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ETAS FETK-T3.0 User Manual

Emulator probe for renesas rh850 mcu family
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ETAS FETK-T3.0
Emulator Probe for Renesas RH850
MCU Family
User Guide

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Summary of Contents for ETAS FETK-T3.0

  • Page 1 ETAS FETK-T3.0 Emulator Probe for Renesas RH850 MCU Family User Guide...

  • Page 2: Fetk-T3.0

    Copyright The data in this document may not be altered or amended without special notification from ETAS GmbH. ETAS GmbH undertakes no further obligation in relation to this document. The software described in it can only be used if the customer is in possession of a general license agreement or single license.

  • Page 3: Table Of Contents

    Reset ................27 ETAS FETK-T3.0 | User Guide...
  • Page 4 6.11.2 FETK-T3.0 ECU Interface Connector CON1 ....... . . 53 6.11.3...
  • Page 5 Ordering ..............73 ETAS FETK-T3.0 | User Guide...
  • Page 6 Index ................84 ETAS FETK-T3.0 | User Guide...

  • Page 7: Safety Information

    Program codes or program control sequences that are created or changed via ETAS products, as well as all types of data obtained through the use of ETAS prod- ucts, must be checked for their reliability and suitability prior to use or distribution.

  • Page 8: Intended Use

    Shut down a damaged product immediately. The product cannot be repaired. Dispose of the product properly. Do not open or alter the product. Only ETAS may make changes to the product.

  • Page 9: Safety Information

    If the firmware update is not completed successfully, try it again. If a new firmware update is not possible and the product is not functional, send the product to ETAS. 1.3.3 Electrical Connection...

  • Page 10: Cables And Accessories

    2. Remove all cables from the product. 1.3.4 Cables and Accessories Cables - Only use ETAS cables, cables recommended by ETAS or other cables certi- fied for the application. - Route the cables such that they are protected against abrasion, damage, deformation and kinking.

  • Page 11: Maintenance

    The European Union has passed a directive called Waste Electrical and Electronic Equipment, or WEEE for short, to ensure that systems are setup throughout the EU for the collection, treating and recycling of electronic waste. ETAS FETK-T3.0 | User Guide...

  • Page 12: Declaration Of Conformity

    1.6.1 CE Declaration of Conformity (European Union) With the CE mark attached to the product or its packaging, ETAS confirms that the product corresponds to the applicable product-specific European Directives. The CE Declaration of Conformity for the product is available upon request.

  • Page 13: Declarable Substances

    Some products from ETAS GmbH (e.g. modules, boards, cables) use components with substances that are subject to declaration in accordance with the REACH regulation (EU) no.1907/2006. Detailed information is located in the ETAS download center in the customer infor- mation "REACH Declaration" (www.etas.com/Reach). This information is continu- ously being updated.

  • Page 14: Introduction

    Introduction This chapter contains information about the following topics: Applications The FETK-T3.0 is an emulator probe for the Renesas RH850 microcontroller family. It is a serial FETK designed for use with the JTAG interface (IEEE 1149.1) and Aurora Trace interface.
  • Page 15 • Latency optimized proprietary Ethernet protocol for FETKs to ES89x • Supports a variety of standard applications - “ETK Drivers and Tools” update to support ETAS software tools (INCA, XCT) - Firmware update (programming of the logic device) through HSP software service packs;...
  • Page 16 ECU via the Calibration Wake up pin • Pull CalWakeUp until Startup Handshake: duration of the Wake up mech- anism is configurable For more technical data on the FETK-T3.0 consult the chapter “Technical Data” on page 39. ETAS FETK-T3.0 | User Guide...

  • Page 17: Hardware Description

    FETK-T3.0 interface. This process enables adjustments of parameters, characteristic lines and maps through the calibration and development system. Using the Aurora trace interface, the FETK-T3.0 can acquire measurement data and send the measured data to the PC. ETAS FETK-T3.0 | User Guide...

