Emerson Bristol ControlWave LP Bedienerhandbuch

www.EmersonProcess.com/Bristol Instruction Manual CI-ControlWaveLP Oct., 2006 ControlWaveLP Low Power ControlWave Process Automation Controlle

0 - 2 / Contents ControlWaveLP CI-ControlWaveLP LOW POWER ControlWave PROCESS AUTOMATION CONTROLLER TABLE OF CONTENTS SECTION TITLE PAGE #

4-10 / Specifications CI-ControlWaveLPRFI Susceptibility: In conformity with the following standards:ENV 50140 Radio-frequency electromagnetic field,A

CI-ControlWaveLP Specifications / 4-11Table 4-10 - PSSB Connectors TB1 & TB2 Pin Assignments(see Sections 2.4.5 & 2.4.6)Connector Sig. Name De

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www.EmersonProcess.com/Bristol Instruction Manual CI-ControlWaveLP Oct., 2006 ControlWave LP Low Power ControlWave PC/104 ANALOG OUTPUT MODULE

CI-ControlWaveLP Appendix 1 Page 0-1 Table Of ContentsAppendix 1PC-104 ANALOG OUTPUT MODULE OPTIONTABLE OF CONTENTSTITLE PAGE #DESCRIPTION...

CI-ControlWaveLP Appendix 1 Page 1 PC-104 AO Module Option PC/104 ANALOG OUTPUT MODULE OPTION DESCRIPTION PC/104 Analog Output (AO) Modules provi

CI-ControlWaveLP Appendix 1 Page 2 PC-104 AO Module Option INSTALLING THE PC/104 AO MODULE OPTION The first PC/104 AO Module is to be mounted direc

CI-ControlWaveLP Appendix 1 Page 3 PC-104 AO Module Option Figure 2 - ControlWaveLP FMI/OB Board PC/104 Board Mounting Location Diagram

CI-ControlWaveLP Appendix 1 Page 4 PC-104 AO Module Option Figure 3 - PC/104 AO Board Mounted on ControlWaveLP FMI/OB Board

CI-ControlWaveLP Appendix 1 Page 5 PC-104 AO Module Option Jumper JP7 provides for selection of either a 6 MHz Oscillator or the 6 MHz System Clock

ControlWaveLP Contents / 0 - 3 CI-ControlWaveLP LOW POWER ControlWave PROCESS AUTOMATION CONTROLLER TABLE OF CONTENTS SECTION TITLE PAGE #

CI-ControlWaveLP Appendix 1 Page 6 PC-104 AO Module Option Figure 4 - Analog Output Terminal Blocks and Configuration Jumpers

CI-ControlWaveLP Appendix 1 Page 7 PC-104 AO Module Option Figure 5 - Switch S1 PC/104 AO Board I/O Memory Map Address Settings Figure 6 - 1-5

CI-ControlWaveLP Appendix 1 Page 8 PC-104 AO Module Option Figure 7 - 4-20 mA Analog Output Field Wiring Diagram Table 2 - PC/104 AO Board Connec

CI-ControlWaveLP Appendix 1 Page 9 PC-104 AO Module Option Table 2 - PC/104 AO Board Connector P3 and FMI/OB PC/104 Connectors Wiring Summary (Cont

CI-ControlWaveLP Appendix 1 Page 10 PC-104 AO Module Option AO Configuration: 1-5Vdc & 4-20mA (Individually Config’d.) Power Loop: 9

9/02/01 Appendix Z - CI-ControlWaveLP MSDSControlWaveLPMaterial Safety Data SheetsA Material Safety Data Sheet is provided herein to comply with OSHA’

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GilletteEnvironmentHealth and Safety37 A StreetNeedham, MA 02492Tel 781.292.8151Page 1 of 4MATERIAL SAFETY DATA SHEETNAME:DURACELL LITHIUM MANGANE

Page 2 of 4D. — HEALTH HAZARD DATAOccupational Exposure Limits PEL’s, TLV’s, etc.)8-Hour TWAs: Manganese Dioxide (as Mn) - 5 mg/m3 (Ceiling) (OSHA)

