Siemens MXL-IQ Operation, Installation, And Maintenance Manual

Page 1

MXL-IQ CONTROL PANEL

Operation, Installation, and Maintenance Manual

Siemens Industry, Inc. Building Technologies Division Florham Park, NJ

P/N 315-093624-13

Siemens Building Technologies, Ltd. Fire Safety & Security Products 2 Kenview Boulevard Brampton, Ontario L6T 5E4 Canada

Page 2

CAUTION

ALL WIRING MUST BE DONE AS DESCRIBED BELOW TO OBTAIN SAFE AND PROPER SYSTEM OPERATION.

1. Earth ground the MXL-IQ enclosure properly; see the latest edition of the National Electrical Code for approved methods. Conduit ground is NOT adequate.

2. Separate all wiring for initiating devices (i.e., detectors, manual stations, TRI modules, etc.) from all other wiring in the MXL-IQ enclosure. To wire the System in compliance with UL 864, refer to the Installation and Power Limited Wiring Instructions for the MSE-3L Enclosure, P/N 315-095445.

3. INSULATE ALL CABLE DRAIN WIRES from any conduit or earth grounded electrical box, including those in the MXL-IQ enclosure.

4. Connect shield cable drain wire ONLY inside the MXL-IQ enclosure.

5. No wiring used for any of the following can run outside the building:

• an ALD loop

• a RS-485 network

• an NAC circuit used for audibles

• a CZM-1B6 or CZM-4 initiating device loop

For additional wiring information, refer to this manual or call Siemens Industry, Inc., Technical Support Department at 1-800-248-7976.

Page 3

Table Of Contents

Description ______________________________ 1 - 1

Introduction ____________________________________________________ 1 - 1

Software ______________________________________________________ 1 - 1

Minimum MXL-IQ Control Panel Configuration ________________________ 1 - 3

Components Of The Basic System __________________________________ 1 - 4

SMB-2 Main Board _____________________________________________ 1 - 4 MPS-6 Power Supply ___________________________________________ 1 - 5 MPS-12 Power Supply __________________________________________ 1 - 5 MKB Keyboard/Annunciator Panel _________________________________ 1 - 5 PIM-1 Peripheral Interface Module__________________________________ 1 - 6 PIM-2 Peripheral Interface Module__________________________________ 1 - 6 PAL-1________________________________________________________ 1 - 6 MSE-3L or MSE-3M Enclosure ____________________________________ 1 - 7 TSW-2 Tamper Switch __________________________________________ 1 - 7 BP-61 Batteries ________________________________________________ 1 - 7

Chapter 1

BTX Batteries _________________________________________________ 1 - 7

Optional Modules _______________________________________________ 1 - 8

ALD-2I Analog Loop Driver _______________________________________ 1 - 8 CCU/M Pager Interface Module ____________________________________ 1 - 8 CMI-300 Interface Module ________________________________________ 1 - 8 CPY -HLI Interface Card* _________________________________________ 1 - 8 CRM-4 Relay Module ___________________________________________ 1 - 9 CSM-4 Signal Module ___________________________________________ 1 - 9 CZM-4 Conventional Zone Module__________________________________ 1 - 9 D2300CP Fiber Optic Interface ___________________________________ 1 - 10 LLM-1 Leased Line Module ______________________________________ 1 - 10 MDACT Serial Dialer ___________________________________________ 1 - 10 MID-16 Input Driver* ___________________________________________ 1 - 10 MOD-16 Output Driver*_________________________________________ 1 - 1 1 MOI-7 Voice and Annunciator Driver* ______________________________ 1 - 11

Page 4

Table of Contents

MOM-2 Card Cage ____________________________________________ 1 - 11 MOM-4 Card Cage ____________________________________________ 1 - 12 NIM-1W Network Interface Module ________________________________ 1 - 12 PS-5A Power Supply* __________________________________________ 1 - 13 RCC Remote Command Center __________________________________ 1 - 13 RDM-PC Remote Diagnostics Module _____________________________ 1 - 13 Silent Knight Model 5128/5129 Digital Fire Communicator ______________ 1 - 14

Intelligent/Analog Devices _______________________________________ 1 - 14

FP-1 1 Intelligent/Analog Photoelectric Detector ______________________ 1 - 14 FPT-11 Intelligent Thermal Detector _______________________________ 1 - 14 ICP Intelligent Control Point______________________________________ 1 - 14 ICP-B6 Intelligent Control Point ___________________________________ 1 - 14 ID-60P Intelligent/Analog Photoelectric Detector ______________________ 1 - 14 ID-60PT Intelligent/Analog Photo-electric Detector with Heat Sensor ______ 1 - 14 ID-60I Intelligent/Analog Ionization Detector__________________________ 1 - 15 ID-60IH Intelligent/Analog Ionization High Altitude Detector ______________ 1 - 15 ID-60IA Intelligent/Analog Ionization High Air-V elocity Detector ___________ 1 - 15 ID-60IAH Intelligent/Analog Ionization High Air-V elocity , High Altitude Detector 1 - 15 ID-60IB Intelligent/Analog Ionization Air-Duct Detector _________________ 1 - 15 ID-60IBH Intelligent/Analog Ionization Air-Duct High Altitude Detector ______ 1 - 15 ILI-1 Intelligent/Analog Ionization Detector ___________________________ 1 - 15 ILI-1H Intelligent/Analog Ionization High Altitude Detector _______________ 1 - 15 ILI-1A Intelligent/Analog Ionization High Air-V elocity Detector _____________ 1 - 15 ILI-1AH Intelligent/Analog Ionization High Air-V elocity , High Altitude Detector _ 1 - 15 ILI-1B Intelligent/Analog Ionization Air-Duct Detector___________________ 1 - 16 ILI-1BH Intelligent/Analog Ionization Air-Duct High Altitude Detector _______ 1 - 16 ILP-1 Intelligent/Analog Photoelectric Detector _______________________ 1 - 16 ILPT-1 Intelligent/Analog Photoelectric Detector with Heat Sensor ________ 1 - 16 ILP-2 Intelligent/Analog Photoelectric Detector _______________________ 1 - 16 IL T-1 Intelligent Thermal Detector _________________________________ 1 - 16 LIM-1 Loop Isolator Module ______________________________________ 1 - 16

Page 5

MSI-10/20 Intelligent Manual Station _______________________________ 1 - 16 MSI-10B/20B Intelligent Manual St ation _____________________________ 1 - 16 MSI-B6F Intelligent Manual St ation_________________________________ 1 - 16 MSI-MB6 Intelligent Manual Station ________________________________ 1 - 16 MS-MI Intelligent Manual Station __________________________________ 1 - 16 TRI-B6, TRI-B6R, and TRI-B6D Intelligent Interface Modules ____________ 1 - 17 CZM-1B6 Remote Conventional Zone Module________________________ 1 - 17 DI-3 Ionization Detector_________________________________________ 1 - 17 DI-3H Ionization High Altitude Detector _____________________________ 1 - 17 TRI-B6M Addressable Interface Module ____________________________ 1 - 17 TRI-S, TRI-R, and TRI-D Intelligent Interface Modules _________________ 1 - 17

Table of Contents

CONVENTIONAL DEVICES _______________________________________ 1 - 17

DI-A3 Ionization High Air-V elocity Detector __________________________ 1 - 17 DI-A3H Ionization High Air-V elocity , High Altitude Detector_______________ 1 - 17 DI-B3 Ionization Air Duct Detector_________________________________ 1 - 17 DI-B3H Ionization Air Duct High Altitude Detector _____________________ 1 - 18 DT-11 Thermal Detector ________________________________________ 1 - 18 PE-3 Photoelectric Detector _____________________________________ 1 - 18 PE-3T Photoelectric Detector with Heat Sensor ______________________ 1 - 18 PE-11 Photoelectric Detector ____________________________________ 1 - 18 PE-11T Photoelectric Detector with Heat Sensor _____________________ 1 - 18 PBA-1191 Linear Beam Smoke Detector ___________________________ 1 - 18

Installation ______________________________ 2 - 1

General Guidelines For Installing The MXL-IQ_________________________ 2 - 1

Installation Instructions For The MXL-IQ Control Panel ___________________ 2 - 2

Start Up Procedure ____________________________________________ 2 - 10

Chapter 2

System Function Checkout______________________________________ 2 - 16

iii

Page 6

Table of Contents

Chapter 3 Operation _______________________________ 3 - 1

Introduction ____________________________________________________ 3 - 1

System Modules _______________________________________________ 3 - 2 Remote System Modules ________________________________________ 3 - 2

Using The MKB-4 Keyboard/Annunciator Panel in Local Mode ____________ 3 - 3

The Display ___________________________________________________ 3 - 3 Internal Audible Alarm ___________________________________________ 3 - 4 Modes Of Operation ____________________________________________ 3 - 5

Alarm ________________________________________________________ 3 - 6

How The System Annunciates Fire Alarms ___________________________ 3 - 6 Viewing the List of Alarms ________________________________________ 3 - 7 How to Block Acknowledge a Fire Alarm _____________________________ 3 - 7 How to Individually Acknowledge a Fire Alarm _________________________ 3 - 7 Silencing The System ___________________________________________ 3 - 7

Supervisories __________________________________________________ 3 - 8

How The System Annunciates Supervisories _________________________ 3 - 8 Viewing the List of Supervisories___________________________________ 3 - 8 How to Block Acknowledge a Supervisory____________________________ 3 - 8 How to Individually Acknowledge a Supervisory _______________________ 3 - 9

Security _______________________________________________________ 3 - 9

How The System Annunciates Security Conditions ____________________ 3 - 9 Viewing the List of Security Conditions ______________________________ 3 - 9 How to Individually Acknowledge a Security Condition (UL 1076) __________ 3 - 9

Troubles______________________________________________________ 3 - 10

How The System Annunciates Troubles ____________________________ 3 - 10 Viewing The List of T roubles _____________________________________ 3 - 10 How to Block Acknowledge a T rouble ______________________________ 3 - 10 How to Individually Acknowledge a Trouble __________________________ 3 - 1 1

Page 7

Reset Procedures ______________________________________________ 3 - 11

Hard Reset __________________________________________________ 3 - 11 Soft Reset ___________________________________________________ 3 - 1 1

Using The MKB Keyboard/Annunciator Panel in Global Mode ____________ 3 - 12

Limitations/Restrictions_________________________________________ 3 - 12 Global MKB Display Format _____________________________________ 3 - 12 Global Keypad Operation _______________________________________ 3 - 13

Using The Menu _______________________________________________ 3 - 14

Operation of the Keys on the MXL-IQ Annunciator Panel _______________ 3 - 14 Numeric Keypad ______________________________________________ 3 - 14 The Command Keypad _________________________________________ 3 - 14

Table of Contents

Overview of the Menu’s S tructure _________________________________ 3 - 15 Beginning a Menu Session ______________________________________ 3 - 16 Introduction to the Acknowledge Menu _____________________________ 3 - 16 Introduction to the List Menu _____________________________________ 3 - 16 Introduction to the Control Menu __________________________________ 3 - 16 Introduction to the Test Menu_____________________________________ 3 - 16 Entering Your Password ________________________________________ 3 - 17 Entering a Module Number and Device Number ______________________ 3 - 17 Entering a Device Number with the Module Number___________________ 3 - 17

Acknowledge Menu ____________________________________________ 3 - 18

Entering the Acknowledge Menu __________________________________ 3 - 18 Acknowledge: Alarm ___________________________________________ 3 - 18 Acknowledge: Supervsry________________________________________ 3 - 19 Acknowledge: Security _________________________________________ 3 - 20 Acknowledge: Trouble __________________________________________ 3 - 21

LIST Menu ____________________________________________________ 3 - 22

Entering the List Menu__________________________________________ 3 - 22 List: Status __________________________________________________ 3 - 23 List: Alarm ___________________________________________________ 3 - 23 List: Supervisory ______________________________________________ 3 - 24

Page 8

Table of Contents

List Security Conditions_________________________________________ 3 - 24 List: Trouble__________________________________________________ 3 - 25 List: Sensitivity Settings_________________________________________ 3 - 26 List: Voltages _________________________________________________ 3 - 26 List: Temp ___________________________________________________ 3 - 28 List: Module Type______________________________________________ 3 - 28 List: Device Type______________________________________________ 3 - 29 List: Message ________________________________________________ 3 - 30 List: Software V ersion __________________________________________ 3 - 30 List: Output States_____________________________________________ 3 - 31 List: Device Usages ___________________________________________ 3 - 32 List: Node Address ____________________________________________ 3 - 32 List: Air Sampling______________________________________________ 3 - 32 List: Percent/ft ________________________________________________ 3 - 34 List Percent/ft –Senstvty _______________________________________ 3 - 35 List Percent/ft– Pre-alarm ______________________________________ 3 - 35 List Percent/ft – Analog _________________________________________ 3 - 35 List: ASD_apps _______________________________________________ 3 - 35

CONTROL Menu _______________________________________________ 3 - 36

Entering the Control Menu_______________________________________ 3 - 37 Control: Reset ________________________________________________ 3 - 37 Control: Sensitivity_____________________________________________ 3 - 37 Control: Arm/dis_______________________________________________ 3 - 38 Control: Output on/off __________________________________________ 3 - 39 Control: Loop Arm _____________________________________________ 3 - 39 Control: Loop Disarm __________________________________________ 3 - 40 Control: Net Link Request _______________________________________ 3 - 40 Control: Air Sampling___________________________________________ 3 - 40 Control: Percent/ft _____________________________________________ 3 - 41 Control: Change Apps __________________________________________ 3 - 42

Page 9

TEST Menu ___________________________________________________ 3 - 42

Entering the Test Menu _________________________________________ 3 - 43 Test: Set Time ________________________________________________ 3 - 43 T est: Ground Fault_____________________________________________ 3 - 44 Test: Power __________________________________________________ 3 - 44 Test: Lamp Test_______________________________________________ 3 - 45 Test: Device LED _____________________________________________ 3 - 45 Test: MOI Lamp Test ___________________________________________ 3 - 46 T est: Network (X-Network, M-Network) _____________________________ 3 - 46 Test: Override ________________________________________________ 3 - 46 Test: Det_Cleaned_____________________________________________ 3 - 47 Test: Event Log _______________________________________________ 3 - 47

Table of Contents

Test: Pyro_diags ______________________________________________ 3 - 48 Test: Pre_alarm _______________________________________________ 3 - 48 Test: ASD_Devices ____________________________________________ 3 - 48 Test: Summarize______________________________________________ 3 - 48 T est: Manual_Activate __________________________________________ 3 - 49

Testing and Troubleshooting __________________ 4 -1

SYSTEM TEST ___________________________________________________ 4 -1

Every Six Months_______________________________________________ 4 -1 Every Y ear ____________________________________________________ 4 -1 Fuse Replacement _____________________________________________ 4 -1 Troubleshooting________________________________________________ 4 -2

Chapter 4

vii

Page 10

Table of Contents

Chapter 5

Walktest Operating Instructions _____________ 5 - 1

System w/AUD ________________________________________________ 5 - 2 System SIL ___________________________________________________ 5 - 2 Loop w/AUD __________________________________________________ 5 - 2 Loop SIL _____________________________________________________ 5 - 2 Zone wAUD ___________________________________________________ 5 - 2 Zone SIL _____________________________________________________ 5 - 2 Cancel_______________________________________________________ 5 - 2 Extend _______________________________________________________ 5 - 2

Suggested Walktest Procedure ____________________________________ 5 - 2

Walktest the System ____________________________________________ 5 - 3 Walktest Ending Sequence _______________________________________ 5 - 4 Walktest Entire ALD Loop, MOI-7 (MID-16), or CZM-4 Module ____________ 5 - 4 Walktest Ending Sequence _______________________________________ 5 - 5 Walktest Individual CZM-1B6 or CZM-4 Zone _________________________ 5 - 5

Chapter 6

History Log ______________________________ 6 - 1

Logging Methods _______________________________________________ 6 - 2

Small List Logging______________________________________________ 6 - 2 Circular Logging _______________________________________________ 6 - 3

MKB Menu Option to Enable, Disable and Erase History _________________ 6 - 4

Enabling the History Option in CSG-M ______________________________ 6 - 4 From the MKB Menu ____________________________________________ 6 - 4

Local History Log Query __________________________________________ 6 - 5

Query Selection________________________________________________ 6 - 5 Query Filters __________________________________________________ 6 - 5

Navigating The History Display _____________________________________ 6 - 6

History Display Formats _________________________________________ 6 - 6 Device Event __________________________________________________ 6 - 6 Reset Event __________________________________________________ 6 - 6

viii

Page 11

Set Time Event ________________________________________________ 6 - 7 Block Acknowledge Event ________________________________________ 6 - 7 Audible Silenced Event __________________________________________ 6 - 8 Override Event ________________________________________________ 6 - 8 Audible Unsilenced Event ________________________________________ 6 - 8 Password Event _______________________________________________ 6 - 8 Configuration Changed Event _____________________________________ 6 - 9 Manual Sensitivity Set Event ______________________________________ 6 - 9 Auto Sensitivity Set Event ________________________________________ 6 - 9 Logic Sensitivity Set Event ______________________________________ 6 - 10

History Print Formats At The MXL-IQ Panel ___________________________ 6 - 10

Table of Contents

MXL-IQ To CSG-M Download Formats _______________________________ 6 - 13

History Download Sequence_____________________________________ 6 - 14

Compatible Devices _____________________________________________ A - 1

Device Analog Voltages __________________________________________ B - 1

MXL-IQ Battery Calculations _______________________________________ C - 1

MXL-IQ Power Supply Load Calculations _____________________________ D - 1

Alarm Verification _______________________________________________ E - 1

Envirolink _____________________________________________________ F - 1

Latching/Non-Latching Troubles ____________________________________ G - 1

Installing A Security Point _________________________________________ H - 1

Appendix

Application Specific Detection (ASD) _________________________________I - 1

MXL-IQ Trouble Messages _________________________________________ J - 1

Page 12

Table of Contents

Power Limited Wiring ____________________________________________ K - 1

New Two St age Alarm ___________________________________________ L - 1

Pre-alarm, Dual Criteria Logic Functions, and Percent Per Foot Obscuration M - 1

MXL-IQ Spare Parts List___________________________________________ N - 1

New Features for MXL-IQ Revision 6.0 and Higher ______________________ O - 1

Connection & Rating Information ___________________________________ P - 1

Index

Page 13

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Chapter

The MXL-IQ Control Panel from Siemens Industry, Inc., is an advanced fire protection and alarm control panel that provides superior fire protection and multiplexed alarm reporting.

The MXL-IQ Control Panel can monitor up to 4 analog loops, each containing up to 60 SIEMENS intelligent devices.

The MXL-IQ Control Panel can control a wide variety of System outputs, such as:

• Conventional Form C relay contacts

• Solid State outputs

• Supervised outputs to control Alarm Notification Appliances

• Municipal Tie outputs

• Leased Line outputs

The MXL-IQ Control Panel can process logical decisions based on the status of initiating devices. The System can respond with customer-specified sequences of output circuit operation.

To ensure reliable operation, the MXL-IQ System is composed of independent modules, each with its own microprocessor. If the main panel’s central processing unit stops, these modules, operating in default, still annunciate any alarm or trouble through common lines called Any Alarm and Any Trouble. All of the modules communicate with the MXL-IQ Panel through a serial communications System.

All modules are continuously supervised for their presence and for proper operation. Problems are shown on the display to aid in servicing and troubleshooting (See Using the Menu in the OPERATIONS section).

The MXL-IQ System is designed so that fire alarm operation has first priority over all other modes of operation. If the System loses battery and commercial power, it automatically goes through an initialization routine when power returns.

INTRODUCTION

The System continuously checks all software and hardware for proper operation. It continuously checks all System memory components, control panel electronic hardware, and the System program. A hardwire watchdog circuit is provided to ensure that System programs are functioning properly. If a problem develops with the program or processor, the watchdog circuit places the System into a trouble condition and resets it.

The MXL-IQ software was written in a highlevel language for ease of maintenance. The software incorporates a multitasking operating system that allows the microprocessor to handle many tasks almost simultaneously. This enables the MXL-IQ System to handle communications to all initiating and output option boards and to the annunciator. This also enables the MXL-IQ System to check that everything is running.

SOFTWARE

1-1

Page 14

Description

SIEMENS

ALARM

AUDIBLE SILENCE

SUPERVISORY

TROUBLE

SECURITY

POWER

PARTIAL SYSTEM DISABLE

DISPLAY

NEXT HOLD

MXL-IQ

Exterior View

Figure 1 The MXL-IQ Control Panel

1-2

Interior View

Page 15

Description

When the MXL-IQ Control Panel receives power, the System runs a start-up procedure that sets up all initial conditions. The System then starts the operating system and the initialization routines for all of the tasks, most of which concern handling System modules. When the display task is finished initializing, it displays the default time and date at power-up. Initialization of other modules may take several seconds, but this takes place in the background and so does not affect System operation.

The MXL-IQ System polls all network addresses to see that all specified modules are present and that there are no unspeci-

eludoMnoitpircseD

)b(2-BMStinUniaMQI-LXM11*11 *111

21/6-SPMylppuSrewoP1111111

6-BKM/4-BKMlenaProtaicnunnA/draobyeK1111111

fied modules. Any modules or devices that do not agree with the programmed data are reported as troubles on the annunciator.

Minimum MXL-IQ Control Panel Configuration To Meet NFPA 72 Local, Municipal Tie, Remote Station, Proprietary, And Central Station, UL 1076, And NFPA 13 And 2001

Table 1 presents the minimum configuration necessary to meet NFPA 72 Local, Municipal Tie, Remote Station, Proprietary, and Central Station, UL 1076, and NFPA 13 and NFPA 2001.

ytitnauQmuminiMAPFN

lacoL

yrailixuA

etomeR

noitatS

yrateirporP

lartneC

noitatS

)c,a(6701002ro31

2-MOMegaCdraC

4-MOMegaCdraCeludoMlanoitpOX11XXX1

4-MSCeludoMlangiSX1**2ro1XXX)f(1

4-MZCeludoMenoZlanoitnevnoC***************X **

I2-DLArevirDpooLgolanA**********************

6B1-MZCeludoMenoZlanoitnevnoCetomeR***************X ***

------------)e,d(se

2-WSThctiwSrepmaTXXXXX)c(1X

1-MIPeludoMecafretnIlarehpirePXXX1X1X

2-MIPeludoMecafretnIlarehpire

1-LAPretnirPgniggoLXXX1X1X

X = not required

* Use Silent Knight listed models 5128/5129 or Siemens

Model MDACT.

** One CSM-4 circuit must be configured for alarm

transmission. In addition, depending on the local authority having jurisdiction, additional circuits may be required for

Supervisory or Trouble transmission. *** Any one of these modules is sufficient as an initiating device. **** Only TRI-B6/-S, TRI-B6R/-R, TRI-B6D/-D and TRI-B6M can

be used as security devices.

PXXX1X1X

eludoMlanoitpOX11XXX1

irettaB)d(1)d(1)d(1)d(11)c(1)d(1

NOTES:

a. Refer to the MXL-IQ Wiring Diagram, P/N 575-293638 at the end of the manual. b. The SMB-2 must be programmed by CSG-M for all System configurations (See CSG-M

Programming Manual, P/N 315-090381). c. UL 1076 requires a Model TSW-2 tamper switch and a PAL-1 printer. d. The batteries available are: BP-61, BTX-1, and BTX-2. The BP-61 is a module consisting of four

6V, 15 AH batteries. The BTX-1 batteries are a pair of 12V, 31 AH batteries. The BTX-2 batteries

are a pair of 12V, 55 AH batteries. Actual battery size depends on System configuration. e. See Appendix C for Battery Calculations. f. Refer to the CSM-4 Installation Instructions (P/N 315-090854) for programming.

TABLE 1 Minimum MXL-IQ Configuration to Meet NFPA 72 Local, Auxiliary, Remote Station, Proprietary, and Central Station Connections, UL 1076, and NFPA 13 and 2001

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Page 16

Description

Components Of The Basic System

The basic MXL-IQ Control Panel consists of the following components:

• SMB-2 Main Board

• MPS-6 or MPS-12 Power Supply

• MKB-4 Keyboard/Annunciator

• PAL-1 Logging Printer (NFPA Proprietary and UL 1076 configurations)

• PIM-1 Peripheral Interface Module (NFPA Proprietary and UL 1076 configurations)

• PIM-2 Peripheral Interface Module (NFPA Proprietary and UL 1076 configurations)

• MSE-3L Enclosure

• TSW-2 Tamper Switch (UL 1076 configuration only)

BATTERY

20A

P2 BATTERY

P3 POWER TO MOM-4

2 AMP MAX.

TB3

LOOP 2

TB2

LOOP 1

12ATOMOM-4

DO NOT USE

MNET

TB1

P15

S7 S4

P10

D2300CP

PROGRAMMER

PRINTER

MOM-4

Figure 2 SMB-2 Main Board

P14P1

MPS-6 MPS-12

MOM-4

MPS-6

15 AMP

8 AMP

SMB-2

P13

GND FAULT

DISCONNECT

1111

TO ANN-1

OFF ON

P17

2 AMP

CZM-1B6

POWER

NAC 2

NAC 1

TRBL

ALR

CB1 NAC1

CB2 NAC2

CZM-1B6POWER

• BP-61, BTX-1, or BTX-2 Batteries

SMB-2 Main Board

The SMB-2 Main Board contains:

• 16-bit central processing unit (CPU)

NOT USED

• System read-only memories (EPROMs)

• System random-access memory (RAM)

• FLASH memory for CSG-M

• Watchdog circuitry

• Network interface circuitry

• Battery charger

• 24V regulator

• AC transfer relay

• CZM-1B6 auxiliary power

• 24 VDC unregulated supply

• Two analog loops (initiating/control)

1-4

• Two notification appliance circuits (audible circuits)

• Two dry-contact relays (Form C)

Page 17

MPS-6 Power Supply

The MPS-6 is a supervised power supply that converts 120 VAC, 60 Hz to unregulated 24 VDC at 6A.

MPS-12 Power Supply

The MPS-12 is a high current power supply that provides the MXL-IQ System with primary 24 VDC power. It is rated at 12 amps and is unfiltered and unregulated. The MPS-12 supplies the SMB-2 with the power required for normal operation.

The module incorporates a 5 amp resettable circuit breaker on the primary input, a 15 amp fuse on the 24V output, and a built-in AC line filter for surge and noise suppression.

MKB Keyboard/Annunciator Panel

The MKB Annunciator communicates with the SMB Main Control Board through the System network link. This module provides the MXL-IQ with its primary control and annunciation.

Description

Figure 3A MPS-6 Power Supply

Figure 3B MPS-12 Power Supply

The MKB modules have an LCD alphanumeric display that continuously updates information about the System status and user-defined device messages. If there are multiple alarms, and/or troubles, including supervisories and security conditions, the highest priority event that occurred displays first. The user can see additional alarm and trouble data by pressing the NEXT key (MKB-4) or the UP and DOWN keys (MKB-

6). Press the HOLD key (MKB-4 only) at any time to stop the display from scrolling.

