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1 Doc. No Part No Rev. U * T*

2 Blank Page- Back of Front Cover

3 Copyrights and Trademarks Johnson Controls. All rights reserved. Specifications and other information shown were current as of publication and are subject to change without notice. SIMPLEX, and the product names listed in this material are marks and/or registered marks. Unauthorized use is strictly prohibited. iii

4 Cautions and Warnings READ AND SAVE THESE INSTRUCTIONS- Follow the instructions in this installation manual. These instructions must be followed to avoid damage to this product and associated equipment. Product operation and reliability depend upon proper installation. DO NOT INSTALL ANY PRODUCT THAT APPEARS DAMAGED- Upon unpacking, inspect the contents of the carton for shipping damage. If damage is apparent, immediately file a claim with the carrier and notify your authorized product supplier. ELECTRICAL HAZARD - Disconnect electrical field power when making any internal adjustments or repairs. Servicing should be performed by qualified service personnel. STATIC HAZARD - Static electricity can damage components. Handle as follows: Ground yourself before opening or installing components. Prior to installation, keep components wrapped in anti-static material at all times. EYE SAFETY HAZARD - Under certain fiber optic application conditions, the optical output of this device may exceed eye safety limits. Do not use magnification (such as a microscope or other focusing equipment) when viewing the output of this device. SULFURIC ACID WARNING - the skin and eyes and can destroy fabric. Replace any leaking or damaged battery while wearing appropriate protective gear. If you come in contact with sulfuric acid, immediately flush skin or eyes with water for 15 minutes and seek immediate medical attention. FCC RULES AND REGULATIONS PART 15 - This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. SYSTEM REACCEPTANCE TEST AFTER SOFTWARE CHANGES - To ensure proper system operation, this product must be tested in accordance with NFPA72, after any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring. All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified. iv

5 Emissions Compliance, Radio Frequency Immunity Safety & Agency Approvals This product has been tested and found to comply with the following standards for RF Emissions & Immunity: FCC Part 15A EN55022: 1998, Class A, Emissions (CISPR 22: 1993) EN : 1995 EMC This product has also been tested and found to meet the requirements of EN60950 (1992) Safety of Information Technology Equipment Including Electrical Business Equipment : +A1:93 + A2:93 + A3:95 + A4:97 + A11:97 This product is listed to the following standards: UL th Edition S ULC FM CSFM MEA v

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7 Table of Contents Copyrights and Trademarks... iii Cautions and Warnings... iv Emissions Compliance, Radio Frequency Immunity Safety & Agency Approvals... v Table of Contents... vii Chapter 1 Overview Introduction In this Chapter Overview Agent Release and Preaction/Deluge Systems Fire Suppression Systems Preaction/Deluge Sprinkler Systems Combination Agent Release with Preaction/Deluge Backup Supported Applications Pre-Programmed Applications Releasing Sequence for Single Detector Activation Releasing Sequence for Dual Detector Activation Releasing Sequence for Manual Release Specifications Major Panel Components Optional Modules Depleted Battery Operation Environmental Listings and Approvals Codes and Standards Chapter 2 Installing Cabinet and Electronics Assembly Introduction Required Tools and Hardware In this Chapter Removing/Installing the Electronics Assembly Introduction Removing Electronics Assembly Installing Electronics Assembly Cutting Conduit Openings Guidelines Mounting Cabinet Introduction Guidelines for Locating the Cabinet Surface Mounting Semi-Flush Mounting Removing and Installing Plastic PCB Cover and Slide-In Labels Removing and Replacing Plastic PCB Cover Installing Labels Chapter 3 Connecting Field Wiring and AC Power vii

8 Introduction In this Chapter Wiring Initiating Device Circuits Guidelines Field Wiring Connections Two Wire IDCs Wiring Releasing Circuits Guidelines Field Wiring Connections Main / Reserve Switch Key Maintenance Switch Wiring Special Purpose Monitor Circuits Overview Wiring Class A/B SPM Circuits for Single Hazard Applications Wiring Shared, Class B SPM Circuits for Dual Hazard Applications Wiring Relay Connections General Guidelines Wiring Notification Appliance Circuits Guidelines Field Wiring Connections Wiring AC Power and Battery Wiring Field Wiring for AC Power and Battery Wiring Enabling Depleted Battery Cutout Battery Maintenance Wiring 24V Aux Power General Wiring Steady, 24 VDC Aux Power Testing Circuit Supervision General Earth Fault Detection Chapter 4 Programming Introduction In this Chapter Overview Introduction Text-Based Programming Text-Based Programming Front Panel Programming Programming the Application Mode Overview Programming the Application Mode, Continued Programming the Relay Option Overview Programming IDC Circuit Style Overview Programming the Automatic Release Timer Overview viii

9 Programming the RAC Time Limit Cutout Overview Programming the RAC Time Limit Cutout, Continued Programming Manual Release Time Delay Overview Programming Abort Switch Operation Overview Programming Stage 1 NAC2 Coding Overview Programming NAC Operation Overview Programming Supervisory Operation Overview Programming Supervisory Operation Overview Saving and Making Changes Set Program Switch to OFF to Save Changes Making Changes to an Existing Program Recording the Programming Settings Chapter 5 Operating... 1 Introduction... 1 In this Chapter... 1 Overview... 2 LEDs and Keys... 2 Delay Timers... 4 Manual Release Switch... 5 Abort Switch... 5 Clear/Reset... 6 Performing a Lamp Test... 6 Acknowledging s, Troubles, and Supervisory Conditions... 7 Panel Indications for, Trouble, Supervisory Condition... 7 Acknowledging s... 7 Silencing s... 8 Procedure... 8 Resetting the System... 9 Procedure... 9 Viewing Historical Log/Setting Time and Date Procedure Appendix A FM System Requirements Introduction General FM Requirements/Approvals Automatic Extinguishing Release Requirements Preaction/Deluge Applications ix

10 Appendix B TEPG-US/Tyco Safety Products UL Part Number Cross Reference and Approved Valves... 1 Appendix C Battery Selection Calculations... 4 Introduction... 4 General... 4 Battery Selection Calculations... 2 x

11 Chapter 1 Overview Introduction The AutoPulse Z-10 (Part No ) Fire Control Panel is a standalone Fire Control Panel for use with agent release and sprinkler preaction/deluge systems. This chapter provides an overview of the AutoPulse Z-10 s capabilities and operation. In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Overview Agent Release and Preaction/Deluge Systems 1-2 Supported Applications 1-3 Specifications

12 Overview Agent Release and Preaction/Deluge Systems Fire Suppression Systems Fire suppression systems control fire using agents such as dry chemical, CO 2, and INERGEN, etc. Each of these systems must be specifically designed and approved for use on a particular fire hazard. When the AutoPulse Z-10 is programmed as an agent release system, it controls releasing devices (also known as solenoids, actuators, etc.) that are connected to a set of storage tanks containing the agent. When alarm activation is detected, the AutoPulse Z-10 activates the releasing devices and discharges the extinguishing agent. Programming the AutoPulse Z-10 for agent release involves selecting one of the pre-programmed agent release applications pre-installed on the AutoPulse Z-10. Single hazard (single area) and dual hazard (two separate areas) programs are available, all of which support manual release, abort switches, and programmable delay timers. See the next section of this chapter for a complete description of each application. Preaction/Deluge Sprinkler Systems The most common type of preaction sprinkler system is the single interlock preaction system, which uses a two-phase process for actuating sprinkler heads. Phase 1. activation of an initiating device attached to the AutoPulse Z-10 causes the AutoPulse Z-10 to activate the releasing device attached to the sprinkler system s Primary Control Valve. When this valve is open, water flows into the sprinkler pipes, readying the sprinkler system for the possible activation of one or more sprinkler heads. This is known as preaction. Phase 2. Sprinkler head(s) open in response to a fire condition, releasing water onto the fire area. Special situations sometimes require the use of a double interlock preaction system, in which an automatic initiating device (smoke or heat detector) and a sprinkler head must operate simultaneously to initiate water flow. This differs from the single interlock system, where these two actions (initiating device and sprinkler head activation) can occur at different times. A deluge system uses open sprinklers. Activation of initiating devices releases a deluge valve, producing immediate water flow through all sprinklers. Deluge applications are typically found in special situations, where high-flow, water-based suppression is required. Combination Agent Release with Preaction/Deluge Backup In some areas of the country, Authorities Having Jurisdiction (AHJs) have started requiring building owners to protect critical electronic areas, normally covered only by Agent Release systems, with a combination of Agent Release (primary) and Preaction/Deluge (secondary) systems. This capability and configuration option is included in the AutoPulse Z-10. When the AutoPulse Z-10 is configured for the combination setting, it works just as one would expect an Agent Release panel to work a confirmed fire alarm or manual request starts the process and eventually results in the discharge of a suppression agent. In addition to Agent Release, the panel also starts the Preaction/Deluge process in parallel and takes the panel to Phase 1, as described in the Preaction/Deluge section above. If the Agent Release process is successful in extinguishing the fire, nothing else will happen. If, however, the fire is not knocked down, flares up and begins to grow, Phase 2 of the Preaction/Deluge process will ensue. Note: Preaction/Deluge for this application would typically be applied as Preaction only. However, the output control is the same as for Preaction/Deluge and both terms are used to describe the operation. 1-2

13 Supported Applications Pre-Programmed Applications The AutoPulse Z-10 ships from the factory with 13 applications installed in memory. Programming the panel involves selecting an application to use, as well as an option, such as NAC operation, manual and automatic delays, and/or other site-specific functions. The panels with software version 1, 2, or 3 have 9 applications. The panels with version 4.01 or higher have the 13 applications noted above. Table 1-1 lists the original 9 applications, along with the aux and expansion relay operation for those applications if the original relay operation is selected. The table also describes the operation of the Notification Appliance Circuits (NACs) and Releasing Appliance Circuits (RACs), along with the functions of the four Initiating Device Circuits (IDCs) and two Special Purpose Monitor (SPM) circuits. Refer to Chapter 4 of this manual for detailed programming instructions. Table 1-2 lists all 13 applications with the aux and expanded relay operation if the enhanced relay operation is selected. The table also describes the operation of the NACs and RACs along with the functions of the four Initiating Device Circuits (IDCs) and two Special Purpose Monitor (SPM) circuits. Refer to Chapter 4 of this manual for detailed programming instructions. Note: Applications use only the relay operation shown in Table 1-2. Continued on next page 1-3

