Page 1 Fire Alarm Control P anel Fire Alarm Control P anel anel anel Fire Alarm Control P Fire Alarm Control P anel AM2020/AF AM2020/AF P P P P P 1010 AM2020/AF 1010 1010 AM2020/AF AM2020/AF 1010 1010 K K K K K...
Page 2 While a fire alarm system may lower insurance Fire Alarm System Limitations rates, it is not a substitute for fire insurance! An automatic fire alarm system–typically made up of smoke Heat detectors do not sense particles of combustion and detectors, heat detectors, manual pull stations, audible warn- alarm only when heat on their sensors increases at a prede- ing devices, and a fire alarm control with remote notification termined rate or reaches a predetermined level.
Page 3: Installation Precautions
Installation Precautions Adherence to the following will aid in problem-free installation with long-term reliability: WARNING - Several different sources of power can be con- Like all solid state electronic devices, this system may nected to the fire alarm control panel. Disconnect all sources operate erratically or can be damaged when subjected to light- of power before servicing.
Page 4: Table Of Contents
220/240 VAC Fire Alarm Circuit ..................1-33 Section 3.2 The MPS-24A or MPS-24AE Main Power Supply ............. 1-33 Table 3.2-1 AM2020/AFP1010 System Current Draw Calculations (1 of 2) ........1-35 Table 3.2-1 AM2020/AFP1010 System Current Draw Calculations (2 of 2) ........1-36 Table 3.2-2 Maximum Secondary Power Fire Alarm Current Draw ..........
Page 5: Section Four
NFPA Style B Initiating Device Circuit ................1-66 Figure 4.6-4 NFPA Style D Initiating Device Circuit ................1-67 Figure 4.6-5 Employing Four-Wire Smoke Detectors (Style B IDC) ..........1-68 Figure 4.6-6 Employing Four-Wire Smoke Detectors (Style D IDC) ..........1-69 AM2020/AFP1010 15088:K 3/21/01...
Page 6 Proprietary Fire Alarm Systems ................... 1-98 Figure 6.4-2 NFPA 72-1993 Proprietary and Central Station Protected Premises Unit/ Proprietary and Central Station Receiving Unit Interface ..........1-99 Section 6.5 Applying/Removing Power to the Fire Alarm System ........... 1-100 AM2020/AFP1010 15088:K 3/21/01...
Page 7 Reports ........................2-18 Figure 3-1 AM2020/AFP1010 Special Function Report Printout ..........2-19 The History Buffer ..................... 2-20 Figure 3-2 AM2020/AFP1010 Special Function History Buffer Printout ........2-21 Section Four Fire Alarms ..................2-22 Section 4.1 Acknowledging a Fire Alarm ..................2-23 Section Five Troubles ....................
Page 8 Diagnostics ......................... 3-46 Section 2.6 Walk Test ........................3-46 Figure 2-2 Walk Test Option Flow Chart ..................3-47 Figure 2-3 Printout of an AM2020/AFP1010 Walk Test Report ............ 3-50 Section 2.7 Group Zone Disable ....................3-51 AM2020/AFP1010 15088:K 3/21/01 viii...
Page 9 United States Coast Guard ..................B-4 Section B.5 Optional System Components ..................B-5 Section B.6 City of New York ......................B-6 & G ROGRAMMING HEETS LOSSARY Programming Sheets ..................... G-2 Glossary of Terms and Abbreviations ................G-6 AM2020/AFP1010 15088:K 3/21/01...
Page 10 Notes AM2020/AFP1010 15088:K 3/21/01...
Page 11: Chapter One Installation
AM2020 AFP1010 Chapter One Installation Installation 15088: K 3/21/01...
Page 12 Installation 15088:K 3/21/01...
Page 13: Introduction
Introduction Capabilities and Capacities The AM2020/AFP1010 is an Intelligent Analog Addressable Combination Fire Alarm/Security Control Panel capable of supporting the following: Intelligent Analog Addressable Fire Detectors Photoelectric, ionization, and thermal (heat) detectors. Intelligent Addressable Fire and Security Initiating Devices Pull Stations and modules that monitor any conventional normally open contact type devices (4-wire smoke...
Page 14: Fire Alarm And Related Service Standards
Fire Alarm and Related Service Standards It is imperative the installer understand the requirements of the Authority Having Jurisdiction (AHJ) and review the following documents for applicability: NFPA 72 National Fire Alarm Code NFPA 90A Air Conditioning and Ventilating Systems NFPA 92A Smoke Control Systems NFPA 92B Smoke Management Systems in Malls, Atria, Large Areas UL 916 Energy Management Systems...
Page 15: Section One
The basic equipment package for the Notifier AM2020 is the BE-2020N and the basic equipment package for the Notifier AFP1010 is the BE-1010N. The following list may be used to identify the components pro- vided in a BE-2020N and/or BE-1010N shipment. Refer to Appendix B of this manual for an optional equip- ment listing.
Page 16 TITLE NUMBER TITLE NUMBER AM2020/AFP1010 F LARM ONTROL 15088 15842 NNUNCIATOR ONTROL YSTEM ANEL (LCD-80) 15037 (LDM) 15885 IQUID RYSTAL ISPLAY RIVER ODULES 51095 15889 ETWORK ONTROL TATION OICE LARM ULTIPLEX (INA) 15092 XP S 15888 NTELLIGENT ETWORK NNUNCIATOR ERIES...
Page 17: Section Two
The cabinet assembly consists of two basic components; the backbox (SBB) and door (DR). All cabinets for the AM2020/AFP1010 are fabricated from 16-gauge steel. Cabinet parts are painted Notifier gray or red with navy blue windows. Provided with the key-locked door are a pin-type hinge, window, two keys, and the necessary hardware to mount the door to the backbox.
Page 18: Mounting The Backbox
Section 2.1 Mounting the Backbox The cabinet may be either surface mounted or semi-flush mounted (refer to Figure 2.1-1). Mount the cabinet in a clean, dry, vibration-free area, using the four holes provided in the back surface of the backbox. Locate the cabinet so that the top edge is 66 inches (168 cm) above the surface of the finished floor.
Page 19 Door Assembly Instructions Hinges can be either left or right mounted. The illustrations and text depict a left-mount example. For Left Corner right mounting, simply substitute right for left in the instructions. 1) Insert door hinges (A) into the top and bottom slots of the side to be hinged (in this case the left side).
Page 20 Top Right 4. Install the door alignment tabs (C) in the unused Corner slots on the backbox (top and bottom). (In this ex- ample the door was mounted on the left, leaving the unused slots on the right). Secure alignment tab (C) to top PEM stud with nut provided.
Page 21: Series Backboxes
Section 2.2 CAB-3 Series Backboxes CAB-A3 The CAB A-3 is the cabinet and door assembly for one mounting row. An optional TR-A3 trim ring is available for use with the A-size cabinet, which is 24.125 inches wide by 20.125 inches high (612.775 mm wide by 511.175 mm high).
Page 22 CAB-B3 The CAB-B3 is the cabinet and door assembly for two mounting rows. An optional TR-B3 trim ring is available for use with the B-size cabinet, which is 24.125 inches wide by 28.625 inches high (612.775 mm wide by 727.075 mm high).
Page 23: Mounting The Ica-4L
Section 2.3 Mounting the ICA-4L The AM2020/AFP1010 system may use one to three Interconnect Chassis Assemblies (ICA), depending on the specific installation requirements. The AFP1010 requires only one ICA when using LIB-400s. The ICA-4L is a low profile mounting chassis that currently replaces the ICA-4 in all BE-1010N and BE-2020N basic equipment kits.
Page 24: Figure 3
PTIONAL Figure 2.3-3 Using the Optional Expansion Power Cable 1-14 Installation 15088:K 3/21/01...
Page 25: Figure 3
Expansion power cable part number 75379 (Figure 2.3-4), is able to mate properly with the ICA-4L since it consists of a 16-pin plug and a 16-position receptacle (Figure 2.3-3). Note: Only one power expansion cable is needed per system. PTIONAL 36 in.
Page 26: Figure 3
Although cable part number 75142 consists of a 15-pin plug and a 15-position receptacle (Figure 2.3-6) it can still be mated on the 16-pin plug ICA-4L, only pins one through 15 will engage. The 16th pin will remain on the outside of the board receptacle (Figure 2.3-7).
Page 27: Figure 4
Step 1 Place the board in front of the Interconnect Chassis Assemblies (ICA-4L) in the position where it will be installed. Tilt the board into the ICA-4L and align the square slots on the board with the first set of four tabs on the ICA-4L as illustrated.
Page 28: Component Placement
Section 2.4 Component Placement Each component in the system has a specific mounting position in the cabinet. Mount any optional APS-6R power supplies and amplifiers in CHS-4/4L chassis positions A through D as required. It is recommended that the CHS-4/4L chassis always be installed in the lowest cabinet row available (refer to Table 2.4-1). ABINET ABINET ODELS...
Page 29: Figure 4
LIB-400 modules exclusively, it may house a maximum four loop AFP1010 system (refer to Figure 2.4-4). One or two ICA-4L or ICA-4 chassis are required to mount the LIB modules depending upon the number and type of LIB modules employed. Refer to Figure 2.4-3 as an example of AM2020 applications. NOTE The installation of LIB modules resulting in duplicate LIB SLC numbers is never permitted.
Page 30: Figure 4
Figure 2.4-3 depicts the LIB SLC numbering scheme for an AM2020 in a CAB-D3 cabinet. Three ICA-4L chassis are required to mount the various types of LIB modules employed. Refer to Figure 2.4-2 as an example of AFP1010 applications. NOTE The installation of LIB modules resulting in duplicate LIB SLC numbers is never permitted.
Page 31 Figure 2.4-4 depicts a CAB-A3 cabinet used with LIB-400 modules exclusively, which means it may house a maximum four loop AFP1010 system. An ICA-4L or ICA-4 chassis (neither of which is shown in the figure) is required for mounting the LIB-400. Figure 2.4-4 LIB-400 Placement in an AFP1010 Figure 2.4-5 depicts the AFP1010 with a combination of LIB-400, LIB-200A, and LIB-200 modules installed in the first and second rows of a CAB-C3 cabinet.
Page 32 Loop 4 (LIB-400) Loop 1 (LIB-200) Loop 2 (LIB-400) Loop 3 (LIB-200 or LIB-200A installed in left front position of ICA.) CHS-4/4L MPS-24A Batteries MPS-24AE .4-5 .4-5 Figure 2.4-5 .4-5 .4-5 LIB Placement Example in an AFP1010 1-22 Installation 15088:K 3/21/01...
Page 33 Figure 2.4-6 depicts a CAB-C3 cabinet used with LIB-400 modules exclusively, which means it may house a maximum ten loop AM2020 system. An ICA-4L or ICA-4 chassis (neither of which is shown in the figure) is re- quired for mounting the LIB-400.
Page 34 Figure 2.4-7 depicts the AM2020 with a combination of LIB-400, LIB-200A, and LIB-200 modules installed in the first and second rows of a CAB-C3 cabinet. Two ICA chassis are required, but are not shown in the figure. The LIB-400 always occupies both addresses (refer to Figures 2.4-4 and 2.4-6). Various combinations of LIB boards may be installed (refer to Figure 2.4-3) as long as the following measures are taken:...
