Characteristics: Front Panel and Features: Ordering Information: Model: D7 D7 General Description: The single and dual channel DIN Rail Temperature Signal Converter D7S and D7D accepts a low level dc signal from millivolt, thermocouple or RTD temperature sensor, located in Hazardous Area, and converts, with isolation, the signal to drive a Safe Area load. Output signal can be direct or reverse. Duplicator function provides two independent outputs for the single input. Adder, subtractor, low/high selector functions provides two independent outputs representing input A, input B, input A plus input B, input A minus input B, low/high selector. Function: 1 or channel I.S. input from m, thermocouples, 34 wires resistance thermometers, transmitting potentiometers, provides 3 port isolation (input/output/supply) and current (source mode) or voltage output signal. Duplicator, adder, subtractor, low/high selector function provided. The programmable RTD line resistance compensation allows the use of wires RTDs or error compensation for 34 wires RTDs. Reference junction compensation can be automatic, with option 1, or fixed by software setting. Signalling LEDs: Power supply indication (green), burnout (red). Configurability: Totally software configurable, no jumpers or switches, input sensor, connection mode, burnout operation, ma or output signal, by GM Pocket Portable Configurator PPC0, powered by the unit or configured by PC via RS3 serial line with PPC Adapter and SWC0 Configurator software. A characters tag can be inserted using SWC0 Configurator software. To operate PPC0 or PPC refer to instruction manual. EMC: Fully compliant with CE marking applicable requirements. 1 3 4 7 8 C O N F PWR BURN 1 channel channels D7 1 Power Bus enclosure Ref. Junction ( input) OPT1 SIL according to IEC (for current output) D7S:Tproof / yrs ( % / > % of total SIF) PFDavg (1 year) 3.3 E04, SFF 7.1 %; D7D:Tproof / yrs ( % / > % of total SIF) PFDavg (1 year) 3.74 E04, SFF 7.40 %. Input from Zone 0 (Zone 0), Division 1, installation in Zone, Division. m, thermocouples, RTD or transmitting potentiometers Input Signal. Programmable RTD line resistance compensation. Compensation automatic or fixed (programmable value). 0/40 ma, 0/, 0/ Output Signal temperature linear or reverse. Duplicated output for single channel input. Adder, Subtractor, low/high Selector. characters tag for each channel. Common burnout detection available when using Power Bus enclosure. High Accuracy, µp controlled A/D converter. Three port isolation, Input/Output/Supply. EMC Compatibility to EN00, EN004. Fully programmable operating parameters. ATEX, IECEx, UL & CUL, FM & FMC, INMETRO, EACEX, UKR TR n. 88, TÜ Certifications. TÜ Functional Safety Certification. Type Approval Certificate DN and KR for maritime applications. High Reliability, SMD components. High Density, two channels per unit. Simplified installation using standard DIN Rail and plugin terminal blocks. 0 rms (Um) max. voltage allowed to the instruments associated with the barrier. /B Operating parameters are programmable by the GM Pocket Portable Configurator PPC0 or via RS3 serial line with PPC Adapter and SWC0 Configurator software. If the parameters are provided with the purchasing order the unit will be configured accordingly, otherwise the unit will be supplied with default parameters. NOTE: for thermocouple sensor input, the is required for automatic ambient temperature compensation. It has to be ordered as OPT1, it will be supplied separately and it has to be connected to the input terminal blocks as indicated in the function diagram. G.M. International DTS003 Page 1/ S D Power Bus and DINRail accessories: DIN rail anchor MCHP0 DIN rail stopper MOR0 