ComAp InteliNano NT MRS Reference Manual
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ComAp InteliNano NT MRS Reference Manual

ComAp InteliNano NT MRS Reference Manual

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NT
InteliNano
InteliNano NT
Modular Gen-set Controller
Compact Controller for Stand-by Operating Gen-sets
SW version 2.0.0.x, HW version 2.0, September 2015
T
ABLE OF CONTENTS
1
Document information ...................................................................................................................... 3
1.1
Clarification of notation ............................................................................................................... 3
1.2
Conformity Declaration ............................................................................................................... 3
1.3
Important .................................................................................................................................... 3
1.4
Text ............................................................................................................................................. 5
2
System Overview ............................................................................................................................. 6
2.1
General description .................................................................................................................... 6
2.2
Configurability ............................................................................................................................. 6
3
Application Overview ........................................................................................................................ 7
MRS - Manual Remote Start ..................................................................................................... 7
3.1
3.2
True RMS measurement ............................................................................................................ 8
4
Installation and wiring ....................................................................................................................... 9
4.1
Mounting ..................................................................................................................................... 9
4.2
Package contents ..................................................................................................................... 10
4.3
Terminal diagram ...................................................................................................................... 11
4.4
Power supply ............................................................................................................................ 12
4.5
D+ ............................................................................................................................................. 13
4.6
Voltage measurement and generator connection types ........................................................... 13
4.7
Binary inputs ............................................................................................................................. 18
4.8
Binary outputs ........................................................................................................................... 18
4.9
Analog inputs ............................................................................................................................ 19
5
Recommended Wiring .................................................................................................................... 22
5.1
6
Controller Settings .......................................................................................................................... 23
6.1
Setup mode .............................................................................................................................. 23
7
Inputs and Outputs ......................................................................................................................... 27
7.1
Normally Open Contact ............................................................................................................ 28
7.2
Normally Closed Contact .......................................................................................................... 28
8
Outputs settings ............................................................................................................................. 29
8.1
MRS
MRS - Wiring Diagram ........................................................................................ 22
Kundratka 17, 180 00 Praha 8, Czech Republic
Tel: +420 246 012 111, Fax: +420 266 316 647
E-mail: info@comap.cz, www.comap.cz
Reference Guide
Copyright © 2015 ComAp a.s.
ComAp a.s..

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  • Page 1: Table Of Contents

    Normally Closed Contact ......................28 Outputs settings ..........................29 Binary outputs InteliNano MRS - default ................29 Copyright © 2015 ComAp a.s. ComAp a.s.. Kundratka 17, 180 00 Praha 8, Czech Republic Tel: +420 246 012 111, Fax: +420 266 316 647...
  • Page 2 Binary outputs ........................77 13.6 Analog inputs ........................78 13.7 Generator measurements ....................78 13.8 Charging alternator preexcitation circuit ................78 13.9 Communication interface ..................... 78 13.10 CAN interface ........................78 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 3: Document Information

    InteliNano InteliNano genset controllers. This manual is intended for use by gen-set control panel builders and parties concerned with installation, operation, and maintenance of the gen-set. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 4 MRS software, which is designed for single set, stand-by and island applications. ComAp believes that all information provided herein is correct and reliable and reserves the right to update at any time. ComAp does not assume any responsibility for its use unless otherwise expressly undertaken.

  • Page 5: Text

    Nominal Voltage Ph-N “Italic” input/output function Fuel Solenoid “Italic” controllers terminal “Italic” event or ECU message Manual Start “Italic” warning alarm Generator CCW Rotation “Italic” shutdown alarm Start Fail InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 6: System Overview

    ) of the controller at the moment of saving (except firmware). The archive can then be used for the cloning of controllers, which means preparing controllers with identical configuration and settings. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 7: Application Overview

    MRS can be used with a generator circuit breaker – GCB (Figure 3.1) or without a The InteliNano breaker (Figure 3.2). GCB CLOSE/OPEN InteliNano REMOTE START AND LOAD GCB FEEDBACK Figure 3.1 APPLICATION WITH CONTROL InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 8: True Rms Measurement

    The True RMS measurement gives accurate readings of effective values not only for pure sinusoidal waveforms, but also for deformed waveforms. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 9: Installation And Wiring

    96x96mm. Use the screw holders included with the controller to mount the controller into the door as described on pictures below. Figure 4.1 ‘ NTELI S CHASSIS MOUNTING InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 10: Package Contents