Page 35: Optional Chassis Mounting
Section 2.5 Optional Chassis Mounting When using an optional CHS-4/4L Chassis (refer to Figure 2.5-1), mount the chassis in the lowest available row in the cabinet, below previously mounted Interconnect Chassis Assemblies (ICA-4L). The CHS-4/4L is marked to identify the top of the chassis. Connect grounding wires of equipment to be placed in the CHS-4/4L to the PEM stud indicated.
Page 36: Other Components
Display Interface Board (DIB), hinged dress panel, and the CPU to DIB cable. Only one DIA is required per system. The DIA-2020 is included with the BE-2020N Basic Equipment Package for the AM2020. The DIA-1010 is included with the BE-1010N Basic Equipment Package for the AFP1010. Figure 2.6-1 shows elements visible from the cabinet front.
Page 37: Display Interface Connection
Converter Module must be employed to connect the LCD-80 in terminal mode. For details, refer to the LCD-80 Liquid Crystal DIB J4 Display Manual listed in the Related Document Chart in the front of this manual. EIA-232 to Notifier PRN All terminals are power- Keltron Printer #VS4095/5 limited Outputs are power limited, but not supervised nor opto-isolated.
Page 38 Figure 2.7-2 depicts typical system cable placement. 71030 (to ICA) 71031 75226 71046 71033 71033 71072 71070 NOTE The battery charger output is not power- limited. All wiring connected to these ter- minals must remain at least ¼ inch (6.35 mm) from all power-limited wiring.
Page 39 Figure 2.7-3 depicts a typical AM2020/AFP1010 installation and is provided as a guide for proper wiring placement. The AC and battery wiring are not power-limited. A separation of at least ¼ inch (6.35 mm) must be maintained between power-limited and nonpower-limited wiring. Install the tie wraps and adhesive squares as indicated in Figure 2.7-3.
Page 40 DIA-1010 or DIA-2020 DP-1 Dress Panel DP-1 Dress Panel BP-3 Battery Dress Panel Figure 2.7-4 Dress Panel Placement Diagram 1-30 Installation 15088:K 3/21/01...
Page 41 Section 2.8 Mounting the MOD-1 Module Plate The MOD-1 allows a single MMX-1, MMX-2 or CMX module to mount in a CAB-3. It occupies one of the four positions available in a row on the CHS-4 or CHS-4L Chassis. The following five steps describe how to mount the MOD-1 in a chassis, and Figure 2.8-1 illustrates the five steps of this installation.
Page 42: Mounting The Mod-1 Into The Chs-4 And Chs-4L Chassis
MOD1Inst. Figure 2.8-1 Mounting the MOD-1 into the CHS-4 and CHS-4L Chassis 1-32 Installation 15088:K 3/21/01...
Page 43: Section Three Power Supplies
Section 3.1 The AC Primary Power Input The AM2020/AFP1010 requires primary AC power. Connection to the light and power service must be on a dedicated branch circuit and the wiring for this circuit must be installed in conduit. The switch for this circuit must be labeled "Fire Alarm Circuit Control".
Page 44 They are simply current calculations to confirm that the MPS-24A can output enough DC current to support the AM2020/ AFP1010 system during non-fire alarm and fire alarm conditions when operating from primary power.
Page 45 S S S S U U U U B B B B T T T T O O O O T T T T A A A A L L L L Table 3.2-1 AM2020/AFP1010 System Current Draw Calculations (1 of 2)
Page 46 NCLUDE ONLY THOSE DEVICES TO BE POWERED BY THE MAIN POWER SUPPLY NOT AN AUXILIARY SUPPLY SUCH AS THE EE MANUFACTURER S INSTRUCTIONS FOR APPLICABLE POWER DRAWS Table 3.2-1 AM2020/AFP1010 System Current Draw Calculations (2 of 2) 1-36 Installation 15088:K 3/21/01...
Page 47 Maximum Secondary Power Fire Alarm Current Draw Use Table 3.2-2 to determine the maximum current requirements of the secondary power source during fire alarm conditions. The total obtained in Table 3.2-2 is the amount of current that the batteries must be capable of supplying.
Page 48 Table 3.2-3 sums the non-fire alarm and alarm loads to arrive at the battery size, in Ampere Hours (AH), required to support the AM2020/AFP1010. The MPS-24A or MPS-24AE can charge batteries up to 60 AH in size. Select batteries from Table 3.2-4 that meet or exceed the total AH calculated :...
Page 49 2. Measure time of load. a. Take a fully charged battery and install the load resistor across the terminals. b. Measure the voltage across the battery for a period of 20 hours. If during the test the terminal voltage drops below the minimum acceptable levels (10.2 VDC for a 12 volt battery and 20.4 VDC for a 24 volt battery), note the number of hours that have elapsed when the battery voltage drops below its minimum operational level.
Page 50 Test of Ground Fault Detection Circuit If you have a persistent ground fault and suspect the MPS-24A ground fault detection circuit may be generating a false indication, use this test: 1. Remove the upper right circuit board mounting screw, just to the right of P2. 2.
Page 51 Figure 3.2.1-2 Mounting the MPS-TR System Common Terminal Connection MPS-24A TB3-4 MPS-24B TB2-4 Figure 3.2.1-3 System Common Terminal Connection NOTE: Relay contacts are specified in the NORMAL (no trouble condition) state. The MPS-TR connects to any device with a trouble IN and a trouble OUT connector/terminal. 1-41 Installation 15088: K 3/21/01...
Page 52 Connect this harness from P2 or P4 on the MPS-24A or MPS-24AE to Plug A on the uppermost ICA-4L. The AM2020/AFP1010 monitor the power supply through connection of a Power Supply Supervision Cable (part number 71031) between MPS-24A or MPS-24AE Connector P3 and Connector P2 on the CPU (refer to Figure 3.6-1).
Page 53 Random Access Memory (NVRAM). Improper cycling of power to the AM2020/AFP1010 can cause the NVRAMS to become inaccessible. The AM2020/AFP1010 software now verifies the state of the NVRAMs. If a NVRAM problem has been detected, the AM2020/AFP1010 will display one of the following two error messages depending on where the problem is located:...
Page 54 ICA-4L (3 amps maximum, P2 and P4 Grounding Cable Assembly. combined) or any other module or board requiring internal power. Not used with the AM2020/AFP1010. Make no connection here. Cut R27 to disable Battery Fuse (10A, 3AG) Earth Ground Fault Detection.
Page 55 Section 3.4 The Optional Main Power Meter The optional Main Power Meter (MPM-2) may only be installed on the Main Power Supply, MPS-24A or MPS-24AE (refer to Figure 3.4-1). Step 1 Remove the two screws in the bottom left corner of the MPS-24A or MPS- 24AE.
Page 56 Section 3.5 The CHG-120 Remote Battery Charger The Notifier Remote Battery Charger, CHG-120 is capable of charging 25 to 120 ampere hour batteries. This unit is required if the MPS-24A must deliver more than 3 amps of current when no fire alarm signal is present.
Page 57 Figure 3.5-2 CHG-120 Connections Section 3.6 The APS-6R Auxiliary Power Supply The APS-6R Auxiliary Power Supply is designed to power devices that require filtered, non-resettable power such as XP Transponder modules, Notification Appliance Circuit modules, and Control modules. It provides two 24 VDC (filtered) output circuits (3 A each, 6 A total, 4 A continuous).
Page 58 3.6-1a 3.6-1b Figure 3.6-1 Mounting the APS-6R to a Chassis Field Wiring an APS-6R Figure 3.6-3 shows typical field wiring for an APS-6R WARNING: Use extreme caution when working with the APS-6R - high voltage and AC line-connected circuits are present in the APS-6R. Turn off and remove all power sources.
Page 59 Connecting Multiple APS-6R Power Supplies Figure 3.6-4 shows typical trouble bus connections for multiple APS-6R power supplies using trouble connec- tors J3 and J4. Notes: 1. Use Cable 71033 or 75098 (same cables, different lengths) for all wiring. 2. APS-6R J3 and J4 can be interchanged. Figure 3.6-4 Trouble Bus Connections for Multiple APS-6R Power Supply Configuration 1-49...
Page 60 When such transfer is required, use a separate, listed power supervisory relay. Only one CPU is required per AM2020/AFP1010 system. Note: Due to the proximity of the alarm and trouble contacts to CPU-based system control functions, only circuits that are unlikely to produce any electrical noise should be connected to the contacts.
Page 61 The AFP1010 will support a maximum of two LIB-400s (a total of four SLCs). The AM2020 supports up to ten SLCs. One to five LIB-400s, or one to ten LIB-200s or LIB-200As can be employed on the AM2020, depending on system requirements.
Page 62 Section 4.2 The Loop Interface Boards (LIB-200, LIB-200A, and LIB-400) The Loop Interface Boards (LIBs) allow the AM2020/AFP1010 to communicate with the system's alarm initiating devices and to control the system's output devices. Through a communications loop (functions in accordance with the requirements for NFPA SLCs or SLC loops), the LIBs allow the control panel to communicate with addressable pull stations, and intelligent ionization, photoelectric, and thermal detectors.
Page 63 LIB-200A The LIB-200A field wiring is electrically isolated from the rest of the system so that any two ground faults on separate SLCs will not cause invalid replays from devices. A short to any other system circuit will not cause communication loss.
Page 64 LIB-200A SLC Port A+ SLC Port A- SLC Port B+ SLC Port B- Connect to Earth LIB-400 Ground using supplied cable NOTES: • Only one earth ground connection is required on the LIB-400 at either TB1 or TB2. • Silkscreen markings on TB2 of the LIB400 vary from the above illustration: twos instead of ones are used, so the markings are +L2A, -L2A, +L2B, and -L2B.
Page 65 DTK-2LVLP-F Connections 2LV LP -F SLC Terminal Block O U T Note: Do not connect shield to surge protector or fire panel. PLP-42N Connections P LP -4 2N SLC Terminal Block Note: Use 12 AWG (3.25 mm ) to 18AWG (0.75 mm ) wire with crimp-on connectors to connect the unit's ground terminal to equipment ground.
Page 66 Section 4.3 LIB SLC Loop Wiring Requirements Branch Resistance With the SLC disconnected from the LIB terminals, short the termination point of one branch at a time and mea- sure the DC resistance from the beginning of the channel to the end of that particular branch. The total DC resistance from the LIB-200 panel to branch end cannot exceed 40 ohms.
Page 67 Channel B LIB-400 Style 6 SLC Loop Channel A When T-Taps are present they each represent a Style 4 branch. These Style 4 branches will not Total Length of the Style 6 SLC Loop Pair degrade the Style 6 loop and are permissible from (including any Style 4 branches): an operation standpoint, but they will not comply with the NFPA standard for Style 6 SLC...
Page 68 LIB Signaling Line Circuit (SLC) loops can be wired to meet the requirements of an NFPA Style 4 (refer to Figure 4.3-3), Style 6 (refer to Figure 4.3-4) or Style 7 (refer to Figure 4.3-5) SLC. Pull Stations 2(+) 1(-) NOTE Refer to Appendix A and Detectors...
Page 69 Pull Stations LIB-400 Connect to chassis via 2(+) Cable 71073 1(-) SLC Loop Detectors Earth Ground Channel B (-) no connection Channel B (+) All terminals are power-limited no connection Channel A (-) Modules no connection Channel A (+) Figure 4.3-4 NFPA Style 6 LIB SLC Loop Functions in accordance with NFPA Style 6 SLC NOTE Refer to Appendix A and installation drawings supplied with each loop device for rating and specification information.