Page 3 of 4F. — EXPOSURE CONTROL METHODSEngineering ControlsGeneral ventilation under normal use conditions.Eye ProtectionNone under normal use condi

0 - 4 / Contents ControlWaveLP CI-ControlWaveLP LOW POWER ControlWave PROCESS AUTOMATION CONTROLLER TABLE OF CONTENTS SECTION TITLE PAGE #

Page 4 of 4H. — EMERGENCY PROCEDURESSteps to be taken if material is released to the environment or spilled in the work areaEvacuate the area and all

SITE CONSIDERATIONSForEQUIPMENT INSTALLATION,GROUNDING&WIRINGBristol BabcockSupplement Guide - S1400CWIssue: 04/05A Guide for the Protection ofSit

NOTICE Copyright Notice The information in this document is subject to change without notice. Every effort has been made to supply complete an

Supplement S1400CW Page 0-1 Table Of ContentsSupplement Guide S1400CWSITE CONSIDERATIONS FOR EQUIPMENTINSTALLATION, GROUNDING & WIRINGTABLE OF CON

Supplement S1400CW Page 0-2 Table Of ContentsSupplement Guide S1400CWSITE CONSIDERATIONS FOR EQUIPMENTINSTALLATION, GROUNDING & WIRINGTABLE OF CON

Section 1 - Overview Page 1-1 S1400CWSection 1 - Overview1.1 INTRODUCTIONThis document provides information pertaining to the installation of Control

Section 2 - Protection Page 2-1 S1400CWSection 2 - Protection2.1 PROTECTING INSTRUMENT SYSTEMSElectrical instrumentation is susceptible to damage fr

S1400CW Page 2-2 Section 2 - Protection2.2.1 Considerations For The Protection of PersonnelAlways evaluate the site environment as if your life depen

Section 2 - Protection Page 2-3 S1400CWTable 2-2 - Equipment Protection Site Safety Evaluation Guide (Continued)# Guide Reference Section6 Is there a

Section 3 - Grounding & Isolation Page 3-1 S1400CW Section 3 - Grounding & Isolation 3.1 POWER & GROUND SYSTEMS ControlWaves utiliz

ControlWaveLP Introduction / 1-1 Section 1 INTRODUCTION 1.1 GENERAL DESCRIPTION ControlWaveLP Remote Terminal Units are comprised of a three boa

S1400CW Page 3-2 Section 3 - Grounding & Isolation not be suitable for a complex system of sophisticated electronic equipment. Conditions such a

Section 3 - Grounding & Isolation Page 3-3 S1400CW ground has been established, it should be tested on a regular basis to preserve system integ

S1400CW Page 3-4 Section 3 - Grounding & Isolation Megger reads more than 10 ohms, the ground is considered ‘poor.’ If a poor ground is indicate

Section 3 - Grounding & Isolation Page 3-5 S1400CW Figure 3-5 - Poor Soil Ground Bed Construction Diagram 3.3.2 Ground Wire Considerations

S1400CW Page 3-6 Section 3 - Grounding & Isolation Ground, it is recommended that the unit’s Chassis Ground Terminal be connected to a conductiv

Section 3 - Grounding & Isolation Page 3-7 S1400CW For applications employing equipment that communicates over telephone lines, a lightning arr

S1400CW Page 3-8 Section 3 - Grounding & Isolation grounded to the pipeline. If any pressure transmitters or pulse transducers are remotely moun

Section 3 - Grounding & Isolation Page 3-9 S1400CW • all conductive tubing that runs between the pipeline and mounting valve manifold and/or t

S1400CW Page 3-10 Section 3 - Grounding & Isolation See BBI Specification Summary F1670SS-0a for information on PGI Direct Mount Systems and Man

Section 4 - Lightning & Surge Page 4-1 S1400CW Section 4 - Lightning Arresters & Surge Protectors 4.1 STROKES & STRIKES Lightning ta

1-2 / Introduction ControlWaveLP Figure 1-2 - ControlWaveLP - Top View 1.2 ControlWave PROGRAMMING ENVIRONMENT The ControlWave programming envi

