background image

 

D1014 

- SIL 2 Repeater Power Supply Hart compatible 

G.M. International ISM0052-16 

Parameters Table 

Must 

be 

Hazardous Area/ 

Hazardous Locations 

Device Parameters 

D1014 Associated 

Apparatus Parameters 

Must 

be 

Hazardous Area/ 

Hazardous Locations 

Cable Parameters 

Uo / Voc = 25.2 V 

Ui / Vmax 

In the system safety analysis, always check the Hazardous Area/Hazardous Locations devices to conform with the related system documentation, if the device is Intrinsically Safe check 
its suitability for the Hazardous Area/Hazardous Locations and gas group encountered and that its maximum allowable voltage, current, power (Ui/Vmax, Ii/Imax, Pi/Pi) are not exceeded 
by the safety parameters (Uo/Voc, Io/Isc, Po/Po) of the D1014 series Associated Apparatus connected to it. Also consider the maximum operating temperature of the field device, check 
that added connecting cable and field device capacitance and inductance do not exceed the limits (Co/Ca, Lo/La, Lo/Ro) given in the Associated Apparatus parameters for the effective 
gas group. See parameters on

 

enclosure side and the ones indicated in the table below: 

D1014 Terminals 

Ch1 

Ch2 

14 - 15 

10 - 11 

Io / Isc = 93 mA 

Ch1 

Ch2 

14 - 15 

10 - 11 

Po / Po = 585 mW 

Ch1 

Ch2 

14 - 15 

10 - 11 

 

Ii/ Imax 

 

Pi / Pi 

 

D1014 Terminals 

Ch1 

Ch2 

14 - 15 

10 - 11 

D1014 Associated 

Apparatus Parameters 

Ci / Ci  C cable 

 

IIC (A, B) 

Co / Ca = 105 nF 
Co / Ca = 819 nF 

Co / Ca = 2.899 µF 

IIB (C) 
IIA (D) 

 

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 

For installations in which both the Ci and Li of the Intrinsically Safe apparatus exceed 1 % of the Co and Lo parameters of the Associated Apparatus (excluding the cable), 
then 50 % of Co and Lo parameters are applicable and shall not be exceeded 

(50 % of the Co and Lo become the limits which must include the cable such that 

Ci C cable 

 50 % of Co and Li  L cable 

 50 % of Lo). 

If the cable parameters are unknown, the following value may be used: Capacitance 60pF per foot (180pF per meter), Inductance 0.20µH per foot (0.60µH per meter). 
The Intrinsic Safety Entity Concept allows the interconnection of Intrinsically Safe devices approved with entity parameters not specifically examined in combination as a system 
when the above conditions are respected. 
For Division 1 and Zone 0 installations, the configuration of Intrinsically Safe Equipment must be FM approved under Entity Concept (or third party approved); 
for Division 2 installations, the configuration of Intrinsically Safe Equipment must be FM approved under non-incendive field wiring or Entity Concept (or third party approved). 

Co / Ca = 4.15 µF 

Co / Ca = 819 nF 

IIIC 

Ch1 

Ch2 

14 - 15 

10 - 11 

Li / Li L cable 

 

IIC (A, B) 

Lo / La = 4.1 mH 

Lo / La = 16.4 mH 
Lo / La = 32.8 mH 

IIB (C) 
IIA (D) 

Lo / La = 54 mH 

Lo / La = 16.4 mH 

IIIC 

Ch1 

Ch2 

14 - 15 

10 - 11 

Li / Ri device and 

L cable / R cable 

 

IIC (A, B) 

Lo / Ro = 60.7 µH/

 

Lo / Ro = 242.9 µH/

 

Lo / Ro = 485.8 µH/

 

IIB (C) 
IIA (D) 

Lo / Ro = 797.1 µH/

 

Lo / Ro = 242.9 µH/

 

IIIC 

Summary of Contents for D1014D

Page 1: ...D1014 SIL 2 Repeater Power Supply Hart compatible ISM0052 16 D1014S D1014D INSTRUCTION SAFETY MANUAL SIL 2 Repeater Power Supply Hart compatible DIN Rail Models D1014S D1014D ...