Page 70 Style 7 Operation By flanking each SLC device with ISO-X isolator modules and/or isolator detector bases, each device is protected from an open or short on the SLC. In Figure 4.3-5 below, the MMX monitor module or XP transponder, the non isolator-based device, and the isolator-based device will continue to function if there is an open or short on the SLC.
Page 71 Section 4.4 SLC Shield Termination Shielded twisted pair cable can be used to minimize radiated emissions of radio frequency energy. The use of shielded twisted pair cable is required when using the LIB-200. Terminating shielded twisted pair cable at the cabinet is required for the LIB-200;...
Page 72 For a LIB-200 SLC that is partially contained in conduit (less than 20 feet {6.1 m}): Do not allow the shield drain wire to enter the cabinet or the conduit. Connect the drain wire to the termination point of the conduit run (such as a single-gang box as illustrated at left).
Page 73 Section 4.5 The Isolator Module The Loop Isolator Module, ISO-X (refer to Figures 4.5-1 through 4.5-3), is used to protect critical elements of the SLC from short circuit faults on other branches or sections of the loop. SLC Loop In ( - ) SLC Loop In ( + ) SLC Loop Out ( - ) SLC Loop Out ( + )
Page 74 Device Loading and Isolator Power Up Isolator modules are powered from the SLC. The internal relay is a latching-type relay to limit the isolator's power requirements. The contact will open when power is removed. During power up, the relay contact will close when the SLC voltage rises above 7 volts.
Page 75 MMX-2 Operating Power The MMX-2 requires connection of a Notifier 24V DC filtered and resettable power supply on Terminals 3(-) and 4(+). This power connection is supervised by the MMX-2. A maximum of 40 MMX-2 modules may be installed on a LIB due to increased power consumption over the MMX-1.
Page 76 Figure 4.6-3 illustrates an MMX-1 monitoring normally open contact fire alarm initiating devices that do not require power and an MMX-2 monitoring powered two-wire smoke detectors and a normally open contact alarm initiating device. Refer to Figure 4.6-5 for circuits using four-wire detectors. NOTES •...
Page 77 Figure 4.6-4 illustrates an MMX-1 monitoring normally open contact fire alarm initiating devices that do not require power and an MMX-2 monitoring powered two-wire smoke detectors. Refer to Figure 4.6-6 for circuits using four-wire detectors. NOTES • For additional ratings, refer to Appendix A. •...
Page 78 Listed Power Number *47K ELR, 1/2-watt Part A2143-00 Supervision Relay Black Note: contacts shown in the energized condition. IDC(+) IDC(-) 24V DC (+) SLC Channel A Common (-) MMX-1 Software Type ID “SCON” UL listed 24V DC Four-Wire Smoke Detectors IDC(+) IDC(-) 24V DC (+)
Page 79 Listed Power Supervision Relay Black Note: contacts shown in the energized condition. IDC(+) IDC(-) 24V DC (+) SLC Channel A Software Type ID “SCON” Common (-) MMX-1 UL listed 24V DC Four-Wire Smoke Detectors IDC(+) IDC(-) Software Type ID“PWRC” 24V DC (+) Common (-) NOTES Break tabs...
Page 80: The Control Module
Section 4.7 The Control Module The CMX Control Module is an addressable module that supervises and switches power to a Notification Appliance Circuit (NAC). The CMX circuit can be wired as an NFPA Style Y or Style Z NAC. Alternately, the CMX can be employed as a Form-C relay (refer to Figure 4.7-1).
Page 81 An auxiliary power supply is needed to power a CMX notification appliance circuit when wiring losses due to long wire runs prevent the use of the MPS-24A/E or APS-6R in the AM2020/AFP1010 Refer to Appendix A and to the Device Compatibility Document. The power supply must have secondary power source (i.e.
Page 82 Alarm polarity shown No End-of-Line relay is Notification Appliance required here Listed Power Supervision Relay Alarm polarity shown No End-of-Line relay is Notification required here Power-limited Appliance TB3-4 TB3-3 Listed Power Supervision Relay MPS-24A/E *End-of-Line Resistor, 47K, 1/2-watt (A2143-00) **Contacts shown in energized condition.
Page 83 Listed Power Supervision Relay (Contacts shown in energized position) 47K ELR, 1/2-watt (A2143-00) Alarm polarity shown! Shield Drain Wire To next device on SLC Loop SLC LOOP Channel A Supervised and power-limited LIB Channel Terminal 3 ( - ) Terminal 1 (+) Common +24 VDC Notification Appliance Power...
Page 84 Alarm polarity shown! Shield Drain Wire + To next device - on SLC Loop SLC LOOP Channel A Supervised and power-limited LIB Channel Terminal 3 ( - ) Terminal 1 (+) Listed Power Supervision Relay Common +24 VDC (Contacts shown in energized position) Black Notification Appliance Power This power source must be...
Page 85 SLC Loop Channel A Power Limited and supervised. Shield Drain Wire + To next device - on SLC Loop ( - ) Terminal 3 ( - ) Terminal 1 ( + ) ( + ) Common Normally Open Contact Normally Closed Contact Tabs Break off both tabs to enable Form-C operation WARNING...
Page 86: The Addressable Manual Pull Station
Refer to Figure 4.8-2. Also refer to the NBG-12LX document listed in the related documentation chart at the beginning of this manual. NOTE During programming of the AM2020/AFP1010, this module requires software type "MPUL". SLC Out ST R IP GA U G E...
Page 87: Intelligent Detectors
They will accommodate either the CPX-551 or the SDX-551. When sufficient smoke is sensed, an alarm signal is initiated at the control panel. WARNING! The control panel will only operate with Notifier intelligent addressable devices installed. 1-77 Installation 15088: K 3/21/01...
Page 88: Smoke Detector Installation
Section 4.10 Smoke Detector Installation The B501, BX-501, B210LP, and B501BH provide the connection between the control panels SLC Loop and SDX-551/551H/551HT/751, CPX-551/751, the IPX-751 and the FDX-551/551R intelligent detectors. Installation (refer to Figure 4.10-1) 1) Connect the SLC Loop to the base, Terminal 1 (-) and Terminal 2 (+). 2) If employing an RA400Z Remote LED Annunciator, connect the RA400Z positive terminal to base Terminal 3 and the negative terminal to base Terminal 1.
Page 89 Class A (Style 6) Figure 4.10-2 Wiring the B524BI(A)/B224BI(A) Isolator Base Class A (Style 6) Figure 4.10-3 Wiring the B524RB Relay Base 1-79 Installation 15088: K 3/21/01...
Page 90 AMSLC2a 1-80 Installation 15088:K 3/21/01...
Page 91: The Xp Series Transponder
Each XP Transponder may contain up to three expansion modules, each with up to eight initiating or notification circuits, or control relays. Each XP Transponder can occupy up to 27 SLC addressable points (of the module type). To the AM2020/AFP1010, XP Transponder circuits appear as individual monitor or control modules. BE-XP Transponder Starter Complement (Power-limited) The BE-XP includes the XPP-1 Transponder Processor Module, an XPDP dress panel (refer to Figure 4.11-1),...
Page 92 XPC-8 Control Module (Power-limited) Provides eight Class B or four Class A notification appliance circuits. For audio evacuation applications, the XPC-8 can drive eight speaker circuits Style Y (Class B) or four Style Z (Class A), or can be alternately configured to drive fireman's telephone circuits.
Page 93: Section Five
The various components used are described here. Two optional serial interface boards are available for the AM2020/AFP1010. Only one may be used in the system, and the particular board chosen depends on the specific needs of the installation. Refer to Figure 5.1-3.
Page 94 Shield Terminations Wiring to the display monitors, remote annunciators, other peripherals, and printers must be twisted shielded pairs. Refer to Figure 5.1-2 for pair connections illustrations. Figure 5.1-2 Guidelines for Terminating the Shield 1-84 Installation 15088:K 3/21/01...
Page 95 Additionally, sme devices such as PageNet-1 can be actuated by means of dry contacts from the fire alarm system. For more detailed instructions pertaiing to the installation of an ancillary device, refer to the specific device manual. P3 on the AM2020/ AFP1010 1-85 Installation 15088: K 3/21/01...
Page 96: The Crt-2 Terminal
Refer to Figure 5.3-1 for wiring instructions. Multiple Terminals The AM2020/AFP1010 will support up to 25 terminals installed on the EIA-232 circuit of the Serial Interface Board. Each CRT-2 is shipped from the factory with a keyboard. This keyboard is used to program the control panel and can only be used on one CRT-2 installed in the chain.
Page 97 One maximum - If using the CRT-2, the keyboard may be located remotely with any CRT-2 in the chain. If using the CRT-1, the CRT with keyboard must be first in the chain and must be in same room as the AM2020/AFP1010. SIB (Connector P3) EIA-232 Reference...
Page 98: Remote Printers
Section 5.3 Remote Printers Printer Configuration The AM2020/AFP1010 can employ PRN Remote Refer to the documentation supplied with the PRN for Printers. This printer provides a hard-copy printout of instructions on the printer’s menu controls. Set the all status changes within the system and time- printer’s options as follows:...
Page 99 Keltron Printer Model VS4095/5 SIB-2048A 50 feet (15.24 meters) maximum SIB-NET (typical) Wiring distance limited by cable capacitance. EIA-232E standard. SIB Connector P3 (Power-limited) EIA-232 Reference Twisted Pair Transmit to Printer EIA-232 Reference Twisted Pair Ready/Busy from Printer Plug this DB-25 connector into the EIA-232 Port of the printer.
Page 100: Annunciator Modules
Section 5.4 Annunciator Modules ACM-16AT* The ACM-32A* The Annunciator Control The Annunciator Control Module-32A contains 32 red Module-16AT contains 16 alarm LEDs, a system red alarm and 16 yellow trouble LEDs, 16 trouble LED, an ON LINE/ POWER LED, and a local momentary keypad piezo sounder with a silence/ switches for controlling each...
Page 101 R-120 resistor Figure 5.4-1 EIA-485 to SIB Connections Refer to Appendix A for EIA-485 circuit ratings and limitations. NOTE If the SIB is not the first device on the EIA-485 circuit, set SW1 on the SIB to the ''out'' position. The EIA-485 Reference (P5-1) for the SIB must be connected to any ACS device which is not within the same cabinet.
Page 102: Section Six
Section Six Standard-Specific Requirements The Notifier AM2020/AFP1010 is an expandable multiplex Fire Alarm Control Panel (FACP) designed for use in commercial, industrial, and institutional applications. These panels meet the requirements for service under the National Fire Protection Association (NFPA) and Underwriters Laboratories (UL) Standards outlined in this chapter.
Page 103 YSTEM UMBER The Receiving Unit is an AM2020/AFP1010 with an MMX-1 or MMX-101 Monitor Module for receipt of fire alarms and one MMX-1 or MMX-101 Monitor Module for receipt of trouble signals from the Protected Premises Unit. - UDACT (refer to Note 1.)
Page 104 Section 6.1 NFPA 72 Auxiliary Fire Alarm Systems For connection of initiating devices and modules in this system, refer to Figures 4.6-2 through 4.6-6. This application is not suitable for separate transmission of sprinkler supervisory or trouble conditions. For additional ratings, refer to Appendix A.