14 Table 1-1. AutoPulse Z-10 Original 9 Applications With Original Relay Operation IDC 1 IDC 2 IDC 3 IDC 4 SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Timers Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) Releasing Application Notes 4 Notes 1, 2, & 3 Note 4 Abort Rel. Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay 4 & 5 1. Agent Release, Single Hazard, Cross-Zoned, Combined Release Stage 1-1st IDC 1 or 2 Steady Optional Opt Abort Supv or Stage 2 - Confirmed IDC 1 & 2 MS Steady 120bpm Opt Start 2nd 2nd Start Cross- Cross- Stage 3 - Release Steady Steady ON ON Expired TBL Release Trouble Trouble Zone Zone Pressure Switch Pressure Steady Steady Timer Tamper Switch (Supervisory) (select.) Supv. Optional 2. Agent Release, Single Hazard, Combined Release Stage 1 - IDC 1 or 2 Abort Steady 120bpm Opt Start MS Stage 2 - Release Steady Steady ON ON Expired Pressure Switch Pressure Steady Steady Tamper Switch (Supervisory) Supv. Optional 3. Agent Release, Dual Hazard, Cross-Zoned Hazard 1, Stage 1-1st IDC 1 or 2 Optional Opt Abort Hazard 1, Stage 2 - Confirmed IDC 1 & 2 MS 120bpm Opt Start Hazard 1, Stage 3 - Release Steady ON Expired Hazard 2, Stage 1-1st IDC 3 or 4 Optional Opt Abort Hazard 2, Stage 2 - Confirmed IDC 3 & 4 MS 120bpm Opt Start Hazard 2, Stage 3 - Release Steady ON Expired 4. Agent Release, Dual Hazard Hazard 1, Stage 1 - IDC 1 or 2 Abort 120bpm Opt Start MS Hazard 1, Stage 2 - Release Steady ON Expired Hazard 2, Stage 1 - IDC 3 or 4 Abort 120bpm Opt Start MS Hazard 2, Stage 2 - Release Steady ON Expired 1-4 TBL TBL TBL Hazard 1 Auto or Manual Hazard 1 Auto or Manual Supv Or Pressure (select.) Hazard 2 Auto or Manual Hazard 2 Auto or Manual Trouble System or Hazard 1 TBL System or Hazard 1 TBL Hazard 1 Hazard 1 Pressure Switch 2nd Cross- Zone Hazard 1 Start Release Timer Hazard 1 Trouble IDC 1 IDC 2 IDC 3 IDC 4 Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) Releasing Application SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Time-Limit Cutout Note 6 Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay 4 5. Preaction/Deluge, Single Hazard, Cross-Zoned Stage 1-1st 1st IDC in Steady Optional Opt 2nd 2nd Supv. or Stage 2 - Confirmed / Release 2nd IDC in Steady Steady ON ON Opt Cross- Cross- TBL Waterflow Trouble Trouble Waterflow WF Steady Steady Note 7 Note 7 Zone Zone (select.) Supervisory Alert Supv Optional 6. Preaction/Deluge, Single Hazard, Combined Release Releasing Any 1 or more IDC's in Steady ON ON Opt Waterflow WF Steady Note 7 Note 7 Supervisory Alert Supv Optional 7. Preaction/Deluge, Dual Hazard, Cross-Zoned Hazard 1, Stage 1 - IDC 1 or 2 Optional Opt Hazard 1, Stage 2 - Release IDC 1 & 2 Steady ON Opt Hazard 2, Stage 1 - IDC 3 or 4 Optional Opt Hazard 2, Stage 2 - Release IDC 3 & 4 Steady ON Opt Waterflow (both hazards) WF Steady Steady Note 7 Note 7 Supervisory Alert (both hazards, no NAC) Supv 8. Preaction/Deluge, Dual Hazard Hazard 1 - Releasing IDC 1 or 2 Steady ON Opt Hazard 2 - Releasing IDC 3 or 4 Steady ON Opt Waterflow (both hazards) WF Steady Steady Note 7 Note 7 Supervisory Alert (both hazards, no NAC) Supv Releasing Application IDC 1 IDC 2 IDC 3 IDC 4 SPM1 SPM2 NAC1 NAC2 RAC1 9. Agent Release, Single Hazard, Cross-Zoned, NYC abort Stage 1-1st IDC 1 or 2 Steady Opt Stage 2 - Confirmed IDC 1 & 2 OFF 120bpm Steady Opt Start Abort switch pressed Abort MS Steady OFF OFF Opt Suspend Abort switch released Steady OFF OFF Start Investigate (Abort) Timer expired OFF 120bpm Steady Expired Reload Stage 3 - Release OFF Steady ON Steady Expired Pressure Switch Pressure Steady Steady Tamper Switch (Supervisory) Supv. Optional Style C Option Releasing Application IDC1 IDC2 IDC3 IDC4 SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Timers Panel AUX Relays Style C Option Agent Release Style C Operation: Current limited equals an alarm; short/open equals a trouble Style C Option Preaction Deluge Style C Operation: Current limited equals an alarm; short/open equals a trouble Same as Agent Release applications above except all IDCs operate Style C. Abort (Style C) MS (Style C) Same as Preaction/Deluge applications above except all IDCs and SPMs operate Style C. TBL TBL TBL Hazard 1 Hazard 1 Supv. or Waterflow (select.) Hazard 2 Hazard 2 Hazard 1 Hazard 1 System or Hazard 2 TBL System or Hazard 2 TBL Hazard 2 Hazard 2 Pressure Switch 2nd Cross- Zone Hazard 2 Start Release Timer Hazard 2 Hazard 2 Hazard 2 Trouble Waterflow Trouble Waterflow System or Hazard 1 TBL System or Hazard 1 TBL Hazard 1 Hazard 1 2nd Cross- Zone Hazard 1 Waterflow Hazard 1 or Hazard 2 Hazard 1 Hazard 1 System or Hazard 2 TBL System or Hazard 2 TBL Hazard 2 Hazard 2 2nd Cross- Zone Hazard 2 Waterflow Hazard 1 or Hazard 2 Hazard 2 Hazard 2 NAC3 Timers Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) Note 8 Abort Rel. Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay 4 TBL Same as Agent Release applications above except SPM1 and SPM2 are associated with both hazards. Same as Preaction/Deluge applications above except SPM1 and SPM2 are associated with both hazards. NOTES: 1. SPM1 and SPM2 are combination Manual Release / Abort zones in Agent Release Dual Hazard applications only. A s a Manual Release and a current limit is an Abort condition. Supv. or Start Release Timer (select.) Trouble 2nd Cross- Zone Trouble 2nd Cross- Zone 5. Where Temporal Code pattern is only allowed for evacuation signaling and the Audible NAC ope Cross-Zoned is changed from the default Temporal Code to 20bpm, NAC 2 should not be Supervisory signaling. 6. In Preaction/Deluge applications configured for Class A/B (i.e. non-style C), a short on any IDC immediate manual release. 7. In Preaction/Deluge applications configured for Style C operation, SPM2 activates a manual rele hazards. 2. A Manual Release will start the Releasing Timer and operate the NAC cadence pattern associated with the start of the Release Timer in the I/O matrix for the application selected. 3. A Manual Release will override an Abort. In an abort condition the NACs will operate in accordance with the active Sta 2, and 3 operation in the I/O matrix for application selected and the specific Abort operation selected. 4. Optional operation is selectable for 20bpm or Temporal Code. When Temporal Code is selected for the NAC 8. For application mode 9 only, RAC2 is not used as a releasing circuit; instead it becomes a third N operation, the Supervisory NAC signal will be 20BPM. When 20BPM is selected for the NAC operation, the Supervisory NAC signal will be temporal code.

15 Table 1-2 All 13 Applications With Enhanced Relay Operation IDC 1 IDC 2 IDC 3 IDC 4 SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Timers Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) Releasing Application Notes 4 Notes 1, 2, & 3 Note 4 Notes 9 & 10 & 5 Abort Rel. Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay 4 1. Agent Release, Single Hazard, Cross-Zoned, Combined Release Stage 1-1st IDC 1 or 2 Steady Optional Opt Abort Stage 2 - Confirmed IDC 1 & 2 MS Steady 120bpm Opt Start Supv or / / Pre- Pre- Pre- Stage 3 - Release Steady Steady ON ON Expired TBL TBL Pressure TBL Pressure Pressure Switch Pressure Steady Steady Switch Switch (select.) Tamper Switch (Supervisory) Supv. Optional 2. Agent Release, Single Hazard, Combined Release Stage 1 - IDC 1 or 2 Abort Steady 120bpm Opt Start MS Stage 2 - Release Steady Steady ON ON Expired Pressure Switch Pressure Steady Steady Tamper Switch (Supervisory) Supv. Optional 3. Agent Release, Dual Hazard, Cross-Zoned Hazard 1, Stage 1-1st IDC 1 or 2 Optional Opt Abort Hazard 1, Stage 2 - Confirmed IDC 1 & 2 MS 120bpm Opt Start Hazard 1, Stage 3 - Release Steady ON Expired Hazard 2, Stage 1-1st IDC 3 or 4 Optional Opt Hazard 2, Stage 2 - Confirmed IDC 3 & 4 Abort MS 120bpm Opt Start Hazard 2, Stage 3 - Release Steady ON Expired 4. Agent Release, Dual Hazard Hazard 1, Stage 1 - IDC 1 or 2 Abort 120bpm Opt Start MS Hazard 1, Stage 2 - Release Steady ON Expired Hazard 2, Stage 1 - IDC 3 or 4 Abort 120bpm Opt Start MS Hazard 2, Stage 2 - Release Steady ON Expired Releasing Application IDC 1 IDC 2 IDC 3 IDC 4 Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Time-Limit Cutout Note 6 Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay 4 5. Preaction/Deluge, Single Hazard, Cross-Zoned Stage 1-1st 1st IDC in Steady Optional Opt Supv. or Stage 2 - Confirmed / Release 2nd IDC in Steady Steady ON ON Opt TBL Waterflow Waterflow WF Steady Steady Note 7 Note 7 (select.) Supervisory Alert Supv Optional TBL Waterflow TBL Waterflow 6. Preaction/Deluge, Single Hazard, Combined Release Releasing Any 1 or more IDC's in Steady ON ON Opt Waterflow WF Steady Note 7 Note 7 Supervisory Alert Supv Optional 7. Preaction/Deluge, Dual Hazard, Cross-Zoned Hazard 1, Stage 1 - IDC 1 or 2 Optional Opt Hazard 1, Stage 2 - Release IDC 1 & 2 Steady ON Opt Hazard 2, Stage 1 - IDC 3 or 4 Optional Opt Hazard 2, Stage 2 - Release IDC 3 & 4 Steady ON Opt Waterflow (both hazards) WF Steady Steady Note 7 Note 7 Supervisory Alert (both hazards, no NAC) Supv 8. Preaction/Deluge, Dual Hazard Hazard 1 - Releasing IDC 1 or 2 Steady ON Opt Hazard 2 - Releasing IDC 3 or 4 Steady ON Opt Waterflow (both hazards) WF Steady Steady Note 7 Note 7 Supervisory Alert (both hazards, no NAC) Supv Releasing Application IDC 1 IDC 2 IDC 3 IDC 4 SPM1 SPM2 NAC1 NAC2 RAC1 9. Agent Release, Single Hazard, Cross-Zoned, NYC abort Stage 1-1st IDC 1 or 2 Steady Opt Stage 2 - Confirmed IDC 1 & 2 OFF 120bpm Steady Opt Start Abort switch pressed Abort Steady OFF OFF Opt Suspend MS Abort switch released Steady OFF OFF Start Investigate (Abort) Timer expired OFF 120bpm Steady Expired Reload Stage 3 - Release OFF Steady ON Steady Expired Pressure Switch Pressure Steady Steady Tamper Switch (Supervisory) Supv. Optional 1-5 TBL TBL TBL TBL TBL TBL Hazard 1 Hazard 1 Hazard 1 Hazard 1 Supv or Pre- (select.) Hazard 2 Hazard 2 Supv. or Waterflow (select.) Hazard 2 Hazard 2 TBL System or Hazard 1 TBL System or Hazard 1 TBL Hazard 1 Hazard 1 Pre- Pre- Hazard 1 Pre- Hazard 1 / Pressure Switch Hazard 1 Hazard 1 TBL System or Hazard 2 TBL System or Hazard 2 TBL Hazard 2 Hazard 2 Pre- Pre- Hazard 2 Pre- Hazard 2 / Pressure Switch Hazard 2 Hazard 2 TBL Waterflow TBL Waterflow System or Hazard 1 TBL System or Hazard 1 TBL Hazard 1 Hazard 1 Waterflow Hazard 1 or Hazard 2 Waterflow Hazard 1 or Hazard 2 Hazard 1 Hazard 1 System or Hazard 2 TBL System or Hazard 2 TBL Hazard 2 Hazard 2 Supv Hazard 1 or 2 Sups Hazard 1 or 2 Hazard 2 Hazard 2 NAC3 Timers Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) Note 8 Abort Rel. Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay 4 IDC 1 IDC 2 IDC 3 IDC 4 SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Timers Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) Releasing Application Agent Pre- Abort Rel. Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay 4 Release Action Agent Release Preaction/Deluge 10. Agent Release and Preaction/Deluge, Single Hazard, Cross-Zoned Stage 1-1st IDC 1 or 2 Steady Optional Opt Stage 2 - Confirmed IDC 1 & 2 Abort MS Steady 120bpm ON Opt Start Stage 3 - Release Steady Steady ON ON Expired Waterflow WF Steady Steady Pressure Switch Pressure Steady Steady Tamper Switch (Supervisory) Supv. Optional 11. Agent Release and Preaction/Deluge, Single Hazard, Stage 1 - IDC 1 or 2 Abort Steady Optional ON Opt Start MS Stage 2 - Release Steady Steady ON ON Expired Pressure Switch Pressure Steady Steady Waterflow WF Steady Steady Tamper Switch (Supervisory) Supv. Optional TBL TBL TBL Supv. or Pre- (select.) Supv. or Pre- (select.) Supv. or Pre- (select.) TBL TBL TBL Pre- Pre- Pre- / Pressure Switch / Pressure Switch / Pressure Switch TBL Pre- TBL Waterflow TBL Waterflow IDC 1 IDC 2 IDC 3 IDC 4 SPM1 SPM2 NAC1 NAC2 RAC1 NAC3 Timers Panel Aux Relays Relay Exp Board 1 (Hazard 1) Relay Exp Board 2 (Hazard 2) Releasing Application Strobe Horn Bell Abort Rel. Aux1 Aux2 Aux3 Relay 1 Relay 2 Relay 3 Relay 4 Relay 1 Relay 2 Relay 3 Relay Agent Release, Single Hazard, Cross-Zoned, Bell/Horn/Strobe Stage 1-1st IDC 1 or 2 Steady Opt Abort Stage 2 - Confirmed IDC 1 & 2 MS OFF Optional Opt Start Stage 3 - Release Steady Steady ON Expired Pressure Switch Pressure Steady Steady Tamper Switch (Supervisory) Supv. Optional 13. Agent Release, Single Hazard, Bell/Horn/Strobe Stage 1 - IDC 1 or 2 Abort Optional Steady Opt Start MS Stage 2 - Release Steady Steady ON Expired Pressure Switch Pressure Steady Steady Tamper Switch (Supervisory) Supv. Optional TBL TBL Supv. or Pre- (select.) Supv. or Pre- (select.) TBL TBL Pre- Pre- / Pressure Switch / Pressure Switch TBL TBL Pre- Pre- / Pressure Switch / Pressure Switch / Pressure Switch / Pressure Switch / Pressure Switch