The Control Panel contains the following indicators:

• Alarm

• Power

• Audible Silence

• Partial System Disable

• Supervisory

• Trouble

• Security

POWER

PARTIALSYSTEM

DISABLED

ALARM

ACK

ABC3DEF

1 2

GHI

JKL

PQRS

TUV

8 9

INFO

AUD

SIL

TRBL

ACK

ENTER CLEAR

SEC

RESET

ACK

HELP

SPACE

ALT

ALT1

ALT2

FUNCTIONFUNCTION

FUNCTION

SUPV

ACK

MNO

WXYZ

Figure 4 MKB-4 and MKB-6 Keyboard/Annunciator Panels

1-5

Page 18

Description

Figure 5 PIM-1 Peripheral Interface Module

The MKB has switches for the following

functions:

• Acknowledging fire alarms (ALARM ACK)

• Silencing audibles (AUD SIL)

• Acknowledging supervisories (SUPV ACK)

• Acknowledging troubles (TRBL ACK)

• Acknowledging security conditions (SEC

)

ACK

• Resetting the Control Panel (RESET)

In addition the module has display keys

(NEXT and HOLD), a numerical keypad, PRINT,

HELP, and CLEAR keys, and user-configurable

function keys.

PIM-1 Peripheral Interface Module

The PIM-1 module is an interface for an MXL-IQ System to remote peripheral devices such as printers. It connects an RS-232C device to an MXL-IQ System without the peripheral device's protective ground causing a ground fault. The interface operates at up to 9600 baud without losing any characters.

Figure 6 PAL-1 Parallel Printer

PIM-2 Peripheral Interface Module

The PIM-2 module is an interface that allows the connection of UL listed EDP Centronics parallel printers to the MXL-IQ System. It converts the RS-232C (serial) printer output to a Centronics parallel interface. When used with the PAL-1, the PIM-2 provides a supervised parallel printer (NFPA 72 Proprietary or UL 1076) for the MXL-IQ System. However, this configuration is not supervised for data integrity.

PAL-1

The PAL-1 Logging Printer provides a paper record of the activity of the MXL-IQ System.

1-6

Page 19

MSE-3L or MSE-3M Enclosure

The MSE-3L is the enclosure used with the MKB-4 and the MSE-3M is the enclosure used with the MKB-6 in the MXL-IQ System. Each enclosure consists of a backbox and front door that is shopped assembled.

TSW-2 Tamper Switch

The TSW-2 Tamper Switch is a 3-position switch that monitors the opening of the MXL-IQ enclosure and reports a security alarm. Closing the door automatically returns the switch to its normal operating position. The switch can be pulled out to indicate a closed position for maintenance purposes.

Description

Figure 7 MSE-3L Enclosure

Figure 8 TSW-2 Tamper Switch

BP-61 Batteries

The BP-61 is a module consisting of four 6V, 15 AH batteries. The BP-61 is recommended for the NFPA 72 Local and Proprietary, and the UL 1076 Systems. Actual battery size depends on System configuration. See Appendix C for battery calculations.

BTX Batteries

The BTX-1 batteries are a pair of 12V, 31 AH batteries. The BTX-2 batteries are a pair of 12V, 55 AH batteries. Actual battery size depends on System configuration. See Appendix C for battery calculations.

Figure 9 BP-61 Batteries

Figure 10 BTX Batteries

1-7

Page 20

Description

Figure 11 ALD-2I Analog Loop Driver

OPTIONAL

MODULES

The following modules are available as options to the MXL-IQ Control Panel:

NOTE: Modules marked with an asterisk (*) do not mount in the MSE-3L enclosure.

ALD-2I Analog Loop Driver

The ALD-2I Analog Loop Driver provides two initiating device circuits capable of Class A or Class B operation for monitoring analog devices. Each loop is capable of monitoring up to 60 analog devices. Each device has its own address. You can use CSG-M to write a custom message for each device (See CSG-M Programming Manual, P/N 315-090381).

CCU/M Pager Interface Module

The CCU/M alphanumeric interface module connects to any MXL System and can be programmed to send selected information to specific pagers programmed into the CCU/M. This equipment is designed to be installed and serviced by fully qualified field engineers. There are no user-serviceable or installation parts inside the unit.

Figure 12 CMI-300 Interface Module

Figure 13 CPY-HLI Interface Card

V'Net Port A

Shield

V’net B

Shield

V’net A

CPY-HLI

DC Power

VESDAnet

RS-232 Port

CMI-300 Interface Module

The CMI-300 provides modem communications between an MXL-IQ System and a CXL System. The CMI-300 module is located on the MOM-2/4 board in the MXL-IQ enclosure. The CMI-300 plugs into a half slot in the MOM-2/4. It translates signals from the MXL-IQ communication lines of the SMB-2 to CXL modem signals. This signal is then transmitted along suitable cable to the CXM-1 module in the CXL enclosure.

CPY-HLI Interface Card*

The CPY-HLI interfaces MXL-IQ to VESDA detectors. MXL-IQ requires a NIM-1W module configured in CSG-M as an Air Sampling (VESDA) interface.

• The interface gives the MXL-IQ the ability to list, control, and annunciate the state of up to 31 VESDA detectors connected to a single NIM-1W.

1-8

Page 21

• MXL-IQ supports one NIM-1W config-

ured as an Air Sampling (VESDA) interface.

• Each VESDA network will support one CPY-HLI.

CRM-4 Relay Module

The CRM-4 Relay module is an output control module that contains 4 relay outputs. Form C contacts are rated at 2A, 30 VDC/120 VAC resistive.

The CRM-4 has 4 LEDs. Two of the LEDs are user programmable.

CSM-4 Signal Module

The CSM-4 Signal module controls 2 supervised notification appliance circuits. Each circuit is capable of either Style Z (Class A) or Style Y (Class B) operation. Each circuit can be individually configured for notification appliances, municipal tie, leased line, or releasing service per NFPA 13, and NFPA 2001.

Description

Figure 14 CRM-4 Relay Module

Figure 15 CSM-4 Signal Module

CZM-4 Conventional Zone Module

The CZM-4 Conventional Zone module provides four initiating device circuits capable of Style D (Class A) or Style B (Class B) operation. Each zone has its own address. You can use CSG-M to write a custom message for each zone (See CSGM Programming Manual, P/N 315-090381).

Figure 16 CZM-4 Conventional Zone Module

1-9

Page 22

Description

Figure 17 D2300CP Fiber Optic Interface

D2300CP Fiber Optic Interface

The D2300CP is a Fiber Optic interface for the MXL’s RS-485 network, MNET or XNET. It uses a two-fiber (Duplex) pair between each device. The D2300CP can function as either a repeater or an end point unit.

The D2300CP can operate in either a daisy chain or star configuration. This allows for network configurations that are not possible with the RS-485 network alone.

WARNING:

The D2300CP module is not listed for use by Factory Mutual. Applications requiring fiber connectivity of voice modules/systems are therefore not listed.

LLM-1 Leased Line Module

The LLM-1 provides telephone equipment overvoltage suppression in compliance with UL-864. The LLM-1 must be used with the MXL System Modules CSM-4 and RCM-1.

Figure 18 MDACT Serial Dialer

MDACT Serial Dialer

The MDACT is a multipoint serial dialer for use in MXL systems where point identification of alarm, supervisory, status or trouble indication is required at central stations.

MID-16 Input Driver*

The MID-16 module provides 16 general purpose inputs for user-defined operations for the MXL-IQ.

The MID-16 is controlled by the MOI-7 module. Up to 8 MID-16s can be used with an MOI-7. The function of each individual input is defined by the use assigned to it in CSG-M.

Figure 19 MID-16 Input Driver

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Page 23

MOD-16 Output Driver*

The MOD-16 Output Driver module is an annunciator driver controlled by the MOI-7 module. Up to 8 MOD-16s can be used with an MOI-7. Each MOD-16 can activate up to 16 outputs for a total of 128 outputs.

MOI-7 Voice and Annunciator Driver*

The MOI-7 module is an MXL-IQ network module that connects to a graphic annunciator using MOD-16s or MID-16s.

Description

Figure 20 MOD-16 Output Driver

The MOI-7 has two LEDs to indicate the status of the MXL-IQ network interface:

• the TRANSMIT LED blinks when the MXL-IQ/MOI-7 communication is working

• the TROUBLE LED goes to steady when MOI cannot communicate

MOM-2 Card Cage

The MOM-2 Card Cage contains 2 slots for optional module cards; it can handle 2 halfwidth cards or 1 full-width card. The MOM-2 provides 2 power-connector receptacles and 2 data-connector receptacles. A 24 VDC cable that provides the main power used by the optional modules, and an 8-wire ribbon cable for connection of 5 VDC and data, are provided with the MOM-2 installation kit.

Figure 21 MOI-7 Voice and Annunciator Driver

Figure 22 MOM-2 Card Cage

1-11

Page 24

Description

Figure 23 MOM-4 Card Cage

MOM-4 Card Cage

The MOM-4 Card Cage contains 4 slots for optional module cards; it can handle 4 halfwidth cards or 2 full-width cards. The MOM-4 provides 2 power-connector receptacles and 2 data-connector receptacles. A 24 VDC cable that provides the main power used by the optional modules, and an 8-wire ribbon cable for connection of 5 VDC and data, are provided with the MOM-4 installation kit.

NIM-1W Network Interface Module

The NIM-1W provides a communication path for the following uses:

• as an MXL-IQ networking interface

• as a connection to Foreign Systems

• as a connection to Air Sampling detectors

When used as a networking interface the NIM-1W supports the connection of up to 63 MXL-IQ Systems. This network also supports a Network Command Center (NCC) that monitors all the MXL-IQs in the networked group.

Figure 24 NIM-1W Network Interface Module

Output logic between MXL-IQ panels is made using CSG-M programming. CSG-M versions

6.01 and higher include options for networked MXL-IQ systems. Each MXL-IQ System is assigned a panel number. This panel number allows interactive programming between panels using CSG-M.

The NIM-1W supports Style 4/7 connection. In the event of an NIM-1W communication failure, each MXL-IQ System continues to operate as a stand-alone panel.

The NIM-1W can also be configured as an RS-232 or RS-485 two-wire interface to foreign systems. This operation is called FSI (Foreign System Interface). The FSI responds to a protocol and gathers information about the MXL-IQ status. The interface supports both single MXL-IQ Systems and networked systems. Typical use of this interface is between the MXL-IQ and building management systems.

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Page 25

PS-5A Power Supply*

The PS-5A is a power supply that can be used with the D2300CP or MOI-7. The power supply has enough power to run both the D2300CP and MOI-7 modules.

RCC Remote Command Center

The RCC-1 Remote Command Center is an optional MXL/MXLV System remote keyboard panel. The RCC-1F Remote Command Center, which is used for flush mounting applications, has a ¾-inch flange on all four sides of the enclosure.

The RCC-2/R provides the option to remotely annunciate and control MXL and MXL-IQ system status, including the mounting and control of the PIM-1 printer interface module.

Description

Figure 25 PS-5A Power Supply

The RCC-3/-3C/-3F/-3FC has a multi-line display that continuously updates information about the system event status. The user can view up to 8 events at a time and can scroll through the complete list using the UP and DOWN keys located next to the More Info key.

RDM-PC Remote Diagnostics Module

The RDM-PC allows connection of a remote computer to an MXL-IQ. The RDM for MXL PIM-1 (RDM-MXL) connection is made via a telephone line. After communication is established, the remote computer will function like a VDT connected locally to the MXL. Secure access to the MXL is guaranteed by using a callback procedure. This means that the MXL cannot connect to any unknown or unauthorized site. The

Remote Diagnostic option for the MXL VDT configuration in the CSG-M must be enabled (by selecting YES).

RCC-2/R

Figure 26 Remote Command Centers

RCC-1/1F

RCC-3/-3C/-3F/-3FC

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Description

Figure 27 Silent Knight Model 5128/5129 Digital Fire Communicator

Silent Knight Model 5128/5129 Digital Fire Communicator

The MXL-IQ reports system conditions to a Central Station using the Silent Knight Model 5128/5129, a four-channel digital communicator that reports alarm, trouble, supervisory, and miscellaneous status. When used with the MXL-IQ, the Silent Knight Model 5128/5129 uses the alarm, trouble, and supervisory channels. The miscellaneous status channel may be used to annunciate conditions other than fire at the Central Station.

INTELLIGENT/

ANALOG DEVICES

The intelligent/analog devices described below are available for use with the MXL-IQ Control Panel. The UL identifiers for compatibility are the same as the model names specified below.

FP-11 Intelligent/Analog Photoelectric Detector

The FP-11 is an intelligent/analog photoelectric detector with 135O fixed temperature thermal assist that can be used as an area or duct detector [FP-11(d)]. The FP-11 is also a combination photo/thermal detector using our exclusive FirePrintTM technology. It uses either a DB-11 low profile mounting base or DB-3S mounting base with the DB-ADPT adapter, a DB-X11RS mounting base with relay or DB-X3RS mounting base with relay with the DB-ADPT adapter, an ADBX-11 audible base, or an AD-11P or AD-11XPR air duct housing. The FP-11 requires MXL-IQ Rev. 6.0 or higher firmware.

FPT-11 Intelligent Thermal Detector

The FPT-11 is an intelligent/analog fixedtemperature or fixed temperature /rate-ofrise thermal detector. It can only be used as an area detector. It uses either a DB-11 low profile mounting base or DB-3S mounting base with the DB-ADPT adapter, a DB-X11RS mounting base with relay or DB-X3RS mounting base with relay with the DB-ADPT adapter, or an ADBX-11 audible base. The FPT-11 requires MXL-IQ Rev.

6.0 or higher firmware.

ICP Intelligent Control Point

The ICP is an intelligent control point that can be used as an independent, remotely located notification appliance circuit (NAC). It communicates through the analog loop of the MXL-IQ System.

ICP-B6 Intelligent Control Point

The ICP-B6 is an intelligent control point that can be used as an independent, remotely located notification appliance circuit (NAC). It communicates through the analog loop of the MXL-IQ System.

ID-60P Intelligent/Analog Photoelectric Detector

The ID-60P is an intelligent/analog photoelectric detector that can be used as an area or duct detector [ID-6OP(d)]. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, an AD-3P duct housing, or an ADBI-60 audible base.

ID-60PT Intelligent/Analog Photoelectric Detector with Heat Sensor

The ID-60PT is an intelligent/analog ratecompensated/fixed-temperature type thermal and photoelectric detector. It can

1-14

Page 27

Description

only be used as an area detector. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ID-60I Intelligent/Analog Ionization Detector

The ID-60I is an intelligent/analog ionization detector for use in open areas at altitudes of 0 to 4000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ID-60IH Intelligent/Analog Ionization High Altitude Detector

The ID-60IH is an intelligent/analog ionization detector for use in open areas at altitudes of 3000 to 8000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ID-60IA Intelligent/Analog Ionization High Air-Velocity Detector

The ID-60IA is an intelligent/analog ionization high air-velocity detector for use in open areas, computer facilities, and air ducts at altitudes of 0 to 4000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ID-60IAH Intelligent/Analog Ionization High Air-Velocity, High Altitude Detector

The ID-60IAH is an intelligent/analog ionization high air-velocity, high altitude detector for use in open areas, computer facilities, and air ducts at altitudes of 3000 to 8000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ID-60IB Intelligent/Analog Ionization Air-Duct Detector

The ID-60IB is an intelligent/analog ionization detector for use in air duct applications at altitudes of 0 to 4000 feet. It uses either the AD-3I housing or the AD-3XRI housing.

ID-60IBH Intelligent/Analog Ionization Air-Duct High Altitude Detector

The ID-60IBH is an intelligent/analog ionization detector for use in air duct applications at altitudes of 3000 to 8000 feet. It uses either the AD-3I housing or the AD-3XRI housing.

ILI-1 Intelligent/Analog Ionization Detector

The ILI-1 is an intelligent/analog ionization detector for use in open areas at altitudes of 0 to 4000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ILI-1H Intelligent/Analog Ionization High Altitude Detector

The ILI-1H is an intelligent/analog ionization detector for use in open areas at altitudes of 3000 to 8000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ILI-1A Intelligent/Analog Ionization High Air-Velocity Detector

The ILI-1A is an intelligent/analog ionization high air-velocity detector for use in open areas, computer facilities, and air ducts at altitudes of 0 to 4000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ILI-1AH Intelligent/Analog Ionization High Air-Velocity, High Altitude Detector

The ILI-1AH is an intelligent/analog ionization high air-velocity, high altitude detector for use in open areas, computer facilities, and air ducts at altitudes of 3000 to 8000 feet. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

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Description

ILI-1B Intelligent/Analog Ionization AirDuct Detector

The ILI-1B is an intelligent/analog ionization detector for use in air duct applications at altitudes of 0 to 4000 feet. It uses either the AD-3I housing or the AD-3XRI housing.

ILI-1BH Intelligent/Analog Ionization Air-Duct High Altitude Detector

The ILI-1BH is an intelligent/analog ionization detector for use in air duct applications at altitudes of 3000 to 8000 feet. It uses either the AD-3I housing or the AD-3XRI housing.

ILP-1 Intelligent/Analog Photoelectric Detector

The ILP-1 is an intelligent/analog photoelectric detector that can be used as an area or duct detector [ILP-1(d)]. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, an AD-3ILP or AD-3XRILP duct housing, or an ADBI-60 audible base.

ILPT-1 Intelligent/Analog Photoelectric Detector with Heat Sensor

The ILPT-1 is an intelligent/analog ratecompensated/fixed-temperature type thermal and photoelectric detector. It can only be used as an area detector. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

ILP-2 Intelligent/Analog Photoelectric Detector

The ILP-2 is an intelligent/analog photoelectric detector that can be used as an area or duct detector [ILP-2(d)]. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, an AD-3ILP or AD-3XRILP duct housing, or an ADBI-60 audible base. The ILP-2 requires MXL-IQ Rev. 3.0 or higher firmware.

ILT-1 Intelligent Thermal Detector

The ILT-1 is an intelligent rate-compensated/fixed-temperature type thermal detector. It uses either a DB-3S low profile mounting base, a DB-X3RS mounting base with relay, or an ADBI-60 audible base.

LIM-1 Loop Isolator Module

The LIM-1 is a loop isolator module that isolates short circuits on MXL-IQ analog loops. The LIM-1 operates in both Class A and Class B circuits.

MSI-10/20 Intelligent Manual Station

The MSI-10/20 is an intelligent manual station designed to interface with an analog loop. The MSI can be flush mounted or surface mounted using the SB-5R mounting box.

MSI-10B/20B Intelligent Manual Station

The MSI-10B/20B is an intelligent manual station designed to interface with an analog loop. The MSI-10B/20B can be flush mounted or surface mounted using the SB-5R mounting box.

MSI-B6F Intelligent Manual Station

The MSI-B6F is an intelligent manual station designed to interface with an analog loop. The MSI-B6F is a single-action station; when used with the MS-FD adapter, the MSI-B6F is a double-action station. The MSI-B6F can be flush mounted or surface mounted using the MS-FB backbox.

MSI-MB6 Intelligent Manual Station

The MSI-MB6 is an intelligent manual station designed to interface with an analog loop. The MSI-MB6 is a single-action station; when used with the MS-DA plate, the MSI-MB6 is a double-action station. The MSI-MB6 can be flush mounted or surface mounted using the MS-SB backbox.

MS-MI Intelligent Manual Station

The MS-MI is an intelligent manual station designed to interface with an analog loop. The MS-MI is a single-action station; when used with the MS-DA plate, the MS-MI is a double-action station. The MS-MI can be flush mounted or surface mounted using the MS-SB backbox.

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Description

TRI-B6, TRI-B6R, and TRI-B6D Intelligent Interface Modules

The TRI-B6 series modules are intelligent interface modules that interface direct shorting contact devices with the analog loops. The TRI-B6 is a single-input module; the TRI-B6R is a single-input module with an independently controllable Form C relay; the TRI-B6D is a dual-input module.

TRI-B6M Addressable Interface Module

The TRI-B6M addressable interface module interfaces direct shorting contact devices with the analog loops. The TRI-

-B6M can monitor a normally open or closed dry contact and it can report the status of the contact

TRI-S, TRI-R, and TRI-D Intelligent Interface Modules

The TRI-S/R/D series modules are intelligent interface modules that interface direct shorting contact devices with the analog loops. The TRI-S is a single-input module; the TRI-R is a single-input module with an independently controllable Form C relay; the TRI-D is a dual-input module.

CZM-1B6 Remote Conventional Zone Module

The CZM-1B6 Remote Conventional Zone Module supports one zone of non-addressable initiating devices in either Style D (Class A) or Style B (Class B) configuration, for a maximum of 15 compatible 2-wire smoke detectors and an unlimited number of shorting devices.

The conventional devices described below are available for use with the MXL-IQ Control Panel.

The UL identifiers for compatibility are the same as the model numbers.

DI-3 Ionization Detector

The DI-3 is an ionization detector for use in open areas at altitudes of 0 to 4000 feet. It uses the DB-3S low profile surface mounting base.

DI-3H Ionization High Altitude Detector

The DI-3H is an ionization detector for use in open areas at altitudes of 3000 to 8000 feet. It uses the DB-3S low profile surface mounting base.

DI-A3 Ionization High Air-Velocity Detector

The DI-A3 is an ionization high air velocity detector for use in open areas, computer facilities, and air ducts at altitudes of 0 to 4000 feet and at air velocities of 0 to 1200 feet per minute. It uses the DB-3S low profile surface mounting base.

DI-A3H Ionization High Air-Velocity, High Altitude Detector

The DI-A3H is an ionization high air velocity, high altitude detector for use in air ducts only at altitudes of 3000 to 8000 feet and at air velocities of 300 to 1200 feet per minute. It uses the DB-3S low profile surface mounting base.

DI-B3 Ionization Air Duct Detector

The DI-B3 is an ionization detector for use only in air ducts at altitudes of 0 to 4000 feet. It must be used with a Series 3 air duct housing (AD-3I or AD-3RI).

CONVENTIONAL DEVICES

1-17

Page 30

Description

DI-B3H Ionization Air Duct High Altitude Detector

The DI-B3H is an ionization detector for use only in air ducts at altitudes of 3000 to 8000 feet. It must be used with a Series 3 air duct housing (AD-3I or AD-3RI).

DT-11 Thermal Detector

The DT-11 is a thermal detector for use in open areas. It uses the DB-11 low profile surface mounting base or the DB-3S mounting base with the DB-ADPT adapter.

PE-3 Photoelectric Detector

The PE-3 is a photoelectric detector that responds to a wide range of both flaming and smoldering fire conditions. It uses either the DB-3S low profile surface mounting base or the AD-3ILP or AD-3XRILP air duct housing.

PE-3T Photoelectric Detector with Heat Sensor

The PE-3T is a photoelectric detector with heat sensor that responds to a wide range of both flaming and smoldering fire conditions. It uses the DB-3S low profile surface mounting base.

PE-11 Photoelectric Detector

The PE-11 is a photoelectric detector that responds to a wide range of both flaming and smoldering fire conditions. It uses the DB-11 low profile surface mounting base, the DB-3S mounting base with the DB-ADPT adapter, or the AD-11P/11PR air duct housing.

PE-11T Photoelectric Detector with Heat Sensor

The PE-11T is a photoelectric detector with heat sensor that responds to a wide range of both flaming and smoldering fire conditions. It uses the DB-11 low profile surface mounting base or the DB-3S mounting base with the DB-ADPT adapter.

PBA-1191 Linear Beam Smoke Detector

The PBA-1191 can detect light or dark smoke buildup at distances between the transmitter (X) and receiver (R) of 17 feet to 280 feet. The PBA-1191 can be used in a variety of areas, including large, narrow, or high rooms, and rooms with high air turbulence. The PBA-1191 requires the PBB-1191 base.

NOTE: Only one PBA-1191, and no additional devices, can be connected to a CZM-4 initiating zone.

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Page 31

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Chapter

Remove all system power before installation, first battery and then AC.

This section provides general installation instructions for mounting, wiring, and checkout of the MXL-IQ Control System from Siemens Industry, Inc.

Read this section before installing the equipment to ensure proper installation. If you are not familiar with the MXL-IQ, also read the first section of the manual. Be sure to ask Siemens Industry, Inc. Technical Support or an authorized Representative if you have any questions.

Install and use the MXL-IQ System in accordance with the appropriate Local, NFPA, and NEC Code requirements.

W ARNING!

Refer to the last page of the

manual for a Warning Note

required by the FCC for all

commercial Class A computing

equipment producing a clock

frequency of 10K Hz or greater.

General Guidelines For Installing The MXL-IQ

Always remove power (battery and AC) and wait at least 10 seconds to allow the supply voltages to decay before installing or removing any module, cable, or wiring.

NOTE: If available, use a printer during

the installation procedure as a debugging tool.

Follow Steps 1 through 13 for installation. Each step is thoroughly explained in the following pages.

1. Install the enclosure (page 2-2).

2. Install the TSW-2 Tamper Switch where required (page 2-2).

3. Pull the field wiring into the backbox and dress it to approximately where it will go (page 2-3).

4. Install the SMB-2 (page 2-3).

5. Install the MPS-6 (page 2-3).

6. Install the MKB-4 (page 2-4).

7. Install the PIM-1, PIM-2, and PAL-1 (If applicable) (page 2-5).

8. Install the MOM-2 or MOM-4 card (page 2-6).

9. Install the MOI-7, MOD-16, and MID-16 (If applicable) (page 2-9).

10. Install Field Wiring (page 2-10).

11. Check Field Wiring (page 2-10).

12. Start-up Procedure (page 2-10).

13. System Function Checkout (page 2-16).

INTRODUCTION

2-1

Page 32

Installation

1. Install the MSE-3L Enclosure

The MSE-3L is the enclosure for the MXL-IQ. Consider the following when mounting the

backbox:

INSTALLATION

INSTRUCTIONS

FOR THE MXL-IQ

CONTROL PANEL

Figure 21 Mounting the MSE-3L Enclosure

• Mounting height for visual and manual access to the MKB-4 Keyboard/annunciator

• Weight and size of enclosure

• Local Mounting codes

Fasten the backbox securely to a clean, dry, shock-free, and vibration-free surface. Position the backbox clear of obstructions so that the door opens freely and so that

the indicators and controls are easily accessible.

NOTE: When the backbox is mounted semi-flush using the MET-3L kit, be sure that the position of the backbox permits the door to swing fully open. (See MET-3L Installation Instructions, P/N 315-095447.)

When deadfront construction is required, use the IQ-DFL panel (See IQ-DFL Installa- tion Instructions, P/N 315-095446.)

When the MSE-3L is used for remote applications, use the IQ-Blank where there is no MKB-4 installed (See IQ-Blank Installation Instructions, P/N 315-095482.)