Page 105: Generating Event-Pending Signals At A Remote Location
Section 6.2 Generating Event-Pending Signals at a Remote Location Printer Uninterruptable Power Supply UL Listed for Fire Protective Signaling Must be supervised by control panel CRT with keyboard. Do NOT remove or lock up keyboard. Spectralert Horn used to signal a pending trouble condition. Control Module (CMX) programmed for Software Type ID "TPND".
Page 106: Supervising An Uninterruptable Power Supply
Section 6.3 Supervising an Uninterruptable Power Supply All connections are supervised and power limited. The MMX-1 Software Type ID "MTRB" may be used to moni- tor either normally closed or normally open supervisory contacts, as illustrated in Figure 6.3-1(A). An open or a short condition on the circuit will produce the message "POINT TROUBLE"...
Page 107 Section 6.4 NFPA 72 Proprietary Supervising Station Fire Alarm Systems Fire Alarm, Security Alarm, and Trouble Signal Transmission All LIBs are power-limited. If the wiring connected to the LIB-200 leaves the building it must be in conduit. It can not exceed 1000 meters (1093 yards), must not cross any power lines, and must not be in the vicinity of any high voltage.
Page 108 EIA-485 Loop OUT SIB-2048A/SIB-NET in To additional EIA-485 devices, if installed, Protected Premises or 120 ohm at the end of the circuit. Control Unit (slave) NOTES • This arrangement can be employed Term. 5 (+) for Central Station and Proprietary (NFPA 72) service.
Page 109 Fire Alarm and Trouble Signal Transmission The application provided in Figure 6.4-2 is not suitable for separate transmission of sprinkler supervisory signals. All circuits are supervised and power limited. 18 AWG (0.75 mm²) is the minimum. There is a maximum loop resistance of 40 ohms for the LIB-200, and 50 ohms for the LIB-200A and LIB-400. The maximum distance between the Central Station/Receiving Unit and the MMXs is 10,000 feet (3048 meters) at 12 AWG (3.25 mm²) for the LIB-200 and 12,500 feet (3841 meters) at 12 AWG (3.25 mm²) for the LIB- 200A and LIB-400.
Page 110: Applying/Removing Power To The Fire Alarm System
Section 6.5 Applying/Removing Power to the Fire Alarm System After completing the proper installation of all boards, cables and components, apply power in the following manner: • Apply AC power • Connect the battery/secondary power terminals (refer to Connecting the Main Power Supply, Section 3.3 of this manual).
Page 111: Chapter Two Operation
2020 1010 HAPTER PERATION Operating 15088:K 3/21/01...
Page 112: Introduction
LIB Signaling Line Circuit (SLC) that may be wired to meet the requirements of either NFPA Style 4 (Class B) or Style 6 or 7 (Class A)operation. The AM2020 system can be configured with up to 10 LIB SLC Loops and the AFP1010 system with up to 4 Loops, each of which is capable of supporting up to 99 intelligent detectors and up to 99 addressable control or monitor modules.
Page 113 AM2020/AFP1010, refer to Chapter Three of this manual. Whenever the operator selects a menu, the AM2020/AFP1010 begins a one-minute timer. If no key is pressed during this minute, the function selected will be aborted and control will return to the state the panel was in prior to selection of that menu.
Page 114: Section 4.2 Operators
AXXPYY Software Zone SLC Loop Enter "Z" followed by 1 to 240. Enter "L" followed by 1 to 10 for AM2020. Enter "L" followed by 1 to 4 for AFP1010. Annunciator Point SLC Loop Device Enter "A" followed by 1 to 32 for the an- Enter "D"...
Page 115 3 or the letter D when entering the address of a detector. The AM2020/AFP1010 toggles which character is displayed on the LCD with each successive keypress of that same key. This allows the operator to press a particular key until the desired character is displayed. That character is entered into the display whenever the next, different, key is pressed.
Page 116 About the display time The AM2020/AFP1010 has a separate time field in the display for each event that occurs in the system. All Systems Normal: During periods of no activity, the time field reflects the current time. For AM2020/AFP1010 systems with NOTI•FIRE•NET™, the time is synchronized every hour by the network master clock (last AM2020/AFP1010, INA, or NRT node on network to have its time changed).
Page 117 About System Test System Test, or "Detector Test" as it is often referred to, is a manually initiated test of all intelligent detectors installed in the system. When the user presses the system test key the fire panel performs a chamber test of each intelligent detector to ensure its proper operation.
Page 118: Section One
The Display Interface Assembly Section 1.1 Normal Operation During normal fire alarm operation when no alarms or troubles exist, the system will display the following: Custom 40-Character User Label NOTIFIER A PITTWAY COMPANY ALL SYSTEMS NORMAL 04:32P 03/01/00 Current Time and Date...
Page 119 80 CHARACTER LIQUID CRYSTAL DISPLAY - The tions in this combination fire alarm/security system. LCD displays the current status of the entire AM2020/ DISPLAY TROUBLE - A yellow LED will illuminate when a trouble condition AFP1010 system. While programming the AM2020/ is detected in the display assembly.
Page 120: Read Status
Section 1.2 Read Status The Read Status feature of the AM2020/AFP1010 allows the operator to display the status of the entire system. To execute READ STATUS: Press READ STATUS The display will show: PRESS@1=SYS,2=PTREAD,3=ALM,4=TBL,5=DIS, 6=MONON,7=CTLON Enter 1 for Display System Configuration. This selection provides information on any of the system...
Page 121: Display System Configuration
Display System Configuration Menu Option 1 Selecting 1 from the Read Status Menu allows the operator to review the various system parameters entered into the AM2020/AFP1010. The System Configuration Menu: PRESS@1=INST,2=STY,3=TDLY,4=AVPS,5=ZBND, 6=EXTEQ,7=LOCP,8=ISIB,9=PARM, 0=CONT Note that when 4 is chosen from the menu, the total number of AVPS and/or APS-6R power supplies will be displayed.
Page 122 Enter Menu Choice: Status Displayed: TS=N@@@@@@@SL=N@@@@@@@APM=N,CMR=N,NAR=N, LEDL=N,PEC=N,BC=N,PTI=N RPT=N TS = Is the connection to the terminal supervised? (If TS=N, the terminal will not audibly indicate state changes [i.e., no Bell characters will be sent]). SL = Is the Status Line option enabled? APM = Is the connection to the auxiliary printer monitored? CMR = Is control module state reporting enabled? NAR = Is "NONA"/"NOA"...
Page 123 Menu Choice 8: Enter Option Choice: Status Displayed: ISIB=Y ISIB = Is the Intelligent Serial Interface Board installed? NOTE ISIBs available for the AM2020/AFP1010 system include the SIB-2048A and NOTI•FIRE•NET™ NOTI•FIRE•NET™ SIB-NET. For an AM2020/AFP1010 connected to a NOTI•FIRE•NET™ NOTI•FIRE•NET™ NOTI•FIRE•NET™...
Page 124: Point Read
. The counter returns to zero when power is cycled to the AM2020/AFP1010 or by following the procedure in the Resetting Sensor Verification Counters section of this document. If you disable verification, the counter will retain its last value. If verification is not enabled for this point, the V indicator does not appear;...
Page 125 Control Modules Status: DISABL, ON, TROUBL, OFF, *OFHOOK, NORMAL. Software Type ID 20-Character Custom Label DISABL@CONTROL@@@@@COMPUTER@ROOM@BELL @D@CF@A@T@@@W @@@@@@@@@@@@@@@@@S@@L01M36 Device Disabled Device in Walk Test Device Address Trouble Selected Activated Control Module Signal Silence Enabled CO = On CF = Off *An OFHOOK status indicates that a telephone off-hook (ring-in) signal has been received, but has not been answered by the operator at the fire fighter telephone ACS switchboard.
Page 126: Special Status
Annunciator Points Status: ON, TROUBL, OFF, REQEST*, or blank. 20-Character Custom Label OFF@@@@ANN@CONTROL@@@ANNUNCIATOR@ONE @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P23 Software Type ID Address *A REQEST status indicates that a telephone off-hook (ring-in) signal has been received and answered by the operator at the fire fighter telephone ACS switchboard, but has not been connected to the telephone line.
Page 127: Section Two
The Prior, Next, and Autostep keys are used in conjunction with options 2 through 7 of the Read Status Menu. Upon selection of one of these options an address range is defined by the AM2020/AFP1010 for which similar searches can be performed using the Prior, Next and Autostep Keys. These functions enhance and speed up the search process, because they eliminate having to re-enter the Read Status Menu for the same function being repeated.
Page 128: Section Three Special Function
Section Three Special Function The Special Function feature of the AM2020/AFP1010 allows the operator to generate AM2020/AFP1010 status reports or view the AM2020/AFP1010 History File. Press The display will show: FUNCT PRESS@1=RPTS,2=HIS @@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@: SPL FUNCT Reports Menu Option 1 PRESS@1=SYS,2=POINT,3=ALM,4=TBL,5=DIS,...
Page 129: Am2020/Afp1010 Special Function Report Printout
***@SYSTEM@CONFIGURATION@REPORT@END@***@@@@@@@@@@@@@@@@@@@@@@04:32P@03/01/00 PRESS@1=RPTS,2=HIS@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@1 PRESS@1=SYS,2=POINT,3=ALM,4=TBL,5=DIS,6=MONON,7=CTLON@@@@@@@@@@@@@@@@@@@@@@@@:@2 PRESS@1=REQUEST,2=ABORT@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@1 *****@INSTALLED@POINT@REPORT@BEGIN@*****@@@@@@@@@@@@@@@@@@@@@04:32P@03/01/00 ALARM:@FORWARD@ZONE@FIRST@FLOOR@@@@@@@@@@@@@@@A@@@@@@@@@@@@@@@@@@@@@@@@@@@Z001 ()@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P01 DISABL@REVERSE@ZONE@SECOND@FLOOR@@@@@@@@@D@@@@@T@@@@@@@@@@@@@@@@@@@@@@@@@@Z202 OR()@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P02 OR() ALARM:@SMOKE@(ION)@@OFFICE@ARea@@@@@@@@@@@@@@@A@@@@@@@SH@@V010@H@045@@@@@@L01D01 (Z01)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P03 TROUBL@SMOKE(PHOT0)@FACTORY@@@@@@@@@@@@@@@@@@@@T@@@@@@@@@@V000@H@045@@@@@@L01D02 (Z202)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P03 NORMAL@HEAT(ANALOG)@MAINTENANCE@@@@@@@@@@@@@@@@@@@@@@@@@@@V000@H@045@@@@@@L01D03 (Z01)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P03 NORMAL@MONITOR@@@@@@FIRST@AID@@@@@@@@@@@@@@@@@@@K@@@@@@@@@@@@@@@@@@@@@@@@@L01m01 (Z01)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P04 ON@@@@@CONTROL@@@@@@FIRST@FLOOR@@@@@@@@@@@@CO@@@@@W@@@@@@@@@@@@@@@@@@@@@s@L01M02 OR(Z01)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P05 OFF@@@@CONTROL@@@@@@SECOND@FLOOR@@@@@@@@@@@CF@@@@@W@@@@@@@@@@@@@@@@@@@@@S@L01M03 OR(Z202)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P06 ON@@@@@ANn@ZONE@@@@@BUILDING@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P01 DISABL@ANN@ZONE@@@@@BUILDING@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P02 ON@@@@@ANN@DETECTOR@BUILDING@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P03 OFF@@@@ANN@MONITOR@@BUILDING@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P04 ON@@@@@ANN@CONTROL@@BUILDING@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P05 OFF@@@@ANN@CONTROL@@BUILDING@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@A01P06 ******@INSTALLED@POINT@REPORT@END@******@@@@@@@@@@@@@@@@@@@@@04:32P@03/01/00 Figure 3-1 AM2020/AFP1010 Special Function Report Printout 2-19 Operating 15088:K 3/21/01...