16 Table 1-2. All 13 Applications With New Relay Operation (continued) Style C Option Releasing Application IDC1 IDC2 IDC3 IDC4 SPM1 SPM2 NAC1 NAC2 RAC1 RAC2 Timers Panel AUX Relays Style C Option Agent Release Style C Operation: Current limited equals an alarm; short/open equals a trouble Style C Option Preaction Deluge Style C Operation: Current limited equals an alarm; short/open equals a trouble Same as Agent application above except all IDCs operate Style C. Abort (Style C) Same as Preaction/Deluge application selected above except all IDCs and SPMs operate Style C. MS (Style C) Same as Agent application selected above except SPM1 and SPM2 are associated with both hazards. Same as Preaction/Deluge applications selected above except SPM1 and SPM2 are associated with both hazards. Notes: 1. SPM1 and SPM2 are combination Manual Release / Abort zones in Agent Release Dual Hazard applications only. A short is a Manual Release and a current limit is an Abort condition. 2. A Manual Release will start the Manual Releasing Timer and operate the NAC cadence pattern associated with the start of the Release Timer in the I/O matrix for the application selected. 3. A Manual Release will override an Abort. In an abort condition the NACs will operate in accordance with the active Stage 1, 2, and 3 operation in the I/O matrix for application selected and the specific Abort operation selected. 4. Optional operation is selectable for 20bpm or Temporal Code. When Temporal Code is selected for the NAC operation, the Supervisory NAC signal will be 20BPM. When 20bpm is selected for the NAC operation, the Supervisory NAC signal will be temporal. 5. Where Temporal Code pattern is only allowed for evacuation signaling and the Audible NAC operation for 1st is changed from the default of Temporal Code to 20bpm, NAC 2 should not be used for Supervisory signaling. 6. In Preaction/Deluge applications 5-8 configured for Class A/B (i.e. non-style C), a short on any IDC is an immediate manual release. 7. In Preaction/Deluge applications configured for Style C operation, SPM2 activates a manual release of both hazards. 8. For application modes 9, 12, and 13, RAC2 is not used as a releasing circuit; instead it becomes a third NAC. 9. Pre-discharge is any of the following: Cross-Zoned, Manual, or Pressure Switch. Note that this is not 1 st smoke detector alarm and not waterflow alarm. 10. tracks the operation of RAC1 and RAC2 and does not engage on waterflow or pressure switch activation. 1-6

17 Supported Applications, Continued Pre-Programmed Applications Important Notes: (NYC Abort Does not comply with UL864) Specific operation of the NYC Abort is as follows: Pressing the Abort switch does the following: a. Bell and bell strobe turn on (NAC1) b. Evacuation visuals turn off (NAC3) c. Evacuation audibles turn off (NAC2) d. Automatic Release Timer countdown stops at its current value. Releasing the Abort switch starts the 90-second Investigate Timer. When the Investigative Timer expires, the following occurs: a. Bell and bell strobe turn off (NAC1) b. Evacuation visuals turn on (NAC3) c. Evacuation audibles turn on at 120 BPM (NAC2) d. Reload the Automatic Release Timer with the programmed value Subsequently pressing/releasing the abort switch repeats the process (silencing the NACs, activating the bell, starting the 90 second investigation timer, etc.) until the Release Timer expires and the RAC(s) activate. Pressing/releasing the Abort switch while the Investigation Timer counts down has no effect (i.e., it will not reset the timer). Note: All other abort switch modes are discussed in Programming Abort Switch Operation in Chapter 4 of this manual. Continued on next page 1-7

18 Supported Applications, Continued Releasing Sequence for Single Detector Activation The applications that trigger the releasing sequence based on the activation of a single detector include all applications that do not use cross zoning (see Table 1-1 for a list of the available applications). As shown in the Figure 1-1, activation of a single initiating device immediately activates the Notification Appliance Circuits (NACs) and starts an optional Automatic Release Delay Timer. This optional delay timer, which has a programmable range of zero to 60 seconds, delays the activation of the Releasing Appliance Circuits (RACs), thus delaying release of the agent. When the timer expires, the RACs activate, releasing the agent. Important Notes: The abort switch can be used only prior to the expiration of the delay timer. In application 11 RAC2 turns on immediately when an alarm is activated. This is the pre-action RAC. RAC1 turns on when the timer expires. NAC1 On Steady NAC2 120 BPM Activate Relay Sound Panel Piezo Automatic Release Delay Timer* (0-60 Secs) *If timer is set to 0, release of the agent and activation of discharge signals occurs immediately after alarm activation. Signals NAC1 On Steady NAC2 On Steady RAC Activation (Agent ) 1st Received Abort Switch and Clear/Reset Window Silence Reset Figure 1-1. Releasing Sequence for Single Detector Activation Continued on next page 1-8

19 Supported Applications, Continued Releasing Sequence for Dual Detector Activation Cross-zoned applications require that two automatic initiating devices on different zones enter an alarm state before the releasing device(s) can activate. Figure 1-2 illustrates the automatic releasing sequence following activation of detectors on both zones. In the example, the first detector enters an alarm state, triggering the activation of the piezo, alarm relay, and the notification appliances (horns, bells, strobes, etc.) attached to NAC1 and NAC2. When the second detector enters an alarm state, the system starts an optional Automatic Release Delay Timer and changes the pattern of audible tones on NAC2 to a faster cadence (evacuation signal). When the timer expires, the cadence of the NACs changes to On Steady and the RACs activate. Important Notes: If the delay timer is set to 0, release immediately follows second (cross-zoned) alarm activation. The abort switch can be used only prior to the expiration of the delay timer. In application 10 RAC2 turns on immediately when the 2 nd alarm is brought in. This is the pre-action RAC. RAC1 turns on when the timer expires. NAC1 On Steady NAC2 Temporal Activate Relay Sound Panel Piezo Automatic Release Delay Timer* (0-60 Secs) *If timer is set to 0, release of the agent and activation of the discharge signals occurs immediately after activation of second alarm. Evacuation Signal NAC1 On Steady NAC2 120 Bpm Signals NAC1 On Steady NAC2 On Steady RAC Activation (Agent ) 1st Received Activation of 2nd Automatic Initiating Device Silence Reset Figure 1-2. Releasing Sequence following Dual Detector Activation Continued on next page 1-9

20 Supported Applications, Continued Releasing Sequence for Manual Release The manual releasing sequence begins following the activation of a manual release station connected to the AutoPulse Z-10 FACP. As shown in Figure 1-3, the NACs and the Manual Release Delay Timer turn on immediately after the switch is activated. Release of the agent occurs immediately after the timer expires. Note: The abort switch has no effect on the manual release sequence. In applications 10 and 11, Pre-action RAC2 turns on immediately. NAC1 On Steady NAC2 120 BPM Activate Relay Sound Panel Piezo Manual Release Delay Timer* 0-30 Seconds *If timer is set to 0, release of the agent and activation of the discharge signals occurs immediately after activation of manual release switch. Signals NAC1 On Steady NAC2 On Steady RAC Activation (Agent ) Manual Switch Activation Silence Reset Figure 1-3. Releasing Sequence Manual Station 1-10

21 Specifications Major Panel Components Figure 1-4 shows the AutoPulse Z-10 s major components. As shown in the figure, terminals for Releasing Appliance Circuits (RACs), Notification Appliance Circuits (NACs), Initiating Device Circuits (IDCs), and Special Purpose Monitors (SPMs) are located along the top of the panel. Class A adapters (if used) install beneath these terminals. Refer to Chapter 3 for specific information on wiring the AutoPulse Z-10. Figure 1-4. AutoPulse Z-10 Fire Control Panel Table 1-3. Major Panel Components Component Power Supply Initiating Device Circuit (IDC) Description 24 3 A (filtered, full wave rectified) output, all circuits. Includes temperature compensated battery charger adequate to recharge batteries required for 24-hour standby/10 minute alarm. Batteries recharge within 24 hours. Input voltage: 120 VAC, 60 Hz, 2A maximum or 220/230/240 VAC 50/60 Hz, 1A maximum. Four Initiating Device Circuits (IDCs), each supporting up to 30 smoke detectors. See Wiring Initiating Device Circuits in Chapter 3 of this manual for a list of compatible devices. 50Ω wiring limit. Each IDC is supervised for ground faults and open circuit faults. (Single hazard, agent release applications use IDCs 3 and 4 for connecting a pressure switch and supervisory device. Combination Agent Release and Preaction/Deluge applications (10-11) use IDCs 3 and 4 for waterflow and supervisory.) The panel interprets a current-limited or short circuit on an initiating device as an alarm. s latch until cleared and reset. Continued on next page 1-11