S1400CW Page 4-2 Section 4 - Lightning & Surge Thunderstorms are cloud formations that produce lightning strikes (or strokes). Across the Unite

Section 4 - Lightning & Surge Page 4-3 S1400CW modem has been interfaced to a ControlWave, ControlWave MICRO, ControlWave EFM/GFC/XFC, Contro

S1400CW Page 4-4 Section 4 - Lightning & Surge Figure 4-2 - Radio Antenna Field Installation Site Grounding Diagram For all systems it is b

Section 4 - Lightning & Surge Page 4-5 S1400CW communication equipment lightning arresters and surge suppressors should be tied to the same sys

S1400CW Page 4-6 Section 4 - Lightning & Surge i Watch out for dissimilar metals connections and coat accordingly. i Use bare wire radials to

Section 5 - Wiring Techniques Page 5-1 S1400CW Section 5 - Wiring Techniques 5.1 OVERVIEW This section provides information pertaining to good w

S1400CW Page 5-2 Section 5 - Wiring Techniques Figure 5-1 - Field Wired Circuits With & Without A Common Return 5.2.2 Use of Twisted Shielded

Section 5 - Wiring Techniques Page 5-3 S1400CW 5.2.3 Grounding of Cable Shields DO NOT connect the cable shield to more than one ground point; it

S1400CW Page 5-4 Section 5 - Wiring Techniques Remember loose connections, bad connections, intermittent connections, corroded connec-tions, etc., a

Section 5 - Wiring Techniques Page 5-5 S1400CW Discharge Units should be placed on the base of the antenna and at the point where the antenna lead

ControlWaveLP Introduction / 1-3 The ControlWave programming environment consists of a set of integrated software tools which allow a user to creat

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READER RESPONSE FORM Please help us make our documentation more useful to you! If you have a complaint, a sug-gestion, or a correction regarding this

U.S.A. Locations: Northern Region Bristol Babcock Inc. 1100 Buckingham Street Watertown, CT 06795 Phone: +1 (860) 945-2381 Fax: +1 (860

ESDS ManualS140064/15/92CARE AND HANDLING OFPC BOARDS ANDESD-SENSITIVE COMPONENTSBRISTOL BABCOCK

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1ESDS ManualS140064/15/92TABLE OF CONTENTSPAGETOOLS AND MATERIALS REQUIRED 1ESD-SENSITIVE COMPONENT HANDLING PROCEDURE 21. Introduction 22. General

2ESDS Manual#S140064/15/922. Materials●●●●● Inhibitor (Texwipe Gold Mist ; Chemtronics Gold Guard, or equivalent)●●●●● Cleaner (Chemtronics Electro-Wa

3ESDS ManualS140064/15/92Table 1Typical Electrostatic VoltagesElectrostatic VoltagesMeans of Static 10-20 Percent 65-90 PercentGeneration Relative Hum

4ESDS Manual#S140064/15/92(6) It is important to note when inserting EPROMS/PROMS, that the index notch onthe PROM must be matched with the index notc

5ESDS ManualS140064/15/92CAUTIONDon't place ESD-sensitive components and paperwork in the same bag.The static caused by sliding the paper into th

1-4 / Introduction ControlWaveLP • The I/O Configuration Wizard, accessible via a menu item in ControlWave Designer, allows you to define process I

6ESDS Manual#S140064/15/92Note: If a system checker is not available, use an ohmmeter connected to the cableends to measure its resistance. The ohmme

7ESDS ManualS140064/15/92(7) The components can now be handled following the general rules as describedin the instruction manual for the component.(8)

8ESDS Manual#S140064/15/92(9) If a component is to undergo on-site testing, it may be safely placed on thegrounded work surface for that purpose.(10)

9ESDS ManualS140064/15/92(2) Clean PC board connectors as follows:a. Review the static-safe field procedure detailed earlier.b. Following the ESD-sens

10ESDS Manual#S140064/15/92d. Spray the connector liberally to flush out any contaminants.e. Remove any excess spray by shaking the connector or wipin

