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WBPEEUI240752A0   

Preface

The IMDSI1

 

Digital Input Module is an interface used to

bring 16 separate process field signals into the INFI 90

®

 OPEN

Strategic Process Management System. These digital inputs
are used by control modules to monitor and control a process.

This instruction explains the digital input module specifica-
tions and operation for the IMDSI12, IMDSI13, IMDSI14 and
IMDSI15 modules. It details the procedures necessary to com-
plete setup, installation, maintenance, troubleshooting and
replacement of the module.

The IMDSI12 is the functional equivalent of the existing
IMDSI02 module except that the IMDSI12 only offers a 17 mil-
lisecond debounce filter time. Any of the IMDSI1

 modules

may be used as a direct replacement for the IMDSI02 module,
with the correct jumper settings. For example, an IMDSI13
module may be substituted for an IMDSI02 module that has
all its jumpers set for 24 VDC with a 17 millisecond debounce
filter.

The system engineer or technician using the IMDSI1

 digital

input module should read and understand this instruction
before operating the module. 

Summary of Contents for Infi 90 IMDSI12

Page 1: ...Process Control and Automation Solutions from Elsag Bailey Group IMDSI1M Digital Input Modules IMDSI12 IMDSI13 IMDSI14 IMDSI15...

Page 2: ...ONIQUES SONT SENSIBLES AUX PERTURBATIONS PAR FR QUENCE RADIO DES PR CAUTIONS DEVRONT TRE PRISES LORS DE L UTILISATION DU MAT RIEL DE COMMUNICATION PORTATIF LA PRUDENCE EXIGE QUE LES PR CAUTIONS PRENDR...

Page 3: ...ete setup installation maintenance troubleshooting and replacement of the module The IMDSI12 is the functional equivalent of the existing IMDSI02 module except that the IMDSI12 only offers a 17 mil li...

Page 4: ...6 4 Original 7 1 Original 8 1 Original A 1 through A 3 Original B 1 Original C 1 through C 3 Original Index 1 through Index 2 Original When an update is received insert the latest changed pages and di...

Page 5: ...3 Status Byte 2 3 LOGIC POWER 2 4 I O EXPANDER BUS 2 4 UNIVERSAL I O EXPANDER BUS INTERFACE 2 4 SECTION 3 INSTALLATION 3 1 INTRODUCTION 3 1 SPECIAL HANDLING 3 1 UNPACKING AND INSPECTION 3 2 SETUP PHY...

Page 6: ...onnector Cleaning 6 3 Checking Connections 6 3 SECTION 7 REPAIR REPLACEMENT PROCEDURES 7 1 INTRODUCTION 7 1 MODULE REPAIR REPLACEMENT 7 1 SECTION 8 SUPPORT SERVICES 8 1 INTRODUCTION 8 1 REPLACEMENT PA...

Page 7: ...cations C 1 C 2 Address Select Switch S1 Settings C 1 List of Tables No Title Page 1 1 Glossary of Terms and Abbreviations 1 4 1 2 Reference Documents 1 5 1 3 Nomenclature 1 5 1 4 Related Hardware 1 5...

Page 8: ...components with live power present Doing so exposes you to an electrical shock hazard p 6 2 Wear eye protection whenever working with cleaning solvents When removing solvents from printed circuit boar...

Page 9: ...i Trademarks and Registrations Registrations and trademarks used in this document include INFI 90 Registered trademark of Elsag Bailey Process Automation INFI NET Registered trademark of Elsag Bailey...

Page 10: ...onds slow and the IMDSI12 module offers only the 17 milliseconds slow debounce filter time The slow debounce filter is used in the majority of digital input applications Any of the IMDSI1 modules may...

Page 11: ...t status and provide aid in system test and diagnosis The digital input module has three card edge connectors for external signals and power P1 P2 and P3 P1 connects to common ground and 5 VDC power P...

Page 12: ...aning of error indications and contains trou bleshooting procedures Maintenance Contains scheduled maintenance tasks and procedures Repair and Replacement Procedures Contains procedures that explain h...

Page 13: ...ion Function Code FC An algorithm which manipulates specific functions These functions are linked together to form the con trol strategy I O Expander Bus Parallel communication bus between the control...

Page 14: ...2 I E96 211 IMMFC03 Multi Function Controller I E96 212 IMMFC04 Multi Function Controller I E96 213 IMMFC05 Multi Function Controller I E96 424 Termination Unit NTDI01 I E96 410 Termination Module NID...