  • Page 18: Ecu Interface

    Debugger and Trace interface ECU Interface The FETK-T3.0 is connected via connectors CON1 and CON2 to the ECU with two adapter cables (refer to Fig. 3-2 on page 18). The pin definition depends on the application and the microcontroller type. In general, the ECU interface consists of - 5 JTAG Debug line interfaces for the communication between the FETK-T3.0...

  • Page 19: Fetk Ethernet Interface

    The FETK is suitable for 12 V and 24 V systems. In 24 V systems the load dump capability is reduced. The FETK-T3.0 will also accept voltage drops down to 3 V (for additional details of low voltage operation, see ISO standard 16750).

  • Page 20: Ecu Voltage Supervisor

    The FETK-T3.0 provides two opportunities to supply and supervise the ECU RAM standby voltage: - The FETK-T3.0 monitors the VDDSTBY supply on board the FETK. The micro- controller’s standby power supply pin must be connected to the FETK pin VDDSTBY.

  • Page 21: Debug And Trace Interface For 3Rd Party Tools

    21 | Hardware Description Debug and Trace Interface for 3rd Party Tools The FETK-T3.0 features a JTAG and Aurora Trace interface connector CON4 (Sam- tec 34 pin). This connector can be used to attach a 3rd party debug and trace tool (e.g.

  • Page 22: Status Leds

    22 | Hardware Description Status LEDs There are three LEDs displaying the operating status of the FETK-T3.0 (Fig. 3-6 on page 22). iba ë Fig. 3-6 Status LEDs (FETK-T3.0) State Definition FETK-T3.0 is supplied with power and active (i.e. the ECU is switched on or the ETAS calibration and development system is connected and ready to communicate with the FETK-T3.0)

  • Page 23: Measurement Data Access

    RAM. It is recommended that the EMU RAM is permanently pow- ered by the FETK-T3.0 or ECU and shall not be reset by the ECU, if the FETK-T3.0 signals a permanently powering of the EMU RAM during handshake.

  • Page 24: Jtag And Aurora Interface

    Direct Measurement The FETK-T3.0 reads the measurement data through the JTAG interface. The read action will be executed by the FETK-T3.0, when it is invoked by a hardware trigger (refer chapter 3.10.4 on page 27). Due to the throughput limitations of the JTAG interface, this method is not as suit- able for high speed measurement as the Trace Measurement.

  • Page 25: Interface Recommendations

    The use of both JTAG and Aurora requires the ECU or Mezzanine board to use a 34 pin Samtec connector for interfacing to the FETK-T3.0. The FETK-T3.0 incorporates 22 Ohm series resistors for the TMS, TCK, TDI and / TRST lines on the ECU interface. Hence, no additional termination resistors are required on the ECU for these signals.

  • Page 26: Triggering Via Trace Interface

    3.10.2 Triggering via Trace Interface The FETK-T3.0 provides support for up to 255 data trace triggers. The trace trig- gers are defined within a section of RAM covered by a trace window. Both the trace window and trace triggers are defined in the FETK’s configuration and/or A2L file. A write by the microcontroller software to a trace trigger location causes a trace trigger.

  • Page 27: Timer Triggering

    ECU is clean and smooth. The FETK-T3.0 drives / PORESET low during XETK power up or upon INCA request. The FETK-T3.0 senses the status of the /PORESET line to detect when the ECU is in reset. If configured, and the microcontroller has /RESETOUT, the FETK-T3.0 can also be used to sense the status for the ECU reset.

  • Page 28: Installation

    This chapter contains information about the following topics: • Mounting the FETK-T3.0 to the ECU Housing ......28 •...

  • Page 29: Mounting Material

    - Four screws M 2.5 - FETK-T3.0 - Gap Pad, as supplied with the FETK-T3.0 or available as a spare part. - Four 3.0 mm height spacer, M2.5 - ECU metal housing with machined holes aligning with FETK-T3.0 hole pat- tern (see "Mechanical Dimensions"...