Page 130 READ STATUS The History File Menu Option 2 PRESS@1=PRINT,2=DISPLAY,3=STEP,4=RANGE/ STATUS@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@: Choices 1, 2, and 3 will prompt the user for the beginning and end of the History File range. The maximum number of events that the system can save in the History File is 400. Enter "1"...
Page 131 To differentiate between history file printouts (refer to Figure 3-2) and system printouts (refer to Figure 3-1), the colon (:) in the time field has been replaced by the semicolon (;). PRESS@1=RPTS,2=HIS@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@2 PRESS@1=PRINT,2=DISPLAY,3=STEP,4=RANGE/STATUS@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@1 ENTER@FIRST@EVENT@(1@-@008)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@1 ENTER@LAST@EVENT@(001@-@008)@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@8 *********@HISTORY@REPORT@BEGIN@*********@@@@@@@@@@@@@@@@@@@@@04:32P@03/01/00 ALARM:@SMOKE@(ION)@DETECTOR@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@04;32P@03/01/00@101 ACK@AL@SMOKE@(ION)@DETECTOR@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@04;32P@03/01/00@101 @@@SIGNAL@SILENCE@@@@@@@@REQUESTED@@@@@@@@@@@@@@@@@@@@@@@@@@@04;23P@03/01/00 @@@SYSTEM@RESET@@@@@@@@@@ACTIVATED@@@@@@@@@@@@@@@@@@@@@@@@@@@04;32P@03/01/00 CLR@AL@SMOKE@(ION)@DETECTOR@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@04;32P@03/01/00@101 ACL@AL@SMOKE@(ION)@DETECTOR@ONE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@04;32P@03/01/00@101 NOTIFIER@TEST@SYSTEM@ONE@@@@@@@@@@@@@@@@ALL@SYSTEMS@NORMAL@@@04;32P@03/01/00 DETECTOR@TEST:ALL@OK@@@02+00+00+00+00+00+00+00+00+00@TOT=002@04;32P@03/01/00 **********@HISTORY@REPORT@END@**********@@@@@@@@@@@@@@@@@@@@@04:32P@03/01/00 Figure 3-2 AM2020/AFP1010 Special Function History File Printout 2-21 Operating 15088:K 3/21/01...
Page 132: Section Four
Section Four Fire Alarms The following example illustrates the system format used to display fire alarm conditions: Device Type (relates to Software Type ID) Detectors: Modules: FIXED PHOT D MON NORM CLD FIXED THER D MON PULL STA HEAT(ANALOG) MONITOR ION DUCT DET PULL STATION SMOKE (ION)
Page 133: Acknowledging A Fire Alarm
• Alarm signals from devices not selected for tracking need a system reset in order to clear. For an AM2020/AFP1010 panel on the NOTI•FIRE•NET system, acknowledgment of any event may be accomplished from the local fire alarm panel, intelligent network annunciator (INA), or network reporting terminal (NRT).
Page 134: Section Five
Section Five Troubles Section 5.1 Trouble ....with SLC Loop Devices The following example illustrates the format used to display device trouble conditions: Device Type (relates to Software Type ID): Modules: Detectors: GN ALARM FORC PULL STATION ACCESS MONTR FIXED PHOT D GN SUPR FORC SMOKE (CONV) ALARMS PEND...
Page 135: Trouble
Section 5.2 Trouble ....with Disabled Zones The following example illustrates the format used to display disabled zone trouble conditions: Device Type: Custom Zone Label Device Status FORWARD ZONE that was entered during REVERSE ZONE programming. TROUBL@FORWARD@ZONE@@@FIRST@FLOOR @@@@@ZONE@DISABLED@@@@@04:32P@03/01/00 Z001 Time and Date Hour:Minute Month/Day/Year Type of Trouble (Fixed)
Page 136: Trouble
Section 5.3 Trouble ......with the AM2020/AFP1010 System The following example illustrates the format used to display system trouble conditions. For an explanation of some trouble messages, refer to Section Seven. Specific Trouble Message Device Status TROUBL@CATASTROPHIC@LOOP@INTERFACE@BOARD @2@COMMUNICATION@FLT@04:32P@03/01/00@T19 Time and Date...
Page 137: Block Acknowledge
A NOTI•FIRE•NET system is not listed for proprietary receiving unit operation. If no NRT or AFP-200 is present on the network, the AM2020/AFP1010 may be configured for receiving mode or block acknowledge, provided that all other nodes (INAs, AM2020/AFP1010s) on the system are configured in the same manner.
Page 138: Section 5.5A Acknowledging Troubles In Receiving Unit Mode
ACL TB (Acknowledged Clear Trouble). STEP When multiple events have occurred, the AM2020/AFP1010 will display the first event that occurred (with the exception that the first fire alarm will always override any previous trouble). When the ACK STEP key is pushed, the operator will have acknowledged the highest priority event, not necessarily the event that is being displayed on the CRT Monitor and DIA.
Page 139: Section Six
Section Six Remote Peripherals The AM2020/AFP1010 will support the installation of optional remote Video Display Terminals and printers. The CRT Terminal The CRT displays all system information. The CRT can also display system reports if printer reports are redirected to the CRT during programming. The CRT is provided with a keyboard that can be used to program the AM2020/AFP1010.
Page 140: Section Seven Trouble Messages
This detector failed its periodic detector test. The periodic detector test verifies the alarm operation of the detector. This trouble will also be generated when non NOTIFIER devices are detected on the SLC. The detector should be removed and replaced by an authorized service representative.
Page 141 SECURITY NO COM The AM2020/AFP1010 has received either no response or an invalid response from an addressable SLC loop device programmed for security operation. This may be the result of a burglary, other security violation, the failure of a device, an improperly addressed device, or failure of the field wiring.
Page 142: Section Eight
Drift Compensation Drift Compensation AM2020/AFP1010 software is designed to automatically compensate for chamber sensitivity drift due to detector contamination in SDX-551/751 photo detectors and CPX-551/751 ion detectors. This software-based compensation meets NFPA 72, Chapter 7 "Inspection, Testing, and Maintenance" periodic sensitivity testing and maintenance requirements without removing and testing each smoke detector in an installed system.
Page 143: Chapter Three Programming
2020 1010 HAPTER HREE ROGRAMMING Programming 15088:K 3/21/01...
Page 144 Programming 15088:K 3/21/01...
Page 145: Introduction
About Transponder Rapid All-Call When the All Call button is pressed on an AMG connected to an AM2020/AFP1010 panel, an All Call activation signal is received by the panel. Upon receipt of the All Call signal, the AM2020/AFP1010 panel will immediately activate all specially programmed XP Transponder "SPKR"...
Page 146 About SIB-NET The SIB-2048A and SIB-NET serial communications boards are available for use on the AM2020/AFP1010 system (see Chapter One). For the AM2020/AFP1010 with NOTI•FIRE•NET™ system, only the SIB-NET may be used. If a SIB-NET board is not installed, specific NOTI•FIRE•NET functions can not be programmed or viewed under Read Status.
Page 147: The Initial Programming Outline
2020 manual, if appropriate). All system boards (including all LIBs) must be physically installed . • The Level 1 and Level 2 passwords can be changed. The AM2020/AFP1010 is delivered from the factory with passwords of 00000. Write down or memorize your passwords! To change the passwords, enter...
Page 148 Programming 15088:K 3/21/01...
Page 149: Section One
Section One Main Programming The Programming Mode is accessed by entering the following (level 2 password required): D } X After entering the Programming Mode, the display will show the Main Programming menu: PRESS@1=PSYS,2=FSYS,3=PPRG,4=FPRG,5=REMV,6=PSWD,7=MSG,8=HIS@@@@@@@@@@@@@@@@@@: The Main Programming menu has eight options, where: 1=PSYS Partial System Programming - Selective programming of system-wide functions (number of LIBs, AVPS-24/AVPS-24E*, ISIB, Signal-Silence Inhibit and Cut-out, Alarm...
Page 150: Figure
Press PROG key Enter Level 2 Password Valid Error Message Password? Select Main Programming Menu Option 1-8 1 = PSYS see Figure 1-2 (partial system programming) 2 = FSYS see Section 1.2 (full system programming) see Figure 1-10 3 = PPRG (partial point programming) 4 = FPRG see Figure 1-13...
Page 151: Partial System Programming
Time Delays - Setting the time delays for Alarm Verification, Signal-Silence Inhibit, and Signal Cut-Out. 4=AVPS Audio/Visual Power Supplies - Telling the AM2020/AFP1010 how many Audio/Visual Power Supplies and APS-6R Auxiliary Power Supplies are installed in the system. 5=ZBND Zone Boundary - Setting the zone boundary for the software memory map.
Page 152: Figure
1= PSYS Select Partial System Programming Submenu Option 1-9 1 = INST (install/remove loop see Figure 1-3 interface boards) 2 = STY (choose NFPA style for SLC see Figure 1-4 loops) 3 = TDLY see Figure 1-5 (setting of alarm verification, signal silence, etc.) see Section 1.1.4 4 = AVPS...
Page 153: Section 1.1.1 Lib Installation
The Installation Option flow chart is located in Figure 1-3. The AM2020 is capable of a maximum of ten LIB Signaling Line Circuits (1980 devices total in the system). The AFP1010 is capable of a maximum of four LIB Signaling Line Circuits (792 devices total in the system).
Page 154: Section 1.1.3 Time Delays
D }X1X3X Section 1.1.3 Time Delays 3=TDLY Option 3 from the Partial System Programming submenu allows the programmer to enable/disable Alarm Verification of detectors, Signal-Silence Inhibit and Signal Cut-out for control modules, as well as setting the appropriate time delays for these functions. For a full description of these functions, see the Glossary of Terms and Abbreviations at the end of this manual.
Page 155: Enabling The Trouble Bus
For signal cut-out, the data can be entered in one second increments: however, the AM2020/AFP1010 will round up to the nearest value/increment of 8. For example, if 7 is entered, the displayed value will be 8. If 9 or 15 is entered, the displayed value is 16.
Page 156: External Equipment
(see the CCM-1 Product Installation Docu- ment). Printer Trouble Inhibit - The AM2020/AFP1010 monitors the primary printer's Rx line for error conditions. This option inhibits the generation of a trouble message for Paper Out or Printer Off Line . Enable for special applications only (see the VGAS Installation manual).
Page 157: External Equipment Option Flow Chart
6 = EXTEQ C h a n g e Terminal Supervision? C h a n g e Terminal Status Line? Enable/Disable Change Aux Terminal Supervision Printer Prog? Change Control Enable/Disable Enable/Disable Aux Module State Terminal Status Line Printer Reporting? Enable/Disable Aux Printer Change NONA/ NOA Module State...