To install the backbox: (Refer to Figure 21)

a. Slip the door off the hinges of the box

and put it to one side temporarily.

b. Remove the knockouts in the backbox

where field wiring is required (Refer to

MSE-3L Power Limited Wiring Instructions, P/N 315-095445, for

location of knockouts).

c. Hold the empty enclosure against the

wall at a height that provides easy access.

d. Mark drill points on the wall in the center

of the two slots on the upper rear of the MSE-3L.

e. Drill the two holes and screw in the top

screws, leaving a small gap between the wall and each top screw.

f. Mount the MSE-3L on the 2 bolts and

then install the bottom bolts.

g. Slip the door back on the hinges of the

enclosure.

Figure 22 TSW-2 Tamper Switch

2-2

2. Install The TSW-2 Tamper Switch

(Refer to Figure 22)

If your configuration (UL 1076) requires the TSW-2 Tamper Switch, install it now.

The TSW-2 mounts into the rectangular slot located in the lower right side of the MKB-4 panel.

1. Place the cable/connector and the switch terminals through the opening and press firmly into place.

2. Plug the cable on the TSW-2 into P9 on the SMB-2 after installing the SMB-2.

Page 33

3. Pull All Field Wiring Into The Backbox

Pull all field wiring into the backbox and dress the wiring to the approximate location to which it will go. Refer to the MSE-3L Power Limited Wiring Instructions, P/N 315-

095445.

4. Install the SMB-2

(Refer to Figure 23)

Unpack the SMB-2. Inspect the module, looking for such things as integrated circuits (ICs) not firmly seated in their sockets, bent IC pins, connectors not properly installed, dirt, packing material on the board, etc.

The installation kit consists of the following items:

Two #6 nuts Four #6 screws Six #6 washers Six #6 lockwashers Two resistors Battery cable with a wire

a. Place the SMB-2 over the two studs in

the upper right-hand portion of the backbox (See Figure 23).

b. Secure in place using the hardware

provided.

Be sure the screws and nuts are tight, as they provide the earth ground connection for the SMB-2

Installation

Figure 23 Installing the SMB-2

5. Install the MPS-6/12

(See Figure 24)

The MXL-IQ is designed to operate from a 120 VAC, 60 Hz power source. Use a separate or dedicated circuit-breaker. Wire in accordance with local codes and Article 760 of the NEC, NFPA 70, latest edition.

Run the earth ground from a suitable source to the MPS-6/12. Check local requirements. Conduit is not an accept- able conductor.

Make sure that the dedicated circuit-breaker for the MXL-IQ is turned off at the mains.

Place the mounting bracket for the MPS-6/ 12 over the two studs provided in the enclosure as shown in Figure 24.

Secure the MPS-6/12 to the MSE-3L by slipping the flat washers, then the

Figure 24 Installing the MPS-6

2-3

Page 34

Installation

lockwashers, and finally the nuts over the two studs. Tighten them securely.

Connect the AC mains to MPS-6/12 as follows:

Terminal

Black (hot) 1 White (neutral) 2 Green (earth ground) 3

Install the 14 gauge green ground strap spade lug side to Terminal 3 (green, earth ground) of the MPS-6 or MPS-12. Secure the ring lug side of the ground strap to the nearest available stud in the enclosure. The stud size may vary depending on the actual system modules and enclosure used. Because the stud may be either a #10 thread of ¼" thread, nuts for both have been provided. The ground strap provided is long enough for all applications and the ring lug is good for both #10 and ¼" studs. If possible, install the ring lug under one of the lockwashers and nuts which secure the MPS-6 or MPS-12 itself.

Connect the 3-wire cable coming from the MPS-6 to the SMB-2, P1, or connect the 8wire cable coming from the MPS-12 to the SMB-2, P14.250

6. Install the MKB-4 Keyboard/ Annunciator

Remove all system power

before installation, first

battery and then AC.

Unpack the MKB-4. Inspect the module for such things as integrated circuits (ICs) not firmly seated in their sockets, bent IC pins, connectors not properly installed, dirt, and packing material on the board.

NOTE: The MKB-4 is supplied with the keyboard/annunciator mounted to the hinged panel.

Setting the Network Address

(See Figure 25)

a. Before installing the MKB-4 panel, set its

network address on S1, the switch on the ANN-1 board located on the back of the MKB-4. Use dipswitches SW1 and SW2 on switch S1 to set the network address of the MKB-4. Refer to Table 2 for switch settings.

b. The MKB-4 module address is always

set within network addresses 248 through 251.

c. One supervised MKB-4 must be

installed at network address 251. Other supervised MKBs may be at the other addresses.

2ELBAT

1-NNAEHTNOSGNITTESHCTIWS

:ROFSGNITTESSSERDDA

HCTIWS

1WS-1S

2WS-1S

3WS-1S

4WS-1S

842942052152

-nepO

FFO

-nepO

FFO

-desolC

-nepO

FFO

-desolC

-nepO

FFO

-deso

-desolC

Figure 25 Setting S1 on the ANN-1 Board

2-4

5WS-

:ETON:ETON

:ETON:ETON.esuerutufrofera4WS-1Sdna3WS-1SsehctiwS

:ETON

noisivrepuSgnitteSeeSnoisivrepuSgnitteSeeS

noisivrepuSgnitteSeeS

.noisivretpustcelesotdesusi5WS-1ShctiwS

Setting Supervision:

Use switch S1-SW5 on the ANN-1 to select or deselect supervision. If your ANN-1 has a switch with position 1 indicated on the left-hand side, ignore the printing on the switch. SW1 on S1 is at the extreme righthand side of S1, regardless of any other

marking.

Page 35

NOTE: When you select non-supervision for an annunciator, there must also be one and only one supervised annunciator at the same address. The supervisory mode is independent of the network address.

To set for supervision

S1-SW5 = Closed (ON)

To set for non-supervision

S1-SW5 = Open (OFF)

Mounting the MKB-4

(Refer to Figure 26)

Installation

1. Install three screws in the first group of three tapped holes in the right flange. Leave a 1/8-inch gap between the head of the screw and the flange. Slide the slots of the MKB-4 panel hinge under the head of the screws and tighten.

2. After the MKB-4 is mounted to the enclosure, connect the cable (P/N 555-

192238) between P1 on the ANN-1 (on the back of the MKB-4) and P8 on the SMB-2.

CAUTION:

Be sure the black tracer wire on the edge of the cable is close to the 1 on position 1 of connector P1 on the ANN-1 and the 1 on position 1 of P8 on the SMB-2.

7. Install the PIM-1, PIM-2, and PAL-1

PIM-1

1. Install the PIM-1 on the back of the MKB-4 panel as shown in Figure 27. Position the PIM-1 so the TB1 is on the left side of the board.

2. Mount the PIM-1 module on the raised studs with the hardware provided.

3. Using the cable supplied with the PIM-1, connect PIM-1, P-1 to ANN-1, P1 (See Figure 27).

4. Using the cable supplied with the MKB-4, connect PIM-1, P2 to SMB-2, P8 (See Figure 27).

Figure 26 Installing the MKB-4 Keyboard/Annunciator

MSE-3L

TB1

PIM-1

Cable supplied

with PIM-1

(P/N 555-192242)

ANN-1

To P8 on the SMB-2

(Cable supplied with MKB-4)

Back of MKB-4

Figure 27 Installing a PIM-1 on the Back of an MKB-4

2-5

Page 36

Installation

PIM-2/PAL-1

The PIM-2 and printer require a standby power source in the event of a loss of primary input power (AC mains). Refer to Figure 28 for the connection of a UPS to meet this requirement.

1. Before installing a PIM-2 in the MXL-IQ system, a PIM-1 must be already installed.

2. Wiring from the PIM-1 to the PIM-2 must be within 25 feet in rigid conduit (Refer to Table 3).

3ELBAT

STNEMERIUQERECAFRETNI2-MIPOT1-MIP

)rellatsniybdeilppuS(

.oNniPtpnI2-MIPOTBT,1-MIP

)xR(4 )xT(5

)YSUB(3

)NOMMOC(2

GWA81esU

)DxT(2 )DxR(3

)STC,STR(5,4

)RTD(02

)DRG(7

.muminimeriw

5. Set the dipswitches on the back of the PIM-2 to agree with the communications parameters configured in the CSG-M. Refer to Table 4 for the dipswitch definitions.

8. Install the MOM-2 or MOM-4

If a system requires the MOM-2 or MOM-4 optional card cage (Figures 10 and 11, page 20), now is the time to install it. Unpack the card cage and its attached backplate and inspect it, looking for such things as connectors not properly installed, dirt, and packing material on the board.

The MOM-2/4 installation kits include the following items

2-MOM4-MOM

stun01#3stun01#4

NOTES:

1. All wires 14 AWG min, 600V insulation.

2. Wiring to the printer and PIM-2 must be 14 AWG min, 600V insulation in conduit.

3. Use the UPS ICS Lifeline Model 9300057.

4. Standby Power requirements: 120 VAC,

0.6A for 24 hours.

5. Standby Power requirements: 120 VAC,

0.15A for 24 hours.

3. Figure 29 shows the proper installation of the PIM-2 with the MXL-IQ system.

4. Programming the CSG-M is required when using a PIM-2 and parallel printer. Configure one of the following four printer types on the MKB-4:

Supervised PIM-2 80 column color Supervised PIM-2 132 column color Supervised PIM-2 80 column Supervised PIM-2 132 column (for

PAL-1 and NFPA 72 Proprietary)

srehsawtalf01#3srehsawtalf01#4

srehsawkcol01#3srehsawkcol01#4

swercs61/7x6#4elbacnobbirrotc

swercs61/5x23-6#2selbaceriw-22

elbacnobbirrotcudnoc-81sediugdrac4

selbaceriw-22

sediugdrac2

udnoc-81

Figure 28 UPS Wiring Diagram

2-6

Page 37

Installation

MUST BE IN CONDUIT

4ELBAT

SRETEMARAPNOITACINUMMOCECAFRETNILAIRES

2-MIPforaertadetacoL-)1WS(noitisoPhctiwspiD

123 4 56 7 8

ETARDUAB 0069 0084 0042 0021

003

FFO

FFO NO NO

FFO

STIBATAD 8 7

FFO

YTIRAP

nevE

ddO

FFO

YTIRAP

elbasiD

elbanE

FFO

LORTNOCWOLF

erawdraH

erawtfoS

EPYTTRO

P FFO

FFO

NOTE: When setting Switch S1,

OFF=UP=OPEN

ON=DOWN=CLOSED

TB1

PARALLEL PRINTER (REAR VIEW)

120 VAC

60 Hz

CABLE SUPPLIED WITH PIM-2 (SEE NOTE 2) SUPERVISED

(REFER TO NOTES 9 AND 10) THE CONNECTION IS NOT SUPERVISED FOR DATA INTEGRITY BETWEEN PIM-2 AND THE PRINTER.

CENTRONICS PARALLEL

PIM-2 POWER TRANSFORMER SUPPLIED WITH PIM-2 (SEE NOTE 3)

INSTALL IN UL LISTED GANGBOX

OUTPUT SW1

Figure 29 PIM-2 to MXL-IQ Wiring Diagram

ANN-1

MKB-4

PIM-1

SEE INSTL. INSTR.

P/N 315-091462

CABLE NOT SUPPLIED (SEE NOTE 1) SUPERVISED

PIM-2 (REAR VIEW)

(REFER TO TABLE 4)

XFMR

PIM-2 POWER CABLE

NOTES:

1. Maximum cable distance from PIM-1 to PIM-2 cable is 25 feet. The two modules must be in the same room.

2. The maximum distance from the PIM-2 to the parallel printer is 6 feet. The two modules must be in the same room.

3. PIM-2 power (PWR) is connected to the 5 VDC, 600mA transformer supplied with the PIM-2. The transformer requires 120 VAC, 60 Hz, 0.5A max.

4. For NFPA 72 Local, Auxiliary, and Remote Station configurations, connect the output of the PIM-2 to any UL listed EDP Centronics parallel printer.

5. The parallel printer must support the EPSON FX command set.

6. The PIM-2 input and output connectors are DB-25 female.

7. Pressing RESET on the PIM-2 causes the unit to read the SW1 settings. The status LED is lit when the unit is powered. Do not use the COPY button.

8. For NFPA Proprietary and UL 1076 configurations, use parallel printer Model PAL-1, a UL listed for fire Centronics parallel printer.

9. The parallel printer is supervised for AC, on/ off line, paper out, paper jam, and connection to the PIM-2.

10. The PIM-2 is supervised for power, connection to the printer, and connection to the PIM-1.

11. After loading paper in the PAL-1 printer, turn off the power and follow the steps below:

• While pressing the LOAD PARK button, turn on the power to the PAL-1 printer.

PWRINPUT

Continue pressing the LOAD PARK button for 5 seconds.

• Release the LOAD PARK button.

• The current setting will print.

• When printing is completed, the ON LINE indicator will be lit. If the ON LINE indicator is not lit, press the ON LINE button.

2-7

Page 38

Installation

To mount the MOM-2/4 in an MSE-3L enclosure:

1. Hold the MOM-2/4 so that terminal blocks TB2 and TB4 are on the left.

2. Place the module vertically on the mounting studs near the top left of the enclosure as shown in Figure 23 on page 2-3.

3. Fasten the MOM-2/4 in position with the No. 10 flatwashers, lockwashers, and nuts provided.

To install the card guides (See Figures 30 and 31):

Install the card guides included in the package using the #6 x 7/16 screws provided. (The MOM-4 is shipped with the

Figure 30 Installing the MOM-2 Card Guides

mounting screws for the card guides already installed.)

1. Mount the long screws.

2. Make sure that the locating pin on the guide is seated in the hole on the MOM-2/4.

3. Tighten the screw.

Repeat this process for the remaining card guide(s). The MOM-2/4 is now ready to accept the optional modules. If the system does not require the installation of any halfwidth modules, install the two #6 x 5/16 screws in the center holes where the additional card guides would be placed.

Plug-in Cards for the MOM-2/4

Determine which optional plug-in modules are used in your CSG-M configuration. Next, decide where they should be installed by checking the following factors:

1. The size of each module. The CSM-4 and CRM-4 each occupy two adjacent slots.

2. How the field wiring will be installed.

3. The maximum load current permitted for the MOM-2/4 is 6 amps for the MPS-6 or 12 amps for the MPS-12. This current must be derated by the current drawn from SMB TB5 (CZM-1B6 power and NAC #1 and NAC #2). When the system includes an external auxiliary power supply, the maximum load current permitted depends on the application. Refer to Table 5 for the maximum current required by each module under full load conditions.

Figure 31 Installing the MOM-4 Card Guides

2-8

MOM-2/4 Electrical Installation

1. Attach the 8-conductor ribbon cable to P6 on the SMB-2, engaging the locking rib of the cable with the locking tab on P6.

2. Attach the other end of the 8-conductor ribbon cable to P7 on the MOM-2/4, engaging the locking rib of the cable with the locking tab on P7.

3. Connect one end of the 2-wire 24 VDC cable to P3 on the SMB-2, using the locking tab to lock the cable onto P3.

Page 39

Installation

4. Connect the other end of the 2-wire cable into P5 on the MOM-2/4. The 2-wire cable that attaches P5 on the MOM-2/4 with P3 on the SMB-2 feeds 24 VDC full-wave unfiltered DC power to the MOM-2/4. This is the main power used by the optional modules. The 8-conductor ribbon cable supplies 5 VDC and communication between the SMB-2 and the MOM-2/4.

9. Install the MOI-7, MOD-16, and

MID-16

MOI-7

1. Mount the MOI-7. The MOI-7 mounts on a System 3 rail in

two module spaces. Mount the MOI-7 using the four screws provided.

2. Set the network address on S1. Set the address according to Table 16 at

the end of this chapter so that it agrees with the address assigned in CSG-M.

3. Use P6 to set the mode for common alarm relay K1. (See Figure 17, page 1-10, for the location of P6.)

K1 is a common alarm relay that can be programmed to transfer back to normal when the MXL-IQ is silenced.

Use jumper P6 on the MOI-7 to select the desired mode according to the table below.

noitisoP6PedoM

AelbaecneliSyaleRmralA

Belbaecnelis-noNyaleRmralA

5ELBAT

I2-DLA

003-IMC 4-MRC 4-MSC 4-MZC R1-MIN

Am69

esyaler4(Am57

Am0

.)2#CAN,1#CANdnarewop6B1-MZC(

:elpmaxE

A38.0=430.0+570.0

.)6-SPM(38.5ro)21-SPM(38.11

3. If a connection to a MOD-16 module on another rail is required, use the optional cable P/N 555-190941.

MID-16 (See Figure 19, page 1-11)

1. Mount the MID-16 in one System 3 type module space using the four screws provided.

2. Connect the MID-16 to the module to its left with the 10-position ribbon cable P/N 555-190940 provided. This module may be either an MOI-7, MOD-16, or MID-16.

3. If a connection to a module on another rail is required, use the optional cable P/N 555-190941.

STNERRUCDAOLELUDOMMUMIXAM

)mralanisecived021(Am09

)dezigren

)detcennocsecnailppagnitacidnimralaon(Am43

)mralanisenoz4htiwmumixam(Am027

nwardsirewopontahtsemussaelpmaxegniwollofehT

.rewopCANrofdesuebyamtnerrucgniniamerehT

5BT2-BMSmorf

+27.0=tnerrucdaollatoteht,4-MSC1+4-MRC1+4-MZC1htiW

=38.0-)6-SPM(0.6ro)21-SPM(0.21=tnerrucelbaliavagniniamerehT

MOD-16 (See Figure 18, page 1-10)

1. Mount the MOD-16 in one System 3 type module space using the four screws provided.

2. Connect the MOD-16 to the MOI-7 with the 10-position ribbon cable P/N 555190940 provided with the MOI-7.

2-9

Page 40

Installation

6ELBAT

lanimreTwercSnoitacilppA

5BT 5BT 5BT

4BT 4BT

3BT 2BT

1BT 1BT 1BT

9-21 5-8 1-4

4-6

1-3

1-4 1-4

2-1

5-4

BMSeeS:ETON

oitacifitoN

yaleRmralA

esUtoNoD

.slanimretwercsehtfonoitpircseddeliated

7ELBAT

eludoMlanimreTwercSnoitacilppA

4-MSC

4-MRC

4-MZC

003-IMC4-1

W1-MIN

eS:ETON

I2-DLA

4-1

21-9

.slanimretwercsehtfonoitpircseddeliated

3-1

6-4

31-11 61-41

latsnI4-MRCeeS:ETON

.slanimretwercsehtfonoitpircseddeliated

4-1 8-5

21-9

61-31

-MZCeeS:ETON .slanimretwercsehtfonoitpircsed

tsnInoitallatsnI003-IMCeeS:ETON

.slanimretwercsehtfonoitpircseddeliated

2-1 4-3

61-21

.slanimretwercsehtfonoitpircseddeliated

4-1 8-5

P,snoitcurtsnInoitallatsnII2-DLAeeS:ETON

.slanimretwercsehtfonoitpircseddeliated

10. Install Field Wiring

2-BMSEHTOTGNIRIW

Wiring to the SMB-2

Refer to Table 6. Dress the field wiring that

rewoP6B1-MZC

2tiucriCecnailppAnoitacifitoN 1tiucriCecnailppAn

yaleRelbuorT

2pooLgolanA 1pooLgolanA

will be going to the SMB-2. Strip the insulation from the wiring, but do not connect the wires to the screw terminals.

Wiring to the MOM-2/4 Optional Modules (if Required)

Refer to Table 7. Dress the field wiring that

CRdna7-IOMrofkrowteNQI-LXM

F1/1-C

4/2-MOMdna21/6-SPM

eromarof,139590-513N/P,snoitcurtsnInoitallatsnI2-

will be going to the MOM-2/4 modules. Strip the insulation from the wiring and connect

the wires to the appropriate screw terminals.

11. Check Field Wiring

Initiating Devices

Install all initiating device bases and end-of-

SELUDOMLANOITPO4/2-MOMEHTOTGNIRIW

1tiucriCecnailppAnoitacifitoN 2tiucriCecnailppAnoitacifitoN

eromarof,458090-513N/P,snoitcurtsnInoitallatsnI4-MSCeeS:ETON

1tcatnoCyrD 2tcatnoCyrD 3tcatnoCyrD 4tcatnoCyrD

eromarof,358090-513N/P,snoitcurtsnInoital

1enoZlanoitnevnoC 2enoZl

anoitnevnoC

3enoZlanoitnevnoC 4enoZlanoitnevnoC

noitcennoCmedoMLXC

eromarof,952190-513N/P,snoitcur

teNTENX

RESALanA

ecafretnITENXCCN

1pooLgolanA 2pooLgolanA

/ISF/AriaPkrow

BriaPkrowteNTENX

eromarof,561990-513N/P,snoitcurtsnInoitallatsnIW1-MINe

eromarof,464190-513N/

line devices where applicable. Install all initiating devices. Refer to the specific installation instructions provided with each

device.

Notification Appliances

Install all notification appliances (bells, strobes, etc.) Refer to the specific installa-

tion instructions provided with each device.

Check Resistance Between Wiring Circuits

Start with the wire that goes to TB5-12 on the SMB-2. Check the resistance between that wire and all other field wires that will be connected to the SMB-2. Also, check the resistance between that wire and all wires connected to the screw terminals on the

deliatederomarof,627090-513N/P,snoitcurtsnInoitallatsnI4

MOM-2/4. Refer to Table 8 for acceptable resistance readings. If the readings are good, connect the wire to TB5-12. Repeat the above procedure for the next wire on the SMB-2.

When the SMB-2 is complete, continue with the MOM-2/4 (if it is installed).

12. Start Up Procedure

NOTE: Throughout this section, refer to the TROUBLESHOOTING GUIDE as an aid to resolving trouble conditions.

2-10

Page 41

Installation

1. System Status

When beginning the start-up procedure, the condition of the system is as follows:

• All field wiring is connected to all screw terminals, except for the analog loops— they should be disconnected. All field devices are installed.

• No modules are installed in the MOM-2/4 cage.

2. Create a Test Configuration

Create a test configuration on your CSG-M that includes every module that will be on your final system. Do not include any initiating devices. You will use this test configuration in checking out the System.

3. SMB-2 Checkout Minus the Analog Loops

Turn on the AC power to the system.

• The power light on the MKB-4 turns on

• the System displays the default message:

SIEMENS BUILDING TECHNOLOGIESSIEMENS BUILDING TECHNOLOGIES

SIEMENS BUILDING TECHNOLOGIES

SIEMENS BUILDING TECHNOLOGIESSIEMENS BUILDING TECHNOLOGIES

MXLMXL

MXL

MXLMXL

Transfer the test configuration from your computer to the MXL-IQ. Refer to the CSGM Manual (P/N 315-090381) for the correct procedure.

After the transfer process is complete, MXL-IQ resets itself; after 5 minutes, the state of the system should be as follows:

• No trouble condition for the signaling circuits on the main board.

• A battery trouble condition if the battery option was selected.

• All optional modules configured on the system are in trouble since they are not yet installed.

4. SMB-2 Analog Loop Checkout

Modify your test configuration by adding to it the analog devices that are connected to analog loop 1.

• Turn off the power and connect the field wiring to analog loop 1 on the SMB-2.

• Turn on the power. Wait for the System to initialize (approximately 3 minutes).

8ELBAT

TUOKCEHCGNIRIWDLEIF

5-BT

.121-1otsissahCgeM1>.gniriwnitrohS

.221ot11smh

.301ot9smho5.1<.gnolooteniL;nepoeniL

.48ot7smho5.1<.gnolooteniL;nepoeniL

.56ot5smho5.1

.64ot3smho5.1<.gnolooteniL;nepoeniL

.72ot1smho5.1<.gnolooteniL;nepoeniL

.821ot9geM1>.detroh

.98ot5geM1>.detrohseniL

.014ot1geM1>.detrohseniL

.118-1ot21-9geM1>.detrohseniL

.214-1ot8-5geM1>.detrohseniL

.31)-

.41)-(1ot)+(4%01±K2.2

.51

.61

.71

2-BT

dna

3-BT

.22ot1smho05<.gnolo

.34ot3smho05<.gnolooteniL;gniriwninepO

.44ot1Fµ4.<.eriwhcumooT

.5)-(4ot)+(1smhoK01>.detrohsen

.6)4-1(3-BT)4-1(2-BTgeM1>.detrohseniL

.7)21-1(5-BT)4-1(2-BTgeM1>.detrohseniL

.8)21-1(5-BT)4-1(3-BTgeM1>.detroh

ecnatsiseR

seriWneewteB

(5ot)+(8%01±K2.2

8-1ot21

4-13/2BTot21

4/2-MOMllaot21

4-1ot8

4-13/2BTot8

4/2-MOMllaot

4-13/2BTot4

4/2-MOMllaot4

ecnatsiseR

ser

iWneewteB

llaotsissahC

slanimret

stluseRderiseDmelborPfOesuaCelbaborP

o5.1<.gnolooteniL;nepoeniL

<.gnolooteniL;nepoeniL

geM1> geM1> geM1>

geM1> geM1>

stluseRderiseDmelborPfOesuaCelbaborP

geM1>.gniriwnitrohS

seniL

.deziralo

.dez

iralop

.detrohseniL

seniL

.ytiralopdaelretemetacidni)-(dna)+(

nahtssel=<;nahtretaerg=>

EDIUGGNITOOHSELBUORTDNAGNIRIWLANRETXE2-BMS

gnorW;nepoeniL;detrohseniL

eciveD;ecivedLOEoN;ecivedLOE

toneciveD;drawkcabderiw

gnorW;nepoeniL;detrohseniL

eciveD;ecivedLOEoN;ecivedLOE

toneciveD;drawkcabderiw

oteniL;gniriwninepO

2-11

Page 42

Installation

• Check the trouble list on the MKB for troubles on the devices that were just added. The troubles will be from among the following (See Appendix J for a complete list of Trouble Messages):

Device multiple response Input device not responding Incorrect device ID Unspecified device responding

• Identify the addresses of the devices with troubles and eliminate them, reset the system, and verify that the troubles have cleared before proceeding.

Modify your test configuration by adding to it the analog devices that are connected to analog loop 2.

• Turn off the power and connect the field wiring to analog loop 2 on the SMB-2.

• Turn on the power. Wait for the System to initialize (approximately 3 minutes).

Unpack each module just before installation. Inspect the module, looking for such things as integrated circuits (ICs) not firmly seated in their sockets, bent IC pins, connectors not properly installed, dirt, and packing material on the board.

To install the card guide that comes with the CRM-4 and the CSM-4 module:

a Loosen the appropriate screw in the

center of the MOM-2/4 and set the card guide in place.

Make sure that the locating pin on the bottom of the card guide is in the hole on the MOM-2/4.

b. Tighten the screw on the MOM-2/4 to

secure the card guide.

6. ALD-2I Checkout

Installing the ALD-2I

• Check the trouble list on the MKB for troubles on the devices that were just added. The troubles will be from among the following (See Appendix J for a complete list of Trouble Messages):

Device multiple response Input device not responding Incorrect device ID Unspecified device responding

• Identify the addresses of the devices with troubles and eliminate them, reset the system, and verify that the troubles have cleared.