  • Page 30: Fig. 4-2 Fetk-T3.0 With Properly Positioned Gap Pad

    FETK-T3.0 with properly positioned Gap Pad NOTE To ensure good thermal transfer between the FETK-T3.0 and the ECU housing, during the installation process, always use a new Gap Pad. Re-use of the Gap Pad during a re-installation or ETK recycling is not recom- mended.

  • Page 31: Mounting The Fetk-T3.0 To The Ecu Metal Housing

    NOTICE Thermal transfer from the FETK-T3.0 to the ECU housing! When you mount the FETK-T3.0 to the ECU, you must ensure that a constant gap of 3 mm is maintained between the FETK-T3.0 PCB and the flat surface of the ECU housing.

  • Page 32: Connection To The Ecu

    - at CON1 adapter cable ETAN2 or ETAN8 - at CON2 adapter cable ETAM2 or ETAM5 or ETAM9 or ETV5 For additional details to connect the FETK-T3.0 to the ECU with adapter cables see Fig. 4-6. The adapter cables can be ordered separately (refer chapter “Ordering Information”...

  • Page 33: Connection To The Ecu And To The Debugger

    This connector (CON4) is located on the bottom side of the PCB. CON4 is a Samtec 34 pin interface, and the cable should be procured from the 3rd party tool supplier. For additional details to connect the FETK-T3.0 to a 3rd party debugger and trace tool, see Fig. 4-6.

  • Page 34: Power Supply

    34 | Installation The FETK-T3.0 Ethernet interface can be connected to the ES89x ECU and Inter- face Module. NOTE The FETK Ethernet interface utilizes a proprietary Ethernet protocol and is com- patible only with the Gigabit Ethernet interfaces of the ES89x ECU Interface Modules.

  • Page 35: Fig. 4-9 Fetk-T3.0 Power Supply Wiring With Cbam320.1 Cable

    E.g. Cable CBE260 Vehicle Power Supply Wiring Connector ECU GND FETK Vehicle Connector Battery Fig. 4-9 FETK-T3.0 Power Supply wiring with CBAM320.1 Cable Lemo Socket Serial ETK Interface Connector Cable CBAM350.1 E.g. Cable CBE260 Vehicle Power Supply Connector Wiring ECU GND FETK...

  • Page 36: Fig. 4-11 Fetk-T3.0 Power Supply Wiring With Cbam305.1 Cable

    FETK-T3.0 Power Supply wiring with CBAM305.1 Cable 4.3.2.3 Isolated Power Supply inside ECU ETP2 The FETK-T3.0 does not require a galvanically isolated power supply. For special applications ETAS can offer a isolated power supply unit. Power Supply Connector Permanent Supply...

  • Page 37: Etk / Xetk / Fetk Configuration

    / FETK is checked for the appropriate configuration. If necessary, the ETK / XETK / FETK will be configured appropriately to the corre- sponding project. Configuration Parameter The XCT provides support concerning hardware configuration parameters and their possible values. ETAS FETK-T3.0 | User Guide...
  • Page 38 The XCT help window opens. 3. Choose Reference to User Interface  (X)ETK Hardware Configuration Parameters. 4. Choose the topic FETK-T3.0. The topic FETK-T3.0 contains information about the FETK-T3.0 hardware configuration parameters and their possible values. ETAS FETK-T3.0 | User Guide...

  • Page 39: Technical Data

    • Mechanical Dimensions ..........56 System Requirements 6.1.1 ETAS Compatible Hardware ETAS Hardware: ES89x ECU Interface Modules 6.1.2 PC with one Ethernet Interface A PC with one open Ethernet interface (1 Gbit/s) with RJ45 connection is required to connect the ES89x module.