    InteliNano MRS controller unit Obligatory Fast User Guide for the InteliNano Fast User Guide Obligatory Gasket under the InteliNano controller Optional Gasket IN-NT Fixing clips Two controller holders Obligatory InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 11: Terminal Diagram

    T07 = binary input/output (500 mA) T13 = binary/analog input – Low Fuel Level T14 = binary/analog input – Coolan Temperature T15 = binary/analog input – Oil Pressure Figure 4.2 NTELI TERMINALS DESCRIPTION InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 12: Power Supply

    The capacitor size should be 5 000 µF to withstand 150ms voltage dip under following conditions: Voltage before the drop is 12V, after 150ms the voltage recovers to min. allowed voltage, i.e. 8V. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 13: Voltage Measurement And Generator Connection Types

    There are 4 voltage measurement connection types (setpoint B04 Connection Type [3Ph4Wire / 3Ph3Wire / Split Ph / Mono Ph] ) Each matches a corresponding generator connection type. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 14 4.6.1 Connection Type: 3 Phase 4 Wires Figure 4.5 MRS 3 NTELI PHASES AND WIRES TERMINALS CONNECTION Three phase “wye” measurement – 3PY Figure 4.6 STAR CONNECTION InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 15 DELTA CONNECTION LEFT HIGH LEG DELTA CONNECTION RIGHT In case of HIGH-LEG DELTA connection, the N (neutral) wire (in the diagram connected between T6 and T9) has to be connected! InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 16 4.6.3 Connection Type: Split Phase Figure 4.9 NTELI SPLIT PHASE TERMINALS CONNECTION Split-phase measurement – 1PH Figure 4.10 DOUBLE DELTA CONNECTION LEFT ZIG ZAG DOG LEG CONNECTION RIGHT InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 17 4.6.4 Connection Type: Mono Phase Figure 4.11 NTELI MONO PHASE TERMINALS CONNECTION Single-phase measurement – 1PH Figure 4.12 MONOPHASE CONNECTION InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 18: Binary Inputs

    Controller outputs switch high side! Never connect any analog sensor to this output to avoid sensor damage. All outputs are short circuit protected. Use suppression diodes on all relays and other inductive loads! InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 19: Analog Inputs

    Value #### is displayed when measured value is out of range or sensor’s wire is broken. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 20 Figure 4.15 WIRING OF ANALOG INPUTS GROUNDED SENSORS InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 21 Figure 4.16 WIRING OF ANALOG INPUTS ISOLATED SENSORS InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 22: Recommended Wiring

    5 Recommended Wiring MRS – Wiring Diagram 5.1 InteliNano LOAD DIESEL / GASOLINE ENGINE GENERATOR Figure 5.1 TYPICAL WIRING DIAGRAM OF APPLICATION InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 23: Controller Settings

    ▲, the custom init screen will appear, keep holding the ▼ Stop button. Then press switch LCD to default init screen and then press Auto (Figure 6.2). InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 24 The controller will automatically switch to Setup mode when there is a problem with the CRC or there is an incompatibility between firmware and archive version. This situation can occur when you upgrade a firmware. If this occurs, verify that all setpoints are properly configured. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 25 Figure 6.3 SETUP SCREEN Basic settings Engine parameters and protections Generator protections Outputs settings Inputs settings ECU setting Info InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 26 (Figure 6.4). Figure 6.4 SETUP MENU ORGANIZATION To apply all changes return to the main setup menu and restart the controller by pressing the Stop button. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 27: Inputs And Outputs

    T07. All outputs except Starter can be configured to terminal T04, T05, T06, T07. Binary output Starter can be configured only to high current output terminal T04. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 28: Normally Open Contact

    In this case 0V on binary output represents a logical 1 (H). Battery positive voltage on the output represents a logical 0 (L). Normally Closed Contact – output Normally Closed Contact – input button InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 29: Outputs Settings