Page 158 @@@SIGNAL@SILENCE@@@@@@@@REQUESTED@@@@@@@@@@@@@@@@@@@@@@@@03:58P@03/01/00@101 NEW@ALM:@0001@@@TOT@ALM:@0001@@@NEW@TBL:@0000@@@TOT@TBL:@0000@@@ALL@SILENCED LED Latching The AM2020/AFP1010 offers an LED-latching option: DO@YOU@WANT@TO@ENABLE@"LED@LATCHING"@FOR@MORE@DEVICES?@(Y=YES,N=NO)@@@@@@@@@@: If you respond N for no, the control panel will employ a default latching algorithm, which limits the number of addressable device LEDs that will illuminate when the device is in alarm. With this option programmed NO, after six alarm initiating addressable devices are in alarm any additional devices going into alarm will not light their integral LED, nor any remote annunciator such as the RA400Z.
Page 159 SLC Loop. MORE LED latching can only be employed if ALL installed addressable devices were purchased from the Notifier factory after April 1, 1991. Use of this feature under any other circumstances can cause the SLC Loops to shut down. Devices compatible with more LED latching will have the code R4 stamped on the product marking label.
Page 160: Local Parameters
D }X1X7X Section 1.1.7 Local Parameters 7=LOCP Option 7 of the Partial System Programming Menu allows the changing of Local Parameters, such as enabling/ disabling the panel’s piezo sounder (for trouble conditions while programming SLC Loop devices into memory), LIB Local Mode, NFPA listings, battery parameters, event reminder, device blink, and pre-alarm programming. 7 = LOCP Change Piezo...
Page 161 The following programming example illustrates the disabling of the panel’s piezo sounder, programming LIB Local Mode, modifying NFPA listings, programming the battery parameters, changing the event reminder, device blink and pre-alarm programming. NOTE The sounder must be enabled upon completion of programming! PRESS@1=INST,2=STY,3=TDLY,4=AVPS,5=ZBND,6=EXTEQ,7=LOCP,8=ISIB,9=PARM@@@:@7 DO@YOU@WANT@TO@CHANGE@THE@PIEZO@TROUBLE@CONDITION?@(Y=YES,N=NO)@@@@@@@@:@Y DO@YOU@WANT@THE@PIEZO@SOUNDER@SILENCED@WHILE@PROGRAMMING?@(Y=YES,N=NO)@:@Y...
Page 162 Local Mode Operation Local Mode operation allows the LIB-200, LIB-200A, and LIB-400 boards to run independently of the CPU if CPU to LIB communications should fail. Local Mode is programmed in the Local Parameters portion of System Programming. The programmer identifies all of the SLC addressable control points (modules and transponder points) at and below the boundary address programmed, that are to be activated upon alarm.
Page 163 NFPA Listings NFPA listing allows the programmer to change the operation of the panel based on the NFPA listings selected. Each listing will select one or more mandatory modules. Listing Software ID Address * NFPA 72 (72A) Local Fire Alarm Systems EVGA L1M96 NFPA 72 (72B) Auxiliary Fire Alarm Systems...
Page 164: Intelligent Serial Interface Board Programming
Intelligent Serial Interface Board (ISIB). ISIB Programming has four submenu options, ISIB Installation, Annunciator Installation, External Interface Parameters and UDACT Selection. Detailed descriptions of the four ISIB programming options are located on the pages that follow. The SIB-2048A and SIB-NET ISIBs are available for use with the AM2020/ AFP1010. For AM2020/AFP1010 with NOTI•FIRE•NET™...
Page 165 NOTI•FIRE•NET™ specific functions and are only programmed when a SIB-NET is used. NOTES • During an upload/download, the fire protection capability of the AM2020/AFP1010 is enabled (it is limited for download). To reduce the risk of incompatible databases, the programmer should NEVER program any parameters into the control panel while an upload/download is in progress.
Page 166 D }X1X8X4X 4=DACT - UDACT Installation This option allows the installer to program a Notifier UDACT (Universal Digital Alarm Communicator Transmitter) and specify its base annunciator protocol address in the system. The example below illustrates programming a UDACT. Before programming a UDACT into an AM2020/AFP1010 system, the number of annunciator addresses required must be determined.
Page 167: Additional System Parameters
D }X1X9X Section 1.1.9 Additional System Parameters 9=PARM This option allows the programmer to enable/disable additional system parameters such as the day/night sensitivity of detectors or rapid polling. For a full description of these functions, see the Glossary of Terms and Abbreviations at the end of this manual.
Page 168 The following programming example illustrates enabling these functions. PRESS@1=INST,2=STY,3=TDLY,4=AVPS,5=ZBND,6=EXTEQ,7=LOCP,8=ISIB,9=PARM DO@YOU@WANT@TO@CHANGE@THE@HIGH@DAY/NIGHT@SENSITIVITY@ZONE?@(Y=YES,N=NO) DO@YOU@WANT@A@HIGH@DAY/NIGHT@SENSITIVITY@ZONE?@(Y=YES,N=NO) ENTER@HIGH@DAY/NIGHT@SENSITIVITY@ZONE@(ZXXX) @@@@@@@@@@@@@@@@@@@@@:@Z150 DO@YOU@WANT@TO@CHANGE@THE@LOW@DAY/NIGHT@SENSITIVITY@ZONE?@(Y=YES,N=NO) DO@YOU@WANT@A@LOW@DAY/NIGHT@SENSITIVITY@ZONE?@(Y=YES,N=NO) ENTER@LOW@DAY/NIGHT@SENSITIVITY@ZONE@(ZXXX) :@Z1 DO@YOU@WANT@TO@CHANGE@THE@ DETECTOR@ VER.@TROUBLE @COUNTER?@(Y=YES,N=NO) DO@YOU@WANT@THE@ DETECTOR@ VERIFICATION @TROUBLE @ENABLED?@(Y=YES,N=NO) ENTER@DETECTOR@ VERIFICATION @TROUBLE@ COUNT@(1@-@20 :@15 DO@YOU@WANT@TO@CHANGE@"SACM"/"SEQM"@MODULE@STATE@REPORTING?@(Y=YES,N=NO) DO@YOU@WANT@TO@REPORT@"SACM"/"SEQM"@MODULE@STATE@CHANGES?@(Y=YES,N=NO) DO@YOU@WANT@TO@CHANGE@THE@DRIFT@COMPENSATION@OPERATION?@(Y=YES,N=NO) DO@YOU@WANT@DRIFT@COMPENSATION@ENABLED?@(Y=YES,N=NO) DO@YOU@WANT@TO@CHANGE@THE@PAGER@PROGRAMMING?@(Y=YES,N=NO) DO@YOU@WANT@THE@PAGER@ENABLED?@(Y=YES,N=NO) DO@YOU@WANT@TO@CHANGE@THE@MODEM@PROGRAMMING?@(Y=YES,N=NO) DO@YOU@WANT@THE@MODEM@ENABLED?@(Y=YES,N=NO) DO@YOU@WANT@TO@CHANGE@THE@NAM@PROGRAMMING?@(Y=YES,N=NO) DO@YOU@WANT@THE@NAM@ENABLED?@(Y=YES,N=NO) DO@YOU@WANT@TO@CHANGE@THE@RAPID@POLLING@PROGRAMMING?@(Y=YES,N=NO) DO@YOU@WANT@RAPID@POLLING@ENABLED?@(Y=YES,N=NO)
Page 169 Protected Premises Fire Alarm System (Local) use only. Local use of a CRT, printer or other 232 device from the remote FACP is prohibited. No other system network functions can be implemented due to system contraints. For more information refer to the NAM-232 for Use With AM2020/ AFP1010 Manual, Document 50424.
Page 170 D }X2X Section 1.2 Full System Programming 2=FSYS Option 2 from the Programming Menu walks the programmer through complete initial programming of system-wide functions. Alarm Verification, Signal-Silence Inhibit, Signal Cut-Out, and the supervision of peripherals are all programmed under this option, as well as the number of AVPS, APS-6R, LIBs, ISIB and Annunciator Modules in the system, and SLC Loop styles.
Page 171 DO@YOU@WANT@THE@EVENT@REMINDER@ENABLED?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@@@@@@ :@Y DO@YOU@WANT@THE@DEVICE@BLINK@ENABLED?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@@@@@@@@ :@Y DO@YOU@WANT@THE@PRE-ALARM@FUNCTION@ENABLED?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@@ :@Y DO@YOU@WANT@THE@INTELLIGENT@SIB@ENABLED?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@@@@@ :@Y IS@ANNUNCIATOR@01@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@Y ENTER@20@CHARACTER@CUSTOM@LABEL@@@@@@@@@@@@@@@@@@@@@@@@@@@:@ANNUNCIATOR@1 IS@ANNUNCIATOR@02@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@04@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@05@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@06@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@07@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@08@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@09@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@10@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@11@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@12@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@Y ENTER@20@CHARACTER@CUSTOM@LABEL@@@@@@@@@@@@@@@@@@@@@@@@@@@:@ANNUNCIATOR@12 IS@ANNUNCIATOR@13@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@14@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@15@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@16@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@17@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@N IS@ANNUNCIATOR@18@TO@BE@INSTALLED@IN@SYSTEM?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@ :@Y ENTER@20@CHARACTER@CUSTOM@LABEL@@@@@@@@@@@@@@@@@@@@@@@@@@@:@ANNUNCIATOR@18...
Page 172: Partial Point Programming
ZXXX (for zones) or AXXPYY (for annunciator points) SLC Loop Addressable Detector or Mod- Software-defined Annunciator Annunciator 1 to 10 (AM2020), ule followed by an address in Zone Z1 to Z240 Module 1 to 32 Point 1 to 64 the range 1 to 99...
Page 173: Type I.d
3 = PPRG Select Partial Point Programming Submenu Option 1-6 1 = TYPID see Section 1.3.1 (Change device, zone, or annunciator point software type ID) 2 = CBE (change CBE list or equation which see Section 1.3.2 controls interaction between devices, and software zones) 3 = LBL (change custom label associated with...
Page 174: Control-By-Event
D }X3X2X Section 1.3.2 Control-By-Event 2=CBE Option 2 of the Partial Point Programming Menu allows the programmer to change the Control-By-Event (CBE) for any detector, module or software zone. The panel maintains a CBE for each device and zone installed in the system.
Page 175: Optional Features
Abbreviations at the end of this manual. The Optional Features flow chart is located in Figure 1-11. NOTE: The AM2020/AFP1010 will not permit Signal Silence programming for control modules with Software Type IDs, TELE, PWRC, APND, TPND, and GPND. See Software Type IDs for an explana- tion of all Software Type IDs.