  • Page 40: Software Support

    RH850_U2B24 FCC V4.6.2 V6.4.3 V13.1.0 SBB V2.1 (DISTAB) NOTE Operating the FETK-T3.0A with older software versions is not possible. The configuration instructions for the FETK-T3.0 in INCA and HSP are described in the relevant software documentation. ETAS FETK-T3.0 | User Guide...

  • Page 41: Data Emulation And Measurement Memory

    6.2.1 Data Emulation Memory and Microcontroller Support The FETK-T3.0 uses a portion of or up to the entire size of the EMU RAM, to emulate data in internal flash. The following table lists the supported microcontrollers, the size of the EMU RAM, and states if the EMU RAM is capable of being powered using a standby supply.

  • Page 42: Maximal Thermal Resistance From Gap Pad Surface To Ambient

    42 | Technical Data Fig. 6-1 FETK-T3.0 Power Consumption over Temperature 6.3.2 Maximal Thermal Resistance from Gap Pad Surface to Ambient Fig. 6-2 Maximal Thermal Resistance from Gap Pad Surface to Ambient [°C] FETK-T3.0 Gap Pad Surface-Ambient [K/W] Ambiente 8.21 7.25...

  • Page 43: Power Supply

    I = 80 mA at pin VDDPSTBY; T = 20 °C The FETK-T3.0 implements reverse voltage protection in the same range and may be used only with central load dump protection. 24 V vehicles require U disturbing pulse reduction to 12 V vehicle system.

  • Page 44: Fetk Ethernet Interface

    NOTE JTAG timing parameters in this chapter refer to the JTAG interface (CON1) of the FETK-T3.0. The JTAG wiring to the ECU (including ETAN2 or ETAN8) must be taken account additionally. All timings are measured at a reference level of 1.5 V. Output signals are mea- sured with 20 pF to ground and 50 ...

  • Page 45: Jtag Timing Diagram

    (ETK --> Target) microcontroller TDO clock-to-out time 3.5 (min.) Minimum 2.25 ns required by do_min (Target --> ETK) microcontroller specification 14 (max) Maximum 14 ns by microcon- do_max troller specification Debugger Arbitration Timing Diagram ETAS FETK-T3.0 | User Guide...

  • Page 46: Debugger Arbitration Timing Parameters

    Value Unit Signal Impedance Clock 62.5 100 Ohm Differential Data 1.25 Gbit/s 100 Ohm Differential Aurora Baud Rate 2.5 Gbps selected Parameter Value Unit Signal Impedance Clock 100 Ohm Differential Data Gbit/s 100 Ohm Differential ETAS FETK-T3.0 | User Guide...

  • Page 47: Electrical Characteristics

    6.10 Electrical Characteristics 6.10.1 ECU Interface Characteristics Parameter Symbol Condition Unit CalWakeup Output Voltage CALWAKEUP = 6.6 - 32 V; - 1 V Batt Batt Batt load 0 - 50 mA ECU Power Supply Supervision VDD (Sense) VDD  2.52 2.60 2.68 Voltage (3.3 V selected)
  • Page 48 Parameter Symbol Condition Unit ECU Standby RAM Output Volt- VDDSTBY max. 500 mA load 1.23 1.27 1.29 age(1.25V) Power to supply ECU Interface VDDPSTBY max. 80 mA load 3.20 3.30 3.40 (optional) : VDD ECU Power Supply off  ECU Power Supply on; VDD ECU Power Supply on  ECU Power Supply off VDDSTBY ECU Standby RAM Power off ...

  • Page 49: Ecu Interface Connector Con1 (5.0 V Interface Selected)

    6.10.2 ECU Interface Connector CON1 (5.0 V Interface selected) Signal Pin Type V (max) (min) (max) (max) (min) (max) Leakage current Additional load [A] by FETK (typ) [pF] +/-10 /TRST +/-10 +5200/+3830 +1135/+840 +/-30 /PORESET XIOD +25/-20 /RESETOUT +25/-20 /RDY +/-13 FLMD0 +/-10...