Terminal block male MOR017 Terminal block female MOR0 SIL Temperature Signal Converter, Duplicator, Adder/Subtractor DINRail Models D7S, D7D Technical Data: Supply: 14 dc nom ( to 30 dc) reverse polarity protected, ripple within voltage limits pp. Current consumption @ 4 : 70 ma for channels D7D, 4 ma for 1 channel D7S with 0 ma output typical. Current consumption @ 1 : 0 ma for channels D7D, 80 ma for 1 channel D7S with 0 ma output typical. Power dissipation: 1. W for channels D7D, 1.0 W for 1 channel D7S with 4 supply voltage and 0 ma output typical. Max. power consumption: at 30 supply voltage, overload condition and PPC0 connected,.1 W for channels D7D, 1.4 W for 1 channel D7S. Isolation (Test oltage): I.S. In/. K; I.S. In/Supply 1. K; I.S. In/I.S. In 00 ; Out/Supply 00 ; Out/Out 00. Input: millivolt or thermocouple type A1, A, A3, B, E, J, K, L, Lr, N, R, S, S1, T, U or 34 wires RTD Pt0, Pt00, Pt300 to DIN4370, Pt0 (0.3), Ni0, Ni or Pt00, Pt0, Pt0, Cu0, Cu3, Cu0, Cu4 (russian standard) or 3 wires transmitting potentiometer (0 Ω to 0 KΩ). Integration time: 00 ms. Resolution: µ on m or thermocouple, 1 µ thermocouple type B, R, S, S1, µ thermocouple A1, A, A3, 0 mω on RTD, 0.0 % on transmitting potentiometer. isualization: 0.1 C on temperature, µ on m, 0.1 % on potentiometer. Input range: within rated limits of sensor ( to 80 m). Measuring RTD current: 0. ma. RTD line resistance compensation: Ω. RTD line resistance error compensation: to 0 Ω, programmable. Thermocouple Compensation: automatic, by external sensor OPT1 separately ordered, or fixed programmable from 0 to 0 C. Thermocouple burnout current: 30 na. Burnout: enabled or disabled. Analog output can be programmed to detect burnout condition with downscale or highscale forcing. Burnout condition signalled by red front panel LED. Output: 0/4 to 0 ma, on max. 00 Ω load source mode, current limited at ma or 0/1 to or 0/ to signal, limited at. Resolution: µa current output or 1 m voltage output. Transfer characteristic: linear or reverse on m or transmitting potentiometer, temperature linear or reverse on temperature sensors. Response time: 0 ms ( to 0 % step change). Output ripple: 0 mrms on 0 Ω load. Performance: Ref. Conditions 4 supply, 0 Ω load, 3 ± 1 C ambient temperature. Input: Calibration and linearity accuracy: ± 40 µ on m or thermocouple, 00 mω on RTD, 0. % on potentiometer or ± 0.0 % of input value. Temperature influence: ± µ, 0 mω, 0.0 % or ± 0.01 % of input value for a 1 C change. Ref. Junction Compensation influence: ± 1 C (thermocouple sensor). Analog Output: Calibration accuracy: ± 0.1 % of full scale. Linearity error: ± 0.0 % of full scale. Supply voltage influence: ± 0.0 % of full scale for a min to max supply change. Load influence: ± 0.0 % of full scale for a 0 to 0 % load resistance change. Temperature influence: ± 0.01 % on zero and span for a 1 C change. Compatibility: CE mark compliant, conforms to Directive: 0/34/EU ATEX, 0/30/EU EMC, 0/3/EU LD, 0//EU RoHS. Environmental conditions: Operating: temperature limits 0 to 0 C, relative humidity max 0 % non condensing, up to 3 C. Storage: temperature limits 4 to 80 C. Safety Description: ATEX: II (1) G [Ex ia Ga] IIC, II (1) D [Ex ia Da] IIIC, I (M1) [Ex ia Ma] I, II 3G Ex na IIC T4 Gc IECEx / INMETRO: [Ex ia Ga] IIC, [Ex ia Da] IIIC, [Ex ia Ma] I, Ex na IIC T4 Gc associated electrical apparatus. Uo/oc.8, Io/Isc ma, Po/Po 4 mw at terminals, 1. Ui/max 18, Ci nf, Li 0 nh at terminals, 1. Um 0 rms, 0 C Ta 0 C. Approvals: DMT 01 ATEX E 04 X conforms to EN0070, EN007, EN007. IECEx BS 07.007X conforms to IEC0070, IEC007, IEC007. IMQ 0 ATEX 0 X conforms to EN0070, EN007. IECEx IMQ.00X conforms to IEC0070, IEC007. UL & CUL E308 conforms to UL, UL 