Page 15: ...it IEMMU Environmental Ambient temperature per IEC 68 2 1 2 14 Temperature rating within the cabinet or enclosure applies INFI 90 OPEN internal cabinet rating 0 to 70 C 32 to 158 F Relative humidity p...

Page 16: ...itude modulated 80 AM 1 kHz Radiated radio frequency field 900 5 MHz ENV 50204 Unmodulated rms 10 V m Pulse modulated Duty cycle 50 Rep cycle 200 Hz Table 1 5 Specifications Property Characteristic Va...

Page 17: ...uested for CE marking EN50081 2 Generic Emission Standard Part 2 Industrial Environment EN50082 2 Generic Immunity Standard Part 2 Industrial Environment EN 61010 Safety Requirements for Electrical Eq...

Page 18: ...not require any jumper selections The IMDSI15 125 VDC 120 VAC module has jumpers to select DC or AC mode The IMDSI12 24 48 125 VDC or 120 VAC module has jumpers to select the DC or AC mode and jumpers...

Page 19: ...rough an optocoupler Configurable jumpers on IMDSI12 or fixed resistors on IMDSI13 IMDSI14 or IMDSI15 select the turn on threshold and input voltage The optocoupler output causes a comparator output t...

Page 20: ...witch S1 Point Data Byte Point data is two 8 bit bytes Each byte corresponds to group A or group B inputs Each bit of data represents one input The bit value reflects the state of that input either op...

Page 21: ...n dip shunt placed in a connection socket on the MMU back plane connects the bus between the control and I O modules Cable assemblies can extend the bus to six MMUs A control module and its I O module...

Page 22: ...d point to prevent damage to the static sensitive devices by electro static discharge Use the static grounding wrist strap when installing and removing modules Static discharge may damage static sensi...

Page 23: ...gure the termination unit TU or termination module TM to accept the field device signals Address Selection Switch S1 The DSI can have one of 64 addresses address 0 to 63 on the I O expander bus This a...

Page 24: ...1 J5 1 J31 1 Figure 3 2 Address Select Switch S1 Settings 1 2 3 4 5 8 6 7 OPEN MUST REMAIN CLOSED I O ADDRESS MSB LSB TP65205B NOTE OPEN POSITION LOGIC 1 Table 3 1 S1 Address Switch Settings ADDR MSB...

Page 25: ...to following procedures 1 Refer to Table 3 3 and start with input A1 jumper J2 Move to the right and locate the correct digital input mode AC or DC and note the jumper pin position Position the J2 ju...

Page 26: ...11 2 3 1 2 3 4 A7 J13 2 3 1 2 3 4 A8 J15 2 3 1 2 2 3 B1 J17 2 3 1 2 3 4 B2 J19 2 3 1 2 3 4 B3 J21 2 3 1 2 3 4 B4 J23 2 3 1 2 3 4 B5 J25 2 3 1 2 3 4 B6 J27 2 3 1 2 3 4 B7 J29 2 3 1 2 3 4 B8 J31 2 3 1 2...

Page 27: ...al Table 1 2 The DSI module inserts into a standard INFI 90 OPEN module mounting unit MMU and occupies one slot To install 1 Verify the slot assignment of the module 2 Verify that a dipshunt is in the...

Page 28: ...t install a dipshunt on the backplane of the MMU to connect the I O expander bus between the digital input module and control module Locate the modules so the bus can connect the modules or they will...

Page 29: ...INSTALLATION PREOPERATING ADJUSTMENTS 3 8 WBPEEUI240752A0 PREOPERATING ADJUSTMENTS The IMDSI1 digital input module does not require any adjustments prior to operation...

Page 30: ...in Figure 4 1 Each indicator represents a digital input A red LED indicates an energized input A blank LED indicates a non energized input START UP PROCEDURES The control module controls the start up...

Page 31: ...he control module gener ates a MISSING SLAVE MODULE error if they do not match Verify that the address set on switch S1 is the same as the address in Function Code FC 84 specification S1 If not 1 Remo...

Page 32: ...igital input module is faulty replace it with a new one Refer to the REPAIR REPLACEMENT PROCE DURES in Section 7 for procedures to replace a DSI module MODULE PIN CONNECTIONS The digital input module...

Page 33: ...d Table 5 3 P3 Input Signal Pin Connections Group A Group B Digital Input Pin Pin Digital Input Pin Pin 1 A 1 1 K 9 2 B 2 2 L 10 3 C 3 3 M 11 4 D 4 4 N 12 5 E 5 5 P 13 6 F 6 6 R 14 7 H1 7 7 S1 15 8 H...

