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Ronan X16PDM Series Hardware Manual

Computer annunciators
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REVISION:
DOCUMENT NUMBER:
DATE:
EDITOR:
APPROVED:
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Ronan Engineering
21200 Oxnard Street, Woodland Hills, CA 91367
TEL (818) 883-5211
FAX (818) 992-6435
Direct urgent problems to: 1-800-327-6626
© Copyright 2002 Ronan Engineering Company. All rights reserved. This document may not be
reproduced or transmitted in any form, electronic or mechanical, including photocopying,
recording, storing in an information retrieval system, or translating, in whole or in part, without
the prior written permission of Ronan Engineering Company.
Series X16PDM
Computer Annunciators
Hardware Manual
1.0
X16PDM-3002
1/6/03
Nana Lee, Mark Layos Ronan Engineering Company
__V.J.____________________________________
Project Manager
__R.H.____________________________________
Engineering Manager
__A.G.____________________________________
QA
__1-14-03_______
Date
__1-14-03_______
Date
__1-14-03_______
Date

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  • Page 1 FAX (818) 992-6435 Direct urgent problems to: 1-800-327-6626 © Copyright 2002 Ronan Engineering Company. All rights reserved. This document may not be reproduced or transmitted in any form, electronic or mechanical, including photocopying, recording, storing in an information retrieval system, or translating, in whole or in part, without...
  • Page 2 Rev 1.0 Series X11CA Common Alarm Annunciator Systems Operating Manual: Revision Log REVISION LOG Rev # Description Date Appr 1/14/03 Hardware Control-© 2002 Ronan Engineering...

  • Page 3: Table Of Contents

    2.4.2 X11CA-IM (P2) to PC (RS232) ..........................16 2.5 Mounting................................... 16 2.5.1 Mounting the Modules in the Alarm Cabinet.....................16 2.5.2 Mounting the Alarm Cabinet to the Panel......................16 2.6 Wiring Instructions................................19 2.6.2 X11CA-4000 Rear Terminal Arrangement and Wiring..................20 2.7. Power Up................................... 24 Hardware Control-© 2002 Ronan Engineering...
  • Page 4 3.4.3 F1M-1 ..................................33 3.4.4 F2A -1 ..................................34 3.4.5 F2M-1 ..................................35 3.4.6 F3A-1 ..................................36 3.4.7 F3M-1 ..................................37 3.4.8 M-1 ....................................38 APPENDIX A: LIST OF FIGURES ................. 39 APPENDIX B: DATA CONVERSION (BIN TO DEC) TABLE........40 INDEX..........................47 Hardware Control-© 2002 Ronan Engineering...

  • Page 5: Overview

    1. Overview Overview The RONAN Series X11CA Computer Annunciator system is a state of art annunciator group system, designed to provide the most advanced data acquisition and monitoring system that meet the requirement of the process and power industries in the most economic way.

  • Page 6: Abbreviations

    : Common Trouble Alarm : Field Contact MEIN : First Out : Auxiliary Relay : Transistor Output : Horn 1 : Horn 2 Not Connected : Transport Control Protocol. : Internet Protocol DWG NO : Drawing Number Hardware Control-© 2002 Ronan Engineering...

  • Page 7: Revision History

    F Aux. Model F Lamps F LEDs P (IM) Relay Adder X16PDM 10.5 W 7.0 W 10 W Match the total wattage with the next higher power rating of the Power Supply or Converter listed. Hardware Control-© 2002 Ronan Engineering...

  • Page 8: Temperature Range

    § System Trouble Alarm (RUN) – Form C, 2 Amps @ 28 Vdc; 0.65 Amp @ 115 Vac § System Trouble Alarm (RUN) – Indicating LED Green § Communication Diagnostic (ERROR) – Indicating LED Red § Transmit/Receiver LED Pair Hardware Control-© 2002 Ronan Engineering...

  • Page 9: Communications

    1.4.10 Communications § Serial – RS485 (P1) to External Host § Network – RJ45 (TCP/IP) to External Host 1.4.11 Serial Protocols § MODBUS RTU, Allen Bradley, DF1, DNP 3.0, Ronan Proprietary 1.4.12 Network Protocols § TCPIP (OPC) 1.4.13 Serial § RS232 (P2) – System Sequence and Option Programming via Laptop or Computer §...