Page 176: Annunciator Mapping
A control module example: PRESS@1=TYPID,2=CBE,3=LBL,4=OPTNS,5=AMAP,6=CCBE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@4 ENTER@LXX(D/M)YY,@ZXXX@OR@AXXPYY@FOR@PT.@CHANGE@(BCKSPC@TO@ABORT)@@@@@@@:@L3M20 DO@YOU@WANT@TO@CHANGE@THE@SIGNAL@SILENCE@OPTION@FOR@THIS@DEVICE?@(Y=YES,N=NO):@Y IS@THE@SIGNAL@SILENCE@OPTION@TO@BE@ENABLED@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@:@Y DO@YOU@WANT@TO@CHANGE@THE@WALK@TEST@OPTN@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@:@Y IS@THE@WALK@TEST@OPTION@TO@BE@ENABLED@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@@@@:@Y A monitor module example: PRESS@1=TYPID,2=CBE,3=LBL,4=OPTNS,5=AMAP,6=CCBE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@4 ENTER@LXX(D/M)YY,@ZXXX@OR@AXXPYY@FOR@PT.@CHANGE@(BCKSPC@TO@ABORT)@@@@@@@:@L5M13 DO@YOU@WANT@TO@CHANGE@THE@TRACKING@OPTN@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@@:@Y IS@THE@TRACKING@OPTION@TO@BE@ENABLED@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@@@@@:@Y An addressable smoke detector example: PRESS@1=TYPID,2=CBE,3=LBL,4=OPTNS,5=AMAP,6=CCBE@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@4 ENTER@LXX(D/M)YY,@ZXXX@OR@AXXPYY@FOR@PT.@CHANGE@(BCKSPC@TO@ABORT)@@@@@@@:@L5D17 DO@YOU@WANT@TO@CHANGE@THIS@DETECTORS@VERIFICATION@OPTION?@(Y=YES,N=NO)@@@@@@@:@Y IS@THE@DETECTOR@VERIFICATION@OPTN@TO@BE@ENABLED@FOR@THIS@DEVICE?@(Y=YES,N=NO):@Y DO@YOU@WANT@TO@CHANGE@THIS@DETECTORS@SENSITIVITY@SELECTION?@(Y=YES,N=NO)@@@@@:@Y ENTER@THE@DETECTOR@SENSITIVITY@SELECTION@FOR@THIS@DEVICE@(L=LOW,M=MED,H=HIGH):@M DO@YOU@WANT@TO@CHANGE@THE@TRACKING@OPTN@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@@:@Y IS@THE@TRACKING@OPTION@TO@BE@ENABLED@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@@@@@:@Y DO@YOU@WANT@TO@CHANGE@THE@DAY/NIGHT@CONTROL@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@:@Y IS@THERE@DAY/NIGHT@SENSITIVITY@CONTROL@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@@@:@Y NOTE Control modules that activate monitor modules via physical connections must not have the walk test option enabled.
Page 177: Cooperative Control-By-Event
6=CCBE Option 6 of the Partial Point Programming Menu allows the programmer to change the Cooperative Control-By- Event (CCBE) for any reverse activated zone when using the AM2020/AFP1010 with the NOTI•FIRE•NET. NOTE A software zone is not a physical zone, but rather a software grouping in control panel memory.
Page 178: Full Point Programming
Option 4 from the Programming Menu allows the programmer to completely program of all the addressable detectors, modules, software-defined zones and annunciator points in the AM2020/AFP1010 system. The programming examples illustrate the CRT screen prompts displayed during Full Point Programming.
Page 179 Example: Programming Addressable Detectors Photoelectric Smoke Detector on SLC LOOP 2 programmed to activate two software zones (Z13, Z29) and a control module (L2M19), and also mapped to annunciator module address "02" point "02". PRESS@1=PSYS,2=FSYS,3=PPRG,4=FPRG,5=REMV,6=PSWD,7=MSG,8=HIS@@@@@@@@@@@@@@@@@@:@4 ENTER@LXX(D/M)YY,@ZXXX@OR@AXXPYY@FOR@PT.@INSTALL@(BCKSPC@TO@ABORT@@@@:@L2D23 ENTER@TYPE@ID@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@PHOT ENTER@CONTROL-BY-EVENT@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@: (Z13@Z29@L2M19)@ ENTER@20@CHARACTER@CUSTOM@LABEL@@@@@@@@@@@@@@@@@@@@@@@@@@@:@MAIN@LOBBY@DETECTOR@ IS@THE@DETECTOR@VERIFICATION@OPTN@TO@BE@ENABLED@FOR@THIS@DEVICE?@(Y=YES,N=NO):@Y ENTER@THE@DETECTOR@SENSITIVITY@SELECTION@FOR@THIS@DEVICE@(L=LOW,M=MED,H=HIGH):@H IS@THE@TRACKING@OPTION@TO@BE@ENABLED@FOR@THIS@DEVICE?@(Y=YES,N=NO)@@@@@@@@@@@:@Y...
Page 180 ENTER@20@CHARACTER@CUSTOM@LABEL@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@FIRST@FLOOR DO@YOU@WANT@THIS@POINT@MAPPED@TO@AN@ANNUNCIATOR?@(Y=YES,N=NO)@@@@@@@@@@@@@@@@:@Y ENTER@AXXPYY@FOR@ANNUNCIATOR@POINT@MAPPING@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@A2P5 Reverse zones on an AM2020/AFP1010 system with NOTI•FIRE•NET can be programmed with both CBE and CCBE equations. Below is an example of Zone 220 programmed as a reverse zone to activate zones on other network nodes. ENTER@LXX(D/M)YY,@ZXXX@OR@AXXPYY@FOR@PT.@INSTALL@(BCKSPC@TO@ABORT)@@@@@:@Z220...
Page 181: Remove
AM2020/AFP1010. NOTES • The AM2020/AFP1010s are shipped with initial Level One and Level Two passwords of 00000. As a security measure, the control panel does not echo password digits to the DIA and CRT screen. Rather, it displays an asterisk (*) for each digit entered. After entering five password digits, pressing ENTER (on the DIA) or RETURN (on the CRT) places the new password into operation.
Page 182: History Mode
8=HIS Option 8 from the Programming Menu allows the programmer to change the parameters associated with History Mode. Once the History option is enabled, the AM2020/AFP1010 has the capability to store the most recent 400 system events. 8 = HIS...
Page 183 The History Mode Programming submenu has three options as described below: D }X8X1X 1=START This option allows the programmer to start storing events into the panel's history file. The following example enables history mode: PRESS@1=START,2=STOP,3=CLEAR@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@1 D }X8X2X 2=STOP This option allows the programmer to stop storing events into the panel's history file. The following example disables history mode: PRESS@1=START,2=STOP,3=CLEAR@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@2 D }X8X3X...
Page 184 3-42 Programming 15088:K 3/21/01...
Page 185: Section Two The Alter Status Menu
The Alter Status Menu flow chart is located in Figure 2-1. Detailed information on the Alter Status options follows. NOTE When an AM2020/AFP1010 with NOTI•FIRE•NET is in walk test mode, a trouble condition will appear for that AM2020/AFP1010 node at the INA and/or NRT. 3-43...
Page 186: Disable Point
Option 1 from the Alter Status Menu allows the programmer to disable and subsequently re-enable individual devices or zones. When a device is disabled, it is no longer polled by the AM2020/AFP1010. The following example illustrates disabling monitor module 4 on SLC Loop 1.
Page 187: Detector Sensitivity
• On the NOTI•FIRE•NET system, the time and date are synchronized every hour by the master clock node on the network. The last AM2020/AFP1010, INA, or NRT on the network where the time and date were manually programmed is the master clock node.
Page 188: Diagnostics
C |X5X Section 2.5 Diagnostics 5=DIAG Option 5 from the Alter Status Menu allows the programmer to perform system diagnostics. The Diagnostics Option submenu is shown below: PRESS@1=RVER@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@@ C |X5X1X 1=RVER - Reset Detector Verification Counters This option allows the programmer to reset the detector verification counters for all installed intelligent detectors and clear all detector verification error conditions.
Page 189: Walk Test
6 = WALK Select Walk Test Submenu Option 1-6 Enter 1 = SEL Enter LIB # Included Another LIB (select LIBs for Walk Test) in Test for Test? (Exit Alter Status Mode, see notes under 1=SEL) 2 = UNP (generates report for unprogrammed devices) 3 = UNI (generates report for...
Page 190 Alter Status Mode and choose option 6 from the Walk Test submenu. The following example demonstrates exiting/aborting Walk Test: PRESS@1=SEL,2=UNP,3=UNI,4=TEST,5=UNTST,6=EXIT@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@:@6 NOTE Upon exiting/aborting Walk Test, the Walk Test system trouble is cleared and the AM2020/AFP1010 resumes full fire protection. 3-48 Programming 15088:K 3/21/01...
Page 191 Smoke Detector Activation During Walk Test Activation of smoke detectors during Walk Test for the Series 500 smoke detectors can be accomplished by placing the optional Test Magnet (System Sensor model number M02-24) against the cover opposite the test module socket, as shown below: The LEDs should track within 10 seconds indicating alarm and annunciating the panel.
Page 192: Printout Of An Am2020/Afp1010 Walk Test Report
TEST02 indication will be indicated for one device and the missing device address will not show up on the report at all. Figure 2-3 Printout of an AM2020/AFP1010 Walk Test Report 3-50 Programming 15088:K 3/21/01...
Page 193: Group Zone Disable
(input devices and zones) associated with a particular software zone. When a point is disabled, it is no longer polled by the AM2020/AFP1010. When a zone is disabled using this feature, a trouble message is generated for this zone. Then the entire CBE database is searched for all input devices and zones, looking for this "group"...
Page 194 Full Point Programming option of the Main Programming Menu. NOTE: The XP Transponder will revert to Local Mode program operation upon loss of communications with the AM2020/ AFP1010. Therefore, use extreme care when assigning Software Type IDs to XP Transponder circuits. For instance, an XP circuit assigned Software Type ID SPSU will initiate a supervisory condition under communication with the AM2020/ AFP1010, but will result in an alarm condition under local XP operation.
Page 195: Section 4.1 Control-By-Event Programming
Group 2: Output Modules • These Software Type IDs cannot be programmed for Signal Silence. • These Software Type IDs do not have any control-by-event programming. • If the Software Type ID requires Form-C relay function, the two tabs on the CMX must be broken. Otherwise, the tabs must not be broken.
Page 196 Group 3: Software Zones Type ID Display Label Type of Device FORWARD ZONE A software-defined zone that is forward-activating . FZON REVERSE ZONE A software-defined zone that is reverse-activating. RZON • A Forward-Activating Zone is a software zone in control panel memory which once activated by an addressable input device or other forward zone may in turn activate other zones and/or addressable output devices directly.
Page 197 Group 5: Output Modules Type of Device Type ID Display Label CMX Control Module configured as a Form-C relay, an XPR-8 relay, or an CMXC CMX FORM C XP5-C (in relay mode). CMX Control Module, an XPC-8 circuit, or an XP5-C (in NAC mode) CMXS CMX CONTROL configured as a Notification Appliance Circuit.
Page 198 Group 7: Evacuation Modules Type of Device Type ID Display Label CMX Control Module, an XPC-8 circuit, or an XP5-M circuit (in NAC EVGA GN ALARM EVC mode) configured as a Notification Appliance Circuit, activated on General Alarm, for NFPA 72 Local Fire Alarm Systems applications. Note: This software type cannot be silenced if a module of Software Type ID WAT (Water Flow) has been activated.
Page 199 Group 13: Annunciator Output Type of Device Type ID Display Label ACON Annunciator Point that indicates the state of any CMX Control Module, XPC-8 ANN CONTROL circuit, XPR-8 relay, or XP5-C circuit mapped to it. This annunciator point can also be used for manual control of relays, speaker and notification circuits.
Page 200 Group 18: Annunciator Manual Mode Type ID Display Label Type of Device AMAN ANN MANUAL Annunciator Point that indicates manual mode for an annunciator module. The annunciator point can also turn the manual mode off or on. This Type ID is used in conjunction with INA ACS or FACP shadow point programming. 3-58 Programming 15088:K 3/21/01...