Page 34: ...proper use of test equipment Maintenance personnel should be familiar with the module mounting unit have experience working with process con trol systems and know what precautions to take when working...

Page 35: ...ERAL CLEANING AND WASHING If the printed circuit board needs minor cleaning remove dust and residue from the printed circuit board surface using clean dry filtered compressed air or an antistatic fiel...

Page 36: ...Repeat with a clean cloth that is soaked with the solvent mixture 5 Dry the edge connector contact area by wiping with a clean lint free cloth To clean tarnished or deeply stained edge connector conta...

Page 37: ...any motion done to loosen the connection 1 Verify that all power connections within the cabinet are secure 2 Verify that all field wiring connections to the termination unit or termination module are...

Page 38: ...and the open end of the slots face away from the module 2 Gently slide the module out of the MMU 3 Configure the replacement module switch and jumper set tings Refer to Address Selection Switch S1 and...

Page 39: ...sales office Provide the following information 1 Part description part number and quantity 2 Model and serial number if applicable 3 Elsag Bailey Process Automation instruction number and page number...

Page 40: ...e NTDI01 dipshunt without strapping and the digital signal path from the field device contact to the DSI module for a termination unit application Refer to Table A 1 to determine the dipshunt strappin...

Page 41: ...cation Signal Type Dipshunt Configuration Field powered contact System powered from E1 24 VDC 48 VDC 125 VDC 120 VAC System powered from E2 24 VDC 48 VDC 125 VDC 120 VAC 1 2 3 4 XU1 XU16 5 6 7 8 1 2 3...

Page 42: ...2 NTDI01 Termination Unit Terminal Assignments TERMINAL NUMBER TB4 TB2 TB1 TB3 DIPSHUNT USED XU13 XU14 XU15 XU16 TP27163A A1 A2 A3 A4 1 2 3 4 5 6 7 8 DIPSHUNT USED XU9 XU10 XU11 XU12 A5 A6 A7 A8 DIPS...

Page 43: ...Refer to Table B 1 to determine the jumper settings to config ure your application Figure B 1 shows the terminal assign ments for the digital input signals Refer to this figure when connecting field...

Page 44: ...ct Switch Location and Jumper Locations GROUP A LEDs ADDRESS SWITCH JUMPERS DC AC MODE JUMPERS IMDSI12 AND IMDSI15 ONLY VOLTAGE SELECTING JUMPERS IMDSI12 ONLY P1 P3 P2 T00104A GROUP B LEDs EDGE CONNEC...

Page 45: ...0 1 0 1 0 11 0 0 1 0 1 1 43 1 0 1 0 1 1 12 0 0 1 1 0 0 44 1 0 1 1 0 0 13 0 0 1 1 0 1 45 1 0 1 1 0 1 14 0 0 1 1 1 0 46 1 0 1 1 1 0 15 0 0 1 1 1 1 47 1 0 1 1 1 1 16 0 1 0 0 0 0 48 1 1 0 0 0 0 17 0 1 0...

Page 46: ...J15 2 3 1 2 2 3 B1 J17 2 3 1 2 3 4 B2 J19 2 3 1 2 3 4 B3 J21 2 3 1 2 3 4 B4 J23 2 3 1 2 3 4 B5 J25 2 3 1 2 3 4 B6 J27 2 3 1 2 3 4 B7 J29 2 3 1 2 3 4 B8 J31 2 3 1 2 3 4 Table C 3 DC AC Mode Settings IM...

Page 47: ...iring 1 2 Function codes 1 4 1 5 Fusing 3 8 G Glossary 1 4 I I O expander bus 1 4 2 4 I O expander bus interface 2 4 Input circuit connections 2 3 Input circuitry 2 1 Installation Module 3 6 Terminati...

Page 48: ...address switch 3 2 5 1 Special handling 3 1 Specifications 1 6 Status byte 2 3 T Technical documentation 8 1 Termination configuration Termination module TM 3 6 Termination unit TU 3 6 Termination mod...

Page 49: ...6 ASIA PACIFIC 152 Beach Road Gateway East 20 04 Singapore 189721 Telephone 65 391 0800 Telefax 65 292 9011 EUROPE AFRICA MIDDLE EAST Via Puccini 2 16154 Genoa Italy Telephone 39 10 6582 943 Telefax 3...

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