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Customer Instruction Manual CI-ControlWaveLP Oct., 2006 ControlWaveLP Low Power PAC The information in this document is subject to change witho

ControlWaveLP Introduction / 1-5 Figure 1-4 - ControlWaveLP CPU Board Basic CPU components and features are summarized as follows: • 3.3V 25MHz

1-6 / Introduction ControlWaveLP Halt system into low power mode Programmable Clock Divider FLASH Controller Integrated real-time clock (with

ControlWaveLP Introduction / 1-7 The BIOS is contained in a single 512 Kbyte boot-block FLASH IC (FBD). The FBD resides on the ISA bus and operates a

IMPORTANT! READ INSTRUCTIONS BEFORE STARTING! Be sure that these instructions are carefully read and understood before any operation is attempte

1-8/Introduction ControlWaveLP CPU Bd. Connectors J10 & J11 - PC/104 Bus (CPU Bd. To FMI/OB Bd.) Connections to the ISA bus are available on the

ControlWaveLP Introduction / 1-9 Table 1-2 - CPU Board Default Jumper Settings (Continued) JUMPER Open Installed JP3A - Expansion SRAM Relocation

1-10 / Introduction ControlWaveLP CPU Bd. Jumper JP4C - ULP SMIACT (see Table 1-5) Table 1-5 - Jumper JP4C - ULP SMIACT Jumper JP4C Open Installe

ControlWaveLP Introduction / 1-11 CPU Bd. Momentary Switch SW3 - CPU Reset SW3 is a momentary switch that is used to reset the ControlWaveLP if it go

1-12 / Introduction ControlWaveLP The power supply operates from 10.0 to 20V or 20.7 to 30V (dc). The nominal settings for the 12V supply are ON stat

ControlWaveLP Introduction / 1-13 located on the isolated secondary side of the power transformer. The low level detection circuitry on the secondary

1-14 / Introduction ControlWaveLP 1.3.2.1 PSSB Switches SPDT Switch SW1 is used to connect the MOSFET power switch gate to PSGND when the ‘I’ side

ControlWaveLP Introduction / 1-15 1.3.3 The Fixed Multifunction Input/Output Board (see Figure 1-2) The Fixed Multifunction Input/Output Board (FMI

1-16 / Introduction ControlWaveLP full load). Output current is rated at 200mA maximum. Supply shutdown is Jumper selectable. The total power consump

ControlWaveLP Introduction / 1-17 There are 8 LEDs (CR49 - CR56), located adjacent to the DO Terminal Block (TB2). These LEDs (which can be disable

WARRANTY A. Bristol warrants that goods described herein and manufactured by Bristol are free from defects in material and workmanship for one year

1-18 /Introduction ControlWaveLP Powered Current Loop Common Mode Range: 0V referenced to isolated common. When a field supply common is connect

ControlWaveLP Introduction / 1-19 Meets ANSI/IEEE C37.90-1978 Terminations: Pluggable (TB4), maximum wire size is 16 gauge Status Indication:

1-20 /Introduction ControlWaveLP FMI/OB Bd. Connectors TB5 - TB8 PC/104 I/O & P3 - P6 I/O Expansion Interface FMI/OB Cable Connectors P3, P4, P

ControlWaveLP Introduction / 1-21 Table 1-10 - FMI/OB Board Jumper Assignment (Continued) Jumper Function Notes W20B Config. AI1 see Figure 2-

1-22 /Introduction ControlWaveLP Table 1-11 - FMI/OB Board LED Assignment (Continued) Name Function Name Function CR43 DI10 CR114 STATUS 2 CR4

CI-ControlWaveLP Installation / 2-1 Section 2 INSTALLATION 2.1 INSTALLATION IN HAZARDOUS AREAS The ControlWaveLP is not furnished in an enclosure

2-2 / Installation CI-ControlWaveLP Figure 2-2 - ControlWaveLP Dimensions - Front View & Left Edge View 2.2 ControlWaveLP SITE CONSIDERATIONS