5. MOM-2/4 Optional Modules Checkout

Remove all system power

before installing any

optional module

(ALD-2I, CMI-300, CRM-4,

CSM-4, CZM-4, NIM-1W).

Set the address of each ALD-2I. Refer to the CSG-M printout of the final configuration for the address to which each ALD-2I should be set. Refer to the ALD-2I Installa- tion Instructions (P/N 315-091464) to set the address dipswitch.

Install the ALD-2Is one at a time by inserting them in the appropriate card guides on the MOM-2/4. Make sure that the card is firmly seated in the card edge connector. Eliminate all troubles from each module before installing the next one.

Modify your test configuration by adding to it any initiating devices that are connected to the first analog loop on the ALD-2I.

Turn off the power; connect the field wiring to analog loop 1 on the ALD-2I. Turn on the power.

• Turn off the power and connect the field wiring to analog loop 1 on the SMB-2.

• Turn on the power. Wait for the System to initialize (approximately 3 minutes).

• Check the trouble list on the MKB for troubles on the devices that were just added. The troubles will be from among

2-12

Page 43

Installation

the following (See Appendix J for a complete list of Trouble Messages):

Device multiple response Input device not responding Incorrect device ID Unspecified device responding

• Identify the addresses of the devices with troubles and eliminate them, reset the system, and verify that the troubles have cleared before proceeding.

Modify your test configuration by adding to it any initiating devices that are connected to the second analog loop on the ALD-2I.

Turn off the power; connect the field wiring to analog loop 2 on the ALD-2I. Turn on the power.

• Turn off the power and connect the field wiring to analog loop 1 on the SMB-2.

• Turn on the power. Wait for the System to initialize (approximately 3 minutes).

• Check the trouble list on the MKB for troubles on the devices that were just added. The troubles will be from among the following (See Appendix J for a complete list of Trouble Messages):

Device multiple response Input device not responding Incorrect device ID Unspecified device responding

• Identify the addresses of the devices with troubles and eliminate them, reset the system, and verify that the troubles have cleared before proceeding.

Installing the CMI-300 Interface Module

Before installing the CMI-300 in the MOM-2/4, you must do the following:

1. Check that there is a jumper installed for jumper J2, pins 1 and 2 on the CMI-300 module.

9ELBAT

)2WS(gnimmargorPrebmuNlenaP

RDDA12345678RDDA12345678RDDA12345678RDDA12345678

000 100 200 300 400 500 600 700 800 900 010

110 210 310 410 510

---

ISF

XOOOOO OXOOOOOS XXOOOOOS OOXOOOOS

XOXOOOOS OXXOOOOS XXXOOOOS OOOXOOOS XOOXOOOS OXOXOOOS XXOXOOOS OOXXOOOS XOXXOOOS

XOOOS

OXX

XXXXOOOS

------------

610 710 810 910 020 120 220 320 420 520 620 720 820 920 030 130

---

sdesolC=S

7elytSstcele

4elytSstcelesnepO=S

OOOOXOOS XOOOXOOS OXOOXOOS X

XOOXOOS

OOXOXOOS XOXOXOOS OXXOXOOS XXXOXOOS OOOXXOOS XOOXXOOS OXOXXOOS XXOXXOOS OOXXXOOS

XOXXXOOS OXXXXOOS XXXXXO

------------

230 330 430 530 630 730 830 930 040 140 240 340 440 540 640 740

---

OOOOOXOS

XOOOOXOS

OXOOOXOS

XXOOOXOS

OOXO

OXOS

XOXOOXOS OXXOOXOS XXXOOXOS OOOXOXOS

XOOXOXOS OXOXOXOS XXOXOXOS OOXXOXOS XOXXOXOS OXXXOXOS XXXXOXOS

---------

840 940 050 150 250 350 450 550 650 750 850 950 060 160 260 360 460

FFOronepO=O NOrodesolC=X

OOOOXXOS

XOOOXXOS OXOOXXOS XXOOXXOS OOXOXXOS

XOXOXXO

OXXOXXOS

XXXOXXOS OOOXXXOS XOOXXXOS

OXOXXXOS

XXOXXXOS

OOXXXXOS

XOXXXXOS OXXXXXOS XXXXXXOS OOOOOOXS

NOTE:

To open a dipswitch, press down on the side of the dipswitch marked OPEN. To close a dipswitch, press down on the side of the dipswitch opposite the side marked OPEN.

To open a slide switch, push the slide to the side opposite the side marked ON. To close a slide switch, push the slide to the side marked ON.

2-13

Page 44

Installation

2. Set the CMI-300 network address by using the dipswitch settings on switch SW1. Use Table 16 at the end of this chapter to set the network address.

Plug the CMI-300 module in the MOM-2/4 card cage and connect the wiring as shown in the CMI-300 Installation Instructions, P/N 315-091259. Eliminate all troubles from each module prior to installing the next one.

Installing CRM-4 and CZM-4 Modules

Set the address of each module. Refer to the CSG-M printout of the final configuration for each module address setting. Refer to the installation instructions for each module to set the address dipswitch.

Install the optional modules one at a time by inserting them in the appropriate card guides on the MOM-2/4. Eliminate all troubles from each module prior to install-

ing the next one.

Installing the NIM-1W Network Interface Module

The NIM-1W installs into the MOM-2/4 card cage where it occupies one full width slot. The wiring is connected to TB4 of the MOM-2 or TB3 of the MOM-4.

3. When installing the NIM-1W for FSI operation, set the switch to all open (or OFF).

01ELBAT

gnimmargorPISF

RDDA12345678

000OOOOOOOO

FFOronepO=O

4. When installing the NIM-1W for Air Sampling connection, set the switch as follows:

11ELBAT

gnimmargorPgnilpmaSriA

RDDA12345678

gnilpmaSriAOOOOOOOX

FFOronepO=O NOrodesolC=X

The NIM-1W has two configuration dipswitches. Set the dipswitches before

installing the NIM-1W into the MOM-2/4.

Use switch SW1 to set the MXL-IQ network address. Set this switch according to the address where the NIM-1W is installed in the MXL-IQ’s network map. Refer to the CSG-M configuration printout for the address of the module. See Table 16 at the end of this chapter for settings.

Use switch SW2 to set either the panel number for networked systems or to select FSI or Air Sampling operation. Refer to Table 9 for panel settings, Table 10 for FSI settings, or Table 11 for Air Sampling settings.

1. When installing the NIM-1W in a networked system, set the panel number to agree with the panel number for the NIM-1W assigned to the MXL-IQ System in CSG-M.

2. Switch position 8 selects Style 4 or 7 operation for the NIM-1W network.

After setting the switches, install the NIM-1W into the MOM-2/4 card cage. Make sure that the module is in the card guides and the card edge is firmly seated in

the connectors on the MOM-2/4.

Installing the CSM-4 Signal Module

Before installing the CSM-4 in the MOM-2/4, you must set the network address, configure each circuit according to the CSG-M program [as Local (NACs), Municipal Tie, Leased Line, or Releasing Service], and set the default modes (trouble and alarm) as follows. Refer to Table 12 for

the Modes of Operation.

a. Set the Network Address

The network address is set on dipswitch S1 (See Figure 12, page 1-8). See the CSG-M printout for the proper address. Use Table 16 at the end of this chapter to set the switches.

2-14

Page 45

TABLE 12 Modes of Operation

b. Set the Mode of Operation for Each Circuit

The CSM-4 has one programming slide switch and one jumper for each of its two circuits. (See slide switches S3 and S4 and jumpers G1 and G2 on the CSM-4 board, Figure 12, page 1-8.) Setting these slide switches and jumpers allows the selection of four possible modes of operation. These modes correspond with NFPA standards 72 Local, Municipal Tie, Leased Line, and NFPA 13 and 2001 Releasing Service.

TABLE 13

Setting the Mode of Operation for the CSM-4

(Using S3, S4 and G1, G2)

1tiucriCroF

)lacoL27APFN(]CAN[selbiduA

eniLdesaeL

2tiucriCroF

)27APFN(eiTlapicinuM

)noitatSetomeR27APFN(

31APFN(ecivreSgnisaeleR

*)1002APFN(ecivreSgnisaeleR

elbuortanistluseR(lagellI

)4-MSCehtno

noitisoP1G

1 1

2 1 1 2

noitisoP2G

Installation

tuCtoN

tuC

uCtoN tuC tuC tuC

Each circuit on the CSM-4 can be set independently for the type of operation desired. Table 12 shows how to set the switches and jumpers for circuits 1 and 2. The CSG-M printout shows the mode for each circuit.

c. Set the Degrade Modes of Operation

There are two sources of degrade activation, the degrade alarm bus and the degrade trouble bus. These two buses become active ONLY when the MXL-IQ communication network fails. Dipswitch S2 on the CSM-4 sets the degrade mode of operation for each circuit.

)lacoL27APFN(]CAN[selbiduA

eniLdesaeL

)27APFN(eiTlapicinuM

)noitatSe

tomeR27APFN(

)4-MSCehtno

.1002APFNdna

*)31APFN(ecivreSgnisaeleR

*)1002APFN(ecivreSgnisaeleR

elbuortanistluseR(lagellI

1 1

2 1 1 2

Each circuit operates independently in the degrade mode. Dipswitch S2, positions SW1 and SW2, determines the degrade mode of operation when the trouble bus activates. Dipswitch S2, positions SW3SW6, determines the degrade mode of operation when the alarm bus activates.

tuCtoN

tuC

tuCtoN tuC tuC tuC

31APFNrof2Gdna1GsrepmujtuctonoD:YLNOADANAC*

2-15

Page 46

Installation

d. Degrade Trouble Activation

The degrade trouble bus may ONLY be used when the circuit is used as a Leased Line trouble indicating circuit. (See Table

12.) When enabled, this trouble degrade mode ensures that a trouble will be transmitted to the receiving station even when the MXL-IQ communication network fails.

Using the CSG-M printout, determine if either of the circuits is configured as a Leased Line trouble. Table 14 shows how to set dipswitch S2 (SW1 and SW2) to enable the degrade trouble activation for the desired circuit.

41ELBAT

sedoMelbuorTedargeDehtgnitteS

2Sno4-MSCehtrof

1tiucriCroF

elbuorTeniLdesaeL

noitavitcAelbuorToN

2tiucriCroF

aeL

:etoN

elbuorTeniLdes

noitavitcAelbuorToN

o(ffoebtsum2WSro1WSsehctiws

.)nep

1WS

)desolC(nO

)nepO(ffO

2WS

)desolC(nO

)nepO(ffO

Determine which type of degrade mode you want for each circuit and set dipswitch S2 (SW3-SW6) as shown in Table 15.

13. System Function Checkout

The status of the MXL-IQ before checkout must be as listed below:

1. AC and battery power connected and turned on.

2. All modules installed and all field wiring connected.

3. All initiating devices installed and addressed.

4. All field wiring checked out.

5. The start-up procedure completed.

6. An CSG-M printout of the summary of the System Configuration available.

7. For documentation purposes, set the MXL-IQ time before proceeding.

8. Transfer the final version of the System Configuration to MXL-IQ.

Follow the steps listed in System Opera-

,elbuorteniLdesaeLrofdesutonsi2tiucriCro1tiucriCfI

tion Checkout.

e. Degrade Alarm Activation

Each circuit on the CSM-4 can be set with dipswitch S2, positions SW3-SW6, to determine when the degrade alarm bus activates (See Table 12). There are three degrade alarm modes. Each circuit can be set independently from the other.

51ELBAT

1tiucriCroF4WS3WS

)noitavitcaedargedon(FFO

SUTONOD

2tiucriCroF4WS3WS

itavitcaedargedon(FFO

)no

ESUTONOD

:ETON tsumsedomedargedmralaeht,yrosiv

.)nepO(FFOeb

)malaedargednoevitca(SUOUNITNOC

)taeperetinifni(FFOCES1,NOCES1

)malaedargednoevitca(SUOUNITNOC

)taeperetinifni(FFOCES1,NOCES1

repusenildesaelrofdesuerastiucricnehW

)nepO(FFO )nepO(FFO

)desolC(NO )desolC(NO

)nepO(FFO

epO(FFO

)desolC(NO )desolC(NO

System Operation Checkout

WARNING!

Prior to activating any initiating device, take steps to prevent output circuits from being activated. Failure to do so

2Sno4-MSCehtrofsedoMmralAedargeDehtgnitteS

)nepO(FFO

)desolC(NO

)nepO(FFO

)desolC(NO

)nepO(FFO

)desolC(NO

)nepO(FFO

)desolC(NO

may result in building EVAC (bells), notification of fire department, elevator recall, etc.

Test these operations in accordance with local codes and follow the direction of the authority having jurisdiction. Observe all safety precautions.

2-16

Page 47

ResponseTest

1. Observe the display on the MKB-4. • The POWER LED should be on steady.

• The TROUBLE LED should be off.

• The following message should appear on the alphanumeric display:

Installation

2. Activate every alarm causing initiating device on the System in groups of 100 or fewer. Reset the System prior to activating each group of 100.

3. Activate all supervisory devices on the System.

(Time and Date)(Time and Date)

(Time and Date)

(Time and Date)(Time and Date) (System Custom Message)(System Custom Message)

(System Custom Message)

(System Custom Message)(System Custom Message)

(It may take a few minutes after power-up before the message System Normal appears.)

• Every device alarms and there are no troubles annunciated.

• Device LEDs should come on when the device is in alarm.

• As each device is alarmed, the custom message appears on the display, is recorded on the printer (if installed), and corresponds to the CSG-M printout for that device.

• The messages listed on the printer are in the order in which the devices were alarmed.

• Pressing the NEXT key on the MKB-4 displays the devices in reverse order.

• Check that all appropriate responses are activated.

• Each device should cause a supervisory.

• As each device changes state, the custom message appears on the display, is recorded on the printer (if installed), and corresponds to the CSG-M printout for that device.

SYSTEMSYSTEM

SYSTEM

SYSTEMSYSTEM NORMALNORMAL

NORMAL

NORMALNORMAL

4. Activate all security devices on the System.

• The messages listed on the printer are in the order in which the devices were activated.

• Pressing the NEXT key displays the devices in reverse order.

• Check that all the appropriate responses are activated.

• Each device should cause a security condition.

• As each device is activated, the custom message appears on the display, is recorded on the printer (if installed), and corresponds to the CSG-M printout for that device.

• Check that all appropriate responses are activated.

2-17

Page 48

Installation

Test Response

5. Activate all status devices on the System.

6. CRM-4 relays: Refer to Control Output On/Off, page

3-38, and toggle each CRM-4 relay assigned to the System.

Reset the System when this test is complete.

7. CSM-4 relays: Refer to Control Output On/Off, page

3-38, and toggle each CSM-4 relay assigned to the System.

Reset the System when this test is complete.

• None of the devices should cause an alarm or trouble condition.

• If there is a printer, the System should print the status of reporting devices.

• As each device is activated, the custom message recorded on the printer corresponds to the CSG-M printout for that device.

• Check that all appropriate responses are activated.

• Verifies proper operation of the connected relay.

8. System Functions: Check all functions that are defined in

the customer specifications.

2-18

• Check that the correct relationships between initiating devices and output functions occur as defined by the customer specifications.

• Check that the appropriate NFPA and local codes are met (Refer to the CSG-M Logical Function Summary.)

Page 49

Installation

TABLE 16

ELBATGNIMMARGORPSSERDDAKROWTEN

RDDA

000 100 200 300

400

500 600 700 800 900 010 110 210 310

410

510 610 710 810 910 020 120 220 320

420

520 620 720 820 920 030 130 230 33

430

530 630 730 830 930 040 140 240 340

440

540 640 740 840 940

050 150 250 350

450

550 650 750 850 950 060 160 260 360

12345678

LAGELLI LAGELLI LAGELLI

XXOOOOOO OOXOOOOO XOXOOOOO OXXOOOOO XXXOOOOO OOOXOOOO XOOXOOOO OXOXOOOO XXOXOOOO OOXXOOOO

XOXXOOOO OXXXOOOO XXXXOOOO

OOOOXOOO

XOOOXOOO

OXOOXOOO

XXOOXOOO

OOXOXOOO

XOXOXOOO OXXOXOOO XXXOXOOO

OOOXXOOO

XOOXX

OOO

OXOXXOOO XXOXXOOO OOXXXOOO XOXXXOOO OXXXXOOO XXXXXOOO

OOOOOXOO

XOOOOXOO

OXOOOXOO

XXOOOXOO

OOXOOXOO

XOXOOXOO OX

XOOXOO

XXXOOXOO

OOOXOXOO

XOOXOXOO OXOXOXOO XXOXOXOO OOXXOXOO XOXXOXOO OXXXOXOO XXXXOXOO

OOOOXXOO

XOOOXXOO OXOOXXO XXOOXXOO OOXOXXOO XOXOXXOO OXXOXXOO XXXOXXOO OOOXXXOO XOOXXXOO OXOXXXOO XXOXXXOO OOXXXXOO XOXXXXOO

OXXXXXOO XXXX

XXOO

RDDA

460 560 660 760 860 960 070 170 270 370 470 570 670 770 870 970 080 180 280 380 480 580 680 780 880 980 090 190 290 390 490 590 690 79

890 990 001

101 201 301 401 501

601 701 801 901 011 111 211 311 411 511 611 711 811 911 021

121 221 321 421 521

621 721

12345678

OOOOOOXO XOOOOOXO OXOOOOXO XXOOOOXO OOXOOOXO

XOXOOOXO OXXOOOXO XXXOOOXO

OOOXOOXO

XOOXOOXO OXOXOOXO XXOXOOXO OOXXO

OXO

XOXXOOXO OXXXOOXO XXXXOOXO

OOOOXOXO

XOOOXOXO OXOOXOXO XXOOXOXO OOXOXOXO XOXOXOXO OXXOXOXO XXXOXOXO OOOXXOXO XO

OXXOXO

OXOXXOXO XXOXXOXO OOXXXOXO XOXXXOXO

OXXXXOXO

XXXXXOXO

OOOOOXXO

XOOOOXXO OXOOOXXO XXOOOXXO OOXOOXXO XOXOOXX OXXOOXXO XXXOOXXO OOOXOXXO XOOXOXXO OXOXOXXO XXOXOXXO OOXXOXXO XOXXOXXO

OXXXOXXO

XXXXOXXO OOOOXXXO XOOOXXXO OXOO

XXXO

XXOOXXXO OOXOXXXO XOXOXXXO

OXXOXXXO

XXXOXXXO OOOXXXXO XOOXXXXO

OXOXXXXO

XXOXXXXO

OOXXXXXO

XOXXXXXO

OXXXXXXO X

XXXXXXO

RDDA

821 921 031 131 231 331 431 531 631 731 831 931 041 141 241 341 441 541 641 741 841 941 051 151 251 351 451 551 651 751 851 951 061 16

261 361 461

561 661 761 861 961 071 171 271 371 471 571 671 771 871 971 081 181 281 381 481 581 681 781 881 981 091 191

12345678

OOOOOOOX

XOOOOOOX OXOOOOOX XXOOOOOX OOXOOOOX XOXOOOOX OXXOOOOX XXXOOOOX OOOXOOOX XOOXOOOX OXOXOOOX XXOXOOOX OOXXO

OOX

XOXXOOOX

OXXXOOOX XXXXOOOX

OOOOXOOX XOOOXOOX

OXOOXOOX

XXOOXOOX

OOXOXOOX

XOXOXOOX

OXXOXOOX XXXOXOOX OOOXXOOX

OXXOOX

OXOXXOOX XXOXXOOX OOXXXOOX XOXXXOOX OXXXXOOX XXXXXOOX

OOOOOXOX XOOOOXOX

OXOOOXOX

XXOOOXOX

OOXOOXOX

XOXOOXO

OXXOOXOX XXXOOXOX OOOXOXOX

XOOXOXOX

OXOXOXOX XXOXOXOX OOXXOXOX XOXXOXOX OXXXOXOX XXXXOXOX OOOOXXOX

XOOOXXOX

OXOO

XXOX

XXOOXXOX OOXOXXOX XOXOXXOX OXXOXXOX XXXOXXOX OOOXXXOX XOOXXXOX OXOXXXOX XXOXXXOX OOXXXXOX

XOXXXXOX OXXXXXOX X

XXXXXOX

RDDA

291 391 491 591 691 791 891 991 002 102 202 302

402

502 602 702 802 902 012 112 212 312

412

512 612 712 812 912 022 122 222 322

422

622 722 822

922 032 132 232 332

432

532 632 732 832 932 042 142 242 342

442

542 642 742 842 942 052 152 252 352

452

552

12345678

OOOOOOXX XOOOOOXX OXOOOOXX XXOOOOXX OOXOOOXX XOXOOOXX

OXXOOOXX

XXXOOOXX OOOXOOXX XOOXOOXX

OXOXOOXX

XXOXOOXX

OOXXO

OXX

XOXXOOXX OXXXOOXX XXXXOOXX

OOOOXOXX

XOOOXOXX OXOOXOXX

XXOOXOXX OOXOXOXX

XOXOXOXX OXXOXOXX XXXOXOXX OOOXXOXX

OXXOXX

OXOXXOXX XXOXXOXX OOXXXOXX XOXXXOXX OXXXXOXX XXXXXOXX

OOOOOXXX

XOOOOXXX OXOOOXXX

XXOOOXXX OOXOOXXX

XOXOOXX OXXOOXXX XXXOOXXX OOOXOXXX

XOOXOXXX OXOXOXXX XXOXOXXX OOXXOXXX XOXXOXXX OXXXOXXX XXXXOXXX OOOOXXXX

XOOOXXXX OXOO

XXXX

XXOOXXXX OOXOXXXX XOXOXXXX OXXOXXXX XXXOXXXX

LAGELLI LAGELLI LAGELLI LAGELLI LAGELLI LAGELLI LAGELLI LAGELLI

)NOro(DESOLC=X)FFOro(NEPO=O

2-19

Page 50

Installation

2-20

Page 51

Operation

Chapter

This section provides instructions for operating the MXL-IQ Control Panel. Please review the introduction to the MXL-IQ Control Panel at the beginning of this manual.

NOTE: See the Table of Contents pages at the beginning of this manual for the order of this chapter. Use it to find the answers to specific questions when you are working with the System.

Addresses

All modules and devices annunciated on the MXL-IQ are identified by an address (MMM- DDD). Each address is in two parts—a module address (MMM) and a device address (DDD). The number identifying the module may be as high as 254, and the number identifying the device may be as high as 248. Thus a device on a module may be identified by any number between 001-001 and 253-250. (See Table 17.)

Fixed Addresses

A module may be assigned to any address on the System, except for some fixed addresses that have already been assigned (See Table 17). The modules communicate to the MXL-IQ Control Panel through a serial communications network. The System continuously supervises all of the modules for presence and proper operation.

ules and leaving gaps in the numbering, provided you do not use the fixed addresses.

The specific addresses of the System modules are described in Table 17.

71ELBAT

eludoM

sserddAeludoM

1 2 3 * * *

842 942 052

152 252 352 452 552

esutonoD

)2-BMS(1poolgolanA )2-BMS(2poolgolanA

BKM BKM BKM

1.oN,BKM

devreseR

2-BM

M-GSCremmargorP

)devreser(labolG

INTRODUCTION

sesserddAeludoMdexiF

eciveD

sserddA )egnaR(

060-100 060-100

052ot100

You may assign a module to any address on the System, and assign addresses in any order, mixing different types of mod-

3-1

Page 52

Operation

System Modules

ALD-2I Analog Loop Module

The ALD-2I takes two adjoining module addresses. Loop 1 of the ALD-2I is at any module address and loop 2 at the next address. The analog loops on the SMB-2 are at module addresses 1 and 2 (See Table 17, page 3-1) and cannot be moved. The table below illustrates ALD-2I module addresses:

ALD at Module Addresses 3 and 4 Devices

Loop 1 003-001 to 003-060 Loop 2 004-001 to 004-060

ALD at Module Addresses 15 and 16 Devices

Loop 1 015-001 to 015-060 Loop 2 016-001 to 016-060

CSM-4 Signal Module

The CSM-4 module contains two circuits and two programmable LEDs.

Their device addresses on the module are as follows:

CZM-4 Conventional Zone Module

The CZM-4 Conventional Zone module contains four conventional initiating device zones and two programmable LEDs. Their device addresses on the module are as follows:

Zone 1 0 01 Zone 2 0 02 Zone 3 0 03 Zone 4 0 04 LED 1 005 LED 2 006

For example, the address of zone 1 on the CZM-4, at module address 105, is 105-001.

MKB Keyboard/Annunciator

The MKB Keyboard/Annunciator occupies the fixed module address 251 (See Table 17, page 3-1).

SMB-2 Main Board

The SMB-2 occupies module addresses 1, 2, and 253. The module addresses 1 and 2

are analog loops. Circuit 1 001 Circuit 2 002 LED 1 005 LED 2 006

For example, the address of circuit 2 on the CSM-4 at module address 3 is 003-002.

CRM-4 Relay Module

The CRM-4 Relay module contains four relays and two controllable LEDs.

Their device addresses on the module are as follows:

Relay 1 001 Relay 2 002 Relay 3 003 Relay 4 004 LED 1 005 LED 2 006

For example, the address of relay 4 on the CRM-4 at module address 20 is 020-004.

Module address 253 contains two notifica-

tion appliance circuits (NACs) and two

relays. The device addresses at module

253 are as follows:

Common alarm relay 001 Common trouble relay 002 NAC 1 004 NAC 2 005

For example, the address of the common

alarm relay at module address 253 is

253-001.

Remote System Modules

MOI-7 Voice and Annunciator Driver

The MOI-7 occupies one network address

and one network node in the MXL-IQ

System. Set the address on S1 (See Figure

17, page 1-10) according to Table 16, page

2-19, so that it agrees with the address

assigned in CSG-M.

The MOI-7 has a set of 128 subaddresses

reserved for the MOD-16 open collector

3-2

Page 53

Operation

outputs and MID-16 general purpose inputs. This gives a maximum of 8 MOD-16 boards and 8 MID-16 boards.

The MOI-7 subaddress map is as follows.

001-016 MOD-16/MID-16 #1 017-032 MOD-16/MID-16 #2 033-048 MOD-16/MID-16 #3 049-064 MOD-16/MID-16 #4 065-080 MOD-16/MID-16 #5 081-096 MOD-16/MID-16 #6 097-112 MOD-16/MID-16 #7 113-128 MOD-16/MID-16 #8

The MOI-7 has two status LEDs: The TRANSMIT LED indicates that the

MOI-7 is sending information to the SMB-2. During normal operation this LED flashes periodically when the SMB-2 requests the MOI-7’s status.

The TROUBLE LED only lights when the MOI-7 cannot communicate with the MXL-IQ. This is an indication that the network connection between the MOI-7 and SMB-2 is damaged.

MOD-16 (Open Collector Output Module)

The MOD-16 does not occupy a network address. The MOD-16 is at a subaddress of the MOI-7 to which it is connected. The subaddresses of any given MOD-16s are determined by their position in the string of MOD-16s.

Using The MKB-4 Keyboard/Annunciator Panel in Local Mode

See Figure 32, page 3-4, for the location of the display keys and LEDs.