22 Specifications, Continued Major Panel Components Component Manual Release / Abort Circuit (SPM1, SPM2) Pressure Switch Tamper Switch Notification Appliance Circuits (NACs) Releasing Appliance Circuits (RAC) Relays Auxiliary Power User Interface Table 1-3. Major Panel Components (continued) Description Agent release systems use the Special Purpose Monitor (SPM1 and SPM2) circuits to connect manual release switches and abort switches. Applications 10 and 11 (agent release and Preaction/Deluge) use SPM1 for Abort/Manual and SPM2 for a pressure switch. Neither SPM circuit supports the connection of smoke detectors. Switches must be normally open. An activated release switch overrides the abort switch. The system tracks the abort switch status to detect the release of the switch. In a single hazard agent release system, IDC3 is reserved for use as a pressure switch monitor. In applications 10 and 11 (Agent Release and Preaction/Deluge) SPM2 is reserved for use as a pressure switch monitor. When used as a pressure switch monitor, a currentlimited or short circuit (non Style C) is interpreted as pressure switch activated, which then causes notification appliances to sound. The circuit is supervised for open circuits, and the panel generates a trouble if one occurs. No releasing circuits are activated when the pressure switch activates. In a single hazard, agent release system, IDC4 is reserved for use as a tamper switch monitor. This includes applications 10 and 11 (Agent Release and Preaction/Deluge). When used as a tamper switch monitor, a current-limited or short circuit (non Style C) is interpreted as tamper switch activated, which causes a supervisory condition to be generated. The system can be programmed to activate a NAC or relay in response to tamper switch activation. Two power-limited notification appliance circuits, each rated at 2A. NACs can play either steady or pulsing tones, allowing the AutoPulse Z-10 to generate distinct pre-discharge signals for agent release systems. Both circuits are power limited. Two circuits each rated at 2A. Releasing circuits operate simultaneously for single hazard systems and independently for dual hazard systems. In applications 10 and 11 RAC2 is a preaction RAC and will turn on before RAC1 unless the timer is set to 0. Both circuits are power-limited. Three on-board relays, each of which is selectable for either Normally Open or Normally Closed operation. Each relay is rated for 2A, 30 VDC, 0.35 power factor (inductive). Common trouble relay is normally energized. Off if a trouble occurs. For Single Hazard operation, Relay 2 is the common alarm relay and Relay 3 is programmable as common Time Delay Started or common Supervisory. For Dual Hazard operation, Relay 2 is for Hazard Area 1 common alarm and Relay 3 is common for Hazard Area 2 alarm. Three terminals: + terminal is 24 V, - terminal is 0V Steady, and R terminal (reset) is 0V with pulse on reset for 4-wire smokes. Combined rating is 750 ma for any combination of steady/pulsed. Red LEDs for each initiating device circuit and manual release circuit. Red LED to indicate agent release. Yellow Trouble LEDs for each initiating device circuit, notification appliance circuit, releasing appliance circuit, and abort and manual release circuit. Dedicated Silence, Supervisory, Abort Active, and Earth Fault Trouble LEDs. Green AC Power ON LED. Switches for Acknowledge, Silence, and Reset. Pressing all three simultaneously for five seconds disables notification appliance, releasing appliance, and relay circuits and causes a trouble to be displayed. All four notification appliance and releasing appliance trouble LEDs flash. Piezo. On trouble conditions, the piezo sounder is on steady to indicate that a trouble has occurred. It turns off when the Acknowledge key is pressed. On alarm conditions, the sounder pulses until the Acknowledge key is pressed. 1-12

23 Specifications, Continued Optional Modules The following optional modules are available for use with the AutoPulse Z-10. Part No (120 VAC) and Part No (240 VAC) External Battery Chargers. The AutoPulse Z-10 is compatible with Part No and Part No fifty Ah battery chargers. Refer to Part No for information on these chargers. Part No Class A Adapters. NACs, IDCs, and SPMs are configured for Class A operation using a Part No Class A Adapter module. Refer to Part No for information on installing and wiring these adapters. Part No Relay Module. This module includes four relays, each driven by the AutoPulse Z-10. The relays operate as common relays, per hazard, and have two contacts (select N.O. or N.C.). Each relay is rated 7A at 120 VAC (resistive load), 5A at 30 VDC (0.35 power factor, inductive). A dual hazard system requires two modules. Refer to Part No for information on installing and wiring this module. Optional relays are defined as follows: Relay 1. Activates on common trouble for its hazard (includes general panel troubles). Relay 2, 3, and 4 operation is determined by the application and whether original or enhanced relay operation is selected. The relay module includes a set of disconnect switches. The switches are used to disable operation of relays 2, 3, and 4 per hazard. A Relay Disconnected trouble LED indicates the disconnected state of the relays. The disconnect switch does not prevent trouble relays from indicating the system is experiencing an abnormal (fault) condition. Depleted Battery Operation The AutoPulse Z-10 system monitors the battery voltage and indicates a trouble status when the battery is outside its normal range. There are two battery trouble levels: Low Battery and Depleted Battery. When Low Battery is detected, the system sounds the piezo and flashes the trouble LED. The event must be acknowledged to silence the piezo. If discharge continues further, and the batteries reach the depleted state, the sounder activates and the trouble LED flashes again. If the system is running from battery backup, (AC has failed), and the batteries are depleted one of two scenarios occurs: The system will not initiate a first alarm on Aux Relays, NACs or RACs after reaching depleted battery. In this case, if an alarm precedes the depleted battery state, the system will continue to function. This is default. s will be indicated at the User Interface. The system will shut down 60 seconds after indicating the depleted state. This feature is necessary for Canada (S527). To activate this choice, a jumper must be clipped out. Refer to Wiring AC Power and Battery Wiring in Chapter 3 of this manual for information on enabling this option. If the AutoPulse Z-10 is installed in accordance with either NFPA 12A or NFPA 2001, the system must employ an additional mechanically-operated manual release mechanism. Environmental Temperature. This equipment operates normally within the temperature range of 0 C (32 F) to 49 C (120 F), inclusive. Humidity. This equipment operates normally under non-condensing humidity conditions up to 93% relative 32 C (90 F). 1-13

24 Specifications, Continued Listings and Approvals This equipment meets the requirements of the following agencies. UL (UL 864) ULC (S527) FM (Class No. 3010) Codes and Standards If the AutoPulse Z-10 is installed in accordance with either NFPA 12A or NFPA 2001, the system must employ an additional mechanically-operated manual release mechanism. The installer should be familiar with the relevant codes listed below, as well as any other applicable local codes and standards, when installing a fire alarm system. NFPA 11 NFPA 11A NFPA 12 NFPA 12A NFPA 13 NFPA 14 NFPA 15 NFPA 16 NFPA 16A NFPA 17 NFPA 17A NFPA 25 NFPA 70 NFPA 72 NFPA 101 NFPA 750 NFPA 2001 ULC S524 Standard for Low-Expansion Foam and Combined Agent Systems Standard for Medium- and High-Expansion Foam Systems Standard for Carbon Dioxide Extinguishing Systems Standard on Halon 1301 Fire Extinguishing Systems Standard for Installation of Sprinkler Systems Standard for the Installation of Standpipe and Hose Systems Standard for Water Spray Fixed Systems for Fire Protection Standard for the Installation of Deluge Foam-Water Sprinkler and Foam-Water Spray Systems Standard for the Installation of Closed-Head Foam-Water Sprinkler Systems Standard for Dry Chemical Extinguishing Systems Standard for Wet Chemical Extinguishing Systems Standard for Inspection, Testing, and Maintenance of Water-Based Fire Protection Systems National Electric Code National Fire Code Life Safety Code Standard on Water Mist Fire Protection Systems Standard on Clean Agent Fire Protection Systems Standard for Installation of Fire Systems (Canadian Systems) 1-14

25 Chapter 2 Installing Cabinet and Electronics Assembly Introduction This chapter describes removing and reinstalling the electronics assembly and surface mounting or semi-flush mounting the cabinet to the wall. Required Tools and Hardware Installing the cabinet requires the following tools and hardware: Phillips screwdriver Small, flat-blade screwdriver T15 Torx screwdriver (screws are slotted Torx and will accept either a T15 Torx screwdriver or a flat-bladed screwdriver) Drill with appropriate bits Conduit shaping tools Conduit hole punching tool Conduit hardware In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Removing/Installing the Electronics Assembly 2-2 Cutting Conduit Openings 2-3 Mounting Cabinet 2-4 Removing and Installing Plastic PCB Cover and Slide-In Labels

26 Removing/Installing the Electronics Assembly Introduction Remove the electronics assembly from the cabinet prior to cutting conduit openings in the cabinet or mounting it to the wall. Removing Electronics Assembly Figure 2-1 shows the locations of the four mounting screws used to secure the electronics assembly to the AutoPulse Z-10 cabinet. To remove the assembly from the cabinet, loosen the four T15 Torx screws indicated in the figure. Slide the entire electronics assembly up until the screws located on the top of the assembly are in the cutouts of the teardrop holes. Tilt the top of the electronics assembly out from the box until the teardrop holes on the top of the assembly clear the screws and then lift the assembly straight up to remove it. Installing Electronics Assembly When installing the electronics assembly, place the assembly in the box so that the screws located near the top of the box fit through the cutouts of the teardrop holes. Align the U shaped slots on the bottom of the assembly with the screws located on the bottom of the box. Slide the electronics assembly down and then tighten the four screws. T15 Slotted Torx Screw T15 Slotted Torx Screw T15 Slotted Torx Screw Figure 2-1. Location of Electronic Assembly Mounting Screws 2-2

27 Cutting Conduit Openings Guidelines The AutoPulse Z-10 cabinet does not provide conduit knockouts. Cutting conduit openings must be done without the electronics assembly installed in the cabinet. Keep the following guidelines in mind when cutting conduit openings: Remove the electronics assembly before cutting conduit openings. Refer to Removing/Installing the Electronics Assembly, earlier in this chapter. Remove all metal shards from the cabinet after cutting openings. AC power (non-power limited) wiring must be run in separate conduit from all other wiring, as shown in the figure below. Non-power limited wiring must be separated from power limited wiring by a minimum of 1/4. Other non-power limited wiring from Aux Relays (i.e., 120 VAC) must be run in a separate conduit. Non-power limited wiring must be separated from power limited wiring by a minimum of 1/4. Conduits for NACs, IDCs, SPMs, RACs Non-Power Limited Area Only Figure 2-2. Conduit Locations, Front View 2-3

28 Mounting Cabinet Introduction Cabinets can either be surface-mounted directly to a wall or recessed into the wall (semi-flush mounting). Refer to the appropriate section below for specific details. Guidelines for Locating the Cabinet Always refer to engineering drawings/site installation plans before beginning installation. The AutoPulse Z-10 is designed to operate in a typical commercial environment. Choose a site for each cabinet that is: Located near a dedicated AC individual branch circuit with Earth ground (to maintain a consistent supply voltage). Mount the cabinet to the wall so that the top of the enclosure is no more than six feet above the floor. Well ventilated, clean, and dust free. Away from sources of heat, including direct sunlight. Away from sources of vibration or physical shock. Away from sources of Radio Frequency Interference (RFI), such as a radio transceiver base station or hand held unit. Isolated from sources of strong electromagnetic fields, such as air conditioners, large fans, and large electric motors. Surface Mounting Surface mounting the cabinet involves screwing it directly to a wall. 1. Install two screws (not supplied), spaced inches from each other, in a rigid surface. Make sure that the screws are level. Refer to Figure Place the cabinet s tear-drop holes over the screws, allowing the screws to fully slide into the slots of the tear-drop holes. 3. Install two screws in the lower mounting holes. These holes are approximately ¼ in diameter Figure 2-3. Dimensions for Surface Mount Holes 2-4

29 Mounting Cabinet, Continued Semi-Flush Mounting Semi-flush mounting involves recessing the cabinet into a wall and attaching it directly to the wall s studs. At a minimum, 1.5 inches of the cabinet must protrude from the wall to allow for clearance of the panel door DOOR 1.5" MIN Figure 2-4. Cabinet Dimensions for Semi-Flush Mounting 2-5

30 Removing and Installing Plastic PCB Cover and Slide-In Labels Removing and Replacing Plastic PCB Cover A plastic cover provides protection from High Voltage present on the AutoPulse Z-10 Printed Circuit Board (PCB). This cover must be removed to wire circuits, perform certain service operations, and to gain access to the Program Switch, used to place the panel into programming mode. 1. Disconnect the AutoPulse Z-10 from all power sources (AC and Battery) before removing the plastic cover. 2. Use a Phillips screwdriver to remove the three screws that secure the cover to the PCB. 3. Always replace the PCB cover before reapplying power to the panel. Slip Label into Slot located at top of Keypad after Removing Plastic PCB Cover Figure 2-5. Plastic PCB Cover and Label Location Installing Labels Figure 2-6, the sheet on the next page, containing eight labels (one blank, two for preaction/deluge, three for agent release, and two for combo agent release with Preaction/Deluge), ships along with the AutoPulse Z-10. The blank labels provide a means of assigning facility-specific zone names to the LEDs, allowing the LEDs to be associated with a more descriptive name than Zone 1, Zone 2 etc. Install one of these labels in the field after the appropriate application type is chosen. To install the label, first separate the appropriate label from the sheet. Next, remove the plastic PCB cover and slide the label into the slot located on the top of the keypad. See Figure 2-5. Continued on next page 2-6