CI-ControlWaveLP Installation / 2-3 - The rear of the ControlWaveLP’s Mounting Plate must mount to the selected enclosure’s backplate. - The unit

2-4 / Installation CI-ControlWaveLP Figure 2-3 - ControlWaveLP Grounding Diagram 2.3 ControlWaveLP INSTALLATION/CONIGURATION 2.3.1 Overview of

CI-ControlWaveLP Installation / 2-5 9. Apply power to the ControlWaveLP by setting the Power Switch on the PSSB Board to the ‘I’ position. With the

How to return material for Repair or Exchange Before a product can be returned to Bristol for repair, upgrade, exchange, or to verify proper operati

2-6 / Installation CI-ControlWaveLP After this initial configuration is completed, any subsequent changes to these parameters may be made in configur

CI-ControlWaveLP Installation / 2-7 Optionally, additional user-created web pages may be created to allow a customized human-machine interface. A ser

2-8 / Installation CI-ControlWaveLP Table 2-1 - FMI/OB Board Jumper Assignment Jumper Function Notes W1 Config. DI1 see Figure 2-6 (2-3 = Isolat

CI-ControlWaveLP Installation / 2-9 2.3.3 CPU Module Switch Configuration ControlWaveLP CPU Board DIP Switches must be set for the desired performa

2-10 / Installation CI-ControlWaveLP Table 2-3 - CPU Bd. Switch SW2 Soft Switch, FLASH Write & Force Recovery Settings SWITCH Function Setting

CI-ControlWaveLP Installation / 2-11 An illustration of the CPU Module’s male 9-pin D-type connectors is provided in Figure 2-4. Table 2-4 provides t

2-12 / Installation CI-ControlWaveLP Figure 2-4 - Male DB9 9-Pin Connector Associated with COM1 through COM5 Figure 2-5 - Communication Port RS-

CI-ControlWaveLP Installation / 2-13 Table 2-6 - CPU Bd. COM3 Port Configuration Switch SW1 Settings Switch SW1 Function Setting SW1-1 Not used N

2-14 / Installation CI-ControlWaveLP Figure 2-7 - Point-to-Point 10Base-T Ethernet Cable The maximum length of one segment (CPU to Hub) is 100 met

CI-ControlWaveLP Installation / 2-15 2.4 WIRING NOTES 4 Field Wiring Terminals are located on the FMI/OB Board (see Figure 2-1). Terminal Connecti

Bristol Inc. Repair Authorization Form (off-line completion) (Providing this information will permit Bristol Inc. to effectively and efficiently proce

2-16 / Installation CI-ControlWaveLP Figure 2-9 - Discrete Input Terminal Block TB1 - LEDs & Configuration Jumpers Figure 2-10 - Discrete In

CI-ControlWaveLP Installation / 2-17 2.4.2 Discrete Outputs (see Figures 2-12 & 2-13) A total of 8 Discrete Outputs (DOs) with surge protection

2-18 / Installation CI-ControlWaveLP 2.4.3 Analog Inputs (see Figures 2-14 through 2-17) The Analog Input module of the FMI/OB Board is designed to

CI-ControlWaveLP Installation / 2-19 Figure 2-15 - Analog Input (Isolated Voltage Source) Field Wiring (AI1 Shown) Figure 2-16 - Analog In (Is

2-20 / Installation CI-ControlWaveLP Figure 2-17 - Analog Input (Internal Current Source) Field Wiring (AI1 Shown) 2.4.4 High Speed Counter Input

CI-ControlWaveLP Installation / 2-21 required to accumulate counts. The maximum input frequency is 10 kHz. The nominal input current for an input is

2-22 / Installation CI-ControlWaveLP Figure 2-20 - Isolated HSCSET & HSCRESET Inputs (Debounce Enabled Field Wiring Figure 2-21 - Field Powe

CI-ControlWaveLP Installation / 2-23 Figure 2-22 - Isolated HSC (Using SET Input) (Debounce Disabled) Field Wiring 2.4.5 Watchdog Relay/MOSFET Sw