When the MKB-4 Keyboard/ Annunciator Panel is installed, only the display, LEDs, and display control keys are visible. The ACKnowledge keys and other controls are hidden behind a locked door. Unlock and open the door to gain access to those keys and controls.

The Display

The display has two lines of 40 characters each. What is shown on the display depends on the state of the System. The display contains a back light which turns on automatically when any key is pressed or an event is reported. The back light turns off automatically after 5 minutes of system inactivity.

The System has several displays. When the System is Normal, the display shows:

[time/date] [system message]

When an event has been annunciated, the System alternates between the following three displays:

SYSTEM NORMAL

The output cable from the MOI-7 connects to the first MOD-16, which has the subaddress of 001-016 as shown above. Each additional MOD-16 in the chain has the next block of 16 addresses.

You may connect a maximum of 8 MOD-16s and MID-16s to an individual MOI-7 for a total of 128 open collector outputs and 128 general purpose inputs.

[address] [custom message] [event number] [device type] [trouble type]

[address] [type of device in trouble] or [BLANK] [ACK STATUS or BLANK] [event number] [time/date] [IN or 0UT]

ALARMS=nnn SUPERVISORIES=nnn SECURITIES=nnn TROUBLES=nnn

[ACK STATUS or BLANK]

[IN or 0UT]

3-3

Page 54

Operation

The terms used in the displays described above are defined as follows:

• ACK appears if the event has been acknowledged; otherwise, the field is blank.

• IN is displayed when a condition occurs.

• OUT is displayed when a normal state is

restored.

• [time/date] shows the time and date the event occurred.

Internal Audible Alarm

The internal audible alarm (not visible) sounds steadily when there is an unacknowledged fire alarm. It pulses if all alarms are acknowledged, but there is at least one supervisory, security condition or trouble.

 The Display

A 2-line display of 40 characters each that shows the state of the System. A back light turns on when any key is pressed or an event is reported.

 System Control Keypad

ALARM ACK - Press to acknowledge a fire alarm.

AUD SIL - Press to silence or unsilence a notification appliance circuit.

SUPV ACK - Press to acknowledge a supervisory.

TRBL ACK - Press to acknowledge a trouble.

SEC ACK - Press to acknowledge a security condition.

RESET - Press to reset the System.

 Numeric Keypad

Use the numeric keypad (keys 0 through 9) when the System asks for a model number, device number, password, time, date, or other information. The display shows each number as you press the key (except when you enter a password; the System shows an asterisk for each digit of the password that you type).

Figure 32 MKB-4 Keyboard/Annunciator Panel

ALARM

ACK

AUD

SIL

SUPV

ACK

TRBL

ACK

SEC

ACK

RESET

12:00:00 jan 01, 2002

- - - siemens System mxl---

HELP

FORM FEED

CLEARENTER

ALT

system

normal

DISPLAY

HOLD

ALT 1

FUNCTION

ALT 2

FUNCTION

3-4

Page 55

Operation

 Command Keypad

Left arrow () - Press to select the item to the left of what is flashing on the display (unless entering a number).

Right arrow () - Press to select the item to the right of what is flashing on the display (unless entering a number).

Up arrow () - Press to go back to the previous item.

ENTER - Press to select the item on which the cursor is flashing. When typing in numbers, press ENTER when finished to complete the entry.

PRINT - Press to print selected lists and reports.

FORM FEED - Press to advance the paper in the printer.

CLEAR - Press to cancel printing begun by pressing PRINT. The System will print:

This listing prematurely terminated.

HELP - Press to display a one-line help message.

 Display Keys

The MXL-IQ has two display keys, NEXT and HOLD, located on the MKB-4.

NEXT - Press NEXT to show the previous item in a list of Alarms, Supervisories, Troubles, or Security conditions.

HOLD - Press HOLD at any time to freeze the present display. The display remains frozen until HOLD is released.

 LEDs

ALARM - This red LED flashes when there is at least one unacknowledged fire alarm; it glows steadily when all fire alarms are acknowledged.

AUDIBLE SILENCE - This red LED flashes when at least one notification appliance circuit (NAC) is active; it glows steadily when all silenceable NACs are silenced. Under normal conditions, the LED is off.

SUPERVISORY - This yellow LED flashes when there is at least one unacknowledged supervisory; it glows steadily when all supervisories are acknowledged.

 The Special (ALT and Function) Keypad

Use the four function keys alone or in combination with ALT1 or ALT2 to provide a total of 12 special functions. When using a combination, hold the ALT key down and then press the function key.

F1 F2 F3 F4 ALT1-F1 ALT1-F2 ALT1-F3 ALT1-F4 Hold ALT, then press ALT2-F1 function key. ALT2-F2 ALT2-F3 ALT2-F4

The special function keys are defined using the CSG-M Custom Software Generator (See CSG-M Programming Manual, P/N 315-090381). These definitions can be recorded in the box on the panel.

TROUBLE - This yellow LED flashes when there is at least one unacknowledged trouble; it glows steadily when all troubles are acknowledged.

SECURITY - This yellow LED flashes when there is at least one unacknowledged security condition; it glows steadily when all security conditions are acknowledged.

POWER - This green LED glows steadily to indicate that the AC power is on; it flashes when the System is on battery backup.

PARTIAL SYSTEM DISABLE - This yellow LED glows steadily when any device is disabled.

Modes Of Operation

The MXL-IQ alphanumeric display annunciator has five modes of operation:

1. Alarm

2. Supervisory

3. Security

4. Trouble

5. Normal

INTRODUCTION

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Operation

This order ensures that fire alarms always take priority over all other conditions. In turn, supervisories always take priority over security conditions and security conditions always take priority over troubles. All of the above modes take priority over Normal mode, which is the absence of any alarms, supervisories, security conditions, or troubles.

Alarm

The alphanumeric display shows an alarm message when a fire alarm is received. See Alarm.

Supervisory

The alphanumeric display shows a supervisory message when the system receives a supervisory and no higher priority event is present. See Supervisories, page 3-8.

Security

The alphanumeric display shows a security message when a security condition is received and no higher priority event is present.

See Security Conditions, page 3-9.

Trouble

The alphanumeric display shows a trouble message when a trouble is present and no higher priority event is present. See Troubles, page 3-10.

Normal Mode

Normal mode is the absence of any alarms, supervisories, security conditions or troubles.

In normal mode the display shows the following message:

11:59:59 DEC 31, 20XX SYSTEM

[custom system message]

NORMAL

System Status at 00:00:00 Jul 02, 20XX

0 ALARM 0 ALARM ACK 0 SUPERV 0 SUPERV ACK 0 SECURITY 0 SECURITY ACK 0 TROUBLE 0 TROUBLE ACK

Alarm

RESPONDING TO AN ALARM

1.Follow the response plan approved by the local authority having jurisdiction.

2.When the MXL-IQ is installed, the ACKnowledge key and Audible Alarm Silence key (AUD SIL) on the MKB-4 are behind a locked door. The display, LEDs, and display control keys are visible and accessible. To acknowledge an alarm or trouble, or to silence an audible alarm, first unlock and open the door.

How The System Annunciates Fire Alarms

When a fire is detected, the System causes the ALARM LED on the MKB-4 to flash, the System’s internal audible to sound, the AUD SIL LED to flash, and the alphanumeric display on the MKB-4 to alternate in a sequence among the three messages shown below. This example assumes that two fire alarms were received (Refer to the explanations below).

Message 1:

1-001 002 [device type] IN ALR

Message 2:

1-001 002 [time/date] IN ALR

[custom message]

The POWER LED glows steadily in normal mode when the system has AC power. The

ALARM, AUDIBLE SILENCE, SUPERVISORY, TROUBLE, and SECURITY LEDs

are off and the internal audible is off. If your System has the printer option, the

System prints a message in the following format every day at midnight, even when there are alarms or other conditions:

3-6

Message 3:

ALARMS=002 SUPERVISORIES=000 SECURITIES=000 TROUBLES=000

In addition, the System responds to alarms with programmed output functions such as other audible signals.

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Operation

In the messages above, 1-001 represents the address of the device reporting the alarm.

NOTE: On the display, not all leading

zeros are shown. If your System includes a printer, note that the leading zeros are not shown.

002 in the first message tells you that this is the second (and the most recent) of two alarms received.

The status information in the third message reports the total of alarms, supervisories, troubles, and security conditions.

If your System includes a printer, it prints a message from two to four lines long similar to the following:

ALARM 1-1 11:59:59 DEC 31, 20XX #1 [custom message], [device type]

In the preceding printed message, ALARM indicates that the type of occurrence is a fire alarm; 1-1 is the device address; #1 is the number of the alarm in the list of fire alarms; [custom message] is a custom message entered using the CSG-M Custom Software Generator (See the CSG-M Programming Manual, P/N 315-090381); [device type] is the type of device which reported the alarm.

Viewing the List of Alarms

To see the alarm list when there is more than one alarm, press NEXT on the MKB-4 (the System displays the most recent alarm first).

How to Block Acknowledge a Fire Alarm (NFPA 72 Local, Municipal Tie, and Remote Station)

1. Note the specific location of the alarm(s) by using the procedures described above.

2. Unlock and open the door.

3. Press ALARM ACK to acknowledge all alarms. The System displays the following message:

ALL ALARMS ACKNOWLEDGED.

4. If your System includes the printer option, it prints the following message:

ACK ALARM 11:59:59 DEC 31,20XX ALL ALARMS ACKNOWLEDGED

5. If you press ALARM ACK again, the System displays ALL ALARMS ACKNOWLEDGED.

The ALARM LED glows steadily to indicate that all alarms are acknowledged. If there are no supervisories, troubles, or security conditions in the System, the internal audible goes silent; if any of those conditions still exist, the internal audible pulses.

How to Individually Acknowledge a Fire Alarm (NFPA 72 Proprietary, UL 1076)

1. Press ALARM ACK. The System acknowledges the alarm displayed and then displays the next unacknowledged alarm.

If your System has the printer option, it prints an alarm acknowledgment message similar to the following:

ACK ALARM 1-5 12:01:28 DEC 31,20XX #2 [custom message], [device type]

Note that the acknowledgments message includes the term ACK to indicate this alarm was acknowledged.

2. Continue acknowledging alarms as explained above until the System displays the following message: ALL ALARMS ACKNOWLEDGED.

The ALARM LED glows steadily to indicate that all alarms are acknowledged. If there are no supervisories, troubles, or security conditions still in the System, the internal audible goes silent; if any of those conditions still exist, the internal audible pulses.

3. If your System includes a printer, it prints a message similar to the following:

ACK ALARM 12:05:44 DEC 31,20XX ALL ALARMS ACKNOWLEDGED

Silencing The System

Press AUD SIL after all alarms are acknowl- edged. The System displays the following message: AUDIBLES SILENCED. (Pressing AUD SIL a second time causes the internal audible and the System to unsilence and the message AUDIBLES UNSILENCED to appear on the display; thus, pressing AUD

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SIL alternately silences and unsilences the System.)

If your System has a printer, it prints a message similar to the following:

AUD SILENCED/UNSIL. 11:01:00 DEC 31, 20XX AUDIBLES SILENCED

Supervisories

How The System Annunciates Supervisories

When a supervisory is detected, the System causes the SUPERVISORY LED on the MKB-4 to flash, the System’s internal audible to sound, and the alphanumeric display on the MKB-4 to alternate in a sequence among the three messages shown below. This example assumes that two supervisories were received (See the explanations below).

Message 1:

1-001 002 [device type] IN SUP

Message 2:

1-001 002 [time/date] IN SUP

Message 3:

ALARMS=000 SUPERVISORIES=002 SECURITIES=000 TROUBLES=000

[custom message]

If your System includes a printer, it prints a message from two to four lines long similar to the following:

SUPERV 1-1 11:59:59 DEC 31, 20XX

[custom message], [device type]

In the preceding message, SUPERV indicates that the type of occurrence is a supervisory; 1-1 is the device address; #1 is the number of the supervisory in the list of supervisories; [custom message] is a custom message entered using the CSG-M Custom Software Generator (See the CSG-M Programming Manual, P/N 315-090381); [device type] is the type of device which reported the supervisory.

Viewing the List of Supervisories

To see the supervisory list when there is more than one supervisory, press NEXT on the MKB-4 (the System displays the most recent supervisory first).

How to Block Acknowledge a Supervisory (NFPA 72 Local, Municipal Tie, and Remote Station)

1. Note the specific location of the supervisories by using the procedures described above.

2. Unlock and open the door.

3. Press SUPV ACK to acknowledge all supervisories. The System displays the following message:

ALL SUPERVISORIES ACKNOWLEDGED.

In addition, the System responds to supervisories with programmed output functions such as other audible signals.

In the messages above, 1-001 represents the address of the device reporting the supervisory.

002 in the first message tells you that this is the second (and the most recent) of two supervisories received.

The status information in the third message reports the total of alarms, supervisories, troubles, and security conditions.

3-8

4. If your System includes a printer, it prints the following message:

ACK SUPERVISORY 11:59:59 DEC 31,20XX ALL SUPERVISORIES ACKNOWLEDGED

5. If you press SUPV ACK again, the System displays ALL SUPERVISORIES ACKNOWLEDGED.

The SUPERVISORY LED glows steadily to indicate that all supervisories are acknowledged. If there are no troubles or security conditions in the System, the internal audible goes silent; if any of those conditions still exist, the internal audible pulses.

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Operation

How to Individually Acknowledge a Supervisory (NFPA 72 Proprietary, UL 1076)

1. Press SUPV ACK. The System acknowledges the supervisory displayed and then displays the next unacknowledged supervisory.

If your system has a printer, it prints an acknowledgment message similar to the following:

ACK SUPERV 1-5 12:01:28 DEC 3,20XX

[custom message], [device type]

Note that the acknowledgment message includes the term ACK to indicate this supervisory was acknowledged.

2. Continue acknowledging supervisories as explained above until the System displays the following message: ALL SUPERVISORIES ACKNOWLEDGED.

The SUPERVISORY LED glows steadily to indicate that all supervisories are acknowledged. If there are no troubles or security conditions still in the System, the internal audible goes silent; if any of those conditions still exist, the internal audible pulses.

3. If your System includes a printer, it prints the following message:

Message 2:

1-001 002

Message 3:

ALARMS=000 SUPERVISORIES=000 SECURITIES=000 TROUBLES=002

In addition, the System responds to security conditions with programmed output functions.

In the messages above, 1-001 represents the address of the device reporting the security condition.

002 in the first message tells you that this is the second (and the most recent) of two security conditions received.

The status information in the third message reports the total number of alarms, supervisories, troubles, and security conditions.

If your System includes a printer, it prints a message from two to four lines long similar to the following:

SECURITY IN 1-1 11:59:59 DEC 31, 20XX #1

[custom message]

[time/date]

[custom message], [device type]

IN SEC

ACK SUPERVISORY 12:05:44 DEC 3,20XX ALL SUPERVISORIES ACKNOWLEDGED

Security

How The System Annunciates Security Conditions

When a security condition is detected, the System causes the SECURITY LED on the MKB-4 to flash, the System’s internal audible to sound, and the alphanumeric display on the MKB-4 to alternate in a sequence among the three messages shown below. This example assumes that two security conditions were received (See the explanations below the messages).

Message 1:

1-001 002

[custom message]

[device type]

IN SEC

In the preceding printed message, SECURITY indicates that the type of occurrence

is a security condition; 1-1 is the device address; #1 is the number of the security condition in the list of security conditions; [custom message] is a custom message entered using the CSG-M Custom Software Generator (See the CSG-M Programming Manual, P/N 315-090381); [device type] is the type of device which reported the security condition.

Viewing the List of Security Conditions

To see the security condition list when there is more than one security condition, press NEXT on the MKB-4 (the System displays the most recent security condition first).

How to Individually Acknowledge a Security Condition (UL 1076)

1. Press SEC ACK. The System acknowledges the security condition displayed and then displays the next unacknowledged security condition.

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If your System has a printer, it prints an acknowledgment message similar to the following:

ACK SECURITY 1-5 12:01:28 DEC 3,20XX

[custom message], [device type]

Note that the acknowledgment message includes the term ACK to indicate this security condition was acknowledged.

2. Continue acknowledging security conditions as explained above until the System displays the following message: ALL SECURITY CONDITIONS ACKNOWLEDGED.

The SECURITY LED glows steadily to indicate that all security conditions are acknowledged, and the internal audible goes silent.

3. If your System includes a printer, it prints the following message:

ACK SECURITY 12:05:44 DEC 31, 20XX ALL SECURITY CONDITIONS ACKNOWLEDGED

Troubles

How The System Annunciates Troubles

When a trouble is detected, the System causes the TROUBLE LED on the MKB-4 to flash, the System’s internal audible to sound, and the alphanumeric display on the MKB-4 to alternate in a sequence among the three messages shown below. This example assumes that two troubles were received (See the explanations below).

Message 1:

1-001 [custom message] 002 [trouble type] IN TBL

Message 2:

1-001 [device type] 002 [time/date] IN TBL

Message 3:

ALARMS=000 SUPERVISORIES=000 SECURITIES=002 TROUBLES=000

In the messages above, 1-001 represents the address of the device reporting the trouble.

002 in the first message tells you that this is the second (and the most recent) of two troubles received.

The status information in the third message reports the total of alarms, supervisories, troubles, and security conditions.

If your System includes a printer, it prints a message from two to four lines long similar to the following:

TROUBLE IN 1-1 11:59:59 DEC 31, 20XX

[custom message] [trouble type], [device type]

In the above printed message, TROUBLE indicates that the type of occurrence is a trouble; 1-1 is the device address; and #1 is the number of troubles in the list of troubles; [custom message] is a custom message entered using the CSG-M Custom Software Generator (See the CSG-M Programming Manual, P/N 315- 090381); [trouble type] is the type of trouble which reported; [device type] is the type of device in trouble.

Viewing The List of Troubles

To see the trouble list when there is more than one trouble, press NEXT on the MKB-4 (the System displays the most recent trouble first).

How to Block Acknowledge a Trouble (NFPA 72 Local, Municipal Tie, and Remote Station)

1. Note the specific location of the trouble(s) by using the procedures described above.

2. Unlock and open the door.

3. Press TRBL ACK to acknowledge all troubles. The System displays the following message: ALL TROUBLES ACKNOWLEDGED.

4. If your System includes a printer, it prints the following message:

In addition, the System responds to troubles with programmed output functions.

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ACK TROUBLE 11:59:59 DEC 31, 20XX ALL TROUBLES ACKNOWLEDGED

5. If you press TRBL ACK again, the System displays

ALL TROUBLES ACKNOWLEDGED.

The TROUBLE LED glows steadily to indicate that all troubles are acknowledged. If there are no security conditions in the System, the internal audible goes silent; if any security conditions still exist, the internal audible pulses.

How to Individually Acknowledge a Trouble (NFPA 72 Proprietary, UL 1076)

1. Press TRBL ACK. The System acknowledges the trouble displayed and then displays the next unacknowledged trouble.

If your System has a printer, it prints an acknowledgment message similar to the following:

ACK TROUBLE 1-5 12:01:28 DEC 31,20XX #2 [custom message], [trouble type], [device type]

Note that the acknowledgment message includes the term ACK to indicate this trouble was acknowledged.

2. Continue acknowledging troubles as explained above until the System displays the following message:

ALL TROUBLES ACKNOWLEDGED.

Reset Procedures

Hard Reset

Other terms for Hard Reset are Power-up, Initialization, and Cold Reset.

Applying power to the System performs a Hard Reset which initializes (starts) the entire system.

What Is Lost:

• Alarms, supervisories, security conditions and troubles

• Any user entries such as time and date

• Arm/disarm

• Manual sensitivity adjustment

• Time-based control until time is reset

What Is Not Lost:

• CSG-M program

Soft Reset

To perform a Soft Reset, press RESET on the MKB-4 (Refer to Figure 32, page 3-4). Soft reset does not work until you acknowledge all alarms, supervisories, security conditions and troubles and silence the System.

What Is Lost:

• Alarms, supervisories, security conditions, troubles

• Arm/disarm (unless option disabled by CSG-M)

The TROUBLE LED glows steadily to indicate that all troubles are acknowledged. If there are no security conditions still in the System, the internal audible goes silent; if any of those conditions still exist, the internal audible pulses.

3. If your System includes a printer, it prints the following message:

ACK TROUBLE 12:05:44 DEC 31, 20XX ALL TROUBLES ACKNOWLEDGED

What Is Not Lost:

• Any user entries such as time and date.

• Arm/disarm (when enabled by CSG-M)

• CSG-M program

• Manual sensitivity adjustment

• Time-based control

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Operation

If you press RESET before acknowledging all conditions and silencing the audible alarms, the display shows a message similar to the following:

ALARMS NOT ALL ACKNOWLEDGED YET

(or)

SUPERVISORY NOT ALL ACKNOWLEDGED YET

(or)

SECURITY NOT ALL ACKNOWLEDGED YET

(or)

TROUBLES NOT ALL ACKNOWLEDGED YET

(or)

AUDIBLES NOT ALL SILENCED YET

If your System has a printer, it prints a message similar to the following and adds SYSTEM NOT RESET on the bottom line:

RESET 0:1 1:58 Jul 03,20XX Not All Acknowledged Yet. System Not Reset.

Using The MKB Keyboard/Annunciator Panel in Global Mode

The Global MKB Keyboard/Annunciator Panel operates the same as described in Using The MKB Keyboard/Annunciator Panel Local Mode, except as noted below.

Limitations/Restrictions

• As in all networked MXL Systems, the self-restoring trouble option is not allowed in any MXL.

• An MXL still may only contain a maximum of 4 supervised MKBs. This can be a mix of local and global MKBs.

• BLOCK ACK must be enabled in the CSG-M.

• The maximum number of supervised Global MKBs is 10.

• The maximum number of Global Printers is 2 (not TSP-40s).

When the System performs a Soft Reset, the display shows the following message:

SYSTEM RESET

The System then returns to Normal mode and the display shows the following:

11:59:59 DEC 31, 20XX SYSTEM [custom System message] NORMAL

If your System has a printer, it prints the following message:

SYSTEM RESET

If the System is already in Normal mode when you press RESET, it displays

SYSTEM ALREADY NORMAL

and does not reset.

Global MKB Display Format

In order to insert the XNET node information and provide an indication of the number of events in the System, some of the characters in the first and second lines have been lost.

NN = NODE # (1 - 64) MMM = MODULE # (1 - 253) DDD = DEVICE # (1 - 254)

ALARM

The 3 event displays are formatted as follows for an alarm condition:

NN:MMM-DDD [custom message] ACK 1 [time/date] IN ALR

NN:MMM-DDD [custom message] ACK 1 [device type] IN ALR

ALARMS=1 SUPERVISORY=0 SECURITY=0 TROUBLES=0

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Operation

SUPERVISORY

The 3 event displays are formatted as follows for a supervisory condition:

NN:MMM-DDD [custom message] ACK 1 [time/date] IN SUP

NN:MMM-DDD [custom message] ACK 1 [device type] IN SUP

ALARMS=0 SUPERVISORY=1 SECURITY=0 TROUBLES=0

SECURITY

The 3 event displays are formatted as follows for a security condition:

NN:MMM-DDD [custom message] ACK 2 [time/date] IN SEC

NN:MMM-DDD [custom message] ACK 2 [device type] IN SEC

ALARMS=0 SUPERVISORY=0 SECURITY=2 TROUBLES=0

TROUBLE

The 3 event displays are formatted as follows for a trouble condition:

NN:MMM-DDD [custom message] ACK 23 [trouble type] IN TRB

NN:MMM-DDD [custom message] ACK 23 [time/date] IN TRB

ALARMS=0 SUPERVISORY=0 SECURITY=0 TROUBLES=23

Leading zeros are not included in addresses and counts.

Additional data causes a three character shift right, resulting in the loss of three characters from the displayed message.

Additional data also causes a two character shift to the right, resulting in the loss of two characters of the device or trouble type.

The System queue totals are over 10,000 events. This expands the event number fields to 5 digits from 3. The order of these events is as follows:

• Queue priority (Alarm, Supervisory, Security, Trouble ).

• Time and date of event (newest first).

• If the two previous items are identical,

the lower node number takes priority.

Global Keypad Operation

BLOCK ACK

Global block acknowledgment operates as in a standalone MXL, but with global scope. Events for the queue acknowledge System wide (all nodes).

Pressing a global BLOCK ACK key results in a broadcast XNET message to all nodes to acknowledge all events in that queue. Panels process the event just as if the key press had occurred at one of its MKBs. A success code (or error code) is sent to the NODE that initiated the global acknowledge.

An acknowledgment message is displayed and printed (and the appropriate LED is updated) when the MXL determines all events at that level have been acknowledged (System wide). The time/date stamp of an event is used to determine the true state of the System.

LEDs are not updated unless all nodes confirm the acknowledgment has been successfully executed.

AUD SILENCE

This key is NOT a toggle as in a local mode. If silenceable audibles are active anywhere in the System, the LED flashes.

When the global AUD SILENCE key is pressed with any/all audibles in the System unsilenced, a global silence command is issued. The command is processed in the nodes as if a local audible silence had been requested.

Command preprocessing is in place to prevent silenceable audibles from getting out of sync (some systems on, some systems off) on a System basis. No audibles will be silenced unless all can be silenced. However, in cases where local control is enabled, this may be unavoidable. An error code (or success via a silence event message) allows the global MKB to keep up to date as to true System status. If any panel reports an error, the display status remains unchanged.

When the global AUD SILENCE key is pressed with all audibles in the System silenced, a global unsilence command is issued. The command is processed in the nodes as if a local audible unsilence had

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Operation

been requested. An error code (or success via a silence event message) allows the global MKB to keep up to date as to true System status. If any panel reports an

error, the display status changes since some audibles have been unsilenced.

RESET

When the global reset key is pressed, each node is tested. If all nodes meet the conditions required for reset, the reset command is sent and executed. Otherwise, the corresponding error message is displayed.

This key operates the same as in the local mode. However, it moves the user through the System events globally in the priority order established earlier.

HOLD

This key operates the same as in the local mode.

Using The Menu

The menu gives you wide control of the MXL-IQ System. You may use the menu no matter what mode the System is in.

The discussion in this section is in the following order:

• Operation of the keys on the MKB-4 Keyboard/Annunciator

• Overview of the menu’s structure

• Beginning a menu session

• Introduction to each of the four menus:

- Acknowledge menu

- List menu

- Control menu

- Test menu

- Entering your password

- Entering module and device numbers

• Using the Acknowledge menu

• Using the List menu

Function Keys

These keys operates the same as in the local MKB.

Numeric Keypad

These keys operates the same as in the local MKB.

• Using the Control menu

• Using the Test menu

Operation of the Keys on the MXL-IQ Annunciator Panel

Use the numeric keypad and the directional and command keypad when working with the menu.

Numeric Keypad

Use the numeric keypad (keys 0 through 9) when the System asks for a module number, device number, password, time, date, or other information. The display shows each number as you press the key. However, when you enter a password, the System shows asterisks in place of the digits entered.