31 Removing and Installing Plastic PCB Cover and Slide-In Labels, Continued Installing Labels Figure 2-6. Labels 2-7

32

33 Chapter 3 Connecting Field Wiring and AC Power Introduction This chapter describes connecting field wiring for all devices (smoke detectors, releasing appliances, abort switches, etc.) to the AutoPulse Z-10, and wiring AC power to the panel. Before installing any equipment, always make a survey of the area to be covered. Also, be sure to follow the requirements of applicable codes and standards, as well as the directives of Authorities Having Jurisdiction (AHJs). Remove the plastic PCB cover as described in Removing Plastic PCB Cover in the previous chapter. In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Wiring Initiating Device Circuits 3-2 Wiring Releasing Circuits 3-5 Wiring Special Purpose Monitor Circuits 3-8 Wiring Relay Connections 3-11 Wiring Notification Appliance Circuits 3-12 Wiring AC Power and Battery Wiring 3-14 Wiring 24V Aux Power 3-17 Testing Circuit Supervision

34 Wiring Initiating Device Circuits Guidelines Initiating Device Circuits are used for wiring smoke and heat detectors to the AutoPulse Z-10. Be aware that correct operation of the AutoPulse Z-10 depends on the proper installation and placement of smoke and heat detectors. This is particularly true when installing a cross-zoned, agent release system. With a cross-zoned system, the detectors in the room must be installed so that each successive detector in the space being protected is on an alternating zone pattern. Ensure that there are at least two detectors in each protected space, and reduce the detector installation spacing to 0.7 the linear spacing. The location and spacing of detectors shall be in accordance with the requirements of Section of the National Fire Code (NFPA 72), 2002 Edition. In the following example, the shaded detectors are on Zone 1 and the non-shaded detectors are on Zone 2. The zone location is indicated by the blinking yellow LED. After ACK, the LED for the affected circuit will continue to blink. Adhere to the following guidelines when wiring IDCs: All wiring must be from 12 AWG (max.) to 18 AWG (min.). Conductors must test free of all grounds. All wiring is supervised and power limited. Leave 3.3K, 1/2W resistor across all unused IDC terminals. See note 4 in Figure 3-1 (twowire). Terminate Style B (Class B) circuits with a listed 3.3K, 1W (Part No ) end-of-line resistor. See note 5 in Figure 3-1. Terminate Style D (Class A) circuits with a listed 3.3K, 1 W (Part No ) end-of-line resistor. See note 6 in Figure 3-1. For Canadian applications, attach the following resistor to a ULC-listed EOL device. Part No K, 1W resistor Maximum line resistance for a circuit is 50 Ohms. Maximum number of smoke/heat detectors per IDC is 30. Maximum detector standby current is 3mA. Voltage rating nominal 24 VDC, 0.5V peak-to-peak ripple (max.) For all applications, the maximum voltage (open circuit) is 28 VDC. Maximum current is 75mA. When IDC wiring is routed outside the building, use Listed Secondary Protector A protector must be installed at the building entrance such that protected wiring is segregated from unprotected (outdoor) wiring. Continued on next page 3-2

35 Wiring Initiating Device Circuits, Continued Guidelines Any combination of the detectors and bases listed below may be installed, except only one Part No may be used per circuit. The compatibility identifier is the model number found on the detector, base, and control unit. Compatible device Part Numbers are as follows: (Refer to installation instructions ) , Photoelectric Smoke (2.8 %) Detector , Combination Photoelectric/Heat Detector , Ionization Smoke Detector , Photoelectric Smoke (3.5%) Detector , 135 Fixed Temperature with Rate-of-Rise Electronic Heat Detector , 200 Fixed Temperature with Rate-of-Rise Electronic Heat Detector Compatible Bases. (Refer to Part No for installation instructions.) , Two Wire Base (30 / Loop) , Two Wire Base with Aux. Relay (1 / Loop) , Two Wire Base with LED (Part Nos through only) 3-3

36 Wiring Initiating Device Circuits, Continued Field Wiring Connections Two Wire IDCs Field wiring connections between two-wire IDCs and the panel are made as shown in the following figure. Refer to Guidelines earlier in this section for a list of compatible devices and their installation instructions. If using contact closure devices, place device directly across terminals with no current limiting resistor. STYLE B (CLASS B) STYLE D (CLASS A) 3.3K 1W (431210) Typical Initiating Device 5 Typical Initiating Device Contact Closure Device 8 Contact Closure Device 8 3.3K 1/2 W 4 3.3K 1/2 W 4 IDC1 + IDC1 - IDC4 + IDC1 + IDC1 - IDC4 + IDC4 - IDC IDC1 IDC2 IDC3 IDC4 TB IDC1 IDC2 IDC3 3.3K 1W (431210) 6 IDC4 TB IDC1 IDC2 Class A Adapter Figure 3-1. Two-Wire IDC Wiring 3-4

37 Wiring Releasing Circuits Guidelines The Releasing Appliance Circuits (RACs) on the AutoPulse Z-10 are designated on the printed circuit board as RAC1 and RAC2. Each RAC must connect to a Part No coil supervision module, which in turn connects to two 12 VDC or one 24 VDC solenoid (also known as an actuator). Figure 3-2 shows the wiring connections to the AutoPulse Z-10. All wiring must be 18 AWG (min.) to 12 AWG (max.). Conductors must test free of all grounds. All wiring is supervised and power limited unless otherwise noted. Wiring between Part No coil supervision module (Yell/Black) is not power limited. Refer to the Coil Supervision Module Wiring Instructions (431303). Leave a 10K, 1/2 W (Part No ) resistor across all unused RAC terminals. Voltage rating nominal 24 VDC, 0.5 V peak-to-peak ripple, maximum. Total available current from main power supply is 3A. If auxiliary power is used, available signal power is reduced accordingly. Terminal designations + and - are for the alarm state. Connect 24 VDC actuator as shown, only one 24 VDC actuator per RAC. Connect 12 VDC actuator as shown, two units must be connected via a maximum of 20 feet of wiring in conduit. For specific actuator wiring instructions, refer to the manufacturer s recommendations. Only releasing devices meeting the following criteria may be used with the AUTOPULSE Z-10: Releasing devices specified by part number in Table B-2 of this manual. Releasing devices in FM categories A, B, C, D, E, F, G and H. Max. alarm current is 2A per circuit. See following chart for line distances. RAC2 is used as NAC3 (visual notification appliances) for the New York City Abort application. When RAC wiring is routed outside the building, use Listed Secondary Protector A protector must be installed at the building entrance such that protected wiring is segregated from unprotected (outdoor) wiring. Maximum open circuit voltage, non-alarm (standby) state is 29 VDC. Maximum voltage, alarm state is 26 VDC. Maximum current: 2 ADC. Table 3-1. Maximum Distance from Panel to Releasing Device (Feet) Current (Amps) 18 AWG 16 AWG 14 AWG 12 AWG Line Resistance (Ohms) Note: When RAC wiring is routed outside the building, use Listed Secondary Protector A protector must be installed at the building entrance such that protected wiring is segregated from unprotected (outdoor) wiring. 3-5

38 Wiring Releasing Circuits, Continued Field Wiring Connections Field wiring connections between the releasing appliances and the panel s RACs are made as shown in the following figure. The coil supervision module provides polarization of the actuators. YEL 24 V Actuator 1 24V Unit Per Circuit BLK 2 12V Units Per Circuit 12 V Actuator 12 V Actuator YEL Coil Supervision Module RED BLK BLK Locate in Valve Junction Box YEL Coil Supervision Module RED BLK BLK Locate in Valve Junction Box 5 5 RAC1 + RAC1 - RAC2 + RAC2-10K 1/2 W (431222) RAC1 + RAC1 - RAC2 + RAC2-10K 1/2 W (431222) RAC1 RAC2NAC1 NAC RAC1 RAC2NAC1 NAC2 Figure 3-2. Releasing Appliance Circuit (RAC) Wiring Style Y (Class B) Main / Reserve Switch Figure 3-3 shows wiring for a Part No (surface-mount) or Part No (flush-mount) main/reserve switch. The main/reserve switch is rated for 1.1A make/break current at 28 VDC or 6A continuous carry current at 28 VDC. Locate the Part No coil supervision module in valve junction box. Connect to Release Appliance Circuit (RAC) on System Board (+) and (-) Designations Correspond to the State (+) (-) Red Blk Coil Supervision Module Yell Blk Key-Operated Selector Switch NC 24VDC Actuator NO 24VDC Actuator Figure 3-3. Main/Reserve Switch 3-6

39 Wiring Releasing Circuits, Continued Key Maintenance Switch Figure 3-4 shows wiring for a Part No (surface mount) or Part No (flush mount) key maintenance switch. The switch is rated for 1.1 A make/break current at 28 VDC or 6A continuous carry current at 28 VDC. Locate Part No coil supervision module in valve junction box. Earth Fault Detection. The detection level for the AutoPulse Z-10 is 10k ohms minimum on all circuits. ULC Latching Supervisory Operation. The same as UL Latching Operation, except that zone location is NOT indicated by the flashing yellow LED. Figure 3-4. Key Maintenance Switch 3-7

40 Wiring Special Purpose Monitor Circuits Overview Special Purpose Monitor (SPM) circuits are used for connecting abort and manual release switches to the AutoPulse Z-10. For all applications, the maximum voltage (open circuit) is 28 VDC, and the maximum current is 75mA. Note: In Preaction/ Deluge applications SPMs are used for Waterflow and Supervisory switches. In combination Agent Release and Preaction/Deluge (Applications 10 and 11) SPM1 is used for Abort/Manual and SPM2 is used with a pressure switch. Please refer to Table 1-3 for details. The application type (i.e., single hazard or dual hazard) determines the function of each SPM, as follows. The chart below refers to applications 1-4 only. Application Single Hazard, Class A/B Dual Hazard, Class A/B SPM Circuit Function SPM 1: Connect only abort switches. SPM 2: Connect only manual release switches. Refer to Wiring Class A/B SPM Circuits for Single Hazard Applications. Abort switches and manual release stations can share SPM 1 and SPM2. An activated abort switch creates a current limited state on the circuit, whereas a manual release station creates a short on the circuit. Refer to Wiring Class B SPM Circuits for Dual Hazard Applications below. Wiring Class A/B SPM Circuits for Single Hazard Applications Adhere to Figure 3-5 and the following guidelines when wiring Special Purpose Monitor (SPM) for a single hazard application. Connect abort switches to SPM1 and manual release stations to SPM2. Do not combine abort switches and manual release stations on the same circuit. In Preaction/ Deluge applications, SPM 1 is connected to Supervisory switches and SPM 2 to Waterflow controls. As noted earlier, in combination Agent Release and Preaction/Deluge (Applications 10 and 11) SPM1 is used for Abort/Manual and SPM2 is used with a pressure switch. Use only manual release switches that are UL-listed for fire use. Use abort switch (flush mount). Both manual release stations and abort switches must be normally open. All wiring must be 12 AWG (max.) to 18 AWG (min.). Conductors must test free of all grounds. All wiring is supervised and power limited. Leave 3.3 K, 1/2 W resistor across all unused SPM terminals. Terminate Style B (Class B) circuits with a listed 3.3K, 1W (Part No ) end-of-line resistor. For Canadian applications, attach the following resistor to a ULC-listed EOL device. Part No K, 1W resistor Terminate Style D (Class A) circuits at the Class A Adapter with a listed 3.3K, 1 W (Part No ) end-of-line resistor. See Figure 3-5. Maximum line resistance is 50 Ohms. Normal condition (no devices closed). Current at 24 VDC: 6.0 ma Manual Release condition. Current at 24 VDC: 25 ma SPM Circuits do not support the connection of smoke or heat detectors. When SPM wiring is routed outside the building, use Listed Secondary Protector A protector must be installed at the building entrance such that protected wiring is segregated from unprotected (outdoor) wiring. Continued on next page 3-8