  • Page 50: Ecu Interface Connector Con1 (3.3 V Interface Selected)

    6.10.3 ECU Interface Connector CON1 (3.3 V Interface selected) Signal Pin Type V (max) (min) (max) (max) (min) (max) Leakage current Additional load [A] by FETK (typ) [pF] 0.55 3.45 +/-10 /TRST 0.55 3.45 +/-10 0.55 3.45 +3460/+2010 0.55 3.45 +704/+411 +/-30 /PORESET...

  • Page 51: Debugger Interface Connector Con4

    /RDY FLMD0 /BREQ /BGRANT 3.45 /RESETOUT Pin Type: I: Input, X: Tristate, O: Output, OD: Open Drain Adapter cable and Samtec connector not considered; PCB 1 pF/cm Open Drain FET; I = 0.2 A Dmax ETAS FETK-T3.0 | User Guide...

  • Page 52: Pin Assignment

    NOTE The following tables describes the pin assignment at the FETK side. 6.11.1 Connector Locations `lkO `lkP `lkN Fig. 6-3 Location of the FETK-T3.0 Interfaces (top) `lkQ Fig. 6-4 Location of the FETK-T3.0 Interfaces (bottom) ETAS FETK-T3.0 | User Guide...

  • Page 53: Fetk-T3.0 Ecu Interface Connector Con1

    53 | Technical Data 6.11.2 FETK-T3.0 ECU Interface Connector CON1 Pin Signal Direction Comment TX0_P Aurora Data 0+ VDD (Sense) Sense for Switched power supply of ECU (ignition) TX0_N Aurora Data 0- JTAG Clock signal Signal Ground Signal Ground TX1_P...
  • Page 54 54 | Technical Data Pin Signal Direction Comment 38 AUDDATA2 Not used on FETK-T3.0A 39 AUDSYNC Not used on FETK-T3.0A 40 AUDDATA3 Not used on FETK-T3.0A ETAS FETK-T3.0 | User Guide...

  • Page 55: Interface And Power Supply Connector Con2

    Signal Ground /EVTO Debugger event signal TX3_P Aurora Data 3+ No connection TX3_N Aurora Data 3- /PORESET BiDir ECU Reset signal (open drain) for Reset asser- tion and supervision Signal Ground Signal Ground No connection ETAS FETK-T3.0 | User Guide...

  • Page 56: Mechanical Dimensions

    The reference measure for all drawings is millimeters. Please contact your local sales & support team for detailed 3D CAD model. Item Dimension Dimension [Millimeters] [Inches] Length 2.362 Width 2.362 Height 12.7 0.500 : without adapter connectors ETAS FETK-T3.0 | User Guide...

  • Page 57: Top View

    57 | Technical Data 6.12.1 Top View Õe Fig. 6-5 FETK-T3.0 Dimensions - Top View Item Dimension Tolerance Dimension Tolerance [Millimeters] [Inches] [Inches] [Millimeters] 60.00 +/- 0.2 2.362 +/- 0.008 56.50 +/- 0.20 2.224 +/- 0.008 3.50 +/- 0.10 0.138 +/- 0.004...

  • Page 58: Cables And Accessories

    See chapter 4.2 on page 32 for details on wiring the ECU interface adapt- ers. NOTE We recommend to use ETAS cables or any other cables certified by the standards for the application. Adhere to the maximum permissible cable lengths! NOTE Application-specific cables are available from ETAS.

  • Page 59: Cbam300 Cable

    - For wall thickness more than 4 mm cut a thread into the housing. 7.2.2 Connectors Fig. 7-2 CBAM300.3 Cable - Connectors Connector Color Target CON1 Blue purple GBit Ethernet cable, e.g. CBE260 CON2 White FETK CON3 Shield ECU housing ETAS FETK-T3.0 | User Guide...

  • Page 60: Temperature Range

    - For wall thickness more than 4 mm cut a thread into the housing. A special Lemo thread cutter M9 x 0.6 (Order Number: DTA.99.900.6Z is necessary. 7.3.2 Connectors Fig. 7-4 CBAM320 Cable - Connectors Connector Color Target CON1 Blue purple Gbit Ethernet cable, e.g. CBE260 CON2 White FETK ETAS FETK-T3.0 | User Guide...

  • Page 61: Temperature Range

    For detailed information on mounting accessories contact ETAS technical support. 7.4.2 Connectors Fig. 7-6 CBAM340 Cable - Connectors Connector Color Target CON1 Blue purple Gbit Ethernet cable, e.g. CBE260 CON2 White FETK CON3 Shield to ECU housing ETAS FETK-T3.0 | User Guide...

  • Page 62: Temperature Range

    The CBAM350.1-0 FETK interface cable is a 1 GBit/s cable adapter with a water tight socket. The cable shield is connected to socket. It is usable for ECUs with shielded housing. 7.5.2 Panel Cut-Out Fig. 7-8 Dimension Panel Cut-Out ETAS FETK-T3.0 | User Guide...

  • Page 63: Assembling

    If the CBAM305.1-2m2 is used, a 2 pin Erni connector (214011 or compatible) must be available on the ECU as counterpart for the UBatt connector. NOTE It is recommended for safety reasons to connect the external permanent volt- age and the switched voltage inside the ECU! ETAS FETK-T3.0 | User Guide...

  • Page 64: Dimensions

    CBAM305.1-2m2 Cable - Dimensions 7.6.3 Connectors Fig. 7-11 CBAM305.1-0m6 - Connectors Connector Color Target CON1 Blue purple Gbit Ethernet cable, e.g. CBE260 CON2 White FETK CON3 Black Permanent power supply, K70.1 cable CON4 FETK UBATT ETAS FETK-T3.0 | User Guide...

  • Page 65: Temperature Range

    Gigabit Ethernet and Power Connection cable for FETK. Lemo connectors on both sides compliant to IP65. 3 m length. The CBE260 cable is a Gigabit Ethernet cable to connect an ETAS ES device with an FETK or another ES device. The cable supports power propagation.

  • Page 66: Dimensions

    Dimensions Short Name Length A CBE260.1-3 300 cm CBE260.1-5 500 cm CBE260.1-8 800 cm 7.7.3 Connectors Fig. 7-14 CBE260 - Connectors Connector Color Target CON1 Pastel purple ES8xx Downlink CON2 Blue purple ES8xx Uplink, FETK ETAS FETK-T3.0 | User Guide...

  • Page 67: Temperature Range

    F 00K 111 001 CBE260.1-8 F 00K 109 447 ETAN2A Adapter Fig. 7-15 FETK - ECU Adapter ETAN2A 7.8.1 Usage The ETAN2A adapter is used for connecting an XETK-S22 or FETK-T3.0 over JTAG or AURORA to the ECU. ETAS FETK-T3.0 | User Guide...

  • Page 68: Dimensions

    68 | Cables and Accessories 7.8.2 Dimensions Millimeters Inches 7.87 22.61 0.89 26.92 1.06 NOTE See chapter "Installation" for details on mating connector to the ETAN2. ETAS FETK-T3.0 | User Guide...

  • Page 69: Pin Assignment

    /RDY JTAG Ready signal VSTBY (Sense) Sense the supply of the standby (WP) RAM 34 /RESETOUT ECU Internal Reset Status (sense) NOTE For additional details on the ETAN2A cable, please request the ETAN2 User Guide. ETAS FETK-T3.0 | User Guide...

  • Page 70: Ordering

    ECU. The connector orientation is inverted and the PCBs have mount- ing holes for attachment of mezzanine board and FETK-T3. The ECU adapter holds the ECU in reset while the F/XETK is booting. ETAS FETK-T3.0 | User Guide...

  • Page 71: Dimensions

    71 | Cables and Accessories 7.9.2 Dimensions Millimeters Inches 5.91 40.00 1.575 36.00 1.417 NOTE See chapter "Installation" for details on mating connector to the ETAN8. ETAS FETK-T3.0 | User Guide...

  • Page 72: Pin Assignment

    /RDY JTAG Ready signal VSTBY (Sense) Sense the supply of the standby (WP) RAM 34 /RESETOUT ECU Internal Reset Status (sense) NOTE For additional details on the ETAN8A cable, please request the ETAN8 User Guide. ETAS FETK-T3.0 | User Guide...

  • Page 73: Ordering

    The ETV5 cable is a variant of the ETAM2 adapter. If ETAM2 is mentioned in this document, ETV5 might be fit as well. See chapter “ETAM2 Adapter” on page 74 NOTE For better power integrity cut the cable to the shortest possible length. ETAS FETK-T3.0 | User Guide...

  • Page 74: Fig. 7-18 Fetk - Ecu Adapter Etam2

    See chapter "Installation" for details on mating connector to the ETAM2. For variant ETV5 see also chapter “ETV5 Cable” on page 73. For variant ETAM9 see also chapter “ETAM9 Adapter” on page 76. 7.11.1 Pin Assignment Fig. 7-19 ETAM2 Connector ETAS FETK-T3.0 | User Guide...
  • Page 75 5 mm stripped and Molex tinned Side A Medi cable Side C Side B Position Color Position Position Blue Yellow Brown Green 7.12.2 Ordering Product Length Order Number ETAM5 0.136 m F 00K 110 101 ETAS FETK-T3.0 | User Guide...

  • Page 76: Fig. 7-21 Fetk/ Xetk - Ecu Adapter Etam9

    F 00K 111 043 - 5fc), 0m136 7.14 ETAM10 Adapter Fig. 7-22 FETK/ XETK - ECU Adapter ETAM10 MOLEX - MOLEX (6fc - 6fc) adapter cable for connecting an FETK or XETK to the ECU. ETAS FETK-T3.0 | User Guide...
  • Page 77 Temperature Range Condition Temperature Range Operating temperature -40 °C to +110 °C 7.14.5 Order Information Product Length Order Number ETAM10 F/XETK-S ECU Adapter, MOLEX - MOLEX (6fc 0.07 m F 00K 111 814 - 6fc), 0m07 ETAS FETK-T3.0 | User Guide...
  • Page 78 - China-RoHS-leaflet_Compact_cn Cable NOTE We recommend to use ETAS cables or any other cables certified by the stan- dards for the application. Adhere to the maximum permissible cable lengths! Please contact your local ETAS representative for further cable information. NOTE The cables shown in chapter “Cables and Accessories”...
  • Page 79 FETK, Lemo 1B FGM - Lemo 1B FGH (10fc- 10mc), 5 m GBit Ethernet and Power Connection Cable CBE260.1-8 F 00K 109 447 for FETK, Lemo 1B FGM - Lemo 1B FGH (10fc- 10mc), 8 m ETAS FETK-T3.0 | User Guide...
  • Page 80 F 00K 111 814 MOLEX (6fc - 6fc), 0m07 Power Supply For special applications ETAS can offer an Isolated Power Supply Unit. The cable CBM200 is included. The ETV2 cable must be ordered separately. For detailed information contact ETAS technical support.
  • Page 81 81 | Contact Information Contact Information Technical Support For details of your local sales office as well as your local technical support team and product hotlines, take a look at the ETAS website: www.etas.com/en/hotlines.php ETAS Headquarters ETAS GmbH Borsigstraße 24...
  • Page 82 Location of the FETK-T3.0 Interfaces (bottom) ........
  • Page 83 ETAM10 Adapter Dimensions ........... . .77 ETAS FETK-T3.0 | User Guide...
  • Page 84 LED ........22 Measurement Data Access ..23 Measurement Data Memory ..41 ETAS FETK-T3.0 | User Guide...

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