The Command Keypad

The Command Keypad has both directional and command keys that are used to move through the menu and perform specific functions. Refer to Table 18 for a description of the Command Keypad.

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Operation

Overview of the Menu’s Structure

Press ENTER to enter the menu. The menu then uses the first 32 spaces of the second line of the display to communicate with you. When you use the Acknowledge or List menu, the menu uses both lines of the display.

Acknowledge

Alarm Supervisory (Supervsry) Security Trouble

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If you are in the menu and do not depress a numeric or arrow key at any time during a 1 minute period, the System returns to the previous item.

The five Main Menu items and their subitems for Revision 6.0 and higher follow; the shortened terms used in the menu itself are in parentheses:

Status Alarm Supervisory (Supervsry) Security Trouble Sensitivity (Senstvty) Voltages

Temp Module type (Mod type) Device type (Dev type) Message Software version

Output States Device Usages Node Address Air Sampling

Percent/ft

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ASD apps

You can generate a printed report or listing for every item in the List menu except Node Address; see the discussion under LIST Menu.

List

- Analog

- Threshold

- Sensitivity

(SW version)

- Smoke-lev

- Flow-lev

- Trip-pts

- Senstvty

- Pre-alarm

- Analog

Control

Reset Sensitivity (Senstvty)

- Hi_3

- Hi_2

- Hi_1

- Norm

- Low_1

- Low_2

- Low_3

Arm/disarm (Arm/dis)

- Arm

- Disarm

Output on/off

- Arm

- Disarm

- Energize

- De-Energize Loop Arm Loop Disarm Netlink Request Air Sampling

- Alarm_Trip

- Flow_Trip Percent/Ft

- Sensitivity

(Senstvty)

- Pre_alarm Change_Apps

Test

Set time Ground fault (Gnd_flt)

- Main

Power

- Main

- Voltage

- Current

Lamp test

- LEDs

- Display Device LED MOI_Lamp_Test X-Network M-Network Override Det_cleaned Event_log

- Alrm_only

- Superv_only

- Security_only

- Trbl_only

- All_events

- Hist_Ctrl

- Hist_Erase Pyro_diags Pre_alarm ASD_Devices Summarize Manual_Activate

You can generate a printed report for this item; see the discussion under TEST Menu.

Walktest

System_wAUD Loop_wAUD Zone_wAUD System_SIL Loop_SIL Zone_SIL Cancel Extend

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Operation

Beginning a Menu Session

When you first press ENTER to begin a menu session, the second line of the display shows the four Main Menu items:

ACKNOWLEDGE LIST CONTROL TEST

The A in Acknowledge is blinking. Select Acknowledge by pressing ENTER while the A is blinking.

Use the Left and Right arrow keys to move around in this four-item menu.

To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.

Introduction to the Acknowledge Menu

The Main Menu, displayed when you press ENTER to begin a menu session, lists the four main items in the menu:

ACKNOWLEDGE LIST CONTROL TEST

For help in understanding what the List function does, press HELP when the L in LIST is blinking. The System displays:

TO LIST SYSTEM, DEVICE, CSGM INFO

Use this function to list information on the System and its devices.

To return to the Main Menu display, press HELP again:

ACKNOWLEDGE LIST CONTROL TEST

We discuss the List menu in detail beginning on page 3-22.

Introduction to the Control Menu

To move to CONTROL on the Main Menu, press the Right arrow key twice from ACKNOWLEDGE; the C in CONTROL begins blinking:

ACKNOWLEDGE LIST CONTROL TEST

For help in understanding what the Acknowledge function does, press HELP when the A in ACKNOWLEDGE is blinking. The System displays:

TO ACKNOWLEDGE INDIVIDUALLY

Use this menu function to acknowledge alarms, supervisories, troubles, and security conditions individually.

To return to the Main Menu display, press HELP again:

ACKNOWLEDGE LIST CONTROL TEST

We discuss the Acknowledge menu in detail beginning on page 3-18.

Introduction to the List Menu

To move to LIST on the Main Menu, press the Right arrow key once; the L in LIST begins blinking:

ACKNOWLEDGE LIST CONTROL TEST

For help in understanding what the Control function does, press HELP while the C in CONTROL is blinking. The System displays:

TO MODIFY DATA FOR OPERATION

Use the Control function to reset the System and to change the settings of various devices.

To return to the Main Menu display, press HELP again:

ACKNOWLEDGE LIST CONTROL TEST

We discuss the Control menu in detail beginning on page 3-36.

Introduction to the Test Menu

To move to TEST, press the Right arrow key three times from ACKNOWLEDGE; the T in TEST begins blinking:

ACKNOWLEDGE LIST CONTROL TEST

For help in understanding what the Test function does, press HELP while the T in TEST is blinking. The System displays:

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Operation

PASSWORD LEVELS

TO TEST SYSTEM, LOOP & DEVICE

Use this function to test the System, its loops, and its devices, including ground fault, battery voltage and current, and the LEDs.

To return to the Main Menu display, press HELP again:

ACKNOWLEDGE LIST CONTROL TEST

We discuss the Test menu in detail beginning on page 3-42.

Entering Your Password

If you select CONTROL, TEST, or WALKTEST, the System asks for your password:

ENTER YOUR PASSWORD:

If you press HELP, the System explains this function; press HELP again to return to the previous display.

Type your (1-5 digit) password, using the numeric keypad. The System shows an asterisk for each digit that you type. (Use the Left arrow key to erase an error.)

The System gives you three chances to enter an acceptable password before it returns you to the Main Menu.

If the System accepts your password, it displays the Control, Test, or Walktest menu. We discuss those menus later in this section.

Entering a Module Number and Device Number

The System asks you to supply a module number or device number, or both, during certain functions described in the pages that follow. Below is a summary of the procedures involved.

NOTE: The terms module number and

module address are used interchangeably in this manual.

Entering a Module Number

The System displays

TYPE IN MODULE NUMBER:

If you press HELP at this point, the System displays the following explanation:

3 DIGIT MODULE NO., PRESS <ENTER>

When you have typed the entire password, press ENTER. If your password does not match a password stored in the System, the System briefly displays the following message and then returns you to the first password display:

ACCESS DENIED

If your password level is not high enough to use the Test functions, the System briefly displays the following message and then returns you to the first password display:

PASSWORD LEVEL NOT HIGH ENOUGH

Rev 5.0 and Above

Highest

Lowest

Highest

Lowest

Test Control Walktest

Below Rev 5.0

Walktest Test Control

Press HELP again to return to the previous display. Type all three digits, including leading zeros, and press ENTER.

When you type the module number, use the Left arrow key as a backspace key to erase errors.

Entering a Device Number with the Module Number

The System displays

TYPE IN THE DEVICE NUMBER:

(If you press HELP at this point, the System displays the following explanation:

3 DIGIT MODULE 3 DIGIT DEVICE

Press HELP again to return to the previous display. Type all of the digits, including leading zeros, and press ENTER.)

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Operation

When you type the module number and the device number, use the Left arrow key as a backspace key to erase errors.

ACKNOWLEDGE Menu

The Acknowledge menu has four items from which to choose; the shortened terms used in the menu itself are in parentheses:

ALARM SUPERVISORY (SUPERVSRY) SECURITY TROUBLE

Use this menu to individually acknowledge fire alarms, supervisories, troubles, and security conditions.

Entering the Acknowledge Menu

Select ACKNOWLEDGE from the Main Menu by pressing ENTER while the A in ACKNOWLEDGE is blinking. The System displays the first Acknowledge menu (the A in ALARM is blinking):

ACKNOWLEDGE: ALARM SUPERVISRY

If All Alarms Are Acknowledged:

If all the alarms are acknowledged, the System displays the following message and then returns you to the Acknowledge menu.

ALL ALARMS ACKNOWLEDGED

(If your System has a printer, it prints the above message as well.)

If There Is an Unacknowledged Alarm:

If there is at least one unacknowledged alarm, the menu shows the most recent unacknowledged alarm on both lines of the display, as in the following display:

29-041 007

In the above display, 29 is the module number, 041 is the device number, the message on the first line is the custom message for the device at that location, 007 indicates that this is the seventh alarm, [device type] indicates the type of device in alarm, and IN ALR indicates that this is a fire alarm.

[custom message]

[device type]

IN ALR

NOTE: To end a menu session and

return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.

Acknowledge: Alarm

Use this function to individually acknowledge fire alarms.

Press ENTER when the A in ALARM is blinking to select ACKNOWLEDGE ALARM:

ACKNOWLEDGE: ALARM SUPERVISRY

If There Is No Alarm:

If there is no current alarm, the System briefly displays the following message and then returns you to the Acknowledge menu:

NO ALARM EXISTS

(If your System has a printer, it prints the above message as well.)

(Press HELP if you want information on what to do. The System displays:

PRESS ENTER TO ACK. PRESS NEXT TO SKIP.

Press HELP again to return to the previous display.)

Press ENTER to acknowledge the alarm shown.

The System prints a message similar to the following and removes that alarm from the unacknowledged alarm list:

ACK ALARM 29-041 16:11:41 Aug 28,20XX

[custom message], [device type]

In the above message, the time and date are the time and date that the alarm was acknowledged and 29-041 is the address.

The System then displays the next alarm to acknowledge.

To skip an alarm shown, press NEXT. The System displays the next alarm in the series. When the System has displayed all

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Operation

of the unacknowledged alarms, it returns to the first Acknowledge menu:

ACKNOWLEDGE: ALARM SUPERVISRY

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Acknowledge: Supervsry

Use this function to individually acknowledge supervisories.

Select ACKNOWLEDGE from the Main Menu by pressing ENTER while the A in ACKNOWLEDGE is blinking. The System displays:

ACKNOWLEDGE: ALARM SUPERVISRY

Press the Right arrow key once to cause the S in SUPERVISRY to blink.

(If you press HELP at this time, the System explains the Acknowledge Supervisory function:

If There Is An Unacknowledged Supervisory:

The System does not let you acknowledge supervisory conditions if there are any unacknowledged alarms. If there is at least one unacknowledged alarm, the System briefly displays the following message and then returns you to the Acknowledge menu:

ALARM NOT ALL ACKNOWLEDGED YET

Select ALARM and follow the instructions in ACKNOWLEDGE ALARM above.

(If your System has a printer, it prints the above message as well.)

After you acknowledge all alarms, the System allows you to acknowledge supervisories. If there is at least one unacknowledged supervisory, the menu shows the most recent unacknowledged supervisory on both lines of the display, as in the following display:

32-045 012

[custom message]

[device type]

IN SUP

TO ACK SUPERVISORY INDIVIDUALLY

Press HELP again to return to the ACKNOWLEDGE: ALARM SUPERVISRY

display.) Press ENTER while the S is blinking to

select SUPERVISRY.

If There Is No Supervisory:

If there is no supervisory to acknowledge, the System briefly displays the following message and then returns you to the Acknowledge menu:

NO SUPERVISORY EXISTS

(If your System has a printer, it prints the above message as well.)

If All Supervisories Are Acknowledged:

If all supervisories are acknowledged, the System briefly displays the following message and then returns you to the Acknowledge menu:

ALL SUPERVISORIES ACKNOWLEDGED

In the preceding display, 32 is the module number, 045 is the device number, the message on the first line is the custom message for the device at that location, 012 indicates that this is the twelfth supervisory, [device type] indicates the type of device causing the supervisory, and IN SUP identifies the item as an off-normal supervisory.

(Press HELP if you want information on what to do. The System displays:

PRESS ENTER TO ACK. PRESS NEXT TO SKIP

Press HELP again to return to the previous display.)

Press ENTER to acknowledge the supervisory shown. The System prints a message similar to the following and removes that supervisory from the unacknowledged supervisory list:

ACK SUPERV 32-045 16:11:44 Aug 2,20XX #12

[custom message], [device type]

In the above message, the time and date are the time and date the supervisory was acknowledged and 32-045 is the address.

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The System then displays the next supervisory to acknowledge.

To skip a supervisory, press NEXT. The System displays the next supervisory in the series. When the System has displayed all of the unacknowledged supervisories, the System returns to the acknowledge menu on the second line of the display.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Acknowledge: Security

Use this function to individually acknowledge security conditions.

Select ACKNOWLEDGE from the Main Menu by pressing ENTER while the A in ACKNOWLEDGE is blinking. The System displays the first Acknowledge menu:

ACKNOWLEDGE: ALARM SUPERVISRY

If All Security Conditions Are Acknowledged:

If all security conditions are acknowledged, the System displays the following message and returns you to the Acknowledge menu:

ALL SECURITIES ARE ACKNOWLEDGED

(If your System has a printer, it prints the above message as well.)

If There Is An Unacknowledged Security Condition:

The System does not let you acknowledge security conditions if there are any unacknowledged alarms, supervisories, or troubles.

If there is at least one unacknowledged alarm, the System briefly displays the following message and then returns you to the Acknowledge menu:

ALARMS NOT ALL ACKNOWLEDGED YET

(If your System has a printer, it prints the above message as well.)

Press the Right arrow key three times. The System displays the second Acknowledge menu, with the S in SECURITY blinking:

ACKNOWLEDGE: TROUBLE SECURITY

(If you press HELP at this time, the System explains the Acknowledge Security function:

TO ACK SECURITY INDIVIDUALLY

Press HELP again to return to the Acknowledge menu.)

Press ENTER while the S is blinking to select Security.

If There Is No Security Condition to Acknowledge:

If there is no Security condition to acknowledge, the System briefly displays the following message and then returns you to the Acknowledge menu:

NO SECURITY EXISTS

(If your System has a printer, it prints the above message as well.)

Follow the instructions above to acknowledge any unacknowledged alarms, supervisories, and troubles.

After you acknowledge all fire alarms, supervisories, and troubles, the System allows you to acknowledge security conditions. If there is at least one unacknowledged security condition, the System displays the most recent unacknowledged security condition:

42-058 005

In the above display, 42 is the module number, 058 is the device number, the message on the first line is the custom message for the device at that location, 005 indicates that this is the fifth security condition, [device type] indicates the type of device causing the security condition, and IN SEC identifies this as an off-normal security condition.

(Press HELP if you want information on what to do. The System displays:

PRESS ENTER TO ACK. PRESS NEXT TO SKIP.

Press HELP again to return to the previous display.)

[custom message]

[device type]

IN SEC

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Operation

Press ENTER to acknowledge the security condition shown. The System prints a message similar to the following message and removes that security condition from the unacknowledged security list:

ACK SECURITY 42-058 16:11:44 Aug 8,20XX #5

[custom message], [device type]

In the above message, the time and date given are the time and date when the security condition was acknowledged, and 42-058 is the address.

The System then displays the next security report to acknowledge.

To skip a security condition, press NEXT. The System displays the next security condition in the series. When the System has displayed all of the unacknowledged security conditions, it returns to the Acknowledge menu.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Acknowledge: Trouble

Use this function to individually acknowledge troubles.

Select ACKNOWLEDGE from the Main Menu by pressing ENTER while the A in ACKNOWLEDGE is blinking. The System displays the first Acknowledge menu:

ACKNOWLEDGE: ALARM SUPERVISRY

Press ENTER while the T is blinking to select Trouble.

If There Is No Trouble:

If there is no trouble to acknowledge, the System briefly displays the following message and returns you to the acknowledge menu:

NO TROUBLE EXISTS

(If your System has a printer, it prints the above message as well.)

If All Troubles Are Acknowledged:

If all the troubles are acknowledged, the System displays the following message and returns you to the Acknowledge menu:

ALL TROUBLES ACKNOWLEDGED

(If your System has a printer, it prints the above message as well.)

If There Is An Unacknowledged Trouble:

The System does not let you acknowledge troubles if there are any unacknowledged fire alarms or supervisories. Follow the instructions above to acknowledge them.

After you acknowledge all fire alarms and supervisories, the System allows you to acknowledge troubles. If there is at least one unacknowledged trouble, the System shows the most recent unacknowledged trouble on both lines of the display, as in the following display:

36-050 018

[custom message]

[trouble type]

IN TBL

Press the Right arrow key twice. The System displays the Acknowledge menu with T in TROUBLE blinking:

ACKNOWLEDGE: SUPERVISRY TROUBLE

(If you press HELP at this time, the System explains the Acknowledge Trouble function:

TO ACK TROUBLE INDIVIDUALLY

Press HELP again to return to the acknowledge menu.)

In the above display, 36 is the module number, 050 is the device number, the message on the first line is the custom message for that device, 018 indicates that this is the eighteenth trouble, [trouble

type] indicates the type of trouble, and IN TBL identifies the event as the occurrence

of a trouble. (Press HELP if you want information on

what to do. The System displays:

PRESS ENTER TO ACK. PRESS NEXT TO SKIP.

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Operation

Press HELP again to return to the previous display.)

Press ENTER to acknowledge the trouble shown. The System prints a message similar to the following message and removes that trouble from the unacknowledged trouble list:

ACK TROUBLE 36-050 16:11:44 Aug 8, 20XX

[custom message], [trouble type]

#18

[device type]

In the above message, the time and date are the time and date that the condition was acknowledged and 36-050 is the address.

The System then displays the next trouble to acknowledge.

When the System has displayed all of the unacknowledged troubles, it returns to the Acknowledge menu.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

LIST Menu

The List menu has eighteen items from which to choose; the shortened terms used in the menu are in parentheses.

You can generate a printed list or report for every item on the List menu except Node Address. See the discussion for each item that follows.

Status Alarm Supervisory (Supervsry) Security Trouble Sensitivity (Senstvty) Voltages Temp Module type (Mod type) Device type (Dev type) Message

Software version (SW version) Output states Device usages Node address Air Sampling Percent/ft ASD_apps

Use the List menu to learn the following information:

• Status of the System

• Alarm information

• Supervisory information

• Security information

• Trouble information

• Detector sensitivity

• Detector voltage Analog Threshold (Thresh) Sensitivity (Sens)

• Temperature of FP-11 or FPT-11

• Type of module

• Type of device

• Custom message of the given

address

• Version of the System software

• Output states

• Device usages

• Panel's X-Network node address

• Percent per foot obscuration Sensitivity Pre-alarm Analog

• Device application (ASD setting)

Entering the List Menu

From the Main Menu, use the Left or Right arrow key to cause the L in List to blink.

If you press HELP at this point, the System explains the List function:

TO LIST SYSTEM, DEVICE, CSGM INFO

Press HELP again to return to the Main Menu.

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Press ENTER to select LIST. The System displays the first List menu, with the S in STATUS blinking:

LIST: STATUS ALARM SUPERVSRY

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

List: Status

The List Status function shows you the number of acknowledged and unacknowledged alarms, supervisories, security conditions, and troubles, in that order.

From the List menu, use the Right or Left arrow keys to cause the S in STATUS to blink.

(If you press HELP at this point, the System explains the List Status function:

SHOW NUMBER OF ACKED & UNACKED

Press HELP again to return to the List menu.)

When you press ENTER to select List Status, the display first shows the total number of alarms and the number of acknowledged alarms:

2 ALARM 2 ALARM ACK

In the above printed message, there are two alarms, both of them acknowledged, no supervisory conditions, no security conditions and 30 trouble conditions, all acknowledged.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

List: Alarm

The List Alarm function shows you all the fire alarms currently in the System in the order they occurred.

From the List menu, use the Left or Right arrow key to cause the A in ALARM to begin blinking.

If you press HELP at this point, the System explains the List Alarm function:

SHOW INDIVIDUAL ALARM STATUS

Press HELP again to return to the List menu.

Press ENTER to select ALARM and display alarm information on the MKB-4 display.

If There Is No Fire Alarm:

If there is no fire alarm, the System briefly displays the following message and then returns you to the List menu:

NO ALARM EXISTS

To view, in order, the status of supervisories, troubles, and security conditions, press NEXT.

After the Security display, the System returns to the List menu.

To make a printed list of current status, press PRINT when the S in STATUS is blinking. The System will print a listing similar to the following:

System Status at 11:02:26 Jul 01, 20XX: 2 ALARM 2 ALARM ACK 0 SUPERV 0 SUPERV ACK 0 SECURITY 0 SECURITY ACK 30 TROUBLE 30 TROUBLE ACK

If There Is a Fire Alarm:

If there is at least one fire alarm, the System shows the most recent alarm, alternating between the following two displays:

1-001 002

Press NEXT to show the two displays for the previous alarm in the sequence. (Pressing HOLD freezes a display for as long as you keep HOLD depressed.)

[custom message]

[device type]

[custom message]

[time/date]

IN ALR

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When the System has shown all current fire alarms, it returns to the List menu.

To obtain a full printed list of alarms in the following format—one item for each current alarm—press PRINT when the A in ALARM is blinking.

Listing of all Alarm at 14:35:20 Oct 09,20XX: ALARM 1-5 14:34:22 Oct 09,20XX #1

[custom message], [device type]

In the above listing, 1-5 is the address of the device in alarm, the time is the time the device went into alarm, #1 is the number of this alarm in the current list, [custom message] is the custom message for the device in alarm, and [device type] is the type of device in alarm.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

List: Supervisory

The List Supervisory function shows you all the supervisories currently in the System in the order they occurred.

From the List menu, use the Left or Right arrow key to cause the S in SUPERVSRY to blink.

(If you press HELP at this point, the System explains the List Supervisory function:

SHOW INDIVIDUAL SUPERVISORY

Press HELP again to return to the List menu.)

alternating between the following two displays:

1-001 002

Press NEXT to show the two displays for the previous supervisory in the sequence. (Pressing HOLD freezes a display for as long as you keep HOLD depressed.)

When the System has shown all current supervisories, it returns to the List menu.

To obtain a full printed list of supervisories in the following format—one

item for each current supervisory—press PRINT when the S in SUPERVISORY is blinking.

Listing of all Supervsry at 14:35:20 Oct 09,20XX: SUPERV IN 32-45 14:34:22 Oct 09, 20XX #7

In the preceding listing, 32-45 is the address of the device in supervisory, #7 is the number of the supervisory in the current list, [custom message] is the custom message for the device in supervisory, and [device type] is the type of device in supervisory.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

[custom message]

[device type]

[custom-message]

[time/date]

[custom message], [device type]

IN SUP

Press ENTER to select SUPERVSRY and display supervisory information on the MKB-4 display.

If There Is No Supervisory:

If there is no supervisory, the System briefly displays the following message and then returns you to the List menu:

NO SUPERVISORY EXISTS

If There Is a Supervisory:

If there is at least one supervisory, the System shows the most recent supervisory,

3-24

List Security Conditions

The List Security function shows you all the security conditions currently in the System in the order they occurred.

From the List menu, use the left or right arrow key to cause the S in SECURITY to blink.

(If you press HELP at this point, the System explains the List Security function:

SHOW INDIVIDUAL SECURITY STATUS

Press HELP again to return to the List menu.)

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Press ENTER to select SECURITY and display security information on the MKB-4 display.

If There Is No Security Condition:

If there is no security condition, the System briefly displays the following message and then returns you to the List menu:

NO SECURITY EXISTS

If There Is a Security Condition:

If there is at least one security condition, the System shows the most recent security condition, alternating between the following two displays:

1-001

[custom message]

002

[device type]

1-001 002

[custom message]

[time/date]

IN SEC

press the Up arrow key to go backward one menu each time.

List: Trouble

The List Trouble function shows you all the troubles currently in the System in the order they occurred.

From the List menu, use the left or right arrow key three times to cause the T in TROUBLE to blink.

(If you press HELP at this point, the System explains the List Trouble function:

SHOW INDIVIDUAL TROUBLE STATUS

Press HELP again to return to the List menu.)

Press ENTER to select TROUBLE and display trouble information on the MKB-4 display.

Press NEXT to show the two displays for the previous security condition in the sequence. (Pressing HOLD freezes a display for as long as you keep HOLD depressed.)

When the System has shown all current security conditions, it returns to the List menu.

To obtain a full printed list of security conditions in the following format— one

item for each current security condition— press PRINT when the S in SECURITY is blinking.

Listing of all Security at 14:35:20 Oct 09,20XX: SECURTY IN 29-42 14:34:22 Oct 09,20XX

[custom message], [device type]

In the above listing 29-42 is the address of the device causing the security condition, the time when the device caused the security condition, #7 is the number of this security condition, [custom message] is the custom message for the device causing the security condition, and [device type] is the type of device causing the security condition.

If There Is No Trouble:

If there is no trouble, the System briefly displays the following message and then returns to the List menu:

NO TROUBLE EXISTS.

If There Is a Trouble:

If there is at least one trouble, the System shows the most recent trouble, alternating between the following two displays:

1-001 002

Press NEXT to show the two displays for the previous trouble in the sequence. (Pressing HOLD freezes a display for as long as you keep HOLD depressed.)

When the System has shown all current troubles, it returns to the List menu.

[custom message]

[trouble type]

[device type]

[time/date]

IN TBL

To end a menu session and return to the Main Menu or to leave the menu at any time,

To obtain a full printed list of troubles in the following format—one item for each current trouble—press PRINT when the T in TROUBLE is blinking.

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Listing of all Trouble at 14:35:20 Oct 09, 20XX: TROUBLE IN 29-41 14:34:22 Oct 09, 20XX

[custom message],[trouble type],

[device type]

In the above listing 29-41 is the address of the device in trouble, the time tells when the device went into trouble, #7 is the number of this trouble in the current list, [custom message] is the custom message for the device in trouble, [trouble type] is the type of trouble, and [device type] is the type of device in trouble.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

List: Sensitivity Settings

Use List Sensitivity to show sensitivity setting of individual smoke detectors on analog loops.

From the List menu use the left or right arrow key to cause the S in SENSTVTY to start blinking:

LIST: TROUBLE SECURITY SENSTVTY

(If you press HELP at this point, the System displays:

Press NEXT to display the address and sensitivity setting of each succeeding smoke detector. When the System has shown the sensitivity settings of all smoke detectors on that analog loop, it returns to the List menu.

To leave the List Sensitivity menu without going through the entire analog loop, press the Up arrow key. The System displays the List menu.

Print the Sensitivity Setting of All Smoke Detectors Assigned to a Specified Module

Press PRINT when the S in SENSTVTY is blinking. The System then asks for a module number.

TYPE IN MODULE NUMBER:

Type the three-digit module number and press ENTER. (Enter all leading zeros.)

The System prints the sensitivity settings (Hi_3, Hi_2, Hi_1, Norm, Low_1, Low_2 or Low_3, or ... if there is no smoke detector) of all the devices assigned to the analog loop.

Sensitivities for module 1

1- HI_3 2- ... 3- NORM 4- ... 5- ...

6- ... 7- ... 8- ... 9- ... 10- ...

11- NORM 12- ... 13- ... 14- ... 15- L OW1

[module number]

SHOW DETECTOR SENSITIVITIES

Note that List Sensitivity shows the sensitivity of smoke detectors only. Press HELP again to return to the List menu.)

Display the Sensitivity Setting of One Device

Press ENTER to select List Sensitivity. The System asks you for a module and device number.

TYPE IN MODULE & DEVICE: 001-001

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.)