41 Wiring Special Purpose Monitor Circuits, Continued Wiring Class A/B SPM Circuits for Single Hazard Applications Note: Class A wiring for manual release stations is the same as the wiring shown in the Class A diagram. Wiring from the last release station returns to the Class A board and a 3.3K 1W resistor (Part No ) is tied to the wiring. Figure 3-5. Class A/B SPM Wiring for Single Hazard Application 3-9

42 Wiring Special Purpose Monitor Circuits, Continued Wiring Shared, Class B SPM Circuits for Dual Hazard Applications Adhere to the following guidelines when wiring Special Purpose Monitor (SPM) circuits for a dual hazard application. Use only manual release switches that are UL-listed for fire use. Use abort switch (flush mount). Both manual release stations and abort switches must be normally open. All wiring must be 12 AWG (max.) to 18 AWG (min.). Conductors must test free of all grounds. All wiring is supervised and power limited. Leave 3.3 K, 1/2 W resistor across all unused SPM terminals. Terminate Style B (Class B) circuits with a listed 3.3K, 1W (Part No ) end-of-line resistor. For Canadian applications, attach the following resistor to a ULC-listed EOL device. Part No K, 1W resistor Maximum line resistance is 50 Ohms. Normal condition (no devices closed). Current at 24 VDC: 6.0 ma Manual Release condition. Current at 24 VDC: 25 ma SPM Circuits do not support the connection of smoke or heat detectors. An activated abort switch creates a current-limited state on the circuit, whereas a manual release station creates a short on the circuit. When SPM wiring is routed outside the building, use Listed Secondary Protector A protector must be installed at the building entrance such that protected wiring is segregated from unprotected (outdoor) wiring. 3.3K 1W (431210) Abort Switch Abort Switch Note: Wire manual release stations before the Abort Supervision Module. Wire Abort Switches after the Abort Supervision Module. Abort Supervision Module (431196) Manual Release Station SPM1 + SPM SPM1 SPM2 Figure 3-6. Class B SPM Wiring for Dual Hazard Application 3-10

43 Wiring Relay Connections General Guidelines Adhere to the following guidelines when wiring base panel relay modules. These guidelines and specifications apply only to the standard, on-board relays. Information regarding the specifications and wiring of the optional auxiliary relays is located in document All wiring must be 18 AWG (min.) to 12 AWG (max.) Conductors must test free of all grounds. Relay circuits are rated for 2A (max.) at 30 VDC (max.), pilot duty (0.35 power factor). Circuit is not supervised. When setting jumpers to select Normally Open or Normally Closed contacts, position jumpers as follows: Normally Closed, position jumper to the left. Normally Open, position jumper to the right All relays are single pole, double throw. If power source is not power limited to the requirements of UL864, wiring is to be segregated to the non-power limited spaces of the cabinet. See Wiring AC Power later in this chapter for the location of the non-power limited cabinet area. Figure 3-7. Field Wiring for Relay Connections 3-11

44 Wiring Notification Appliance Circuits Guidelines Adhere to the following guidelines when wiring Notification Appliance Circuits. All wiring is to be 18 AWG (min.) to 12 AWG (max.) Conductors must test free of all grounds. All wiring is supervised and power limited. Leave a 10K, 1/2 W (Part No ) resistor across all unused NAC terminals. See 4 in Figure 3-8. Terminate Style Y (Class B) circuits with a listed 10K, 1/2 W (Part No ) end-of-line resistor. See 5 in Figure 3-8. For Canadian applications, attach a 10K ½ W resistor (Part No ) to a ULC-listed End of Line Device. Terminate Style Z (Class A) circuits with a listed 10K, 1/2 W (Part No ) end-of-line resistor. See 6 in Figure 3-8. Voltage rating nominal 24 VDC, 0.5 V peak-to-peak ripple (max.) Total available current from main power supply is 3 A. If auxiliary power is used, available signal power is reduced accordingly. Terminal designations + and - are for the alarm state. Maximum alarm current is 2A per circuit. See Table 3-2 for line distance. The operation of the NAC (Off on Reset; Off on Silence) is determined by the setting of the NAC Operation programming option. See Chapter 4 of this manual for information on setting this option. When wiring NYC Abort operation, NAC1 is used for connecting bells and bell strobes associated with the investigation timer, NAC2 is used for connecting audible notification appliances, and RAC2 is used for connecting visual notification appliances. When NAC wiring is routed outside the building, use Listed Secondary Protector A protector must be installed at the building entrance such that protected wiring is segregated from unprotected (outdoor) wiring. Maximum open circuit voltage, non-alarm (standby) state is 29 VDC. Maximum voltage for alarm state is 26 VDC. Maximum current: 2ADC. Table 3-2. Maximum Distance from Panel to Last Notification Appliance (Feet) Current Amps 18 AWG 16 AWG 14 AWG 12 AWG Line Resistance (Ohms)

45 Wiring Notification Appliance Circuits, Continued Field Wiring Connections 10K 1/2W (431222) 10K 1/2W (431222) Horn/ Strobe RAC1 RAC2 NAC1 + NAC NAC1 NAC2 10K 1/2W (431222) NAC2 + NAC RAC1 RAC2 Bell NAC1 + NAC NAC1 NAC2 10K 1/2W (431222) NAC1 NAC2 Class A Adapter Figure 3-8. NAC Field Wiring Connections For all UL Listed Notification Appliances, NACs are rated Regulated 24V dc, at 1.5A maximum each. Maximum allowed strobe load 1.35A. The balance of the 3A total capacity for the two NACs can be auxiliary loads or audible notification appliances. All other regulated 24V dc synchronized notification appliances require the use of their associated Listed external synchronization module. Notification Circuit rating is 1.5A maximum, 1.35A maximum strobe load. Use the UL rated operating current to determine maximum number of appliances allowed per NAC. 3-13

46 Wiring AC Power and Battery Wiring Field Wiring for AC Power and Battery Wiring Connect the AutoPulse Z-10 to a dedicated branch circuit per all local codes. Adhere to the following guidelines when wiring AC power and batteries. Input voltage: 120 VAC, 60 Hz, 2A maximum or 220/230/240 VAC 50/60 Hz, 1A maximum. Battery voltage: 24 VDC, 3A maximum. Maximum charging current is 1.4A. All wiring must be 18 AWG (min.) to 12 AWG (max.) AND per local code. Battery charger compatible with Valve Regulated Sealed Lead Acid Batteries, 6.2 Ah to 12.7 Ah inclusive. Refer to Appendix C: Battery Selection Calculations to select the appropriate size of sealed lead-acid batteries for the required standby time. Battery connection is fused at the printed circuit board. No inline fuse is necessary. Replacement fuse for AC input is Part No , 3A, 250 VAC fast acting. Fuse size is 5mm x 20 mm. See 6 in Figure 3-10 for location of fuse. Connect batteries to panel using Part No harness as shown in Figure If expansion charger Part No (50 Ah, 120 VAC), Part No (50 Ah, 240VAC), or Part No (50 Ah, 120VAC, Canadian) is used, connect the charger control (see 9 in Figure 3-10 for location) on the AutoPulse Z-10 to TB1-1 on the battery charger. Refer to Part No for information on the external battery charger. Loop the Line and Neutral wires around a ferrite bead twice before connecting them to Terminal Block TB5. See Figure 3-9. (Ferrite bead is Part No ). Connect Line and Neutral from the incoming dedicated AC power circuit (20 A maximum) to terminal block TB5 on the panel. TB5 s terminals are labeled LINE and NEUT. See 3 in Figure 3-10 below. No switches or jumpers need to be configured for specific line voltages. Connect a 12 AWG copper ground wire from the safety ground in the electrical distribution panel to the AutoPulse Z-10 safety ground stud, which is located on the left wall of the cabinet, near the bottom. See Figure 3-9 below. 12 AWG ground wire running between safety ground in electrical panel and safety ground stud on AutoPulse Z-10 cabinet wall Wrap incoming AC power line twice around ferrite bead. Incoming AC power line connects to TB5 LINE and NEUT terminals. Figure 3-9. Ground Stud and Ferrite Bead Continued on next page 3-14

47 Wiring AC Power and Battery Wiring, Continued Field Wiring for AC Power and Battery Wiring INSTALL FERRITE BEAD AS SHOWN IN FIGURE F1 TB5 8 P7 LINE NEUTRAL GROUND 7 EARTH CONNECT RED (+) BLK (-) WHT (-) VDC 12VDC - Figure AC Power and Battery Connections Enabling Depleted Battery Cutout To enable Depleted Battery Cutout operation, remove the plastic PCB cover and use a small pair of wire snips to clip the Jumper R187 (0 ohm resistor), which is shown in Figure With this jumper cut, the system shuts down if the batteries reach a depleted state (19.4 VDC). Note: Do this only if Depleted Battery Cutout is required. Leave this jumper in place for systems that do not shut down when batteries are depleted. The normal (default) system operation prevents NAC, RAC, and relay operation from initiating after batteries are depleted. That operation does NOT require jumper removal. Continued on next page 3-15

48 Wiring AC Power and Battery Wiring, Continued Enabling Depleted Battery Cutout Clip Jumper R187 Figure Location of Jumper R187 Battery Maintenance Battery maintenance requires specialized test equipment. Contact your fire alarm service representative for information on testing batteries. 3-16

49 Wiring 24V Aux Power General 24V auxiliary power is wired from either resettable, or on steady terminals. The combined rating for any combination of steady or resettable devices must not exceed 750 ma. This section provides information on wiring steady 24 VDC power. Resettable 24 VDC power is typically used with four wire smoke detectors. Refer to Wiring Initiating Device Circuits, earlier in this chapter for specific information on wiring resettable 24 VDC power. Wiring Steady, 24 VDC Aux Power Use the + terminal (24 VDC) and the terminal (0 V) when wiring a device that requires steady 24 VDC power. 24 VDC Device Requiring Steady 24 VDC. 750 ma Max R - 24V Pwr 2A Max. for +/- "R" is Neg. for 24 V Reset Zone 1 Trouble Manual Release Zone 5 Trouble Figure Wiring Steady, 24 VDC Aux Power Note: This circuit is rated Special Application. The output is VDC. The maximum current is 750mA. 3-17

50 Testing Circuit Supervision General Earth Fault Detection For recommended procedures and guidelines on testing the IDCs, NACs and RACs, refer to NFPA 72 (2002 Edition), Annex C "Wiring Diagrams and Guides for Testing Fire Circuits. The detection level for the AutoPulse Z-10 is 10k ohms, minimum, on all circuits. 3-18

51 Chapter 4 Programming Introduction This chapter describes the field programming required to select one of the panel s preprogrammed applications and configure the options for the selected application. In this Chapter Refer to the page number listed in this table for information on a specific topic. Topic See Page # Overview 4-2 Programming the Application Mode 4-6 Programming Relay Operation 4-8 Programming IDC Circuit Style 4-8 Programming the Automatic Release Timer 4-9 Programming the RAC Time Limit Cutout 4-10 Programming Manual Release Time Delay 4-12 Programming Abort Switch Operation 4-13 Programming Stage 1 NAC2 Coding 4-15 Programming NAC Operation 4-16 Programming Supervisory Operation 4-17 Programming Supervisory Operation 4-18 Saving and Making Changes