2-24 / Installation CI-ControlWaveLP Figure 2-24 - Watchdog MOSFET Switch Field Wiring 2.4.6 DC Power Configuration & Wiring The ControlWave

CI-ControlWaveLP Installation / 2-25 2.4.6.1 Bulk Power Supply Current Requirements Maximum current requirements for a bulk +12Vdc or bulk +24Vdc

Bristol Training GET THE MOST FROM YOUR BRISTOL BABCOCK INSTRUMENT OR SYSTEM • Avoid Delays and problems in getting your system on-line • Minim

2-26 / Installation CI-ControlWaveLP Operational details on ControlWaveLP LEDs and use of the BBI WinDiag program for fault isolation are provided in

CI-ControlWaveLP Installation / 2-27 2.5.2.1 Using LocalView to Upgrade ControlWaveLP Firmware NOTE Your ControlWaveLP must be set to Recovery Mode

2-28 / Installation CI-ControlWaveLP "Would you like to use auto baud rate detection?" / "What baud rate would you like to use?"

CI-ControlWaveLP Installation / 2-29 Step 3 - Flash Data Setup Complete the fields in the Flash Data Setup Wizard (see Figure 2-28), as described, b

2-30 / Installation CI-ControlWaveLP "Location of Flash Master File" Specifies the location of the Flash Master File (FLASH.MST). The conte

CI-ControlWaveLP Installation / 2-31 Figure 2-30 - Local View Advanced Communication Parameters Menu "Would you like to use RTS/CTS signals?&

2-32 / Installation CI-ControlWaveLP A status of the POST progress is displayed on the FMI/OB Status LEDs. Unless there is a problem these codes will

CI-ControlWaveLP Installation / 2-33 Once the ControlWaveLP is running its application load, status codes posted to the FMI/OB Status LEDs have a dif

2-34 / Installation CI-ControlWaveLP Figure 2-34 - HyperTerminal FLASH Download (Download in Process) Table 2-15 - PORT 80 - Running Status Codes

CI-ControlWaveLP Installation / 2-35 remote download of system firmware is discussed in Appendix J of the Open BSI Utilities Manual (document D5081).

A Few Words About Bristol Inc. For over 100 years, Bristol® has been providing innovative solutions for the measurement and control industry. Our pro

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CI-ControlWaveLP Service / 3-1 Section 3 SERVICE 3.1 SERVICE INTRODUCTION This section provides general, diagnostic and test information for the

3-2 / Service ControlWaveLP Caution PC board components can be damaged by electrostatic dis-charges (ESD) during disassembly/reassembly and test pro

CI-ControlWaveLP Service / 3-3 Figure 3-2 - ControlWaveLP - Top View

3-4 / Service ControlWaveLP Figure 3-3 - Left Side View of ControlWaveLP 3.1.3 Removal/Replacement of the CPU Board and Lithium Battery 1. Per

CI-ControlWaveLP Service / 3-5 5. Carefully disconnect the CPU Board from the FMI/OB Board. 6. Loosen the two screws (C) that secure the PSSB Boa

3-6 / Service ControlWaveLP 3.2 TROUBLESHOOTING TIPS 3.2.1 Power Supply/Sequencer Board (PSSB) Voltage Checks Bulk power (+10.6 to +30 Vdc) is s

CI-ControlWaveLP Service / 3-7 Table 3-1 - FMI/OB Board LED Assignment (Continued) Name Function On Operation Name Function On Operation CR40

3-8 / Service ControlWaveLP Figure 3-7 - Discrete Output (DO) LED Assignments Figure 3-8 - High Speed Counter Input (HSC) LED Assignments

CI-ControlWaveLP Service / 3-9 Figure 3-9 - FMI/OB Board Misc. Operation & Status LED Assignments 3.2.3 Wiring/Signal Checks Check I/O Field

For technical questions regarding ACCOL products, OpenBSI Utilities, UOI and all other software except for ControlWave and OpenEnterprise products, ca

3-10 / Service ControlWaveLP 3.3 GENERAL NOTES Certain questions or situations frequently arise when servicing the BBI Controllers. Some items of i