  • Page 10: X11Ca Hardware

    The Sandwich nameplates, an option exclusive to RONAN Visual Annunciator, are generally supplied with white front lenses and colored back lenses. This lens combination displays all windows white in non-lit status, changing to the selected color in OFF normal condition.
  • Page 11 Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup Page Intentionaly Left Blank Hardware Control-© 2002 Ronan Engineering...
  • Page 12 Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup Page Intentionaly Left Blank Hardware Control-© 2002 Ronan Engineering...
  • Page 13 Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup Page Intentionaly Left Blank Hardware Control-© 2002 Ronan Engineering...

  • Page 14: Quadalarm Module: Part No: X11Ca-4000

    The four windows Quadalarm Module represent the highest density of annunciation in the X11CA series. The 1.40 inch (35.56 mm) high by 1.40 inch wide window is illuminated by two 1-watt lamps or LED indicators. Hardware Control-© 2002 Ronan Engineering...

  • Page 15: X11Ca Alarm Module: Part No. X11-1047

    The voltage regulator, VR2, and two resistors, R59 and R63, on the board reduce the voltage down to 5 VDC. The electrolytic capacitor, C32, and two ceramic capacitors, C17 and C19, keep the voltage constant for load variations and voltage transients. Hardware Control-© 2002 Ronan Engineering...

  • Page 16: Field Contact Inputs

    • Lamp Drivers (U3, U12, U13, U14): Lamp drivers are designed to operate at 70V (1A) with over voltage, over temperature and short circuit protection. Hardware Control-© 2002 Ronan Engineering...

  • Page 17: Rs485 Network

    NO or NC. Normally Closed. Polarity of field input contact C. Either Normally Open or NO or NC. Normally Closed. Polarity of field input contact D. Either Normally Open or NO or NC. Normally Closed. Hardware Control-© 2002 Ronan Engineering...

  • Page 18: Auxiliary Contact Module: Part No. X11-1049

    5 and 6. The normal operation (NO/NC) can be changed on the auxiliary contact module at headers marked AUX1, AUX2, AUX3, or AUX4. WARNING: Before setting up the X11CA system, make sure that power to the system is completely off. Hardware Control-© 2002 Ronan Engineering...

  • Page 19: Cables

    2. X11CA Hardware Setup Figure 2-9 Jumper Setting on the Quad Relay Circuit 2.4 Cables 2.4.1 X11CA to X11CA-IM without PB Figure 2-10 Cable for X11CA to X11CA-IM Connection 2.4.2 X11CA-IM (P2) to PC (RS232) Hardware Control-© 2002 Ronan Engineering...

  • Page 20: Mounting

    External horn relay(s), reflash relay, common alarm relay, relay sockets are packed separately. 2.5.2 Mounting the Alarm Cabinet to the Panel 1. Position the X11CA alarm cabinet into the cutout hole on the panel. Figure 2-12 Cutout area of the panel Hardware Control-© 2002 Ronan Engineering...
  • Page 21 Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup Page Intentionaly Left Blank Hardware Control-© 2002 Ronan Engineering...
  • Page 22 Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup Page Intentionaly Left Blank Hardware Control-© 2002 Ronan Engineering...

  • Page 23: Wiring Instructions

    The following diagrams show rear terminal arrangement and wiring for the X11CA- 2000 system and the X11CA-4000 system. For other wiring diagrams, refer to the wiring diagrams on the CD. 2.6.1 X11CA-2000 Rear Terminal Arrangement and Wiring Figure 2-17 X11CA-2000 Rear Terminal Wiring Diagram Hardware Control-© 2002 Ronan Engineering...