Page 2: ...ion accuracy 0 1 of full scale Linearity error 0 1 of full scale Supply voltage influence 0 05 of full scale for a min to max supply change Load influence 0 05 of full scale for a 0 to 100 load resistance change Temperature influence 0 01 on zero and span for a 1 C change Compatibility CE mark compliant conforms to Directive 2014 34 EU ATEX 2014 30 EU EMC 2014 35 EU LVD 2011 65 EU RoHS Environment...

Page 3: ...blocks 250 Vrms Um max voltage allowed to the instruments associated with the barrier Not used Terminal block connections HAZARDOUS AREA SAFE AREA Input Ch 2 for 2 wire Transmitters Input Ch 2 for 2 wire Transmitters Not used Not used Input Ch 1 for 2 wire Transmitters Input Ch 1 for 2 wire Transmitters Not used 9 10 11 12 13 14 15 16 Output Ch 1 for Current Source mode or Output Ch 1 for Voltage ...

Page 4: ...A D 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 For installations in which both the Ci and Li of the Intrinsically Safe apparatus exceed 1 of the Co and Lo parameters of the Associated Apparatus excluding the cable then 50 of Co and Lo parameters are applicable and shall not be exceeded 50 of the Co and...

Page 5: ...C SAFE AREA ZONE 2 GROUP IIC T4 NON HAZARDOUS LOCATIONS CLASS I DIVISION 2 GROUPS A B C D T Code T4 CLASS I ZONE 2 GROUP IIC T4 MODEL D1014D 14 15 3 4 1 2 RL mA mA V HHT Ch 1 Supply 12 24 Vdc Source I Source V Sink I Out 1 HHT 2 Wire Tx I In 1 10 11 5 6 RL mA mA V Source I Source V Sink I Out 2 2 Wire Tx In 2 RL RL HHT HHT I 7 8 Ch 2 Supply 12 24 Vdc MODEL D1014S 14 15 3 4 1 2 RL mA mA V HHT Ch 1 ...

Page 6: ...Safety logic solver is configured to detect High failures and does not automatically trip on these failures this failure mode has been classified as a dangerous detected DD failure Fail Low failure mode that causes the output signal to go below the minimum output current 4 mA Assuming that the application program in the Safety logic solver is configured to detect Low failures and does not automati...

Page 7: ...ished via conduit connections or another acceptable Division 2 Zone 2 wiring method according to the NEC and the CEC Not to be connected to control equipment that uses or generates more than 250 Vrms or Vdc with respect to earth ground D1014 series must be installed operated and maintained only by qualified personnel in accordance to the relevant national international installation standards e g I...

Page 8: ...responding section as an example Connect 12 24 Vdc power supply positive at terminal 3 and negative at terminal 4 for channel 1 For Model D1014D connect 12 24 Vdc power supply positive at terminal 7 and negative at terminal 8 for channel 2 For Model D1014S connect positive output of channel 1 at terminal 1 and negative output at 2 For Model D1014D in addition to channel 1 connections above connect...

Page 9: ...allows the mA sink or source mode or Volt operating mode configuration Configuration Side A Panel View Span Trimmer CH1 Screwdriver for Trimmers 1 x 0 5 mm Dip switch configuration Ω Ω Vtx Adjust Ch1 Screwdriver for Trimmers 2 x 0 5 mm Zero Trimmer CH1 Calibration Trimmer Ch1 Turn the trimmer clockwise to Increase Output value or turn the trimmer counterclockwise if you want to decrease Output val...

Page 10: ...ly is the same for all channels there for don t separate the terminals because one channel remains switched off Different power supply Cut both pins of the connector to open the wiring between the terminals using a wire cutter Turn the trimmer clockwise to Increase Output value or turn the trimmer counterclockwise if you want to decrease Output value Turn the trimmer clockwise to Increase Output v...

Page 11: ...llow step 1 Out 2 PS Supply _ Out 1 DMM V1 CAL In 2 V1 CAL In 1 DMM mA mA mA mA MODEL D1014D 14 15 3 4 1 2 10 11 5 6 7 8 V V Out 2 PS Supply _ Out 1 DMM V1 CAL In 2 V1 CAL In 1 DMM mA mA MODEL D1014D 14 15 3 4 1 2 10 11 5 6 7 8 If the maximum deviation is exceeded repeat the board calibration and proceed in the following way Set the calibrator CAL at 20 000 mA and regulate the current read by mult...

Reviews: