Kontron CP347 User Manual

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

USER GUIDE

CP347

Doc. User Guide, Rev. 1.3

Doc. ID: 1060-5099

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

CP347

- USER GUIDE

Disclaimer

Kontron would like to point out that the information contained in this user guide may be subject to alteration, particularly as a result of the constant upgrading of Kontron products. This document does not entail any guarantee on the part of Kontron with respect to technical processes described in the user guide or any product characteristics set out in the user guide. Kontron assumes no responsibility or liability for the use of the described product(s), conveys no license or title under any patent, copyright or mask work rights to these products and makes no representations or warranties that these products are free from patent, copyright or mask work right infringement unless otherwise specified. Applications that are described in this user guide are for illustration purposes only. Kontron makes no representation or warranty that such application will be suitable for the specified use without further testing or modification. Kontron expressly informs the user that this user guide only contains a general description of processes and instructions which may not be applicable in every individual case. In cases of doubt, please contact Kontron.

This user guide is protected by copyright. All rights are reserved by Kontron. No part of this document may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise), without the express written permission of Kontron. Kontron points out that the information contained in this user guide is constantly being updated in line with the technical alterations and improvements made by Kontron to the products and thus this user guide only reflects the technical status of the products by Kontron at the time of publishing.

Brand and product names are trademarks or registered trademarks of their respective owners.

Kontron AG

Lise-Meitner-Str. 3-5 86156 Augsburg Germany www.kontron.com

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Revision History

Revision Brief Description of Changes Date of Issue

1.0 Initial version 2017-Feb-21

1.1 Added forced air cooling information in Environmental considerations 2017-Mar-27

1.2 Updated the operating temperature, card size and dust protection information.

2017-May-10

1.3 Added Power consumption information 2019-Feb-08

Terms and Conditions

Kontron warrants products in accordance with defined regional warranty periods. For more information about warranty compliance and conformity, and the warranty period in your region, visit http://www.kontron.com/terms-andconditions.

Kontron sells products worldwide and declares regional General Terms & Conditions of Sale, and Purchase Order Terms & Conditions. Visit http://www.kontron.com/terms-and-conditions

For contact information, refer to the corporate offices contact information on the last page of this user guide or visit our website CONTACT US.

Customer Support

Find Kontron contacts by visiting: http://www.kontron.com/support.

Customer Service

As a trusted technology innovator and global solutions provider, Kontron extends its embedded market strengths into a services portfolio allowing companies to break the barriers of traditional product lifecycles. Proven product expertise coupled with collaborative and highly-experienced support enables Kontron to provide exceptional peace of mind to build and maintain successful products.

For more details on Kontron’s service offerings such as: enhanced repair services, extended warranty, Kontron training academy, and more visit http://www.kontron.com/support-and-services/services

Customer Comments

If you have any difficulties using this user guide, discover an error, or just want to provide some feedback, contact Kontron support

. Detail any errors you find. We will correct the errors or problems as soon as possible and post the

revised user guide on our website.

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Symbols

The following symbols may be used in this user guide.

DANGER indicates a hazardous situation which, if not avoided, will result in death or serious injury.

WARNING indicates a hazardous situation which, if not avoided, could result in death or serious injury.

NOTICE indicates a property damage message.

CAUTION indicates a hazardous situation which, if not avoided, may result in minor or moderate injury.

Electric Shock! This symbol and title warn of hazards due to electrical shocks (> 60

V) when touching

products or parts of products. Failure to observe the precautions indicated and/or prescribed by the law may endanger your life/health and/or result in damage to your material.

ESD Sensitive Device!

This symbol and title inform that the electronic boards and their components are sensitive

to static electricity. Care must

therefore be taken during all handling operations and

inspections of this product in order to ensure product integrity at all times.

HOT Surface! Do NOT touch! Allow to cool before servicing.

Laser! This symbol inform of the risk of exposure to laser beam and light emitting devices (LEDs)

from an electrical device. Eye protection per manufacturer notice shall review before servicing.

This symbol indicates general information about the product and the user guide. This symbol indicates detail information about the specific product configuration.

This symbol precedes helpful hints and tips for daily use.

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For Your Safety

Your new Kontron product was developed and tested carefully to provide all features necessary to ensure its compliance with electrical safety requirements. It was also designed for a long fault-free life. However, the life expectancy of your product can be drastically reduced by improper treatment during unpacking and installation. Therefore, in the interest of your own safety and of the correct operation of your new Kontron product, you are requested to conform with the following guidelines.

High Voltage Safety Instructions

As a precaution and in case of danger, the power connector must be easily accessible. The power connector is the product’s main disconnect device.

Warning All operations on this product must be carried out by sufficiently skilled personnel only.

Electric Shock! Before installing a non hot-swappable Kontron product into a system always ensure that

your mains power is switched off. This also applies to the installation of piggybacks. Serious electrical shock hazards can exist during all installation, repair, and maintenance operations on this product. Therefore, always unplug the power cable and any other cables which provide external voltages before performing any work on this product.

Earth ground connection to vehicle’s chassis or a central grounding point shall remain connected. The earth ground cable shall be the last cable to be disconnected or the first cable to be connected when performing installation or removal procedures on this product.

Special Handling and Unpacking Instruction

ESD Sensitive Device! Electronic boards and their components are sensitive to static electricity. Therefore, care

must be taken during all handling operations and inspections of this product, in order to ensure product integrity at all times.

Do not handle this product out of its protective enclosure while it is not used for operational purposes unless it is otherwise protected.

Whenever possible, unpack or pack this product only at EOS/ESD safe work stations. Where a safe work station is not guaranteed, it is important for the user to be electrically discharged before touching the product with his/her hands or tools. This is most easily done by touching a metal part of your system housing.

It is particularly important to observe standard anti-static precautions when changing piggybacks, ROM devices, jumper settings etc. If the product contains batteries for RTC or memory backup, ensure that the product is not placed on conductive surfaces, including anti-static plastics or sponges. They can cause short circuits and damage the batteries or conductive circuits on the product.

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Lithium Battery Precautions

If your product is equipped with a lithium battery, take the following precautions when replacing the battery.

Danger of explosion if the battery is replaced incorrectly.

 Replace only with same or equivalent battery type recommended by the manufacturer.



Dispose of used batteries according to the manufacturer’s instructions.

General Instructions on Usage

In order to maintain Kontron’s product warranty, this product must not be altered or modified in any way. Changes or modifications to the product, that are not explicitly approved by Kontron and described in this user guide or received from Kontron Support as a special handling instruction, will void your warranty.

This product should only be installed in or connected to systems that fulfill all necessary technical and specific environmental requirements. This also applies to the operational temperature range of the specific board version that must not be exceeded. If batteries are present, their temperature restrictions must be taken into account.

In performing all necessary installation and application operations, only follow the instructions supplied by the present user guide.

Keep all the original packaging material for future storage or warranty shipments. If it is necessary to store or ship the product then re-pack it in the same manner as it was delivered.

Special care is necessary when handling or unpacking the product. See Special Handling and Unpacking Instruction.

Quality and Environmental Management

Kontron aims to deliver reliable high-end products designed and built for quality, and aims to complying with environmental laws, regulations, and other environmentally oriented requirements. For more information regarding Kontron’s quality and environmental responsibilities, visit http://www.kontron.com/about-kontron/corporateresponsibility/quality-management.

Disposal and Recycling

Kontron’s products are manufactured to satisfy environmental protection requirements where possible. Many of the components used are capable of being recycled. Final disposal of this product after its service life must be accomplished in accordance with applicable country, state, or local laws or regulations.

WEEE Compliance

The Waste Electrical and Electronic Equipment (WEEE) Directive aims to:

 Reduce waste arising from electrical and electronic equipment (EEE)  Make producers of EEE responsible for the environmental impact of their products, especially when the product

become waste

 Encourage separate collection and subsequent treatment, reuse, recovery, recycling and sound environmental

disposal of EEE

 Improve the environmental performance of all those involved during the lifecycle of EEE

Environmental protection is a high priority with Kontron. Kontron follows the WEEE directive.

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Table of Content

Symbols ................................................................................................................................................................................................................. 5

Table of Content ................................................................................................................................................................................................ 8

List of Tables ........................................................................................................................................................................................................ 9

List of Figures ...................................................................................................................................................................................................... 9

1/ Introduction .......................................................................................................................................................................................... 10

1.1. Board Overview .......................................................................................................................................................................................... 10

1.2. Board Diagrams .......................................................................................................................................................................................... 11

Front Panel ............................................................................................................................................................................................... 12 1.2.1.

Board Layout ........................................................................................................................................................................................... 13

1.2.2.

1.3. Technical Specification ............................................................................................................................................................................ 15

1.4. Environmental Considerations ............................................................................................................................................................. 16

1.5. Standards ..................................................................................................................................................................................................... 17

1.6. Power Requirements ............................................................................................................................................................................... 18

1.7. Related Publications ................................................................................................................................................................................. 18

2/ Functional Description ...................................................................................................................................................................... 19

2.1. General Information ................................................................................................................................................................................. 19

2.2. Specifics ....................................................................................................................................................................................................... 19

2.3. Board Interfaces ....................................................................................................................................................................................... 19

Front Panel Serial I/O Connector ..................................................................................................................................................... 20 2.3.1.

Front Panel Adapter Cable 37-Pin to 4x 9-Pin ................................................................................................

............................ 21 2.3.2.

JTAG Connector ...................................................................................................................................................................................... 21

2.3.3.

CompactPCI Connector ....................................................................................................................................................................... 21

2.3.4.

Configuration ...................................................................................................................................................................................... 22

3.1. Hardware Configuration ........................................................................................................................................................................ 22

Serial Mode Configuration .................................................................................................................................................................. 22 3.1.1.

RS422/RS485 Termination Jumpers .............................................................................................................................................. 22

3.1.2.

Handshake Control in Half Duplex RS485 Mode ........................................................................................................................ 23

3.1.3.

3.2. Software Configuration ......................................................................................................................................................................... 23

4/ Installation ........................................................................................................................................................................................... 24

4.1. Hardware Installation............................................................................................................................................................................. 24

Board Location in the System ........................................................................................................................................................... 24 4.1.1.

Hot Swap Capabilities ......................................................................................................................................................................... 24

4.1.2.

4.2. Standard Board Installation Procedure ........................................................................................................................................... 25

4.3. Standard Board Removal Procedure ................................................................................................................................................ 25

4.4. Cabling ........................................................................................................................................................................................................ 26

Four-Channel Front Panel Adapter Cable .................................................................................................................................... 26 4.4.1.

Null Modem Cable ............................................................................................................................................................................... 26

4.4.2.

4.5. Software Installation ............................................................................................................................................................................. 27

List of Acronyms .............................................................................................................................................................................................. 28

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List of Tables

Table 1: CP347 Technical Specifications ................................................................................................................................................... 15

Table 2: Environmental Specification ........................................................................................................................................................ 16

Table 3: Applied Standards: .......................................................................................................................................................................... 17

Table 4: Related Publications ....................................................................................................................................................................... 18

Table 5: 37-Pin D-Sub Front Panel Connector Pin Assignment ....................................................................................................... 20

Table 6: 9-Pin D-Sub Front Panel Connector Pin Assignment .......................................................................................................... 21

Table 7: Serial Mode DIP Switch CP347 Configuration ........................................................................................................................ 22

Table 8: RS422/RS485 Termination Jumper Settings ........................................................................................................................ 22

Table 9: RS485 Transceiver Control (RTS# and DTS#) Resistor Configuration ......................................................................... 23

Table 10: Four-Channel Front Panel Adapter Port Number .............................................................................................................. 26

List of Figures

Figure 1: CP347 Functional Block Diagram ................................................................................................................................................ 11

Figure 2: CP347 Front Panel .......................................................................................................................................................................... 12

Figure 3: CP347 Board Layout (Top View) ................................................................................................................................................ 13

Figure 4: 8-port DIP Switch (Default Position – Switches OFF) ....................................................................................................... 22

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1/ Introduction

1.1. Board Overview

The CP347 serial communications controller board is a 3U CompactPCI board that implements the Exar XR17D154 PCI controller with four UART interfaces.

External interfacing is supported via one 37-pin D-Sub serial I/O connector on the CP347’s front panel, providing the signals for all four serial I/O channels that are individually programmable and support the RS232, RS422 and RS485 industry standards. Additionally, four pairs of LEDs indicate the four serial I/O channels’ receive and transmit data transfer operations.

The CP347 is galvanic isolated between the system side and the serial I/O front panel D-sub connector for all four channels.

In order to provide separate serial I/O channeling, it is possible to connect a front panel adapter to the 37-pin front panel connector. This adapter terminates on the user side with four male 9-pin D-Sub connectors, one per serial I/O channel.

The board is offered with various Board Support Packages including Windows®, VxWorks® and Linux®operating systems. For further information concerning the operating systems available for the CP347, contact Kontron Support.

Basic CP347 features are:

 3U standard CompactPCI board form factor  High performance quad UART XR17D154  32-bit address and data bus  33 MHz system clock  Data rates of up to 115.2 kbps  Isolated (up to 2 kV between CompactPCI system and D-Sub front panel)  Four independent and individually configurable serial channels  RS232, RS422, and RS485 standards  Hardware selectable bus termination resistors (RS422/RS485)  One 37-pin dual-row D-Sub connector  Front panel Rx/Tx control LEDs  Windows®, Linux® and VxWorks® support

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1.2. Board Diagrams

Figure 1: CP347 Functional Block Diagram

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Front Panel 1.2.1.

Figure 2: CP347 Front Panel

1. Front Panel LEDs

Eight indicator LEDs monitor the operation of the four serial channels.

Two LEDs for each of the four channels:

 4x yellow LEDs for Rx  4x green LEDs for Tx

2. Front Panel Serial I/O Connector

A 37-pin D-Sub connector is accessible on the front panel and contains signals for four RS232 or RS 422/RS485 serial interfaces, controlled and converted by a PCI to serial controller. For the 37-pin D-Sub connector’s pin assignment, see Chapter 2.3.1 Front Panel Serial I/O Connector.

1.2.1.1. Front Panel Adapter

A front panel adapter cable (CP-ADAP-CP346-CP347) can be connected to the 37-pin D-Sub front panel connector to provide discrete access to the separate serial I/O channels. This adapter cable terminates on the user side with four male 9-pin D-Sub connectors, one per serial I/O channel. For more information see, Chapter 4.4.1 Four-Channel Front Panel Adapter cable.

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Board Layout 1.2.2.

Figure 3: CP347 Board Layout (Top View)

Connector and Component Description

Item Connector Description Chapter

1 Con2 37-pin D-Sub front panel connector

2.3.1

6 Con3 12-pin JTAG/ISP connector

2.3.3

14 Con1 CompactPCI connector J1 in the CompactPCI specification

2.3.4

Item Configurable

Components

Description Chapter

2 R16, R17, R18, R19,

R20, R21, R22, R23

8x 0 Ω resistors configure the channel’s operation mode as an alternative to SW1 (Listed from left to right)

3.1.1

3 D1 8x front panel LEDs

1.2.1

4 SW1 Eight-port DIP switch

3.1.1

3 23 17 13 10

16 14

5 6

19 22

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Item Configurable

Components

Description Chapter

5 R44, R45

2x 0 Ω resistors to configure CPLD RTS# or DTR# inputs for channel 1 (Listed from left to right)

3.1.3

8 R32, R33

2x 0 Ω resistors to configure CPLD RTS# or DTR# inputs for channel 0 (Listed from left to right)

3.1.3

10 R37, R38,

2x 0 Ω resistors to configure CPLD RTS# or DTR# inputs for channel 3 (Listed from left to right)

3.1.3

11 R46, R47

2x 0 Ω resistors to configure CPLD RTS# or DTR# inputs for channel 2 (Listed from left to right)

3.1.3

23 JP1, JP2, JP3, JP4,

JP5, JP6, JP7, JP8

Bus termination solder-jumpers (Listed from top to bottom) 3.1.2

Item Components Description

7 U7 CPLD

9 U11 Voltage translator

12 U3, U4, U8, U12,

U16, U20, U22, U25

Digital isolation (Listed from top right to bottom right)

13 U5, U6 LED buffer to activate Tx and Rx front panel LEDs

15 U17 PCI controller with four UART interfaces, Exar XR17D154

16 U21 Position of an optional EEPROM

17 Y1 Clock supply

18 U15 Voltage isolation

19 U9, U10 Channel 3 RSxxx transceiver

( Listed from left to right)

20 U13, U14 Channel 2 RSxxx transceiver

( Listed from left to right)

21 U18, U19 Channel 1 RSxxx transceiver

( Listed from left to right)

22 U23, U24 Channel 0 RSxxx transceiver

( Listed from left to right)

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1.3. Technical Specification

Table 1: CP347 Technical Specifications

Form Factor

Form Factor 3U/4HP CompactPCI board

Dimensions and Weight 100 mm x 160 mm (3U card size) and 142 gram

3,94” x 6.3” single height and 0.31 pounds

Controller

CompactPCI to Serial Interface Exar XR17D154, internal CompactPCI port to external serial interface bridge

CPLD Altera Max V 5M40ZE64I5N, switches the RS232, RS422/RS485 transceivers

On/Off, as defined in the user configuration

System Interconnection

Serial I/O interface RS232, RS422 full duplex and RS485 half duplex

Serial I/O Channels 4x channels, individually configurable via hardware and software

Serial Data Rates Up to 115.2 kbps

Programmable Data Formats Up to 64-byte transmit and receive FIFOs

Automatic RTS/CTS or DTR/DSR flow control Automatic Xon/Xoff software flow control Automatic RS485 half duplex control output

Configurable Channel Modes RS232

RS422 full duplex (4-wire) RS485 with local echo half duplex (2-wire) RS485 without local echo half duplex (2-wire)

Front Panel

External Board Interfaces 1x 37-pin D-Sub

LEDs Eight operation indicator LEDs (two for each channel):



4x yellow Rx

 4x green Tx

Power Considerations

Power Supply 5 V DC

Isolation Voltage 2 kV between CompactPCI system and D-Sub front panel

Overvoltage Protection RSxxx transceiver I/Os can handle ±12 V

PCI Interface 5 V or 3.3 V (I/O) PCI Bus connection

Power Consumption 2 Watt (Typical)

Software

Operating systems Drivers are supplied for the operating systems:



Windows®



Linux®



VxWorks®

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1.4. Environmental Considerations

Table 2: Environmental Specification

Environmental Specification

Operating Temperature Standard range

0°C to +70°C

In a passive cooled system, the maximum ambient temperature is +48°C.

Operating Temperature Extended range

-40°C to +85°C

In a passive cooled system, the maximum ambient temperature is +63 °C.

Storage Temperature -55 °C to +125 °C

Humidity 93 % RH non-condensing

Operating Altitude Up to 2000 m

The difference between ambient temperature and the temperature inside the system must be considered.

Forced air-cooling is required and must be considered in the system.

If the system is operated in a dust-prone environment, an air filter must be considered for dust protection.

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1.5. Standards

Table 3: Applied Standards:

Standard Type Description

Emission EN 55022 Radiated emission Information technology equipment, radio

disturbance characteristics- limits and methods of measurement

EN 61000-6-3 EMC emmission Generic Emission standard, part 3

residential, commercial and light industry

Immunity

EN 61000-6-2 EMC immunity Generic standards, immunity for industrial

environment

EN 55024 Information technology equipment immunity

characteristics limits and methods of measurement

EN 61000-4-2 Electrostatic Discharge

EN 61000-4-3 RF electromagnetic fields

EN 61000-4-4 Burst

EN 61000-4-5 Surge

EN 61000-4-6 Conducted interferences

Safety

EN 60950-1 UL/CSA 60950-1

Electrical safety IT-equipment

EN 62368-1 Electrical safety Safety for audio/video and information

technology equipment

Vibration

IEC 60068-2-6 Vibration Sinusoidal, 10 Hz – 300 Hz, 5 g

IEC 60068-2-64 Random vibration 20 Hz – 500 Hz or 500 Hz to 2000 Hz, 3.6 g

Bump IEC 60068-2-29 Bump Half sine. 11 ms, 15 g

Shock IEC 60068-2-27 Single shock Half sine. 9 ms, 30 g

Environmantal IEC 60068-2-78 Humidity

IEC 60068-2-1 Thermal operation

IEC 60068-2-2

Environmental Rohs II Restriction of Hazardous

Substances

Restriction of use of hazardous substances in electrical and electronic equipment

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1.6. Power Requirements

The CP347’s supply voltage is 5 V DC. An on-board 5 V/5 V, DC/DC voltage isolator, isolates the serial channels from the CompactPCI interface.

The CP347 provides a universal CompactPCI interface and can work properly with 5 V and

3.3 V PCI V (I/O) signaling.

1.7. Related Publications

Table 4: Related Publications

Product Publication

CompactPCI systems and boards CompactPCI Specification 2.0, Rev. 3.0

Kontron CompactPCI System Manual, ID 19954

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2/ Functional Description

2.1. General Information

The CP347 serial communications controller board is the realization of a low cost solution for industrial automation communication purposes and represents the implementation of a serial communication controller board at the basic OSI levels.

The main functions implemented on the CP347 board are the OSI Layer 2 data link control for RS232, RS422 and RS485 communication purposes, and the OSI Layer 1 physical signal level adaptation for the RS232, RS422 and RS485 interfaces. The RS422 interface is realized for full duplex (4-wire) and the RS485 Interface is realized for half duplex (2-wire) operation.

The physical layer adaptation (OSI Layer 1) of the TTL interface signals is realized independently for each channel via corresponding on-board RS232, RS422/RS485 transceivers. Each of the four serial communication links are configured individually for serial interface operation per hardware and software, including the serial line termination for balanced serial communication.

2.2. Specifics

The OSI Layer 2 functions for serial communication are handled entirely by the Exar XR17D154 serial I/O controller. This controller handles all the on-board serial communication tasks related to the OSI Layer 2, and also the data transfer to the system host CPU over the CompactPCI bus.

For the various operation types, configuration of the serial communication links as well as serial line termination for differential communication (RS422/RS485) is accomplished via hardware and software. The four serial I/O channels are independent and can be configured individually for RS232, RS422/RS485 serial communication.

The data transfer operation of the serial channels is indicated at the front panel by four channel related pairs of LEDs, for receive and transmit operations.

The communication functions including the RS232, RS422 and RS485 serial I/O functions are tied to the host system via the standard PCI interface provided directly on the Exar XR17D154. Logical control of the CP347 serial communication operation is accomplished via the Exar XR17D154 command and status registers that can be accessed independently for each channel directly from the PCI side.

The CP347 serial I/O board is provided with a 37-pin D-Sub connector providing the signals for all four serial I/O channels. In order to provide separate serial I/O channeling, a front panel adapter can be connected to the 37-pin front panel connector. This adapter terminates on the user side with four, male, 9-pin, D-Sub connectors (one per serial I/O channel).

In addition, the CP347 is galvanic isolated between the system side and the serial I/O front panel D-Sub connector for all four channels. This is accomplished with digital isolators using the iCoupler® technology. This is especially useful in industrial environments, where voltage potential differences between the different transmission stations can occur. Using this technology GND compensating currents can be avoided or minimized and the digital system side, where expensive components such as CPU are located, is protected against noise transients.

An optional 1 Kbit EEPROM can be assembled to store the vendor’s ID and model number, and the sub-vendor’s ID and product model number. If an EEPROM is assembled, the PCI controller reads four word data from the EEPROM’s first four word locations and places those values into the PCI configuration space registers for chipset identification. Additionally, the EEPROM can store proprietary data. If no EEPROM is assembled, the PCI controller uses the default value of the PCI controller’s vendor and device ID. The IDs are stored in the configuration space for chipset identification during the auto-configuration sequence.

2.3. Board Interfaces

The CP347 serial I/O board provides a 37-pin D-Sub connector with signals for all four serial I/O channels. Additionally, in order to provide separate serial I/O channeling, it is possible to connect a front panel adapter to the 37-pin D-Sub front panel connector. This adapter terminates on the user side with four male 9-pin D-Sub connectors,

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one per serial I/O channel. This chapter includes pin assignment information for both the 37-pin D-Sub front panel connector and the four-channel front panel adapter cable’s 9-pin D-Sub connectors.

Front Panel Serial I/O Connector 2.3.1.

The front panel serial I/O, 37-pin D-Sub dual row, connector comprises of the signals for channels 0 to 3.

Do not connect external wiring to the connector pins if signals are not indicated in the table below or are marked with NC. Failure to comply may result in damage to your board.

Table 5: 37-Pin D-Sub Front Panel Connector Pin Assignment

Channel Signal

Front Panel

Pin # RS232

Direction

RS232 RS485

Half Duplex

RS422 Full Duplex

Front Panel 37-Pin D-Sub Connector

0 FE01 37 In DCD RxD+

FE02 36 In RXD#

FE03 35 Out TXD# TRxD+ TxD+

FE04 34 Out DTR

FE06 18 In DSR RxD-

FE07 17 Out RTS

FE08 16 In CTS TRxD- TxD-

FE09 15 In RI

1 FE11 10 In DCD RxD+

FE12 11 In RXD#

FE13 12 Out TXD# TRxD+ TxD+

FE14 13 Out DTR

FE16 29 In DSR RxD-

FE17 30 Out RTS

FE18 31 In CTS TRxD- TxD-

FE19 32 In RI

2 FE21 28 In DCD RxD+

FE22 27 In RXD#

FE23 26 Out TXD# TRxD+ TxD+

FE24 25 Out DTR

FE26 9 In DSR RxD-

FE27 8 Out RTS

FE28 7 In CTS TRxD- TxD-

FE29 6 In RI

3 FE31 1 In DCD RxD+

FE32 2

In RXD#

FE33 3 Out TXD# TRxD+ TxD+

FE34 4 Out DTR

FE36 20 In DSR RxD-

FE37 21 Out RTS

FE38 22 In CTS TRxD- TxD-

FE39 23 In RI

GND_DSUB 5 GND GND GND

GND_DSUB 14 GND GND GND

GND_DSUB 24 GND GND GND

GND_DSUB 33 GND GND GND

NC 19 NC NC NC NC

S1 Shield

S2 Shield

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Front Panel Adapter Cable 37-Pin to 4x 9-Pin 2.3.2.

A four-channel front panel adapter cable that is connected to the 37-pin front panel connector terminates on the user side with four male 9-pin D-Sub connectors that include the channel signals. The following table shows the pin assignment of the adapter’s 9-pin D-Sub connectors.

Do not connect external wiring to the connector pins if signals are not indicated in the table 6 below or are marked with NC. Failure to comply may result in damage to your board.

Table 6: 9-Pin D-Sub Front Panel Connector Pin Assignment

D-Sub Pin # RS 232 Signal RS 422 Signal Full Duplex RS 485 Signal Half Duplex

1 DCD RxD+ NC

2 RxD NC NC

3 TxD TxD+ TRxD+

4 DTR NC NC

5 GND GND GND

6 DSR RxD- NC

7 RTS NC NC

8 CTS TxD- TRxD-

9 RI NC NC

JTAG Connector 2.3.3.

The CPLD is pre-programmed during the manufacturing process via a 12-pin male dual row JTAG/ISP connector, known as Con3 within this user guide.

CompactPCI Connector 2.3.4.

The CP347’s CompactPCI connector is known as Con1 within this user guide and is located at the rear of the CP347. The CompactPCI connector Con1 corresponds to the CompactPCI connector known as J1 within the CompactPCI specification. For information regarding the pin assignment of the CompactPCI connector, refer to the CompactPCI Specification.

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3/ Configuration

3.1. Hardware Configuration

Configuration of the serial communication channels for the various operation types as well as serial line termination for differential communication (RS422/RS485) is accomplished via hardware and software configuration.

The four serial I/O channels are independent and can be configured individually for RS232, RS422 or RS485 serial communication through setting an 8-port DIP switch, resistor assembly or jumper assembly.

Serial Mode Configuration 3.1.1.

The CP347 offers the possibility to configure each channel’s operation mode with either a per default mounted eightport DIP switch (SW1) or with eight 0 Ω resistors (R16- R23). Because the switches are implemented as GND switches, and the DIP switch and the resistor option are wired OR, it is possible to use both options. A switch that is ‘On’ or a resistor that is ‘Set’, always has the higher priority. Two dedicated switches or resistors are necessary to configure one channel.

Figure 4: 8-port DIP Switch (Default Position – Switches OFF)

The following table shows the possible settings where switch setting are either ‘On’ or ‘Off’ and resistor setting are either ‘Open’ or ‘Set’.

Table 7: Serial Mode DIP Switch CP347 Configuration

Channel# Channel 0 Channel 1 Channel 2 Channel 3

Switch #/ Resistor 1 / R23 2 / R22 3 / R21 4 / R20 5 / R19 6 / R18 7 / R17 8 / R16

RS232 (default) Off/Open Off/Open Off/Open Off/Open Off/Open Off/Open Off/Open Off/Open

RS422 (4-wire) Off/Open On/Set Off/Open On/Set Off/Open On/Set Off/Open On/Set

RS485 (2-wire) with local echo

On/Set Off/Open On/Set Off/Open On/Set Off/Open On/Set Off/Open

RS485 (2-wire) without local echo

On/Set On/Set On/Set On/Set On/Set On/Set On/Set On/Set

RS422/RS485 Termination Jumpers 3.1.2.

Two 120 Ω termination resistors per serial channel can be used to terminate the differential line pairs in case the serial channel is a beginning or end node of a RS422/RS485 network. To enable the 120 Ω resistors set the respective solder-jumper (JP1-JP8), by means of connecting the jumper pad with a tin bridge or adding a 0 Ω resistor.

Table 8: RS422/RS485 Termination Jumper Settings

Mode Channel 0 Channel 1 Channel 2 Channel 3 RS422/485 Mode Options

Full duplex JP7 JP6 JP3 JP2

120 Ω termination between TxD+ and TxD- lines enabled

JP8 JP5 JP4 JP1

120 Ω termination between RxD+ and RxD- lines enabled

Half duplex JP7 JP6 JP3 JP2

120 Ω termination between TRxD+ and TRxDlines enabled

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Handshake Control in Half Duplex RS485 Mode 3.1.3.

In the two-wire half duplex RS485 mode, a handshake mechanism is necessary to prevent sending and receiving data at the same time over the same RS485 cabling.

The handshake mechanism manages the driver enable (DE) and receiver enable (RE) signals of the

RS422/RS485 transceivers. The CPLD logic receives the RTS# or DTR# signals from the serial controller and generates the DE and RE signals as outputs for the transceivers. The auto RS485 feature enables either the RTS# or DTS# outputs signals to control the RS485 enable input.

The CP347 RTS# or DTR # control signal to the CPLD are configurable through resistor assembly. For more information on the required resistor configuration, see table 9 below where ’Open’ means a resistor is not assembled and ‘Set’ means an assembled 0 Ω resistor.

Table 9: RS485 Transceiver Control (RTS# and DTS#) Resistor Configuration

Channel 0 Channel 1 Channel 2 Channel 3

R32 R33 R45 R44 R46 R47 R38 R37

RTS# Signal Controls DE/RE (default)

Open Set Open Set Open Set Open Set

DTR# Signal Controls DE/RE#

Set Open Set Open Set Open Set Open

Depending on whether the RS485 mode is selected with or without local echo the receiver RE signal is always ‘Low’ (with local echo) or the RE signal is always ‘High’ (without local echo).

With local echo, the internal receiver is always activated and the RS422/RS485 transceivers receive transmitted signals instantaneously.

Without local echo, to receive data the receiver is activated and the transmitter is deactivated, and to send data the transmitter is activated and the receiver is deactivated.

The hardware implementation works with low active DTR#/RTS# handshaking

3.2. Software Configuration

Configure as required using the drivers for Windows®, Linux® or VxWorks®. For more detailed driver information, refer to the relevant CP347 driver documentation.

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4/ Installation

4.1. Hardware Installation

Before installing the CP347 in a CompactPCI backplane slot, read this installation chapter thoroughly for guidelines on positioning, installing and removing the board.

The CP347’s front panel should be safely secured by screwing the front panel to the chassis to avoid loosening of the board through vibration and to ensure an adequate earth connection.

ESD Sensitive Device! This CompactPCI board contains electrostatic sensitive devices. Observe the necessary

precautions to avoid damage to your board:

• Discharge your clothing before touching the assembly.

• Discharge tools before use.

• Do not touch components, connector pins or traces.

• If working at an anti-static workbench, use the professional discharging equipment.

Board Location in the System 4.1.1.

It is possible to install the CP347 in any CompactPCI backplane slot except for the system master slot. Consider the board’s location within a system carefully. Factors such as the number of CP347 boards, their locations in a given system, and the operating system in use, may cause applications to have difficulty identifying boards properly. This includes board replacement, board movement to another slot, and other possible configuration changes to the initial system.

If the position of the board is changed, verify the proper operation of the system before putting the system into operation.

When configuring a system, install all boards in the system prior to installing drivers or other board related software. Failure to do so may result in the non-identification of a given board or boards.

Hot Swap Capabilities 4.1.2.

The CP347 is not hot swappable. Read the following caution notice carefully before installing or removing the CP347 from a system.

CP347 Not Hot Swappable Switch off the CompactPCI system power before installing a board classified as not hot-

swap capable in a free CompactPCI slot. Failure to do so could result in personal injury and may damage your board or system.

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4.2. Standard Board Installation Procedure

Before installing the CP347 in a CompactPCI system read and observe the following:

1. Observe the safety requirements indicated in Chapter 4.1 Hardware Installation.

Failure to comply with the instructions in this chapter may damage the board or result in improper system operation.

2. Configure the board for operation in accordance with the application requirements. For information

regarding CP347 configuration, see Chapter 3

Configuration. To install CP347 specific peripheral devices,

see the appropriate sections within Chapter 4

Installation.

Incorrect installation of the CP347 can damage the CP347 or system boards. Read the following instructions carefully.

To install the CP347 in a CompactPCI system, proceed as follows:

1. Turn off all power to the system before proceeding.

Do not push the board into the backplane connectors. Use the ejector handles to seat the board into the backplane connectors.

2. Insert the board into the designated slot carefully until it makes contact with the backplane connectors.

3. Use the ejector handle to engage the board with the backplane. The board is engaged when the ejector handle is

locked.

4. Secure the board’s front panel to the chassis with retaining screws, to avoid loosening of the board through vibration and to provide an adequate earth connection.

5. Connect all external interfacing cables to the board, as required.

6. Ensure that the board and interfacing cables are secured properly.

7. The CP347 is now ready for operation.

4.3. Standard Board Removal Procedure

To remove the CP347 from a CompactPCI system, proceed as follows:

1. Observe the safety requirements indicated in Chapter 4.1 Hardware Installation.

Incorrect removal of the CP347 can damage the CP347 or other board in the system. Read the following instructions carefully.

2. Turn off all power to the system before proceeding.

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3. Disconnect any interfacing cables connected to the board.

4. Unscrew the front panel retaining screws.

5. Disengage the board from the backplane, by unlocking the board ejection handle and then pressing the handle

until the board is disengaged.

6. After disengaging the board from the backplane, carefully pull the board out of the slot.

7. Dispose of the board in accordance with the laws and regulations within your region. For more information, see

the Quality and Environmental Management statement within this user guide.

4.4. Cabling

Four-Channel Front Panel Adapter Cable 4.4.1.

To provide separate serial I/O channels, a four-channel front panel adapter cable (CP-ADAP-CP346-CP347) can be connected to the CP347’s 37-pin D-Sub front panel connector. The front panel adapter terminates on the user side with four male 9-pin D-Sub connectors that include the signals of channels 0 to 3.

Article Description

CP-ADAP-CP346-CP347 Adapter cable serial port, D-Sub37 to 4x D-Sub-9 for CP347

The relationship between channel number and port number is shown in Table 10: Four-Channel Front Panel Adapter Port Number.

Port labelling on 9-pin D-Sub connectors is different to channel numbering on the CP347.

Table 10: Four-Channel Front Panel Adapter Port Number

Channel # Port # Numbering Port to Channel

Port 1

Port 2

Port 3

Port 4

Null Modem Cable 4.4.2.

If operating in RS232 mode, a null-modem cable can be used to allow for the use of a terminal program. The nullmodem cable links the adapter interface with the PC interface via a 9-pin female D-Sub connector.

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4.5. Software Installation

Drivers for Windows ®, Linux ®, and VxWorks® are available for the CP347. For more detailed driver installation information, refer to the relevant CP347 driver documentation. For more information, contact Kontron Support.

Install all boards required for the application before installing the driver software. Failure to do so may result in improper operation of the system.

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List of Acronyms

API Application Programming Interface

BMC Base Management Controller

CLI Command-Line Interface

CPLD Complex Programmable Logic Device

CTS Clear to Send

DTR Data Terminal Ready

ECC Error Checking and Correction

FRU Field Replaceable Unit

GPU Graphics Processing Unit

HPM PICMG Hardware Platform Management

specification family

IOL IPMI-Over-LAN

IPMI Intelligent Platform Management

Interface

KCS Keyboard Controller Style

KVM Keyboard Video Mouse

MEI Management Engine Interface

NCSI Network Communications Services

Interface

OSI Open System Interconnection

PCI Peripheral Component Interface

PCIe PCI-Express

PECI Platform Environment Control Interface

PICMG® PCI Industrial Computer Manufacturers

Group

RTS Request to Send

RTC Real Time Clock

SEL System Event Log

ShMC Shelf Management Controller

SMBus System Management Bus

SMWI System Monitor Web Interface

SOL Serial Over LAN

SSH Secure Shell

TPM Trusted Platform Module

TTL Transistor Transistor Logic

UART Universal Asynchronous Receiver

Transmitter

UEFI Unified Extensible Firmware Interface

VLP Very Low Profile

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49 821 4086-111

info@kontron.com

About Kontron

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Things (IoT) and Industry 4.0 applications. With its standard products and tailor-

made solutions based

on highly reliable state-of-the-art embedded technologies, Kontron provides secure and innovative applications for a variety of industries. As a result, customers benefit from accelerated time-to-

market

reduced total cost of ownership, product longevity and the best fully integrated applications overall. For more information, please visit:

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