c
23. pect to this order whether based on contract warranty negligence indemnification strict liability or otherwise shall not exceed the purchase price of the component upon which liability is based In no event shall OMEGA be liable for consequential incidental or special damages CONDITIONS Equipment sold by OMEGA is not intended to be used nor shall it be used 1 as a Basic Component under 10 CFR 21 NRC used in or with any nuclear installation or activity or 2 in medical applications or used on humans Should any Product s be used in or with any nuclear installation or activity medical application used on humans or misused in any way OMEGA assumes no responsibility as set forth in our basic WARRANTY DISCLAIMER language and additionally purchaser will indemnify OMEGA and hold OMEGA harmless from any liability or damage whatsoever arising out of the use of the Product s in such a manner RETURN REQUESTS INQUIRIES Direct all warranty and repair requests inquiries to the OMEGA Customer Service Department BEFORE RETURNING ANY PRODUCT S TO OMEGA PURCHASER MUST OBTAIN AN AUTHORIZED RETURN AR NUMBER FROM OMEGA S CUSTOMER SERVICE DEPARTMENT IN ORDER TO AVOID PROCESSING DELAYS The assigned AR number should then be marked on the outside of the return package and on any correspondence The purchaser is responsible for shipping charges freight insurance and proper packaging to prevent breakage in transit FOR WARRANTY RETUR
24. red Pyrometers PRESSURE STRAIN AND FORCE At Transducers amp Strain Gages LF Load Cells amp Pressure Gages 4 Displacement Transducers A Instrumentation amp Accessories FLOW LEVEL A Rotameters Gas Mass Flowmeters amp Flow Computers G Air Velocity Indicators it Turbine Paddlewheel Systems Totalizers amp Batch Controllers pH CONDUCTIVITY At pH Electrodes Testers amp Accessories G Benchtop Laboratory Meters 4 Controllers Calibrators Simulators amp Pumps 4 Industrial pH amp Conductivity Equipment DATA ACQUISITION A Data Acquisition amp Engineering Software 4 Communications Based Acquisition Systems G Plug in Cards for Apple IBM amp Compatibles li Data Logging Systems Recorders Printers amp Plotters HEATERS L Heating Cable L Cartridge amp Strip Heaters L Immersion amp Band Heaters Flexible Heaters 4 Laboratory Heaters ENVIRONMENTAL MONITORING AND CONTROL G Metering amp Control Instrumentation Refractometers LY Pumps amp Tubing A Air Soil amp Water Monitors 4 Industrial Water amp Wastewater Treatment PRELIMINARY 4 pH Conductivity amp Dissolved Oxygen Instruments M5452 0315
25. sses Parameters 0x421 GPRW PR Setpoint Value float variable length The process range parameter PR is as defined for the Remote Process Range Setpoint Min command ID 0x420 Revision 0 1 Page 29 of 43 4 43 PID Configuration PID Configuration ID Classes Parameters 0x500 GPRW CA AC CA Control Action Value Action 0 Output active if P V lt Setpoint 1 Output active if P V gt Setpoint AC Adaptive Control Value Action 0 Enable Adaptive Control 1 Disable Adaptive Control 4 44 PID Low Clamping Limit PID Low Clamping Limit ID Classes Parameters 0x501 GPRW CLMS CLLS The hex encoded byte fields CLMS CLLS form the hex representation of the limit percent 0 100 For example if the limit were to be 35 decimal the hex representation would be 23 so CLMS would equal 2 and CLLS 3 Revision 0 1 Page 30 of 43 4 45PID High Clamping Limit PID High Clamping Limit Classes Parameters 0x502 GPRW CLMS CLLS The encoding of the high clamping limit is the same as for the low clamping limit 4 46 PID P Parameter PID P Parameter ID Classes Parameters 0x503 GPRW P parameter Value float variable length 4 47PID I Parameter PID I Parameter
26. t Process Range Value Range 0 4 20V 1 0 24V 2 0 10V Revision 0 1 Page 27 of 43 3 0 1V 4 38Setpoint 2 Setpoint 2 ID Classes Parameters 0x410 GPRW TYPE Setpoint Value variable length float TYPE Setpoint Type Value Action 0 Setpoint value given as fixed constant 1 Setpoint value is deviation Setpoint 1 value 4 39 Remote Process Range Setpoint Min Remote Process Range Setpoint Minimum ID Classes 0x420 GPRW Parameters PR Setpoint Value float variable length The parameters are as follows PR Output Process Range Revision 0 1 Page 28 of 43 Value Range 0 4 20V 1 0 24V 2 0 10V 3 0 1V 4 40 Remote Process Range Setpoint Max Remote Process Range Setpoint Maximum ID Classes Parameters 0x422 GPRW PR Setpoint Value float variable length The process range parameter PR is as defined for the Remote Process Range Setpoint Min command ID 0x420 4 41Remote Process Range Input Max Remote Process Range Input Maximum ID Classes Parameters 0x423 GPRW PR Setpoint Value float variable length The process range parameter PR is as defined for the Remote Process Range Setpoint Min command ID 0x420 4 42Remote Process Range Input Min Remote Process Range Input Minimum ID Cla