CI-ControlWaveLP Service / 3-11 Table 3-3 - POST Status Codes (Continued) Hex Code Status LEDs 1 2 3 4 5 6 Definition 0A 0 1 0 1 0 0 iss

3-12 / Service ControlWaveLP Table 3-3 - POST Status Codes (Continued) Hex Code Status LEDs 1 2 3 4 5 6 Definition 45 1 0 1 0 0 0 checki

CI-ControlWaveLP Service / 3-13 Table 3-3 - POST Status Codes (Continued) Hex Code Status LEDs 1 2 3 4 5 6 Definition 96 0 1 1 0 1 0 ini

3-14 / Service ControlWaveLP This will prevent the boot project from running and places the unit into diagnostic mode. To test COM1 using the WINDIAG

CI-ControlWaveLP Service / 3-15 6. Set the ControlWaveLP CPU Switch SW4-8 to the ON position. Restart the ControlWaveLP to resume normal operation.

3-16 / Service ControlWaveLP Figure 3-11 - Partial View of WINDIAG Main Diagnostics Menu 3.4.1.1 Communications Diagnostic Port Loop-back Test WI

CI-ControlWaveLP Service / 3-17 noted that the ControlWaveLP communication port that is connected to the PC (RS-232, or RS-485) must be good for WIND

3-18 / Service ControlWaveLP 3.4.1.2 COM 1, 2, 3, 4 & 5 External Loop-back Test Procedure 1. Connect an external loop-back plug to the CPU Por

CI-ControlWaveLP Service / 3-19 Figure 3-15 - WINDIAG’s Ethernet Diagnostic Menu 3.4.1.3.1 Ethernet Port Loop-back Out Twisted Pair Test Procedur

ControlWaveLP Contents / 0 - 1 CI-ControlWaveLP LOW POWER ControlWave PROCESS AUTOMATION CONTROLLER TABLE OF CONTENTS SECTION TITLE PAGE #

3-20 / Service ControlWaveLP 4. When you have finished with Ethernet Diagnostic Loop-back testing, be sure to return the hardware to its normal oper

CI-ControlWaveLP Specifications / 4-1Section 4SPECIFICATIONS4.1 CPU, MEMORY & PROGRAM INTERFACEProcessor: 486SX-ULP, 25MHzMemory: 4Mbytes of syst

4-2 / Specifications CI-ControlWaveLPTable 4-2 - Connectors J1 - J5 Pin AssignmentPin#SignalRS-232SignalRS-485Description :RS-232 signalsDescription:R

CI-ControlWaveLP Specifications / 4-3Table 4-3 - Connector J9 - Memory Expansion Pin Assignment (Continued)PIN SIGNAL DESCRIPTION PIN SIGNAL DESCRIPTI

4-4 / Specifications CI-ControlWaveLPFigure 4-4Connectors J12 & J24 - PLD JTAG HeadersConnector J13 - CPU JTAG HeaderConnectors J14 & J17 - Ma

CI-ControlWaveLP Specifications / 4-54.3 FMI/OB BOARD INPUT/OUTPUT SPECIFICATIONSTable 4-6 - FMI/OB Board Connector SummaryRef. # Pins Function Notes

4-6 / Specifications CI-ControlWaveLPTable 4-7 - FMI/OB Board - PC/104 Connector P1 Pin Assignment (Continued)Odd RowPin #J1/P1Signal NameEven RowPin

CI-ControlWaveLP Specifications / 4-7Table 4-9 - PSSB Connector J1 - FMI/OB Connector P9 Pin Identification(see Section 2.4.6)Pin # J1/P9 Pin Name Pin

4-8 / Specifications CI-ControlWaveLP4.3.2 Discrete InputsNumber of Inputs: 16Input Voltage Range: 12V or 24VInput Filtering: 1 millisecond or 30 mil

CI-ControlWaveLP Specifications / 4-9Status Indication: 8 LEDs (one per point) (CR49 - CR56)Bus Access: 16 Bits WideMaximum Load: 100mAdc @ 35Vdc4.3.4