  • Page 24: X11Ca-4000 Rear Terminal Arrangement And Wiring

    Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup 2.6.2 X11CA-4000 Rear Terminal Arrangement and Wiring Figure 2-18 X11CA-4000 Rear Terminal Wiring Diagram Hardware Control-© 2002 Ronan Engineering...
  • Page 25 NO : Normally opened COM : Common NC : Normally closed. A1 : Horn 1 A2 : Horn 2. CTA : Common Trouble Alarm RFL : Reflash RUN : X11CA-IM power indication GP1, GP2 : Programmable inhibit function. Hardware Control-© 2002 Ronan Engineering...
  • Page 26 H terminal. When using a common H, it is important to jumper together the H terminals of the respective alarm cabinet modules to provide the correct amount of current source to the field contact. Hardware Control-© 2002 Ronan Engineering...
  • Page 27 24/125 -- 125-- 150SCP 24/125 -- 125-- 300SCP 24/125 -- 125-- 600SCP 24/125 -- 48-- 150SCP 24/125 -- 48-- 300SCP 48 -- 24/125 -- 600 SCP Power Output Watts DC Voltage Out DC Voltage In Hardware Control-© 2002 Ronan Engineering...

  • Page 28: Power Up

    In case of multiple supply of input, make the parallel V+ and V- connections. 2.7. Power Up Inspect the hookup wiring to insure conformity with the schematic provided. Verify that ME terminals are connected to other ME terminals only. Turn the power on. Hardware Control-© 2002 Ronan Engineering...

  • Page 29: Troubleshooting

    § The plus to minus voltage on the rear terminals is in the range of 18V to 28V. § Verity each polarity. 2.9 Dimension Refer to the files saved on the enclosed CD ROM, X11CA Drawings and Sequence Chart, for other dimensions. Hardware Control-© 2002 Ronan Engineering...

  • Page 30: Models X11Ca-Relayrack Mounted Series- 4000

    Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup 2.9.1 . Models X11CA-RelayRack Mounted Series- 4000 Figure 2-23 X11CA-RR Hardware Control-© 2002 Ronan Engineering...
  • Page 31 Rev 1.0 Series X11CA Hardware Manual 2. X11CA Hardware Setup Figure 2-24 Dimensional Information of X11CA RR-4000 (DWG NO. X11C513) Hardware Control-© 2002 Ronan Engineering...

  • Page 32: Event Sequences

    3. Event Sequences Event Sequences Typical alarm sequence specification for the X11CA is as follows. Figure 3-1 Typical Alarm Sequence Specifications. 3.1 Options The following list has the types of options used for the X11CA. Hardware Control-© 2002 Ronan Engineering...

  • Page 33: Basic Sequence Types

    No outputs on Terminals A1 and A2. 3.2 Basic Sequence Types The descriptions of the basic sequence types are listed below. Variations in the basic sequences are defined by adding the options numbers to the basic sequences. Hardware Control-© 2002 Ronan Engineering...

  • Page 34: First-Out Sequence

    First Out Flashing and Reset Pushbutton: Additional types of flashing are added to identify new and acknowledged first alarms. A first out reset pushbutton is added to reset the first alarms, whether the event has returned to normal or not. Hardware Control-© 2002 Ronan Engineering...

  • Page 35: Sequences Of X11Ca

    Rev 1.0 Series X11CA Hardware Manual 3. Event Sequences 3.4 Sequences of X11CA 3.4.1 A-1 Automatic Reset The audible device is silenced and flashing stops when acknowledged. Acknowledgement of the alarm resets automatically when the event returns to normal. Hardware Control-© 2002 Ronan Engineering...

  • Page 36: F1A-1

    2. Current status of the subsequences is of interest. 3. Minimum operator action is preferred for the subsequent alarms. 4. Subsequent alarms must lock-in and be annunciated by audible and visual flashing, see sequence F3A. Hardware Control-© 2002 Ronan Engineering...

  • Page 37: F1M-1

    3.4.3 F1M-1 First out with manual reset The first alarm operates as a basic sequence M. Subsequent alarms operate as a status lamp that locks in until the events return to normal and Reset is initiated. Hardware Control-© 2002 Ronan Engineering...

  • Page 38: F2A -1

    2. Subsequent alarms must lock-in and resound the audible if it has been silenced. 3. If Option 1 is used, the number of concurrent alarms expected is small enough that flashing is not required to locate each new subsequent alarm when the audible sounds. Hardware Control-© 2002 Ronan Engineering...

  • Page 39: F2M-1

    Before acknowledging the First out alarm, sequence F2M operates the same as sequence F2A. After acknowledgement, sequence F2M differs by requiring a Reset to return to normal even though the events have returned to normal. Hardware Control-© 2002 Ronan Engineering...