27. t defined Manufacturing Ice Point eeeees Error Bookmark not defined TC Calibration Positive Scale Value Error Bookmark not defined TC Calibration Negative Scale Value Error Bookmark not defined Revision 0 1 Page 2 of 43 4 76 4 77 4 78 4 79 4 80 4 81 4 82 4 83 4 84 4 85 4 86 4 87 4 88 4 89 4 90 TC Calibration Offset Value eee Error Bookmark not defined RTD Calibration Scale Value Error Bookmark not defined RTD Calibration Offset Value Error Bookmark not defined Thermistor Calibration Scale Value Error Bookmark not defined Thermistor Calibration Scale Value 2 Error Bookmark not defined Thermistor Calibration Offset Value Error Bookmark not defined Process Calibration Positive Scale Value Error Bookmark not defined Process Calibration Negative Scale Value Error Bookmark not defined Process Calibration Offset Value Error Bookmark not defined INIT GE e DEE 41 Program Ed BE 41 Version Numbber inna Essi vaa Vua ca nan V erh aana Ee ege Age LEN Du a gu ERR o EUER A a agoe ie 42 Version Upgrade icici eei inn oe eh NEEN 42 Bootloader Version rrr annnnun
28. tions Configuration ID Classes Parameters 0x330 GPRW PROT DM LFE ECHO SEP The usage of the parameters for this command is the same as for the Serial Communications Configuration ID 0x310 4 33 Ethernet Data Mode Configuration Ethernet Communications Data Mode Config ID Classes Parameters 0x331 GPRW MODE Interval seconds float The usage of the parameters for this command is the same as for the Serial Communications Data Mode ID 0x311 4 34 Ethernet Data Format Ethernet Data Format ID Classes Parameters 0x332 GPRW AS RE PE VE UE The usage of the parameters for this command is the same as for the Serial Data Format command ID 0x312 4 35 Ethernet Modbus Mode Ethernet Modbus Mode ID Classes Parameters Revision 0 1 Page 26 of 43 0x333 GPRW MODE MODE Modbus 0 RTU 1 ASCII 4 36Setpoint 1 Setpoint 1 ID Classes Parameters 0x400 GPRW Setpoint Value variable length float 4 37Remote Setpoint Configuration Remote Setpoint Configuration ID Classes Parameters 0x401 GPRW EN PR EN Enable Remote Setpoint Value Action 0 Enable Remote Setpoint 1 Disable Remote Setpoint PR Outpu
29. tput ON OFF Configuration sssvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnenn 33 Output Alarm Configuration eeeeeeeeeeeeee nennen nennen nennen nnns 33 Hi V UE ane 35 Low Valde use 35 ON DOLBY p n M 36 eelerer eege 36 ull Ln Ime 36 Re Lisas 37 Output Retransmission Reading 1 cereus 37 Output Retransmission Output 1 errnnnnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 37 Output Retransmission Reading 2 eese 37 Output Retransmission Output 2 ssvvrnnnnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnnnnnnnnnnennnnnnnnnnnnnennnnnnn 38 Output Cycle Time Pulse Width rnnnnnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnnnnnnnnr 38 Output Fange rmm 38 Time Format aa 39 Multi Ramp Soak Configuration rrnnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn 39 Multi Ramp Soak Profile Configuration sssvvvrnnnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnvvnnennnnnnnn 39 Multi Ramp Soak Segment Event Configuration ceres 40 Multi Ramp Soak Profile Segment Ramp Time eere 40 Multi Ramp Soak Profile Segment Soak Process Value 40 Multi Ramp Soak Profile Segment Soak Time eene 41 Start Gallbratlon onte Error Bookmark no
30. us Mode ID Classes Parameters Revision 0 1 Page 21 of 43 0x314 GPRW MODE MODE Modbus Value Mode 0 RTU 1 ASCII 4 26 Serial Data Format Serial Data Format ID Classes Parameters 0x312 GPRW AS RE PE VE UE AS Alarm Status Enabled in Continuous Mode Value Voltage 0 Don t send alarm status in cont mode 1 Send alarm status RE Readings Enabled in Continuous Mode Value Voltage 0 Don t send readings in cont mode 1 Send readings PE Peak Readings Enabled in Continuous Mode Value Voltage 0 Don t send peak readings in cont mode 1 Send peak readings Revision 0 1 Page 22 of 43 VE Valley Readings Enabled in Continuous Mode Value Voltage 0 Don t send valley readings in cont mode 1 Send valley readings UE Valley Readings Enabled in Continuous Mode Value Voltage 0 Don t append measurement units in cont mode 1 Append measurement units in cont mode 4 27 Serial Communications Parameters Serial Communications Parameters ID Classes Parameters 0x313 GPRW MODE BR PAR DB SB MODE Serial Mode Value Mode 0 RS232 1 RS485 BR Serial Baud Rate Value Rate 0 300 Baud 1 600 Baud 2 1200 Baud
31. x format For example to encode 100 minutes MINMS 6 MINLS 4 64 hex The second s portion of the loop break time is similarly defined in SECMS SECLS 4 18Set Point Low Limit Set Point Low Limit ID Classes Parameters 0x222 GPRW Value float 4 19Set Point High Limit Set Point High Limit ID Classes Parameters Revision 0 1 Page 18 of 43 0x223 GPRW Value float 4 20 Serial Communication Address Serial Communications Address ID Classes Parameters 0x300 GPRW AMS ALS The parameters are as follows AMS and ALS are the most significant and least significant nibble of the serial communications address in hex format The address must be in the range 0 to 199 decimal For example if an address of 100 decimal is to be used the hex value of the address would be 0x64 so AMs would be 6 and ALS would be 4 4 21 USB Communication Address USB Communications Address ID Classes Parameters 0x301 GPRW AMS ALS The format and parameter usage is the same as for the serial communications address 4 22 Ethernet Communication Address Ethernet Communications Address ID Classes Parameters 0x302 GPRW AMS ALS The format and parameter usage is the same as for the serial communications address 4 23Serial Communication Config
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