0070, UL007, UL007, ANSI/ISA 1.1.01 for UL and CSAC. No.7, CSAE0070, CSAE007, CSAC. No. and CSAE007 for CUL. FM & FMC No. 30443, 301C, conforms to Class 300, 3, 3, 38, ANSI/ISA 1.1.0, ANSI/ISA 0070, ANSI/ISA 007, C. No., C. No.7, C. No., E0070, E007, E007. CIT.MH04.B.0030 conforms to GOST R IEC 0070,GOST R IEC 007, GOST R IEC 007. CЦ.0034 X conforms to ДСТУ 71, ГОСТ 78.78, ДСТУ IЕС 007. TU Certificate No. CIS3180, SIL according to IEC. DN No.A778 and KR No.MIL07EL001 Certificates for maritime applications. Mounting: T3 DIN Rail according to EN00. Weight: about 170 g D7D, 0 g D7S. Connection: by polarized plugin disconnect screw terminal blocks to accomodate terminations up to. mm. Location: Safe Area/Non Hazardous Locations or Zone, Group IIC T4, Class I, Division, Groups A, B, C, D Temperature Code T4 and Class I, Zone, Group IIC, IIB, IIA T4 installation. Protection class: IP 0. Dimensions: Width. mm, Depth mm, Height 1. mm. www.gmintsrl.com
Parameters Table: Image: Safety Description Maximum External Parameters Terminals, 1 Uo/oc.8 Io/Isc ma Po/Po 4 mw Group Cenelec IIC IIB IIA I IIIC Co/Ca (µf).4.4.4 8.4 NOTE for USA and Canada: IIC equal to Gas Groups A, B, C, D, E, F and G IIB equal to Gas Groups C, D, E, F and G IIA equal to Gas Groups D, E, F and G Lo/La (mh) 48 1874 374 0 1874 Lo/Ro (µh/ω) 00 10 180 00 Function Diagram: HAZARDOUS AREA ZONE 0 (ZONE 0) GROUP IIC, HAZARDOUS LOCATIONS CLASS I, DIISION 1, GROUPS A, B, C, D, CLASS II, DIISION 1, GROUPS E, F, G, CLASS III, DIISION 1, SAFE AREA, ZONE GROUP IIC T4, NON HAZARDOUS LOCATIONS, CLASS I, DIISION, GROUPS A, B, C, D ode T4, CLASS I, ZONE, GROUP IIC T4 MODEL D7D In 1 3 4 Supply 14 dc 1 Out MODEL D7D 3 4 Supply 14 dc 1 1 Out In G.M. International DTS00 Page /
Function Diagram: HAZARDOUS AREA ZONE 0 (ZONE 0) GROUP IIC, HAZARDOUS LOCATIONS CLASS I, DIISION 1, GROUPS A, B, C, D, CLASS II, DIISION 1, GROUPS E, F, G, CLASS III, DIISION 1, SAFE AREA, ZONE GROUP IIC T4, NON HAZARDOUS LOCATIONS, CLASS I, DIISION, GROUPS A, B, C, D ode T4, CLASS I, ZONE, GROUP IIC T4 MODEL D7D (Duplicator) 3 4 Supply 14 dc 1 A B MODEL D7D (Duplicator) 3 4 Supply 14 dc 1 A B G.M. International DTS00 Page 3/
Function Diagram: HAZARDOUS AREA ZONE 0 (ZONE 0) GROUP IIC, HAZARDOUS LOCATIONS CLASS I, DIISION 1, GROUPS A, B, C, D, CLASS II, DIISION 1, GROUPS E, F, G, CLASS III, DIISION 1, SAFE AREA, ZONE GROUP IIC T4, NON HAZARDOUS LOCATIONS, CLASS I, DIISION, GROUPS A, B, C, D ode T4, CLASS I, ZONE, GROUP IIC T4 In A In B 1 MODEL D7D Adder, Subtractor, Low/High Selector Output repeats input A, B, (AB)/ or AB 3 4 Supply 14 dc 1 ma ma RL RL Out In A MODEL D7D Adder, Subtractor, Low/High Selector Output repeats input A, B, (AB)/ or AB 3 4 Supply 14 dc 1 ma RL 1 Out In B G.M. International DTS00 Page 4/
Function Diagram: HAZARDOUS AREA ZONE 0 (ZONE 0) GROUP IIC, HAZARDOUS LOCATIONS CLASS I, DIISION 1, GROUPS A, B, C, D, CLASS II, DIISION 1, GROUPS E, F, G, CLASS III, DIISION 1, SAFE AREA, ZONE GROUP IIC T4, NON HAZARDOUS LOCATIONS, CLASS I, DIISION, GROUPS A, B, C, D ode T4, CLASS I, ZONE, GROUP IIC T4 MODEL D7S 3 4 Supply 14 dc 1 MODEL D7S 3 4 Supply 14 dc 1 G.M. International DTS00 Page /