52 Overview Introduction The AutoPulse Z-10 is site-programmable, using either a text-based or front-panel programming method. In both cases, all programming selections are stored in non-volatile memory and saved between power on/off cycles. This section provides an overview of each programming method and identifies any prerequisite steps (connecting serial cable, etc.) you must complete prior to programming the panel. Notice to users, installers, authorities having jurisdiction, and other involved parties This product incorporates field-programmable software. In order for the product to comply with the requirements in CAN/ULC-S527, Standard for Control Units for Fire Systems, certain programming features or options must be limited to specific values or not used at all as indicated below. Program feature Permitted in CAN/ULC- Possible Setting permitted in or option S527? (Yes/No) settings NAC Coding Yes Temporal, 20 BPM CAN/ULC-S BPM (Note: The temporal setting may not be used as this panel is for Releasing Services only.) Text-Based Programming The text-based panel programmer runs in a terminal emulator window on your PC and uses a series of 11 text prompts, each of which corresponds to a major programming task, to guide you through the programming process. Each prompt appears similar to the example shown below. The default setting for the prompt is always designated by a d, and an asterisk (*) always indicates the currently programmed setting. Use X to exit the programmer at any time; use C to review the current programming configuration. When you turn the programming switch to the OFF position, all changes you have made are saved. To accept the currently programmed setting, simply press the Carriage Return (CR) key. To change a setting, enter the number corresponding to your choice and then press the CR key. When you press CR, the next prompt appears. [01] APPLICATION MODE: d*1 = Agent Release, Single Hazard, Cross Zoned, Combined Release 2 = Agent Release, Single Hazard, Non-Cross Zoned, Combined Release 3 = Agent Release, Dual Hazard, Cross Zoned 4 = Agent Release, Dual Hazard, Non-Cross Zoned 5 = Preaction/Deluge, Single Hazard, Cross Zoned, Combined Release 6 = Preaction/Deluge, Single Hazard, Non-Cross Zoned, Combined Release 7 = Preaction/Deluge, Dual Hazard, Cross Zoned 8 = Preaction/Deluge, Dual Hazard, Non-Cross Zoned 9 = Agent Release, Single Hazard, Cross-Zoned, NYC abort 10 = Agent Release and Preaction/Deluge, Single Hazard, Cross-Zoned, Combined Release 11 = Agent Release and Preaction/Deluge, Single Hazard, Combined Release 12 = Agent Release, Single Hazard, Cross-Zoned, Bell/Horn/Strobe 13 = Agent Release, Single Hazard, Bell/Horn/Strobe (d=default, *=current setting) Select Number(X=exit): 4-2

53 Overview, Continued Text-Based Programming Complete the following steps to enable the panel for text-based programming. Step 1. Connect Serial Cable. Connect a Part No serial cable between the PC and the AutoPulse Z-10 service port, as follows: a. Locate the PC within 6 feet of the AutoPulse Z-10 FACP and connect a Part No serial cable to a free serial port (typically COM1) on the PC. b. Connect the other end of the cable to the service port on the AutoPulse Z-10 FACP. The Service port, labeled P2, is located on the top left of the AutoPulse Z-10 motherboard. Make sure the stripe on the cable is positioned at the bottom, as shown in the following figure. Part No Serial Cable Figure 4-1. Connecting Cable to Service Port Continued on next page 4-3

54 Overview, Continued Text-Based Programming Step 2. Set Program Switch to ON. Open the cabinet door, remove the plastic PCB cover, and set the Program Switch, located as shown in Figure 4-2, to the ON position. This places the panel in programming mode. At this time, the tone-alert pulses and the Trouble LED flashes to indicate a programming mode trouble. Pressing ACK silences the tone-alert and changes the LED to steady ON. Location of Programming Switch. Place switch in UP position to turn programming mode on. Figure 4-2. Location of Program Switch Step 3. Configure Terminal Emulator Serial Port Settings. Use a terminal emulation program, such as Windows HyperTerminal, to establish a serial communication session with the AutoPulse Z-10. Set the terminal emulator s serial communication parameters as follows: 9600 baud no parity 8 data bits 1 stop bit Set Flow Control to None Step 4. Enter a P at the Dash Prompt. A dash prompt appears in the terminal emulator window to indicate that the PC and AutoPulse Z-10 are communicating with one another. Enter a P at the dash prompt to start the programming session. - P The first prompt, which queries you for the application mode you want to select, automatically appears when you type P. Refer to Programming the Application Mode later in this chapter for a description of the application mode prompt. Front Panel Programming Programming the AutoPulse Z-10 from the front panel is an 11-step process. With this method, the AutoPulse Z-10 uses the LEDs on the front of the panel to represent the available programming options. The left column of LEDs represents which general programming option is selected and the right column represents context-sensitive choices for the selected programming option. The System Reset key allows you to move down through the choices and the ACK key is used to accept a selection and move to the next programming step. (The Silence key has no programming function.) Figure 4-3 summarizes the operation of the front panel programming method. When you place the Program Switch in the ON position, the panel immediately enters programming mode and the LEDs appear as shown in 1 Application Mode. 4-4

55 Overview, Continued 1-1 Application Mode 1-2 Expanded Application Mode 1-3 Relay Operations 2- IDC & SPM Circuit Style 3 - Automatic Release Timer Agent Release, 1 Hazard Cross-Zoned, Combined Agent Release, 1 Hazard Combined Agent Release, 2 Hazards Cross-Zoned Agent Release, 2 Hazards Preaction/ Deluge, 1 Hazard Cross-Zoned, Combined Preaction/ Deluge, 1 Hazard Combined Preaction/ Deluge, 2 Hazards Cross-Zoned Preaction/Deluge and Agent, 1 Hazard, Cross-Zoned Preaction/Deluge and Agent, 1 Hazard Agent Release, 1 Hazard B/H/S, Cross-Zoned Agent Release, 1 Hazard B/H/S Option 1 (original) Option 2 (enhanced) Class B / A Style C 0 Seconds 10 Seconds 20 Seconds 30 Seconds 40 Seconds 50 Seconds 60 Seconds 5 Seconds 15 Seconds 25 Seconds 35 Seconds 45 Seconds 55 Seconds Preaction/ Deluge, 2 Hazards NYC Abort, Agent Release Single Hazard, Cross-Zoned SYSTEM TROUBLE SYSTEM TROUBLE SYSTEM TROUBLE SYSTEM TROUBLE SYSTEM TROUBLE AC POWER AC POWER AC POWER AC POWER AC POWER ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET RAC Cutout Timer RAC Cutout Timer 5 - Manual Release Time Delay 6 - Abort - Release Time Delay 7 - NAC Coding No Cutout 3.5 Minutes Cutout 0 Second Immediate Temporal 45 Second Cutout 21 Minutes Cutout 5 Seconds 10 s / Remaining 20 BPM 1 MInute Cutout 25 Minutes Cutout 10 Seconds IRI Abort 3 Minutes Cutout 34 Minutes Cutout 15 Seconds Original Delay 4 Minutes Cutout 44 Minutes Cutout 20 Seconds NYC Abort 5 Minutes Cutout 64 Minutes Cutout 25 Seconds 6 Minutes Cutout 30 Seconds 7 Minutes Cutout SYSTEM TROUBLE SYSTEM TROUBLE SYSTEM TROUBLE SYSTEM TROUBLE SYSTEM TROUBLE AC POWER AC POWER AC POWER AC POWER AC POWER ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET 8 - NAC Operation 9 - Supervisory Latching 10 - Supervisory Notification On Until Silence UL Latching Supv Std (LED-Piezo) 1 Reset, 2 Silence UL Non-Latching Supv Std+NAC2 On Until Reset ULC Latching Supv Std+AUX3 On Until Silence Std+AUX3+NAC2 1 Reset, 2 Silence On Until Reset SYSTEM TROUBLE AC POWER SYSTEM TROUBLE AC POWER SYSTEM TROUBLE AC POWER ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET ACK ALARM SILENCE SYSTEM RESET Figure 4-3. Summary of Programming Modes and Options 4-5

56 Overview, Continued Programming the Application Mode Overview Method Text-Based Programming The first programming step is to select the application mode (i.e., Agent Release, Single Hazard, Cross Zoned, Combined Release, etc.). The AutoPulse Z-10 can be programmed with any one of 13 agent release or Preaction/Deluge application modes. Note: Refer to Table 1-2 in Chapter 1 for a summary of each application mode. Description The first prompt, shown below, queries you to select the application mode. [01] APPLICATION MODE: d*1 = Agent Release, Single Hazard, Cross Zoned, Combined Release 2 = Agent Release, Single Hazard, Non-Cross Zoned, Combined Release 3 = Agent Release, Dual Hazard, Cross Zoned 4 = Agent Release, Dual Hazard, Non-Cross Zoned 5 = Preaction/Deluge, Single Hazard, Cross Zoned, Combined Release 6 = Preaction/Deluge, Single Hazard, Non-Cross Zoned, Combined Release 7 = Preaction/Deluge, Dual Hazard, Cross Zoned 8 = Preaction/Deluge, Dual Hazard, Non-Cross Zoned 9 = Agent Release, Single Hazard, Cross-Zoned, NYC abort 10 = Agent Release and Preaction/Deluge, Single Hazard, Cross-Zoned, Combined Release 11 = Agent Release and Preaction/Deluge, Single Hazard, Combined Release 12 = Agent Release, Single Hazard, Cross-Zoned, Bell/Horn/Strobe 13 = Agent Release, Single Hazard, Bell/Horn/Strobe (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the application mode you want to select and press the carriage return. Refer to Programming the Relay Option in the next section for a description of the next programming step. The top LED (red) on the left side of the display is lit to indicate the application mode is being programmed. The top LED on the right side of the display is lit to indicate the default application (Agent Release, 1 Hazard, Cross Zoned, Combined RAC) that is currently selected. Press ACK to use the default. To choose a different application, do the following: 1. Press the RESET key to move down through the list of available applications. Each time you press this key, the illuminated LED on the right side of the panel changes to the next one down. If none of the first nine applications are selected, the second application mode menu will appear. It is shown on the next page. (Refer to the figure below for the relationship between the LEDs and applications.) 2. When the LED corresponding to the desired application is illuminated, press the ACK key. This saves the selection in memory and moves you to the next programming step. Front Panel Programming When top LED (red) on left side of display is lit, it indicates that the application mode is being programmed. Yellow Trouble LED lit to indicate panel is in programming mode. Green LED is AC Power. These LEDs represent the available application selections. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice.

57 Overview, Continued Programming the Application Mode, Continued Method Description Front Panel Programming The top two LEDs on the left side of the display are lit to indicate that applications can be selected. If the Reset key is pressed 4 times, the LEDs will revert to the previous screen. These LEDs represent this group of available applications. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice. Yellow Trouble LED is lit to indicate panel is in programming mode. Green LED is AC Power.

58 Overview, Continued Programming the Relay Option Overview The setting of this option determines how the aux and expansion relays operate. Only the nine original applications use both modes. Original or Enhanced results in the same aux and expansion relay operation for Applications Original Mode. The original nine applications can use either original mode or enhanced mode. If original mode is selected the relays operate as they did before Enhanced mode was added. Original mode still exists for two reasons. The first is if the customer is expanding their system and desires the same operation from a new panel. The second reason is if there is a failed or damaged unit and a replacement is required that operates in the same manner. Table 1-1 shows the original relay options. Enhanced Mode. This mode changes the relay operations for the first nine applications. The four new applications don t distinguish between the two modes. By default, applications 10 through 13 will use Enhanced mode. The reason for this new mode is to more closely align the relay operation with the conventional definition used by the releasing industry. Table 1-2 shows the enhanced relay operations. Method Text-Based Programming Description The second prompt, shown below, asks you to set the Relay Mode. [02] RELAY OPTIONS: d 1 = Option One (Original Mode) *2 = Option Two (Enhanced Mode) (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the Relay Operation you want to select and press carriage return. Refer to Programming IDC Circuit Style in the next section for a description of the next programming step. If you want to use the default choice (Original Mode), press the ACK key. To choose Enhanced Mode, press the RESET key to move down in the list. When the desired choice is illuminated, press the ACK key to save the selection in the memory and move to the next programming step. Front Panel Programming When the first and third LEDs are lit, it indicates the Relay Option is being programmed. These LEDs represent the 2 available relay options. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice. Yellow Trouble LED is lit to indicate panel is in programming mode. Green LED is AC Power.