  • Page 40: F3A-1

    Also the subsequent alarms lock in until they are acknowledged. Once acknowledged, they can automatically return to normal state when the input points return to normal. Hardware Control-© 2002 Ronan Engineering...

  • Page 41: F3M-1

    The subsequent alarms return to normal state only if they are in the normal state when the Reset is operated and the first out group has been reset. Hardware Control-© 2002 Ronan Engineering...
  • Page 42 M requires that the Reset pushbutton be operated repeatedly to determine if the process input conditions have returned to normal. Use of Options 1 and 2 improves the sequence of for reviewing new incoming alarms. Hardware Control-© 2002 Ronan Engineering...

  • Page 43: Appendix A: List Of Figures

    2-23 X11CA-RR ....................26 IGURE 2-24 D X11CA RR-4000 ........27 IGURE IMENSIONAL NFORMATION OF 3-1 T ..........28 IGURE YPICAL LARM EQUENCE PECIFICATIONS 3-2 S ............... 29 IGURE ILENCE USHBUTTON PTION 3-3 N ..................29 IGURE PTION Hardware Control-© 2002 Ronan Engineering...

  • Page 44: Appendix B: Data Conversion (Bin To Dec) Table

    0000 1101 0000 1110 0000 1111 0001 0000 0001 0001 0001 0010 0001 0011 0001 0100 0001 0101 0001 0110 0001 0111 0001 1000 0001 1001 0001 1010 0001 1011 0001 1100 0001 1101 0001 1110 Hardware Control-© 2002 Ronan Engineering...
  • Page 45 0011 0110 0011 0111 0011 1000 0011 1001 0011 1010 0011 1011 0011 1100 0011 1101 0011 1110 0011 1111 0100 0000 0100 0001 0100 0010 0100 0011 0100 0100 0100 0101 0100 0110 0100 0111 Hardware Control-© 2002 Ronan Engineering...
  • Page 46 0101 1111 0110 0000 0110 0001 0110 0010 0110 0011 0110 0100 0110 0101 0110 0110 0110 0111 0110 1000 0110 1001 0110 1010 0110 1011 0110 1100 0110 1101 0110 1110 0110 1111 0111 0000 Hardware Control-© 2002 Ronan Engineering...
  • Page 47 1000 1000 1000 1001 1000 1010 1000 1011 1000 1100 1000 1101 1000 1110 1000 1111 1001 0000 1001 0001 1001 0010 1001 0011 1001 0100 1001 0101 1001 0110 1001 0111 1001 1000 1001 1001 Hardware Control-© 2002 Ronan Engineering...
  • Page 48 1011 0001 1011 0010 1011 0011 1011 0100 1011 0101 1011 0110 1011 0111 1011 1000 1011 1001 1011 1010 1011 1011 1011 1100 1011 1101 1011 1110 1011 1111 1100 0000 1100 0001 1100 0010 Hardware Control-© 2002 Ronan Engineering...
  • Page 49 11101 1010 11101 1011 11101 1100 11101 1101 11101 1110 11101 1111 11110 0000 11110 0001 11110 0010 11110 0011 11110 0100 11110 0101 11110 0110 11110 0111 11110 1000 11110 1001 11110 1010 11110 1011 Hardware Control-© 2002 Ronan Engineering...
  • Page 50 11110 1111 11111 0000 11111 0001 11111 0010 11111 0011 11111 0100 11111 0101 11111 0110 11111 0111 11111 1000 11111 1001 OFF1 11111 1010 11111 1011 11111 1100 11111 1101 11111 1110 11111 1111 Hardware Control-© 2002 Ronan Engineering...

  • Page 51: Index

    X11CA Alarm Module · 11 F1A-1 · 32 Jumper settings · 13 F1M-1 · 33 X11CA Annunciator F2A-1 · 34 Quadalarm Module · 10 F2M-1 · 35 F3A-1 · 36 F3M-1 · 37 M-1 · 38 Hardware Control-© 2002 Ronan Engineering...
  • Page 52 Rev 1.0 Series X11CA Hardware Manual 6. INDEX Hardware Control-© 2002 Ronan Engineering...
  • Page 53 Rev 1.0 Series X11CA Hardware Manual 6. INDEX Hardware Control-© 2002 Ronan Engineering...

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