    Lastly press Stop button to return. Then choose a logical function (O00 - O11) and select contact type (Normally Open contact Normally Closed contact) and confirm the change. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 30 Figure 8.1 BINARY OUTPUT SETTING EXAMPLE InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 31 Low Oil Pressure input is opened, only when Oil Pressure Starter Disengagement is enabled voltage on D+ terminal ≥ 80% of battery voltage for 1 s or longer InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 32 Time Starter Output Engine run Min. Stab. Time Max. Stab. Time 7 s Fuel Solenoid is opened Prestart Time Maximum Cranking Time 0 - 60 s Start Stop Time InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 33 Engine run 10 s Output Stop Fail Warning Cooling Time RPM / Frequency Oil Pressure Generator voltage Fuel Solenoid is opened Stop Time 60 s Gen-set stoped Stop Time InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 34 - it is possible to close GCB or it is already closed. The output opens during cooling state or when emergency stop or any shutdown is active. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 35 (i.e. together with the O02 Fuel Solenoid The controller does not evaluate the communication failure alarm during the period when this output is not active. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 36 Engine run Choke Time Min. Stab. Time Max. Stab. Time 7 s Choke Output Prestart Time Maximum 0 - 600 s Cranking Time 0 - 60 s Start Stop Time InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 37 0 - 60 s 0 - 60 s Glow Plugs Output On Prestart Time Cranging Fail Cranging Fail Gen-set start > 8 s Pause 8 s Pause 8 s failed Start Time InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 38 Gen-set start failed – shutdown, Prestart Time Maximum if the voltage or frequency are not in > 8 s Cranking Time the limit 0 - 60 s Start Time InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 39: Inputs Settings

    I24) and select contact type (Normally Open contact Normally Closed contact) and confirm change. Figure 9.2 is an example of how to configure a binary input as analog. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 40 Figure 9.1 BINARY INPUT SETTING EXAMPLE InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 41 Figure 9.2 ANALOG INPUT SETTING EXAMPLE InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 42 (only when is configured) and stop the engine. Remote Start And Load can be configured only on terminal T11. This is also used for waking the controller from “Zero Power” mode. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 43 This alarm is only warning. For more details see Warning procedure in chapter 12 Alarm, Events and History Management. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 44 This alarm is only warning. For more details see Warning procedure in chapter 12 Alarm, Events and History Management. Input has 10s delay. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 45 Alarm threshold is 20% of measurement range. You can choose one from two preset resistive sensors (VDO, Datcon) or you can create your own sensor curve. Input has 10s delay. VDO Level % InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 46 LCD’s upper right corner. Fuel Level SD symbol will be displayed on event log with running hours stamp and shutdown procedure will occur. Input has 10s delay. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 47 (VDO, Datcon) or you can create your own sensor curve. You can setup shutdown threshold (E04 Oil Pressure Shutdown) in Engine parameters and protection group. Input has 3s delay. VDO 5 Bar InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 48 VDO 10 Bar Datcon 5 Bar 33,5 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 49 For more details see Shutdown procedure in chapter 12 Alarm, Events and History Management. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 50 You can setup shutdown threshold (E05 Coolant Temperature Shutdown) in Engine parameters and protection group. Input has 5s delay. VDO 40-120 °C °C 1800 3200 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 51 VDO 50-150 °C °C 1138 1700 2865 3200 Datcon High °C °C 1343 1845 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 52 Datcon Low °C °C 1014 1209 1404 1599 1794 1989 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 53: Setpoints

    Setpoints can be adjusted from the controller‘s front panel or from a PC. Figure 10.1 is an example of how to change the Nominal Frequency from 50Hz to 60Hz via controller’s front panel. Figure 10.1 OMINAL REQUENCY SETUP EXAMPLE InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 54 Oil Pressure Starter Disengagement Choke Time Minimal Stabilization Time Starting RPM Generator protections Setpoint Setpoint name code Generator Overvoltage Shutdown Generator Undervoltage Shutdown Generator Overfrequency Shutdown Generator Underfrequency Shutdown InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 55: B - Basic Settings

    Split phase, 3Ph3Wire or 3Ph4Wire - B04 Connection Type (2;3;4). B03 Nominal Frequency Units: Step: Range: Default value: Nominal system frequency. Setpoint code Value Meaning 50Hz 60Hz InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 56 3Ph4Wire L1 >=100V L2 >=100V L3 >=100V Split Phase L1 >=100V L2 >=100V L3 <= 20V Mono Phase L1 >=100V L2 <= 20V L3 <= 20V Voltage Autodetect shutdown InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 57 Value 0 also disables this function. For the controller wake up press button Start activate input T11. The controller will not switch to Zero Power Mode if any alarm is active. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 58 (upper left corner). Second screen shows all analog values which are available. (Oil Pressure, Coolant Temperature; Fuel Level and Battery Voltage) Last screen is event log. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 59 B09 Nominal RPM Units: Step: Range: 100-4000 Default value: 1500 Nominal engine speed. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 60: E - Engine Parameters And Protections