59 Overview, Continued Programming IDC Circuit Style Overview Method Text-Based Programming The setting of this option determines how the system interprets short and current-limited conditions on the IDCs and SPMs as follows: Style C Operation. This operation is not currently supported. Class A/B Operation. When the IDC circuit style is set to Class A/B operation, alarms are initiated on IDCs with either a short or current limited alarm. When Class A or B operation is selected, the Special Purpose Monitor (SPM) circuits can be used for both abort and manual release switches. Abort switches come into the system as current limited alarms. A manual release comes into the panel as a short. The maximum number of abort switches per circuit is five. Description The third prompt, shown below, asks you to set the IDC and SPM circuit style. [03] STYLE C OPERATION: d 1 = No *2 = Yes (d=default, *=current setting) Select Number(X=exit): Press the carriage return to accept the default. Refer to Programming the Automatic Release Timer in the next section for a description of the next programming step. Press the ACK key to use the default choice (Class B/A). This saves the selection in memory and moves you to the next programming step. When second LED from top on left side of display is lit, it indicates that the IDC/SPM circuit style is being programmed. These LEDs represent the available circuit style selections. Note that only Class A/B operation is currently supported. Front Panel Programming Press ACK to accept the default (Class A/B operation). Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power.

60 Overview, Continued Programming the Automatic Release Timer Overview The Automatic Release Time Delay is a programmable timer that delays the activation of the releasing appliance circuits. This timer starts immediately after receiving a confirming alarm (cross zoned system) or a first alarm (single alarm system). When the timer expires, the releasing appliances activate (assuming the abort switch is not active). This delay allows evacuation of the protected space before release of the agent. A delay timer should be considered if occupants might possibly be present in the protected space. Selecting immediate will result in release of extinguishing agent simultaneous to the pre-discharge signal. Method Text-Based Programming Description The fourth prompt, shown below, asks you to set the Automatic Release Delay Timer. [04] AUTOMATIC RELEASE TIMER: 1 = Immediate (no delay) *2 = 5 sec. 3 = 10 sec. 4 = 25 sec. 5 = 20 sec. 6 = 25 sec. 7 = 30 sec. 8 = 35 sec. 9 = 40 sec. 10 = 45 sec. 11 = 50 sec. 12 = 55 sec. d 13 = 60 sec. (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the delay timer you want to select and press the carriage return. Refer to Programming the RAC Time Limit Cutout for a description of the next programming step. The timer range is 0 to 60 seconds, selectable in 5 second increments. The default setting for this option is 60 seconds. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. Front Panel Programming When third LED from top on left side of display is lit, it indicates the Automatic Release Time Delay is being programmed. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power. These LEDs represent the available timer selections. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice.

61 Overview, Continued Programming the RAC Time Limit Cutout Overview Method Text-Based Programming The RAC Cutout Timer is a programmable timer that specifies the length of time the Releasing Circuits are active. When the timer expires, the RACs cut out. This stops the water flow or release of the extinguishing agent. This option is typically used on Deluge systems, and does not work with all releasing systems and or releasing devices. (Some devices discharge their entire supply of agent when fired so this setting would have no effect on operation.) A selection of 0 means the RACs do not cut out and remain on until the system is reset. Description The fifth prompt, shown below, asks you to set the RAC Cutout Timer. [05] RAC TIME LIMIT CUTOUT: d*1 = None 2 = 45 secs. 3 = 1 min. 4 = 3 min. 5 = 4 min. 6 = 5 min. 7 = 6 min. 8 = 7 min. 9 = 3.5 min. 10 = 21 min. 11 = 25 min. 12 = 34 min. 13 = 44 min. 14 = 64 min. (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Refer to Programming Manual Release Time Delay in the next section for a description of the next programming step. Eight selections are available in this first of two RAC Cutout Time menus no cutout, 45 seconds, one minute, three minutes, four minutes, five minutes, six minutes, seven minutes. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. If none of the first eight selections are selected, the second RAC Cutout Time menu will appear. It is shown on the next page. Front Panel Programming When fourth LED from top on left side of display is lit, it indicates that the RAC Cutout Timer is being programmed. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power. These LEDs represent the available timer selections. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice.

62 Overview, Continued Programming the RAC Time Limit Cutout, Continued Method Description Six selections are available in the second menu 3.5 minutes, 21 minutes, 25 minutes, 34 minutes, 44 minutes, and 64 minutes. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. Front Panel Programming When the fourth and fifth LEDs on the left side are on, this indicates we are in the second programming menu for the RAC Cutout Timer. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power. These LEDs represent the available timer selections. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice.

63 Overview, Continued Programming Manual Release Time Delay Overview The Manual Release Time Delay is a programmable timer that specifies the delay between the activation of a manual release switch and the activation of releasing appliances. The default setting for this timer is 10 seconds. A setting of 0 causes the releasing appliances to immediately activate after a manual release switch activates. As the timer counts down, the notification appliances sound a temporal or 20 beat per minute signal (the actual signal that plays depends on the setting of the NAC Coding option, as described in Programming NAC Coding, later in this chapter). Method Text-Based Programming Description The sixth prompt, shown below, asks you to set the Manual Release Delay Timer. [06] MANUAL RELEASE TIMER: 1 = Immediate (no delay) *2 = 5 sec. d 3 = 10 sec. 4 = 15 sec. 5 = 20 sec. 6 = 25 sec. 7 = 30 sec. (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the Carriage Return key. Refer to Programming Abort Switch Operation in the next section for a description of the next programming step. Seven selections are available ranging from 0 to 30 seconds, selectable in five-second intervals. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. Front Panel Programming When fifth LED from top on left side of display is lit, it indicates that the Manual Release Delay Timer is being programmed. These LEDs represent the available timer selections. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power.

64 Overview, Continued Programming Abort Switch Operation Overview The Abort Release Time Delay specifies the action that occurs when the abort switch is released. This option applies only to Agent Release applications. Important Notes: For all choices except IRI Abort, pressing and holding the abort switch prevents agent release for as long as the switch is held in. For IRI Abort, the abort switch must be pressed and held before the second alarm activation occurs to prevent release. Specific operation of the NYC Abort is as follows: Pressing the Abort switch does the following: a. Bell and bell strobe turn on (NAC1) b. Evacuation visuals turn off (NAC3) c. Evacuation audibles turn off (NAC2) d. Automatic Release Timer countdown stops at its current value. Releasing the Abort switch starts the 90-second Investigation Timer. When the Investigation Timer expires, the following occurs: a. Bell and bell strobe turn off (NAC1) b. Evacuation visuals turn on (NAC3) c. Evacuation audibles turn on at 120 BPM (NAC2) d. Reload the Automatic Release Timer with the programmed value Subsequently pressing/releasing the abort switch repeats the process (silencing the NACs, activating the bell, starting the 90 second investigation timer, etc.) until the Release Timer expires and the RAC(s) activate. Pressing/releasing the Abort switch while the Investigation Timer counts down, has no effect. Use of the abort switches in a pre-action or deluge water type releasing service will void UL 864 Listing for this product. Continued on next page

65 Overview, Continued Programming Abort Switch Operation, Continued Overview Method Text-Based Programming Immediate. If a confirmed alarm exists (i.e., two detectors on separate zones for a cross zoned system or a single detector in a single alarm system), the RACs activate immediately upon release of the abort switch. 10s/Remaining. When the abort switch is released, the delay used is whichever is greater -- the remaining time left on Automatic Release Delay Timer or 10 seconds. IRI Abort -- Cross Zoned System Only (Does not comply with UL 864). When a single alarm is present, pressing the abort switch prevents the RACs from activating. If a second alarm condition occurs while the Abort switch is still pressed, the automatic release timer resets to whatever value has been configured for it and begins to count down, stopping at 10 seconds. When the abort switch is released, the panel starts the release timer countdown. Original Delay (Does not comply with UL 864). Releasing the abort switch resets the delay timer interval to the value set for the Automatic Release Delay Timer. Description The seventh prompt, shown below, asks you to set the abort switch operation. [07] ABORT SWITCH RELEASE OPERATION: 1 = Immediate Release d*2 = Max of (10 sec or remaining time) 3 = IRI 4 = Original delay (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Refer to Programming Stage 1 Operation for a description of the next programming step. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next programming step. When sixth LED from top on left side of the display is lit, it indicates that the Abort Switch operation is being programmed. These LEDs represent the available selections. Use the RESET key to move through the choices. Front Panel Programming Press ACK when the illuminated LED corresponds to the desired choice. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power. Note: If you select the NYC Abort application, the LED corresponding to NYC Abort is lit and no change to this option is allowed.

66 Overview, Continued Programming Stage 1 NAC2 Coding Overview The function of the NAC is to warn building occupants of alarm conditions detected by the system. Occupants must be familiar with the established procedure to follow upon detection of an alarm. For systems intended for Halon 1301 (NFPA 12A), Halon 1211 (NFPA 12B), or clean agent (NFPA 2001) release, a pre-discharge NAC must be configured to warn building occupants of the impending discharge. The setting of the release timer selects the duration of the predischarge signal. Compliance with ADA requires audible and visible notification. Cross Zoned System. The first alarm sounds a temporal code (.5 second ON,.5 second OFF,.5 second ON,.5 second OFF,.5 second ON, 1.5 seconds OFF, and then repeat pattern) on the audible NACs. The second alarm causes the cadence to increase to 120 beats per minute for the duration of the Automatic Release Delay Timer. When release occurs, the audible appliances sound a steady tone. Single System. The first alarm sounds a temporal code on the audible NACs for the duration of the Automatic Release Delay Timer. When the timer expires and the RACs activate, the NACs switch to a steady tone. This option allows the first alarm signal to be changed from temporal (default) to a slower 20 BPM signal, if necessary. Method Text-Based Programming Description The eighth prompt, shown below, asks you to set the Stage 1 Coding. [08] STAGE 1 ALARM NAC2 CODING: d 1 = Temporal *2 = 20 BPM (d=default, *=current setting) Select Number(X=exit): 1 Enter the number corresponding to the value you want to select and press the carriage return. Refer to Programming NAC Operation for a description of the next programming step. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next step. Front Panel Programming When seventh LED from top on left side of the display is lit, it indicates the NAC Coding option is being programmed. These LEDs represent the available options. Use the RESET key to move through the choices. Press ACK when the illuminated LED corresponds to the desired choice. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power.

67 Overview, Continued Programming NAC Operation Overview The AutoPulse Z-10 s NACs can be configured to operate in any of the following ways. Both NACS turn on and stay on until a Signal Silence is performed. No inhibit. NAC1 on until Reset; NAC2 on until Signal Silence. No Inhibit. Both NACs turn on and stay on until a System Reset occurs. No Inhibit. Both NACS turn on and stay on until a Signal Silence is performed. 60 second inhibit. NAC1 on until System Reset; NAC2 on until Signal Silence. 60 second inhibit. Both NACs turn on and stay on until a System Reset occurs. 60 second inhibit. Selections listed as No Inhibit allow immediate silence or reset; selections listed as 1 Min. Inhibit, do not allow a silence or reset for one minute following alarm activation. Note: For NYC Abort ONLY, all selections are valid, but the selections labeled "NAC1 On til Reset, NAC2 On til Silence" become "NAC3 On til Reset, NAC1&2 On til Silence." (The inhibit or no inhibit remains valid.) In other words, when the NYC abort application is selected, choosing NAC 1 on til Reset, NAC2 On til Silence No Inhibit is equivalent to choosing NAC3 On til Reset, NAC1&2 On til Silence No Inhibit." Method Text-Based Programming Description The ninth prompt, shown below, asks you to set the NAC Operation. [09] NAC OPERATION: d 1 = Both on til Silence with no inhibit *2 = NAC1 - on til Reset, NAC2 - on til Silence with no inhibit 3 = Both on til Reset with no inhibit 4 = Both on til Silence with 60 sec inhibit 5 = NAC1 - on til Reset, NAC2 - on til Silence with 60 sec inhibit 6 = Both on til Reset with 60 sec inhibit (d=default, *=current setting) Select Number(X=exit): Enter the number corresponding to the value you want to select and press the carriage return. Refer to Programming Supervisory Latching Operation for a description of the next programming step. Use the Reset key to scroll through the selections. When the desired choice is illuminated, press the ACK key to save the selection in memory and move to the next step. These LEDs represent the available options. Use the RESET key to move through the choices. Front Panel Programming When eighth LED from top on left side of the display is lit, it indicates the NAC Operation option is being programmed. Press ACK when the illuminated LED corresponds to the desired choice. Yellow Trouble LED indicates panel is in programming mode. Green LED is AC Power.