The System displays the sensitivity setting of the device specified (Hi_3, Hi_2, Hi_1, Norm, Low_1, Low_2 or Low_3 ).

NOTE: You cannot print the sensitivity setting of a single smoke detector.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

List: Voltages

Use List Voltages to show the voltages of initiating devices on analog loops.

From the List menu press the Left or Right arrow key to cause the V in VOLTAGES to start blinking:

LIST: SECURITY, SENSTVTY, VOLTAGES

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(If you press HELP at this point, the System displays:

SHOW DETECTOR VOLTAGES

Press HELP again to return to the List menu.)

Display the Voltage of One Device

Press ENTER to select List Voltages. The System asks you for a module number and device number. Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.) The System shows the following menu for that device (the A in ANALOG will be blinking):

001-001 ANALOG THRESH SENS

Press ENTER to show the Analog voltage for that device. When you ask for any voltage, the System displays Please wait for response until it receives a reading from the device; if you have just reset the System, it alternates the above message with the message Device being initialized. The display for Analog voltage is similar to the following (readings are dynamic):

001-001 ANALOG2 = 2.75 VOLTS

If the module number entered is not an analog loop, the System displays:

Not Analog Loop.

If the device address has no device assigned by CSG-M, the System displays:

No Device Assigned

When displaying sensitivities, if the device is not a smoke detector, the System displays:

Not a Smoke Detector

Print the Voltage of All Devices Assigned to a Specified Module

Press PRINT when the V in Voltages is blinking. The System asks you for a module number. Type the three-digit module number and press ENTER. (Enter all leading zeros.)

002-001 Analog Thresh Sens

Press ENTER to print the Analog voltage for all devices assigned to the module (ND = No Device).

Press ENTER to return to the previous display. To view the Threshold or Sensitivity voltage of any device listed, use the Right and Left arrow keys to highlight the first letter of the category desired and press ENTER.

The display for Threshold voltage is similar to the following:

001-001 THRESHOLD = 4.75 VOLTS

The display for Sensitivity voltage is similar to the following (readings are dynamic):

001-001 SENSITIVITY = 2.62 VOLTS

Press the Up arrow key to return to the List: Voltage Mod_type Dev_type menu.

ANALOG VOLTAGES FOR MODULE 1

1- 2.00 2- 2.00 3- ND 4- ND 5- ND

6- ND 7- ND 8- ND 9- ND 10- ND

11- ND 12- ND 13- ND 14- ND 15- ND

To print the Threshold voltages of all the devices for the specified module, use the arrow keys to cause the T in THRESH to blink and press PRINT. The System prints those threshold voltages in a format similar to the following (ND = No Device):

THRESHOLD VOLTAGES FOR MODULE 1

1- 4.75 2- 4.75 3- ND 4- ND 5- ND

6- ND 7- ND 10- ND 8- ND 9- ND

11- ND 12- ND 13- ND 14- ND 15- ND

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Operation

To print the Sensitivity voltages of all the smoke detectors for the specified module, use the arrow keys to cause the S in SENS to blink and press PRINT. The System prints those sensitivity voltages in a format similar to the following (ND = No Device, or device not a smoke detector):

SENSITIVITY VOLTAGES FOR MODULE 1

1- 2.75 2- 2.62 3- ND 4- ND 5- ND

6- ND 7- ND 10- ND 8- ND 9- ND

11- ND 12- ND 13- ND 14- ND 15- ND

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

List: Temp

Use List Temp to display the current temperature on the LCD display at the location where the detector is installed.

From the List menu use the left or right arrow key to cause the T in Temp to start blinking:

LIST: TEMP

To leave the Temp menu without going through all subaddresses, press the Up arrow key. The System displays the List menu.

List: Module Type

Use the List Mod_type to show the type of a particular module.

From the List menu use the Left or Right arrow key to cause the M in MOD TYPE to start blinking:

LIST: VOLTAGES MOD TYPE SENSTVTY

(If you press HELP at this point, the System explains this function:

SHOW THE TYPE OF MODULE

Press HELP again to return to the List menu.)

Display the Module Type of One Module

Press ENTER when the M in MOD_ TYPE is blinking. The System asks you for a module number:

Press ENTER to select List Temp. The System asks you for a module and device number:

Type In Module & Device:

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER.

If the device is not installed or is not an FP-11 or FPT-11, the system displays following message:

Not Applicable or No Device:

If the device is an FP-11 or FPT-11, the temperature is displayed in the following format:

001-001 25 DEG C / 77 DEG F

Press NEXT to display the temperature of the FP-11 or FPT-11 at the next higher address in the same loop.

TYPE IN MODULE NUMBER:

Type the three-digit module number using the numeric keypad and press ENTER. (Enter the leading zeros.) The System displays the module type for the module number specified:

MOD 074 TYPE: CZM4

If you press NEXT, the System displays the module type for the next module number in the sequence:

MOD 075 TYPE: ALD

NOTE: If you enter a module number not

assigned in CSG-M, the System displays:

NO MOD ASSIGNED

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Operation

With each press of NEXT, the System continues to display module types through number 255, the highest module number allowed by the System. It then returns to the List menu.

Print the Module Type and Network Address of All Modules

Press PRINT when the M in MOD_ TYPE is blinking to print a full list of module types and their Network addresses. The System prints a list similar to the following:

Listing of Module Types:

1- V7 ALD 2- V7 ALD

3- V4 CZM-4

251- V5 MKB-4 253- V1 MXL-IQ Panel

In the above display, the number following the V (for example, V7) is the software version number of the software installed in the module.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.) The System displays the device type for the address specified:

004-001 TYPE:

[device type]

If you press NEXT, the System displays the device type for the next device in the sequence:

004-002 TYPE:

[device type]

With each press of NEXT, the System continues to display device types until there are no more devices for that module. The System then returns to the List menu. To proceed to another module, follow the preceding instructions.

Print a List of Devices Assigned to a Specified Module

Press PRINT when the D is blinking to select LIST DEVICE. The System asks you for a module number:

List: Device Type

Use List Device Type to show the type of a particular device.

From the List menu use the Left or Right arrow key to cause the D in DEV_TYPE to start blinking:

LIST: VOLTAGES MOD TYPE DEV TYPE

(If you press HELP at this point, the System displays:

SHOW THE TYPE OF DEVICE

Press HELP again to return to the List menu.)

Display the Device Type of a Specified Device

Press ENTER when the D is blinking to select LIST DEV_TYPE.

The System asks you for a module and device number:

TYPE IN MODULE NUMBER:

Type only the module number and press PRINT. (Enter all leading zeros.) The System prints a list of all device types assigned to the specified module in a format similar to the following:

Listing of Device Types Module 1 (ALD): 1-TRI-D Dual Switch Input

2-TRI-D Dual Switch Input

4-TRI-D Switch input + Relay

5-TRI-S Switch Input

7-TRI-S Switch Input

10-ID-60T-135 Thermal Detector

11-ID-60T-135 Thermal Detector

15-ID-60I Ionization Detector

16-ID-60I Ionization Detector

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

TYPE IN MODULE & DEVICE:

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Operation

List: Message

Use List Message to show the CSG-M assigned custom message of a particular device.

From the List menu use the Left or Right arrow key to cause the M in MESSAGE to start blinking:

LIST: MOD TYPE DEV TYPE MESSAGE

(If you press HELP at this point, the System displays:

SHOW MESSAGE FOR A DEVICE

Press HELP again to return to the previous display.)

Display the Device Message of a Specified Device

Press ENTER when the M in MESSAGE is blinking to select List Message.

Print a List of System Messages for a Specified Module

Press PRINT when the M in MESSAGE is blinking to select List Message. The System asks you for a module number:

TYPE IN MODULE NUMBER:

Type only the module number and press PRINT. (Enter all leading zeros.) The System prints a list of all the custom device messages for the specified module in a format similar to the following:

Listing of Messages in Module 1 (ALD): 4-Conf.Rm 5-Cafeteria 6-Exec. Off. 1 7-Cmptr Rm 8-Exec. Off. 2 9-Camera Rm 10-Exec. Off. 3 11-Conf. Rm

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

The System asks you for a module and device number:

TYPE IN MODULE & DEVICE:

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. The System displays the message for the address specified:

069-001

If you press NEXT, the System displays the message for the next device number in the sequence:

069-002

With each press of NEXT, the System continues to display device messages until there are no more devices for that module.

[custom message]

List: Software Version

Use List Software Version to show:

1. System Custom Message

2. MXL-IQ Software Version

3. Version of CSG-M used to Create the System

4. CSG-M File Name Installed

5. Date and Time of Installation

From the List menu use the Left or Right arrow key to cause the S in S/W_VERSION to start blinking:

LIST: S/W VERSION STATUS

(If you press HELP at this point, the System displays:

SHOW SOFTWARE VERSION

Press HELP again to return to the previous display.)

To proceed to another module, follow the preceding instructions.

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Display the Software Version of Your System Software

Press ENTER when the S is blinking to select List S/W_VERSION.

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Operation

The System displays the CSG-M assigned System custom message:

MSG

[system custom message]

Press NEXT again to display the MXL-IQ software version:

MXL-IQ VERSION:

Press NEXT again to display the version of CSG-M used to create this System.

CSG VERSION:

Press NEXT again to display the CSG-M file name installed.

SOURCE:

Press NEXT again to display the date and time of CSG-M installation:

LOADED:

[file name]

[time and date]

[version number]

From the List menu use the left or right arrow key to cause the O in Output States to start blinking:

LIST: OUTPUT STATES

(If you press HELP at this point, the System displays:

SHOW/PRINT OUTPUT STATES

Press HELP again to return to the List menu.)

Display the Output States of One Device

Press ENTER to select List Output States. The System asks you for a module and device number.

TYPE IN MODULE & DEVICE: 001-001

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.)

Print the Software Version of Your System Software

Press PRINT when the S in SW_ VERSION is blinking to select List S/ W_Version. The System prints the System

Custom Message, MXL-IQ Software Version, Version of CSG-M Used to Create the System, CSG-M File Name Installed, and Date and Time of Installation:

Software Version Information at 11:35:30 Jul 01, 20XX

Installation:

MXL-IQ Version: 1.00 CSG Version: 6.09 Source: 05OCT00 Loaded: 16:09:35 Oct 05, 20XX

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

[system custom message]

List: Output States

Use List Output States to show the current states of individual outputs in the MXL-IQ.

The System displays the output state of the device specified.

Press NEXT to display the address and output state of each succeeding device. When the System has shown the output states of all devices at that address, it returns to the List menu.

To leave the List output state menu without going through all subaddresses, press the Up arrow key. The System displays the List menu.

Print the Device Output State of Devices Assigned to a Specified Module

Press PRINT when the O in Output State s is blinking. The System then asks for a module number.

TYPE IN MODULE NUMBER: [module number]

Type the three-digit module number and press ENTER. (Enter all leading zeros.)

The System prints the output state of all of the devices assigned to that module.

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Operation

Listing of Output States for Module 1 (ALD): 1-Auxiliary Output: OFF

2-Auxiliary Output: ON

3-Auxiliary Output: ON

4-Auxiliary Output: OFF

List: Device Usages

Use List Device Usages to show the uses of individual devices as programmed in CSG-M.

From the List menu, use the left or right arrow key to cause the D in DEV_USAGES to start blinking:

LIST: DEV USAGES

(If you press HELP at this point, the System displays:

SHOW/PRINT DEVICE USAGES

Press HELP again to return to the List menu.)

Display the Usage of One Device

Press ENTER to select List Dev_usages. The System asks you for a module and device number.

TYPE IN MODULE & DEVICE: 001-001

Print the Device Usages of Devices Assigned to a Specified Module

Press PRINT when the D in DEV_USAGES is blinking. The System then asks for a module number.

TYPE IN MODULE NUMBER: [module number]

Type the three-digit module number and press ENTER. (Enter all leading zeros.)

The System prints the uses of all of the devices assigned to that module.

Listing of Device Usages for module 1 (ALD)

1- ALARM 2- TROUBLE 3- STATUS

4- ALARM 5- TROUBLE 6- OUTPUT ONLY

List: Node Address

Use List Node Address to show the panel's X-Net node address.

From the List menu, use the left or right arrow key to cause the N in NODE AD- DRESS to start blinking:

LIST: NODE ADDRESS

Display the Node Address

Press ENTER to select List Node Address. The System displays the X-Net node address for that particular MXL-IQ panel.

3-32

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.)

The System displays the use of the device specified (i.e., Alarm, Trouble, or Status).

Press NEXT to display the address and use of each succeeding device. When the System has shown the uses of all devices at that address, it returns to the List menu.

To leave the List Dev_usage menu without going through all subaddresses, press the Up arrow key. The System displays the List menu.

List: Air Sampling

Use List Air Sampling to display operational characteristics of the Air Sampling devices.

Press ENTER when the A in AIR SAMPLING is blinking to select List AIR SAMPLING.

Use the Left or Right arrow to move to the following selections:

AIR SAMPLING: Smoke Lev Flow Lev Trip Pts

(If you press HELP at this point, the System displays:

DISPLAY AIR SAMPLING SMOKE LEVEL

Press HELP again to return to the List menu.)

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Operation

List Air Sampling – Smoke_Lev

Press ENTER when the S in SMOKE_LEV is blinking to select List AIR SAMPLING

SMOKE_LEV.

The System asks you for a module and device number:

TYPE IN MODULE & DEVICE

Type the three-digit NIM-1 (ASP) module number and three-digit Air Sampling device address number using the numeric keypad and press ENTER. The system displays the smoke level for the address specified:

010-004 50% >>!* *<< PRE1

The bar graph in the example above shows the following information for the Air Sampling device at address 010-004:

50% = 50% of full scale smoke level ! = active trip point at 30% * = inactive trip point at 60% and 100% PRE1 indicates the device is in PreAlarm 1

PRE2 and ALRM indicate the PreAlarm 2 and Alarm states, respectively. The bargraph continuously updates to reflect the current state of the Air Sampling zone that is being viewed.

Print the Air Sampling Smoke Level

Press PRINT when the S in SMOKE_LEV is blinking to print the AIR SAMPLING SMOKE_LEV.

The System asks you for a module number:

For printed bar graphs, the characters shown below indicate the following:

. = an inactive trip point ! = an active trip point

List Air Sampling – Flow_Lev

Press ENTER when the F in FLOW_LEV is blinking to select LIST AIR SAMPLING

FLOW_LEV.

The System asks you for a module and device number:

TYPE IN MODULE & DEVICE

Type the three-digit NIM-1 (ASP) module number and three-digit Air Sampling device address number using the numeric keypad and press ENTER. The System displays the air flow level for the address specified:

010-004 50% >>! * << NORM

The bar graph in the example above shows the following information for the Air Sampling device at address 010-004:

50% = 50% of full scale air flow level ! = low air flow trip point at 20% * = high air flow trip point at 90%

NORM indicates that the current air flow level is at a normal level, HIGH indicates airflow is too high, and LOW indicates airflow is too low. The bar graph continuously updates to reflect the current state of the Air Sampling zone that is being viewed.

TYPE IN MODULE NUMBER:

Type the three-digit NIM-1 (ASP) module number and press ENTER. The System sends smoke levels for all devices on the selected MODULE to the printer.

Air Sampling Smoke Levels at 13:23:31 Jan 03, 20XX 010-001 13:23:31 Jan 03,20XX

0% Scale >> . . .<< NORM, Cust Msg 1

010-002 13:23:32 Jan 03,20XX

100% Scale >>!!!<< ALRM, Cust Msg

010-010 13:23:31 Jan 03,20XX

42% Scale >>! . .<< PRE1, Cust Msg 10

010-011 13:23:32 Jan 03,20XX

100% Scale >>!! .<< PRE2, Cust Msg 11

Print the Air Sampling Flow Level

Press PRINT when the F in FLOW_LEV is blinking to print the AIR SAMPLING FLOW_LEV.

The System asks you for a module number:

TYPE IN MODULE NUMBER:

Type the three-digit NIM-1 (ASP) module number and press ENTER. The System sends air flow levels for all devices on the selected MODULE to the printer.

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Operation

Air Sampling Air Flow Levels at 13:23:31 Jan 03, 20XX 010-001 13:23:31 Jan 03,20XX

0% Scale >> . . << LOW, Cust Msg 1

010-002 13:23:32 Jan 03,20XX

100% Scale >>! !<< HIGH, Cust Msg

010-010 13:23:31 Jan 03,20XX

42% Scale >>! . << NORM, Cust Msg 10

010-011 13:23:32 Jan 03,20XX

100% Scale >>! . << NORM, Cust Msg 11

List Air Sampling – Trip_pts

Press ENTER when the T in TRIP_PTS is blinking to select LIST AIR SAMPLING

TRIP_PTS.

The System prompts you to select between ALARM_TRIP and FLOW_TRIP.

Press ENTER when the A in ALARM_TRIP is blinking to select LIST TRIP_PTS

ALARM_TRIP.

The System asks you for a module and device number.

TYPE IN MODULE & DEVICE

ALRM: 100%, Cust Msg 10

010-011 13:23:31 Jan 03,20XX, PRE1: 50% PRE2: 80%

ALRM: 100%, Cust Msg 11

Press ENTER when the F in FLOW_TRIP is blinking to select LIST TRIP_PTS

FLOW_TRIP.

The System asks you for a module and device number.

TYPE IN MODULE & DEVICE

Type the three-digit NIM-1 (ASP) module number and three-digit Air Sampling device address number using the numeric keypad and press ENTER. The System displays the current air flow trip point settings for the address specified:

010-004 LOW: 20% HIGH: 80%

Print the Air Sampling Flow Trip Pts

Press PRINT when the F in FLOW_TRIP is blinking to print the AIR SAMPLING FLOW_TRIP points.

Type the three-digit NIM-1 (ASP) module number and three-digit Air Sampling device address number using the numeric keypad and press ENTER. The System displays the current alarm trip point settings for the address specified:

010-004 P1: 20% P2: 60% ALM: 90%

Print the Air Sampling Alarm Trip Pts

Press PRINT when the A in ALARM_TRIP is blinking to print the AIR SAMPLING ALARM_TRIP points.

The System asks you for a module number:

TYPE IN MODULE NUMBER:

Type the three-digit NIM-1 (ASP) module number and press ENTER. The System sends alarm trip point levels for all devices on the selected MODULE to the printer.

Air Sampling Alarm Trip Points at 13:23:31 Jan 03, 20XX 010-001 13:23:31 Jan 03,20XX, PRE1: 10% PRE2: 30%

ALRM: 100%, Cust Msg 1

010-002 13:23:31 Jan 03,20XX, PRE1: 30% PRE2: 50%

ALRM: 90%, Cust Msg 2

010-010 13:23:31 Jan 03,20XX, PRE1: 10% PRE2: 50%

The System asks you for a module number:

TYPE IN MODULE NUMBER:

Type the three-digit NIM-1 (ASP) module number and press ENTER.

The System sends air flow trip point levels for all devices on the selected MODULE to the printer.

Air Sampling Air Flow Trip Points at 13:23:31 Jan 03, 20XX 010-001 13:23:31 Jan 03,20XX, LOW: 10% HIGH: 90%,

Cust Msg 1

010-002 13:23:31 Jan 03,20XX, LOW: 20% HIGH: 80%,

Cust Msg 1

010-010 13:23:31 Jan 03,20XX, LOW: 30% HIGH: 70%,

Cust Msg 1

010-011 13:23:31 Jan 03,20XX, LOW: 10% HIGH: 80%,

Cust Msg 1

List: Percent/ft

Use List Percent/ft to show settings in percent/ft obscuration of the ILI and ILP Series detectors.

From the List menu, use the left or right arrow key to cause the P in PERCENT/FT to start blinking:

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Operation

LIST: PERCENT/FT

Press ENTER to select List Percent/ft. The System asks you for a module and device number.

TYPE IN MODULE & DEVICE: 001-001

Type in the three-digit module number and the three-digit device number using the numeric keypad and press ENTER. The System displays the following menu for that device (the S in Senstvty will be blinking):

002-003 SENSTVTY PRE-ALARM ANALOG

List Percent/ft – Senstvty

The display for Sensitivity supplies the current sensitivity as read back from the detector and is similar to the following (readings are dynamic):

002-003 SENS 1.4%/FT NORM

List Percent/ft – Pre-alarm

The display for Pre-alarm supplies the current Pre-alarm setting read back from the detector and is similar to the following (readings are dynamic):

Print the Analog Loop’s Current Readings in Percent/ft Obscuration

Press PRINT when the P in Percent/ft is blinking. The System asks you for a module number.

TYPE IN MODULE NUMBER:

Type the three-digit module number using the numeric keypad and press ENTER. The System shows the following menu for that device (the S in Senstvty will be blinking):

001-001 SENSTVTY PRE-ALARM ANALOG

The System prints either the Sensitivity, Prealarm, or Analog of all the devices for the specified module in a format similar to the following (NA = ID-60 detector):

%/ft SENSITIVITIES FOR MODULE 2 1-3.00 2-NA 3-1.4 4-3.1 5-1.4 6-1.4 7-ND 8-ND 9-ND 10-ND 11-ND 12-ND 13-ND 14-ND 15-ND 16-ND 17-ND 18-ND 19-ND 20-ND 21-ND 22-ND 23-ND 24-ND 25-ND 26-ND 27-ND 28-ND 29-ND 30-ND 31-ND 32-ND 33-ND 34-ND 35-ND 36-ND 37-ND 38-ND 39-ND 40-ND 41-ND 42-ND 43-ND 44-ND 45-ND 46-ND 47-ND 48-ND 49-ND 50-ND 51-ND 52-ND 53-ND 54-ND 55-ND 56-ND 57-ND 58-ND 59-ND 60-ND

002-003 PRE-ALARM 1.4%/FT NORM

List Percent/ft – Analog

The display for Analog supplies the current analog2 reading read from the detector and is similar to the following (readings are dynamic):

002-003 SENS 1.4%/FT NORM

To leave the Percent/ft menu without going through all subaddresses, press the Up arrow key. The System displays the List menu.

List: ASD_apps

Use List ASD_apps to display operational characteristics of the ASD devices.

From the List menu use the left or right arrow key to cause the A in ASD_Apps to start blinking:

LIST: ASD APPS

Display the Operational Characteristics of One Device

Press ENTER to select ASD_apps. The System asks you for a module and device number:

TYPE IN MODULE & DEVICE:

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Operation

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.)

The System displays the currently assigned application for the device specified. (Refer to the ASD Submenu Abbreviations on page I-1.)

Press NEXT to display the address and assigned application of each succeeding device. The System will exit the ASD_Apps menu if there are no more ASD devices in that module.

To leave the List ASD_Apps menu at any time, press the Up arrow key. The System displays the List menu.

To print the operational characteristics of the ASD devices assigned to an ALD Loop

Press PRINT when the A in ASD_Apps is blinking. The System asks you for a module number:

TYPE IN MODULE NUMBER:

Type the three-digit module number using the numeric keypad and press ENTER. (Enter all leading zeros.) The System prints a list of all the applications currently assigned to all the ASD devices in that ALD loop in a format similar to the following (ND = No Device):

1-NONE 2-PARK 3-ND 4-ND 5-ND 6-ND 7-ND 8-ND 9-ND 10-ND 11-ND 12-ND 13-ND 14-ND 15-ND 16-ND 17-ND 18-ND 19-ND 20-ND 21-ND 22-ND 23-ND 24-ND 25-ND 26-ND 27-ND 28-ND 29-ND 30-ND 31-ND 32-ND 33-ND 34-ND 35-ND 36-ND 37-ND 38-ND 39-ND 40-ND 41-ND 42-ND 43-ND 44-ND 45-ND 46-ND 47-ND 48-ND 49-ND 50-ND 51-ND 52-ND 53-ND 54-ND 55-ND 56-ND 57-ND 58-ND 59-ND 60-ND

CONTROL Menu

The Control menu has nine items from which to choose; six of the items have submenus, as follows (the shortened terms used in the menu are in parentheses):

Reset Sensitivity (Senstvty)

Hi_3 Hi_2 Hi_1 Norm Low_1 Low_2 Low_3

Arm/Disarm (Arm/dis)

Arm Disarm

Output_on/off

Arm Disarm

Energize De_energize

Loop arm/disarm

arm

disarm Net_link_request Air Sampling

Alarm-trip

Flow-trip Percent/ft

Sensitivity(Senstvty)

Pre-alarm Change-apps

Use the Control menu to perform the following functions:

• Reset the System

• Change the sensitivity of a smoke detector

• Arm or disarm an initiating device

• Arm an output device

• Disarm and energize an output device

• Disarm and de-energize an output device

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Operation

• Arm and disarm a loop

• Send a request to the Network Command Center (NCC) to disconnect the MXL from the network

• Change Air Sampling Alarm Trip points and Flow Trip points

• Change sensitivity and pre-alarm settings in percent/ft obscuration of the ILI and ILP detectors

• Change the application of an ASD device

Entering the Control Menu

From the Main Menu, use the arrow keys to cause the C in CONTROL to blink.

(If you press HELP at this point, the System explains the Control function:

TO MODIFY DATA FOR OPERATION

Press HELP again to return to the Main Menu.)

(If you press HELP while the R in RESET is blinking, the System explains this function:

RESET SYSTEM

Press HELP again to return to the above menu.)

Press ENTER to reset the System and display the following message:

SYSTEM RESET

If the System is normal, when SYSTEM RESET is selected, the System displays the following:

SYSTEM ALREADY NORMAL

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Press ENTER to select CONTROL. The System asks you for a password

before it allows you to use the Control functions. Enter your one- to five-digit password, using the numeric keypad, and press ENTER (See the discussion under Entering Your Password on page 3-17).

If the System accepts your password, it displays the first Control menu, with the R in RESET blinking:

CONTROL: RESET SENSTVTY ARM/DIS

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Control: Reset

Use Control Reset to initiate a system reset at any time.

From the Control menu, use the Left or Right arrow key to cause the R in RESET to start blinking:

Control: Sensitivity

Use Control Sensitivity to change the sensitivity settings of smoke detectors on analog loops.

From the Control menu, press the Right or Left arrow key to cause the S in SENSTVTY to start blinking:

CONTROL: RESET SENSTVTY ARM/DIS

(If you press HELP at this point, the System displays:

CHANGE SENSITIVITY

Press HELP again to return to the above menu.)

Note that Control Sensitivity allows you to change the sensitivity settings of smoke detectors only; if you attempt to change the sensitivity setting of another type of device, the System displays:

[001-001] NOT SMOKE DETECTOR

CONTROL: RESET SENSTVTY ARM/DIS

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Operation

If you enter any address for which there is no device assigned, the System displays:

NO DEVICE ASSIGNED

Press ENTER while the S in SENSTVTY is blinking to select CONTROL SENSTVTY.

The System asks you for a module number and device number:

TYPE IN MODULE & DEVICE:

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. The System shows the following display:

001-001 Norm Hi 1 Hi 2 Hi 3

The current sensitivity setting is highlighted. The System offers you a choice of seven levels of sensitivity: Hi_3, Hi_2, Hi_1, Norm, Low_1, Low_2 or Low_3. Use the Right and Left arrow keys to highlight the level you wish to set for the smoke detector specified and press ENTER. The System makes the change in sensitivity setting.