    E05 Coolant Temperature Shutdown degree Celsius [°C] Units: 1 °C Step: 0 -150 °C Range: 90 °C Default value: Delay: Shutdown threshold level for I25 Coolant Temperature Analog input. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 61 (Normally Close contact). When is disabled then only RPM (frequency), generator voltage or D+ will be used for starter disengagement. Setpoint code Value Meaning Disable Enable InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 62 Engine run Choke Time Min. Stab. Time Max. Stab. Time 7 s Choke Output Prestart Time Maximum 0 - 600 s Cranking Time 0 - 60 s Start Stop Time InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 63 0 - 60 s Start Time E11 Starting RPM Units: Step: 5 – 60 Range: Default value: When Starting RPM are reached controller stops cranking. (Starter is disengaged.) InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 64: G - Generator Protections

    [%] Step: 0,1 % 0 – Range: G03 Generator Overfrequency Shutdown Default value: 85 % Delay: Threshold for Generator Underfrequency alarm, relative to the nominal frequency (setpoint Nominal Frequency). InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 65: Ecu

     Use cable with following parameters: Cable type Shielded twisted pair 120Ω Impedance Propagation velocity >= 75% (delay <= 4.4 ns/m) Wire crosscut >= 0.25mm Attenuation (@1MHz) <= 2dB/100m InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 66: Alarms, Events And History Management

    Figure 12.1 is an example of how the history is organized. The last screen in this example is showing the four latest events. ▼ button see Figure 12.1.For alarm (shutdown) confirmation press To view further history records press Stop button. Figure 12.1 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 67 Figure 12.2 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 68: Events

    I03 Remote Start And Load. The controller is in Auto mode. Auto On Auto mode is active. Auto Off Auto mode is inactive Power On The controller is turned on. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 69: Warnings

    This warning occur when analog input Fuel Level is below 20% or binary input Fuel Level is closed longer than 10s. External Warning 1 This warning occurs when external warning 1 input is activated. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 70 This warning occurs when external warning 3 input is activated. ECU Communication Error This warning is activated when the ECU (if configured) is not communicating and all values from ECU show #####. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 71: Shutdowns

    LCD, and proper warning symbol is displayed in history with running hours stamp. See Figure 12.8.. See list of Possible shutdown alarms. For shutdown alarm confirmation press Stop button Figure 12.8 – E INACTIVE UNCONFIRMED SHUTDOWN MERGENCY InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 72 Engine will stop when oil pressure declined to or less than 1 bar or binary input Low Oil Pressure is active. High Coolant temperature Engine will stop when temperature of coolant exceed Coolant Temperature Shutdown threshold. External Shutdown 1 External Shutdown 2 InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 73 Gen-set stop failed. Battery Flat If the controller loses power during starting sequence due to bad battery condition, it will not try to start again and will activate this protection. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 74 B04 Connection Type is used. Fuel Level SD This shutdown occur when analog input Fuel Level is below shutdown level or binary input Fuel Level SD is closed longer than 10s. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 75: Ecu Messages

    SAE HS-1939 Publication • Or refer to corresponding engine manufacturer’s ECU error codes list. Complete list of text diagnostic messages for each ECU can be found in ComAp Electronic Engines Support manual. InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 76: Technical Data

    -20 ... 70°C Operating temperature Operating humidity 95 % non-condensing (IEC/EN 60068-2-30) IP65 – with GASKET 4x405 only Protection degree (front IP50 – without gasket panel) -30 ... 80°C Storage temperature InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 77: Physical Dimensions

    10A – short term current binary output 10A – long term Total output current 15A – short term One low current(500mA) binary output – can be configured as binary input . InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

  • Page 78: Analog Inputs

    Belden 3082A DeviceBus for Allen-Bradley DeviceNet  Belden 3083A DeviceBus for Allen-Bradley DeviceNet  Belden 3084A DeviceBus for Allen-Bradley DeviceNet  Belden 3085A DeviceBus for Allen-Bradley DeviceNet  Belden 3086A DeviceBus for Honneywell SDS InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...
  • Page 79 Lapp Cable Unitronic Bus DeviceNet Trunk Cable  Lapp Cable Unitronic Bus DeviceNet Drop Cable  Lapp Cable Unitronic Bus CAN  Lapp Cable Unitronic-FD Bus P CAN UL/CSA InteliNano-NT, SW version 2.0.0.x, HW version 2.0, ©ComAp – September 2015...

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