Friendly Configuration with SWC0 Software and PPC Adapter or Pocket Portable Configurator PPC0: Configuration Parameters: INPUT SECTION: Sensor: input sensor type A1 thermocouple to STI0, GOST R8.8 001 range from to 00 C A thermocouple to STI0, GOST R8.8 001 range from to 1800 C A3 thermocouple to STI0, GOST R8.8 001 range from to 1800 C B thermocouple to STI0, NBS1, GOST R8.8 001 range from 0 to 1800 C E thermocouple to STI0, NBS1, GOST R8.8 001 range from 0 to 00 C J thermocouple to STI0, NBS1, GOST R8.8 001 range from 00 to 70 C K thermocouple to STI0, NBS1, GOST R8.8 001 range from 0 to 0 C L thermocouple to SIPT8, DIN437 range from 00 to 800 C Lr thermocouple to STI0, GOST R8.8 001 range from 00 to 800 C N thermocouple to STI0, NBS, GOST R8.8 001 range from 0 to 00 C R thermocouple to STI0, NBS1, GOST R8.8 001 range from 0 to 170 C S thermocouple to STI0, NBS1, GOST R8.8 001 range from 0 to 170 C S1 thermocouple type S1 to SIPT8, russian range from 0 to 00 C T thermocouple to STI0, NBS1, GOST R8.8 001 range from 0 to 400 C U thermocouple to SIPT8, DIN437 range from 00 to 400 C Pt 0 thermoresistance α38 to SIPT8, IEC71 range from 00 to 80 C Pt 00 thermoresistance α38 to SIPT8, IEC71 range from 0 to 400 C Pt 300 thermoresistance α38 to SIPT8, IEC71 range from 0 to 0 C Pp 0 thermoresistance α3 to SIPT8, ANSI range from 00 to C Pi 00 thermoresistance α31 to SIPT8, russian range from 00 to 7 C Pi 0 thermoresistance α31 to SIPT8, russian range from 00 to 0 C Pi 0 thermoresistance α31 to SIPT8, russian range from 00 to 0 C Ni 0 thermoresistance to SIPT8, DIN4370 range from 0 to 180 C Ni thermoresistance α7 to SIPT8, russian range from 7 to 300 C Cu 0 thermoresistance to SIPT8, russian range from 0 to 00 C Cu 3 thermoresistance to SIPT8, russian range from 0 to 180 C Cu 0 thermoresistance to SIPT8, russian range from 0 to 00 C Cu 4 thermoresistance to SIPT8, russian range from 00 to 0 C Pot 3 wires transmitting potentiometer, 0 Ω to 0 KΩ, range from 0 to 0 % E DC millivolt signal range from 0 to 8 m Lead: input sensor connection type (thermoresistance only) 3 wire 3 wires connection type 4 wire 4 wires connection type Downscale: input value of measuring range corresponding to defined low output value. Upscale: input value of measuring range corresponding to defined high output value. Cold Junction: reference junction compensation type (thermocouple only) Automatic ambient temperature compensation automatic by OPT1 sensor Fixed programmable temperature compensation at fixed temperature CJ Reference: temperature compensation value (Cold Junction type Fixed only), range from 0 to 0 C. RTD line resist: line resistance error compensation value (thermoresistance only), range from to 0 Ω. INPUT TAG SECTION: 1: first channel tag : second channel tag OUTPUT SECTION: Output: analog output type 40 ma current output range from 4 to 0 ma (for SIL applications) 00 ma current output range from 0 to 0 ma voltage output range from 1 to 0 voltage output range from 0 to voltage output range from to 0 voltage output range from 0 to Burnout: analog output burnout state None burnout function is disabled; analog output represents the input measure as configured Downscale analog output is forced at ma Burnout or Burnout lower value Upscale analog output is forced at ma Burnout or Burnout higher value Function: analog output function Ch. A analog output represents input of first channel Ch. B analog output represents input of second channel Add analog output represents the sum of the two input channels: (AB)/ Sub analog output represents the difference of the two input channels: AB High Ch analog output represents the higher of the two input channels Low Ch analog output represents the lower of the two input channels Output Limits: current or voltage analog output normal working range limits or burnout detection range limits: ma working: current analog output range in normal working condition. ma Burnout: current analog output lower and higher value for burnout signalation. working: voltage analog output range in normal working condition. Burnout: voltage analog output lower and higher value for burnout signalation. Each channel has independent configurations. Each channel has independent configurations. G.M. International DTS00 Page /