Press NEXT to move through the devices until you display the ones you want to change, and follow the instructions above for making the changes.

When the System has displayed the highest numbered device for the module specified, it returns to the Control menu. You can select another address by selecting SENSTVTY and following the instructions above.

To leave the Control Sensitivity displays without going through the entire list, press the Up arrow key. The System displays the Control menu.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Control: Arm/dis

Use Control Arm/dis to enable or disable the operation of an initiating device.

From the Control menu, press the Left or Right arrow key to cause the A in ARM/DIS to start blinking.

(If you press HELP at this point, the System displays:

DISARM OR ARM DEVICES

Press HELP again to return to the Control menu.)

Press ENTER while the A in ARM/DIS is blinking to select Control Arm/dis.

The System asks you for the module number and device number of the detector you wish to arm or disarm. Type the threedigit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.) The System displays:

001-001 ARM DISARM

The System offers you a choice of arming or disarming the device. Use the Right and Left arrow keys to highlight your choice and press ENTER. The System makes the change.

When you disarm an input device, the System automatically annunciates the disarming as a Trouble and lights the PARTIAL SYSTEM DISABLE LED.

Press NEXT to move through the devices until you display the ones you want to change; follow the instructions above for making the changes.

When the System has displayed the highest numbered device for the module specified, it returns to the Control menu. To arm or disarm another module device, select ARM/DIS and follow the preceding instructions.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

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Control: Output on/off

Use Control Output_On/Off to arm or disarm an output device. In addition, you can energize or de-energize disarmed output devices.

From the Control menu, press the Left or Right arrow key to cause the O in OUTPUT to start blinking:

CONTROL ARM/DIS OUTPUT ON/OFF

(If you press HELP at this point, the System displays:

TURN OUTPUTS ON OR OFF

Press HELP again to return to the above menu.)

Press ENTER while the O in OUTPUT is blinking to select CONTROL_OUTPUT ON/ OFF.

The System asks for a module number and device number of the device you wish to turn on or off (energize or de-energize). Type the three-digit module number and threedigit device number using the numeric keypad and press ENTER. (Enter all leading zeros.)

The System shows the following display:

253-005 ARM DISARM

253-005 ENERGIZE DE ENERGIZE

Use the Right or Left arrow key to energize or de-energize the device and press ENTER. Press NEXT to move through the outputs until you display the ones you want to change; follow the instructions above for making the change.

When the System has displayed the highest numbered device for the module specified, it returns to the Control menu. To arm or disarm and energize or de-energize a device on a different module, follow the preceding instructions.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Control: Loop Arm

Use Control Loop Arm to enable the opera- tion of a loop of ALD initiating devices.

From the Control menu, press the Left or Right arrow key to cause the L in LOOP_ARM to start blinking.

(If you press HELP at this point, the System displays:

TO ARM ALL INPUTS ON A LOOP

The System offers you a choice of arming or disarming the device.

Use the Right and Left arrow keys to highlight your choice and press ENTER.

If you have armed the device, you can press NEXT to display the number of the next device in the sequence. You can also press the Up arrow key to return to the Control menu.

NOTE: You must first disarm a device if you wish to energize or de-energize it.

When you disarm an output device, the System automatically annunciates the disarming as a Trouble and a Partial System Disable.

If you choose to disarm an output device, the System then asks if you wish to energize it or de-energize it:

Press HELP again to return to the Control menu.)

Press ENTER while the L in LOOP_ARM is blinking to select Control Loop_arm.

The System asks you for the module number of the ALD loop you wish to arm. Type the three-digit module number using the numeric keypad and press ENTER. (Enter all leading zeros.)

When you arm input devices, the System automatically annunciates the arming as a Trouble OUT, and lights the PARTIAL SYSTEM DISABLE LED.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

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Control: Loop Disarm

Use Control Loop Disarm to disable the operation of a loop of ALD initiating devices.

From the Control menu, press the Left or Right arrow key to cause the L in LOOP_DISARM to start blinking.

(If you press HELP at this point, the System displays:

TO DISARM ALL INPUTS ON A LOOP

Press HELP again to return to the Control menu.)

Press ENTER while the L in LOOP_DISARM is blinking to select Control Loop_disarm.

The System asks you for the module number of the ALD loop you wish to disarm. Type the three-digit module number using the numeric keypad and press ENTER. (Enter all leading zeros.)

When you disarm input devices, the System automatically annunciates the disarming as a Trouble IN, and lights the PARTIAL SYSTEM DISABLE LED.

Press ENTER while the N in NET_LINK_REQUEST is blinking to disconnect the panel from the X-Network.

To reconnect the panel to the X-Network, from the Control menu, press the Left or Right arrow key to cause the N in NET_LINK_REQUEST to start blinking and press ENTER.

Control: Air Sampling

Use Control AIR SAMPLING to display and change the operational characteristics of the Air Sampling devices.

Press ENTER when the A in AIR SAMPLING is blinking to select Control AIR SAMPLING.

The System prompts you to select between ALARM_TRIP and FLOW_TRIP.

Press ENTER when the A in ALARM_TRIP is blinking to select CONTROL ALARM_TRIP.

The System asks you for a module and device number.

TYPE IN MODULE & DEVICE

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Control: Net Link Request

Use Control Net_Link_Request to connect or disconnect that particular panel from the X-Network. When the panel is disconnected from the X-Network, the panel maintains its functions, but it does not exchange messages with other nodes in the X-Network.

From the Control menu, press the Left or Right arrow key to cause the N in NET_LINK_REQUEST to start blinking.

(If you press HELP at this point, the System displays:

REQUEST NCC DISCONNECT/RECON NODE

Press HELP again to return to the Control menu.)

Type the three-digit NIM-1 (ASP) module number and three-digit Air Sampling device address number using the numeric keypad and press ENTER. The system displays the current alarm trip point settings for the address specified:

010-004 P1: 20% P2: 60% ALM: 90%

Use the numeric keypad and the left and right arrow keys to modify the value for P1, P2, and ALM (Alarm). Note that the following provisions apply:

• P1 must be less than or equal to P2 which must be less than or equal to ALM. If these values are different, the System will reject the settings.

• P1, P2, and ALM must be even multiples of 10% or the System will reject the settings.

Press ENTER when you are finished modifying the settings. The display should then show:

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TRIP POINTS ACCEPTED

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Operation

TRIP POINTS INVALID.

Press ENTER when the F in FLOW_TRIP is blinking to select Control FLOW_TRIP.

The System asks you for a module and device number.

TYPE IN MODULE & DEVICE

Type the three-digit NIM-1 (ASP) module number and three-digit Air Sampling device address number using the numeric keypad and press ENTER. The system displays the current air flow trip point settings for the address specified:

010-004 LOW: 20% HIGH: 60%

Use the numeric keypad and the left and right arrow keys to modify the value for LOW and HIGH. Note that the following provisions apply:

• LOW must be less than HIGH, or the System will reject the settings.

• The System will reject the settings if they are not even multiples of 10%.

Control Percent/ft - Senstvty

The display for Sensitivity supplies the current sensitivity as read back from the detector and is similar to the following (readings are dynamic):

002-003 SENS 1.4%/FT NORM

In the previous message, 002-003 is the address. Sens is the type of response (Sensitivity or Pre-alarm). 1.4%/ft is the smoke detector reading in %/ft obscuration and Norm is the text sensitivity range corresponding to the %/ft readings.

Use the left and right arrow keys on the keypad to lower or raise the %/ft reading. (Refer to the Sensitivity and Pre-Alarm Settings chart that follows.)

OTOHPNOI

tsujdamrala-erP

tnemercni

egnarmrala-erP.tf/%0.2-52..tf/%57.-52.

tluafedmrala-erP.tf/%5.1.tf/

.tf/%52..tf/%21.

%57.

Press ENTER when you are finished modifying the settings. The display should then show TRIP POINTS ACCEPTED.

Control: Percent/ft

Use Control Percent/ft to change sensitivity and pre-alarm settings in percent/ft obscuration of the ILI and ILP series of detectors.

From the Control menu, press the Left or Right arrow key to cause the P in Percent/ft to start blinking. The System asks you for a module number and device number.

TYPE IN MODULE & DEVICE:

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. The System displays the following:

001-001 SENSTVTY PRE-ALARM

tsujdaytivitisneS

tnemercni

egnarytivitisneS.tf/%4.3-52.1.tf/%6.1-6.

)mroN(

tluafedytivitisn

.tf/%52.~.tf/%21.~

.tf/%0.3.tf/%4.1

After you change the sensitivity setting, the System prints the information for the selected device in a format similar to the following:

CMD CHANGE SENS 06:38:20 JUN 2, 20XX 002-004 1.4%/FT NORM

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Control Percent/ft - Pre-alarm

The display for Pre-alarm supplies the current pre-alarm setting read back from the detector and is similar to the following (readings are dynamic):

002-003 PRE-ALARM .75%/FT NORM

In the previous message, 002-003 is the address. Pre-alarm is the type of response (Sensitivity or Pre-alarm). .75%/ft is the smoke detector reading in %/ft obscuration and Norm is the text sensitivity range corresponding to the %/ft readings.

Use the left and right arrow keys on the keypad to lower or raise the %/ft reading. (Refer to the Sensitivity and Pre-Alarm Settings chart.)

After you change the pre-alarm setting, the System prints the information for the selected device in a format similar to the following:

Type the three-digit module number and three-digit device number using the numeric keypad and press ENTER. (Enter all leading zeros.)

Use the arrow keys to cycle through the 11 supported applications described in the ASD Submenu Abbreviations on page I-1, in Appendix I, and press ENTER to select the desired application.

The transaction and the time that it occurs will be printed on the printer as a confirmation. The example shown below assumes that no application is currently assigned to module 001, device 001:

Control: Change_Apps Reset > [Press ENTER]

Type in Module & Device: 001-001 [Enter module-device number, including all leading zeros]

001-001 NONE OFFC WHSE LOBY > [Use arrow keys to select the desired application]

001-001 NONE OFFC WHSE LOBY > [Press ENTER]

CMD CHANGE PRE-ALM 06:38:20 JUN 2, 20XX 002-004 1.4%/FT NORM

NOTE: Because the pre-alarm and sensitivity settings overlap, set the pre-alarm to at least an increment below the sensitivity setting.

Control: Change Apps

Use Control Change_Apps to change the application of an ASD device.

From the Control menu, press the Left or Right arrow key to cause the C in Change_Apps to start blinking.

(If you press HELP at this point, the System displays:

CHANGE DEVICE’S APPLICATIONS

Press HELP again to return to the Control menu.)

Press ENTER while the C in Change_Apps is blinking to select Control Change_Apps.

The System asks you for the module and device number.

TYPE IN MODULE & DEVICE:

A statement will be printed out to confirm the change:

COMMAND 20XX 001-001 NONE —> OFFC

To leave the Change_Apps menu at any time, press the Up arrow key.

NOTE: If the ASD application is changed while Test ASD is on, the changes will not be effective until Test ASD is turned off.

CHANGE_APPS 09:41:43 AUG 07,

TEST Menu

The Test menu has sixteen items from which to choose; three of those items have submenus, as follows (the shortened terms used in the menu itself are in parentheses):

Set_time Ground fault (GND_FLT) Power*

Main

Voltage Current

Lamp_test

LEDs Display

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Device_LED MOI_Lamp_test X_Network* M_Network* Override Det_cleaned Event_log

Alrm_only Trbl_only Superv_only Security_only All_events Hist_Ctrl

Hist_Erase PYRO_Diags PRE_ALARM ASD_DEVICES SUMMARIZE MANUAL_ACTIVATE

*You can print a report of the information produced by these functions. See the discussions for Test Power and Test Network.

Entering the Test Menu

From the Main Menu, use the Left or Right arrow keys to cause the T in TEST to begin blinking.

(If you press HELP at this point, the System explains the Test function:

TO TEST SYSTEM, LOOP & DEVICE

Press HELP again to return to the Main Menu.)

Press ENTER to select TEST. The System asks you for a password before it allows you to use the Test functions. Enter your one- to five-digit password, using the numeric keypad, and press ENTER (See the discussion under Entering Your Password on page 3-17).

If the System accepts your password, it displays the first Test menu.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Use the Test menu for the following functions:

• Change the time and date in the System

• Test ground fault state

• Display the System’s power condition

• Test the LEDs or the display on the MKB-4

• Test the LEDs on an analog device

• Perform lamp test on MOD-16 of MOI-7

• Display network performance characteristics

• Alarm verification/confirmation override

• IEC detector cleaned function

• Event (History) log menu

• Test Pre-alarm logic

• Test ASD detectors

• Record one summarized trouble for an entire module

• Perform testing on input points and simutale alarms

Test: Set Time

Use Test Set_Time to set the time and date for the System.

From the Test menu, use the Left or Right arrow key to cause the S in SET_TIME to start blinking:

TEST: DETECTOR NETWORK SET-TIME

(If you press HELP at this point, the System displays:

SET STSTEM TIME

Press HELP again to return to the above menu.)

Press ENTER when the S in SET_ TIME is blinking to select TEST SET_ TIME.

The System shows you the current System time, using a 24-hour clock, and the date:

SET TIME = 12:34:56 12/23/20XX

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(If you press HELP at this point, the System displays:

TYPE HH:MM:SS MM/DD/YYYY <ENTER>

The Help display tells you to type the time and date, using the numeric keypad, in the following format: hour: minute: seconds_month/day/year, and then to press ENTER to set the time and date. Use the Right and Left arrow keys to skip over a correct digit.

Press HELP again to return to the above menu.)

Type the time and date as explained above and press ENTER. The System prints the current time and date on the printer and returns you to the Test menu.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

GROUND FAULT IS MINUS

If the message is other than OK, locate the loop and the device responsible. The display automatically changes to OK when the ground fault problem is corrected. (During this test, the System and its devices remain operational.)

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Test: Power

Use Test Power to test the System’s battery voltage, AC voltage, and battery charge current.

From the Test menu, use the Left or Right arrow key to cause the P in POWER to start blinking:

TEST: GND-FLT POWER

Test: Ground Fault

Use Test Gnd_flt to test the present condi- tion of the ground fault detection circuitry.

From the Test menu, use the Left or Right arrow key to cause the G in GND_FLT to start blinking:

TEST: NETWORK SET TIME GND FLT

(If you press HELP at this point, the System displays:

GROUND FAULT TEST

Press HELP again to return to the Test menu.)

Press ENTER when the G is blinking and the menu displays:

GND FLT: MAIN

From the Ground Fault menu, press ENTER when the M in MAIN is blinking.

The System tests dynamically for ground fault and reports the results of the test on the display (OK, PLUS, or MINUS):

(If you press HELP at this point, the System displays:

DISPLAY POWER

Press HELP again to return to the above menu.)

Press ENTER when the P is blinking and the menu displays:

POWER: MAIN

Display the AC Voltage, Battery Voltage, and Charging Current of the Main System

From the Power menu, press ENTER when the M in MAIN is blinking to select Main Power.

The System shows the following menu:

MAIN: VOLTAGE CURRENT

Press ENTER when the V in VOLTAGE is blinking to display the battery voltage:

BATTERY VOLTAGE = X.X VOLTS

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Operation

Press ENTER again to display the AC voltage:

AC VOLTAGE = X VOLTS

Press the Up arrow key to return to the Main Power menu. Use the Right arrow key to cause the C in CURRENT to start blinking and press ENTER. The System shows the battery charge current in amps:

BATT CHG CUR = XX.X AMPS

Press the Up arrow key twice to return to the Power menu.

Print the AC Voltage, Battery Voltage, and Charging Current of the Main System

From the Power menu, press PRINT when the M in MAIN is blinking to select MAIN POWER. The System will print information in a format similar to the following:

Power Supply Statistics at 11:23:52 May 01, 20XX:

LAMP TEST: LED’S DISPLAY

Press ENTER to test the LEDs and the audible on the MKB-4. The LEDs light for 5 seconds and then return to their previous state.

To test the alphanumeric display, press the Right arrow key once to cause the D in DISPLAY to start blinking and then press ENTER. The System tests the display and then returns to the Lamp Test menu.

(To end a menu session and return to the Main Menu or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Test: Device LED

Use Test Device_LED to test the LEDs on the System’s analog devices.

From the Test menu, use the Left or Right arrow key to cause the D in DEVICE to start blinking:

TEST: LAMP TEST DEVICE LED

Battery Voltage = 26.0 volts Charging

CUR = 0.5 AMPS AC VOLTAGE = 113 VOLTS

Test: Lamp Test

Use Test Lamp_test to test the LEDs on the alphanumeric display on the MKB-4.

From the Test menu, use the Left or Right arrow key to cause the L in LAMP to start blinking:

TEST: GND-FLT POWER LAMP TEST

(If you press HELP at this point, the System explains this function:

MKB-4 LAMP TEST

Press HELP again to return to the above menu.)

Press ENTER when the L is blinking to select TEST LAMP_TEST. The System displays the following menu:

(If you press HELP at this point, the System displays:

TURN ON DEVICE LEDs

Press HELP again to return to the above menu.)

Press ENTER when the D is blinking to select TEST DEVICE_LED.

The System asks you to type the module and device numbers. Type the three-digit module number and the three-digit device number and press ENTER. (Enter all leading zeros.)

The System displays the following menu for the device (the O in ON will be blinking):

001-001 ON OFF

To turn on the LED for that device, press ENTER. The System turns on the LED for that device. Turning on a device LED automatically causes a Trouble to be annunciated.

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Use the NEXT key to move through the devices until you display the ones whose LEDs you wish to test. Follow the instructions above.

When the System has displayed the highest numbered device for the module specified, it returns to the Test menu.

To turn on a device LED for a different module, select DEVICE_ LED from the Test menu and follow the preceding instructions.

(To end a menu session and return to the Main Menu, or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

Test: MOI Lamp Test

Use MOI_lamp_test to test the MOD-16 outputs of an MOI-7.

From the Test menu, use the Left or Right arrow key to cause the M in MOI to start blinking:

TEST: DEVICE LED MOI Lamp Test

Test: Network (X-Network, M-Network)

This function is used only by Siemens Industry, Inc., engineers to observe network traffic so that they can evaluate the operation of the module communication network.

Test: Override

Use Test Override to override the CSG-M selected options for Alarm Verification and Alarm Confirmation.

From the Test menu, use the Left or Right arrow key to cause the O in OVERRIDE to start blinking.

(If you press HELP at this point, the System displays:

OVERRIDE ALARM VERIFY & CONFIRM

Press HELP again to return to the above menu.)

Press ENTER when the O in OVERRIDE is blinking and the menu displays:

(If you press HELP at this point, the System displays:

TO TEST MOI-7 / MOD-16 LAMPS

Press HELP again to return to the above menu.)

Press ENTER when the M is blinking to select MOI_LAMP_TEST.

The System asks you to type the module number. Type the three-digit module number and press ENTER. (Enter all leading zeros.)

If the MOI-7 module is present in CSG-M the MOD-16 outputs will be placed in a 30second lamp test mode. After 30 seconds, these outputs return to their previous state.

(To end a menu session and return to the Main Menu, or to leave the menu at any time, press the Up arrow key to go backward one menu each time.)

OVERRIDE: ALR VERIFY ALR CONFIRM

Use the Left or Right arrow key to switch between ALR_VERIFY and ALR_CONFIRM.

Override the Alarm Verification CSG-M Selection

From the Override menu, press ENTER when the A in ALR_VERIFY is blinking to select Alarm Verification.

The System shows the following menu:

OVERRIDE: YES NO

A blinking Y in YES indicates that Alarm Verification Override is currently enabled. A blinking N in NO indicates that the Alarm Verification Override is currently disabled.

To enable Alarm Verification Override, use the Left or Right arrow key to cause the Y in YES to start blinking. Pressing ENTER when the Y in YES is blinking will cause Alarm Verification Override to be enabled.

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The System will display the following message:

OVERRIDE ENABLED

Operation

In either case, if the Alarm Confirmation option was not selected in CSG-M, the System will display the following message:

To disable Alarm Verification Override, use the Left or Right arrow key to cause the N in NO to start blinking. Pressing ENTER when the N in NO is blinking will cause Alarm Verification Override to be disabled. The System will display the following message:

OVERRIDE DISABLED

In either case, if the Alarm Verification option was not selected in CSG-M, the System will display the following message:

FEATURE NOT ENABLED IN CSG

Override the Alarm Confirmation CSG-M Selection

From the Override menu, press ENTER when the A in ALR_CONFIRM is blinking to select Alarm Confirmation.

The System shows the following menu:

OVERRIDE: YES NO

A blinking Y in YES indicates that Alarm Confirmation Override is enabled. A blinking N in NO indicates that the Alarm Confirmation Override is disabled.

To enable Alarm Confirmation Override, use the Left or Right arrow key to cause the Y in YES to start blinking. Pressing ENTER when the Y in YES is blinking enables Alarm Confirmation Override. The System will display the following message:

OVERRIDE ENABLED

To disable Alarm Confirmation Override, use the Left or Right arrow key to cause the N in NO to start blinking. Pressing ENTER when the N in NO is blinking disables Alarm Confirmation Override. The System will display the following message:

FEATURE NOT ENABLED IN CSG

Test: Det_Cleaned

Use Test Det_cleaned to indicate that a selected detector has been cleaned. This option is only operational if IEC is enabled in the CSG-M (See Appendix F).

From the Test menu, use the Left or Right arrow key to cause the D in DET_CLEANED to start blinking:

TEST: OVERRIDE DET CLEANED

(If you press HELP at this point, the System displays:

TO INDICATE DETECTOR CLEANED

Press HELP again to return to the above menu.)

Press ENTER when the D is blinking to select DET_CLEANED.

The System asks you to type the module and device numbers. Type the three-digit module number and the three-digit device number and press ENTER. (Enter all leading zeros.)

After entering the module-device, the MXL-IQ determines if the device is subject to IEC. If the device is not subject to IEC or if IEC is not enabled for the system, error messages display (Device not subject to

IEC; IEC not enabled in CSGM).

If the device is an IEC detector, the MXL-IQ will display and print the time, date, moduledevice and custom message of the cleaned device.

Test: Event Log

See Section 6, MXL-IQ History Log.

OVERRIDE DISABLED

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Test: Pyro_diags

Use Test Pyro-diags to display a series of statistics typically used by Siemens Industry, Inc., to evaluate the operation of the System. A special password is required for access to this function.

Test: Pre_alarm

Use Test Pre_alarm to test pre-alarm logic.

From the Test menu, use the left or right arrow key to cause the P in Pre_alarm to start blinking:

TEST: PRE ALARM

The System asks you for a module number and device number.

TYPE IN MODULE & DEVICE:

Type the three-digit module number and the three-digit device number using the numeric keypad and press ENTER.

The System then sends information to force this detector into pre-alarm. Once it prealarms, or after a delay, the MXL-IQ then restores the detector to its proper pre-alarm setting.

Press the ENTER key again and the System displays:

TESTING OF ASD DEVICE DISABLED

Press the ENTER key to toggle between Testing Enabled (Trouble In) and Testing Disabled (Trouble Out). When toggling between Testing Enabled and Testing Disabled, there is a three minute time period that separates the two states.

Activating the ASD_Devices command will post a Trouble into the system which will be printed out as:

TROUBLE IN 253 08:24:53 AUG 08, 20XX #8 — SIEMENS BUILDING TECHNOLOGIES —, ASD TESTING ENABLED, MXL PANEL

Pressing ENTER a second time will cause the following message to be printed out:

TROUBLE OUT 253 08:25:50 AUG 08, 20XX #9 — SIEMENS BUILDING TECHNOLOGIES —, ASD TESTING DISABLED, MXL PANEL

Test: ASD_Devices

Use Test ASD_Devices to disable ASD parameters and allow timely response to test gas.

From the Test menu, use the Left or Right arrow key to cause the A in ASD_Devices to start blinking.

(If you press HELP at this point, the system displays:

TEST: ASD DETECTORS

Press HELP again to return to the Test menu.)

Press ENTER to test the ASD devices present in the system. The System displays:

TESTING OF ASD DEVICE ENABLED

If Test ASD_Devices is activated and left alone, the system will automatically disable the test (time out) after four hours.

Test ASD_Devices is inhibited while the system is initializing or resetting.

Test: Summarize

Use Test Summarize to ignore known troubles, and instead view one summarized trouble for an entire module. This is typically used during installation and commissioning.

Select Summarize and press ENTER. The System displays the following menu:

Select Mods ON OFF

Test: Summarize - Select_Mods

Use Test Summarize Select_Mods to scroll through all installed (CSG-M) module addresses and enable/disable the summarize feature for each module address. Choose Select_Mods and press ENTER. The System displays the following:

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Operation

001 YES NO

Press NEXT and the System displays:

002 YES NO

The System flashes the currently active summarize selection for the module address. The operator may then press the right or left arrow keys to highlight either YES or NO and then press the ENTER key to accept and program the selection. When ENTER is pressed, the System scrolls to the next installed module address. The Up arrow key terminates the Select_Mods mode.

All Select_Mods selections remain intact until the System is turned off, even if summarize mode is toggled.

• One trouble is posted per module address, regardless of how many troubles are detected at that module address.

• A trouble is not posted unless at least one trouble is detected at that module address.

• The trouble report is consistent with existing MXL-IQ trouble messages and the text reads Troubles summarized.

• The MXL-IQ only reports TRBL-INs when summary mode is enabled at an address.

• Alarm, supervisory, security, and status event reporting are not effected.

Modules which are NOT selected for summary report their troubles as usual, even if summary mode is turned on for other module addresses.

Test: Summarize - OFF

When Summarize OFF is selected, the System annunciates the following trouble:

System Commissioning Mode TRBL OUT

and turns off the Partial System Disable LED. Preexisting Troubles summarized events remain and the System reverts to normal trouble reporting and processing for all new troubles.

Test: Summarize - ON

When Summarize ON is selected, the System annunciates the following trouble:

System Commissioning Mode TRBL IN

and turns on the Partial System Disable LED. The System displays one summarized trouble for the total system.

Test: Manual_Activate

Use Test Manual_Activate to:

• Perform testing on input points and the associated output logic expected when the point is activated.

• Generate alarms and associated output activations.

Select Manual_Activate and press ENTER. The System asks you for a module number and device number.

Type In Module & Device: -

Type the three-digit module number and three-digit device number using rhe numeric keypad and press ENTER. Upon entering the device address, the System performs as follows based on the point type:

When a module address is summarized, individually occurring troubles are not broadcast to XNET; the single Troubles summarized trouble is broadcast to XNET. The Troubles summarized trouble is implemented as any other system trouble, being logged to history, taking up one of the 300 trouble slots, and appearing in List Troubles requests. All summarize selections are unaffected through RESET and default to CSG-M setting at power up.

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Operation

Test::Manual_Activate - Test

This provides a remote switch that upon activation/deactivation of the TRI, the MXLIQ reads the module-device address provided and preforms the operations outlined above. Thisuse is primarily for, but not limited to, testing intelligent duct detectors.

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