Page 201: Section Four
A software zone is not a physical zone, but rather a software grouping in control panel memory. Software Zones The AM2020/AFP1010 contains 240 software zones to be used in CBE programming. These software zones are broken into two types, Forward-Activating Zones (FZON) and Reverse-Activating Zones (RZON). These forward and reverse zones must be grouped separately in the system's programming, with the forward group always preceding by lower zone number the reverse group.
Page 202: Section 4.3 Size Limitations
The real power of the CBE Programming comes from the equation, which is evaluated by the control panel to determine a variety of alarm initiating conditions. The equation provides the real decision-making ability through the use of an operator acting on a set of operands. The operands for an output module can be addressable initiating devices, software zones (forward or reverse-activating), or addressable control modules assigned an address lower than its own.
Page 203: 4.2 Operators
4.2 Operators Operator: The first (and most useful) operator is OR. Equation: OR(Z9 Z15 Z23) If ANY one of the three operands in the equation are in alarm, then the control module will be activated. IF Software Zone 9 is in alarm OR L1M3 IF Software Zone 15 is in alarm OR IF Software Zone 23 is in alarm,...
Page 204 Operator: The NOT operator inverts the state of the operand L1D4 (activated to deactivated OR deactivated to activated). (Z2) Equation: NOT(Z2) The control module will remain activated UNTIL the operand comes into alarm. L1M1 IF Software Zone 2 is in alarm, THEN this control module will be deactivated.
Page 205 Operator: For delayed operation, the DEL operator is used. Equation: DEL(HH.MM.SS HH.MM.SS (Z1)) Duration Delay Internal (optional) Equation L1M3 Example: L1M3 activates Forward Activating Zone 223 (Z223). (Z223) L1M2 CBE is: DEL(00.00.30 00.01.30 (Z223)) Z223 IF Z223 has been active for 30 seconds THEN L1M2 will become active.
Page 206 SDEL Operator: The SDEL operator is also used for delayed operation. This is a latched version of the DEL operator. Once the equation evaluates True, it remains activated until a reset, even if the in- ternal equation becomes false. Equation: SDEL(HH.MM.SS HH.MM.SS (Z1)) Delay Duration...
Page 207: 4.3 Size Limitations
4.3 Size Limitations Each Control-By-Event has a physical size limitation of 14 bytes in control panel memory. For initiating devices, the Control-By-Event size can be calculated by the following formula: Size in bytes = 2 + (Number of Zones) + (Number of Control Modules X 3) Example: The following Control-By-Event takes up 11 bytes in memory.
Page 208 Due to the 14-byte size limitation, it may be necessary to use more than one equation or list to accomplish a desired result. Through the use of reverse activating zones, an equation which normally would contain too many bytes can be broken up into several smaller equations. In the example below, a control module (CMX) is to be activated by any one of 14 software zones: L1M1 CBE Equation for L1M1:...
Page 209: 4.4 Cooperative Control-By-Event
Example - Resetting 4-wire Smoke Detectors A control module is needed to reset power to 4-wire smoke detectors in an AM2020 or AFP1010 system unless the resettable power output (TB3 terminals 1 and 2) from the MPS-24A is used. This module must not be activated in response to an alarm condition.
Page 210: 4.6 Programming Examples
4.6 Programming Examples Options The example below illustrates three ways to accomplish the simple programming task of programming a Notification Appliance (control module) on SLC Loop 1 to indicate activation of an Initiating Device (smoke detector) also on SLC Loop 1. Solution C Solution A Solution B...
Page 211 L1D1 L1D2 L1D3 L1D4 (Z2) (Z1) (Z1) (Z1) Example # 1: Combinational Logic L1D1, L1D2, and L1D3 activate Z1. L1D4 activates Z2. If Z1 activates, L1M1 will activate. If Z2 activates AND(Z1 Z239) RZON then L1M4 will activate. The equation AND(Z1 Z239) Z240 requires both to be active for an output.
Page 212 L1D1 L1D2 (Z1) RZON Example # 3: Delay and Time Z240 DEL(00.01.00 00.05.00 (Z1)) L1D1 activates Z1. L1M1 turns on when Z1 is active. L1D2 is a null equation. L1M2 activates with L1D2 after a ten minute delay. Z239 is active July 4th of every year.
Page 213 Example # 5: CCBE for NOTI•FIRE•NET NOTI•FIRE•NET NOTI•FIRE•NET NOTI•FIRE•NET NOTI•FIRE•NET Node 1 will activate L1M1 if Z1 is active locally. Node 1 will activate L1M2 if Z200 is active locally or in both Nodes 7 and 43 simultaneously. Node 43 will activate L1M2 if Z200 is not active locally and not activated in Node 7.
Page 214: Section Five
Section Five Dual Stage Alert/Evacuation Programming for Dual Stage Alert/Evacuation operation (for use in Canada only) An XPC-8 Notification Appliance Circuit module can be configured for Dual Stage Alert/Evacuation operation. Under this mode of operation each circuit operates in one of two stages: alert or evacuation. When configured this way, each notification appliance circuit has two addresses associated with it.
Page 215: Chapter Four Security
AM2020 AFP1010 Chapter Four Security Security 15088:K 03/21/01...
Page 216 Security 15088:K 03/21/01...
Page 217: Section One
Fire/Security Fire Alarm Systems Introduction The AM2020/AFP1010 is suitable for use as a Grade AA, Grade A, or Grade B Central Station and Proprietary Burglar Alarm Protected Premises and Receiving Unit when the installation and programming requirements out- lined in this section are followed. Such an installation meets the requirements of Standards UL1076 (Proprietary Burglar Alarm Units and Systems) and UL1610 (Central Station Burglar Alarm Units).
Page 218: Security Configuration - Specific Requirements
There are four software type IDs associated with security operation; Security Access Monitor (SACM), Security Area Monitor (SARM), Security Equipment Monitor (SEQM), and Security System Monitor (SSYM). There is also one software function, Security Delay (SDEL). These software elements are essential to all aspects of security operation, including Control-By-Event (CBE) programming.
Page 219: Table 1.3-2 Interior Space Security Devices
Interior Spaces Table 1.3-2 contains some common types of devices used in interior spaces, and a brief description and application notes for each type. This is meant only as a guide when selecting which types of devices you need; follow manufacturer's recommendations for installation and maintenance. t t i t l u t t i...
Page 220: Table 1.3-3 Zone Numbers - One Set Of Zones
To make locating alarms easier, each monitor module should monitor devices in one specific area. If possible, these devices should all be of similar types. This helps the operator to determine the cause of the alarm, as well as allowing the operator to identify and repair detectors causing false alarms quickly. Interior motion detectors should be placed on a separate supervisory circuit whenever possible, since they have a higher failure rate than other devices.
Page 221 Security System Diagrams and Programming Keys The following figures illustrate the minimum system requirements for various configurations of the AM2020/ AFP1010 and associated peripherals. Refer to Table 1.1-1 in the introduction to this chapter for monitor and control module information. Refer to the XP5 Series Transponder Manual listed in the Related Documentation Chart of this manual for connection information for the XP5 modules.
Page 222: Table
The following system requirements are illustrated in Figure 1.3-2. See Table 1.1-1 in the introduction to this section for monitor module options. • One AM2020/AFP1010 Control Panel • Multiple Security Supervisory Protected Areas • One Protected Premises • One Monitor Module per protected area, Security Devices (minimum security equipment).
Page 223: Introduction
The following system requirements are illustrated in Figure 1.3-3. See Table 1.1-1 in the introduction to this section for monitor module options. • One AM2020/AFP1010 Control Panel • Multiple Security Supervisory Protected Areas • Multiple Protected Premises • One Monitor Module per protected area, Security Devices (minimum security equipment).
Page 224: Figure
The following system requirements are illustrated in Figure 1.3-4. See Table 1.1-1 in the introduction to this section for other monitor and control module options. • One AM2020/AFP1010 Control Panel • Multiple Security Supervisory Circuits Reporting to Central Station as a Single Area •...
Page 225: Figure
Programming Key for Figure 1.3-4 MM = CM MM Security Access Monitor: Group Interface: Address: LXXMYY (Installer specified). A: CM programming: Type ID: SACM Address: LXXMYY (Installer specified). Control-By-Event: (Za*) Type ID: CMXC Custom Label: Installer Option (describe specific Control-By-Event: (Za*) location of module).
Page 226: Figure
The following system requirements are illustrated in Figure 1.3-5. See Table 1.1-1 in the introduction to this section for monitor and control module options. • One AM2020/AFP1010 Control Panel • Multiple Security Supervisory Circuits Reporting to Central Station as a Single Area •...
Page 227: Figure
Group Interface must be physically located in either the protected MM CM Pull Station premises or the Central Station Smoke Detector To Signaling AM2020/AFP1010 Line Circuit Central Station To Central Station Sample Annunciator Display (ACM-16AT) (via EIA-485 circuit) Entry/Exit Door Figure 1.3-6 Single Tenant Security System with Entry/Exit Delay...
Page 228: Figure
Programming Key for Figure 1.3-6 (Cont) ACM-16AT/-32A Annunciator: Annun. Pt. Type ID MM = CM Group Interface: AXXP1 AMON A: CM programming: AXXP2 AZON Address: LXXMYY (Installer specified). AXXP3 AMON Type ID: CMXC AXXP4 AMON Control-By-Event: (Zaj*) MM Security Access Monitor: Custom Label: Security Group Output Address: LXXMYY (Installer specified).
Page 229: Figure
Programming Key for Figure 1.3-6 (Cont) Zone Programming (continued) 8. Zone Active 1.5 Min. After Arming System 10. Zone Active a Minimum of 30 Sec. if Entry/Exit Zone: Zag* Delay Is Violated (Entry/Exit Door Only) When Type ID: RZON System Is Armed Control-By-Event: DEL(00.01.30 (Zab*)) Zone: Zai* Custom Label: Installer Specified.
Page 230: Figure
1.3.1 C RKS-S R ONNECTING AN EMOTE EYSWITCH The RKS-S Remote Keyswitch arms and disarms the system. It can be mounted in a UL listed single-gang electrical box. Both the MMX-1/MMX-101 (as shown below) or other monitor module (see Table 1.1-1 for module options) and RKS-S must be mounted within the protected area.
Page 231: Figure
The following system requirements are illustrated in Figure 1.3-9. See Table 1.1-1 in the introduction to this section for monitor and control module options. • One AM2020/AFP1010 Control Panel • Multiple Security Supervisory Circuits Reporting to Central Station as a Single Area •...
Page 232: Figure
The following system requirements are illustrated in Figure 1.3-10. See Table 1.1-1 in the introduction to this section for monitor and control module options. • One AM2020/AFP1010 Protected Premises Unit (PPU) • One AM2020/AFP1010 Central Station Unit • One Security Supervisory Protected Area •...
Page 233: Figure
Protected Premises Unit or LIB-400 Installed in an NIB-96 AM2020/AFP1010 Installed in an ICA-4 or ICA-4L in an AM2020/AFP1010 Protected Premises Protected Premises Unit. For further information refer Unit to Chapter Two, Programming of this manual and the Network Interface Board (NIB-96) manual.
Page 234: Figure
The following programming key relates to Figure 1.3-10: Contact Switch w/Monitor Module: Security Access Monitor Module: Address: LXXMYY (Installer Specified). Address: LXXMYY (Installer specified). Type ID: SACM Type ID: SACM Control-By-Event: (Zac*) Control-By-Event: (Zaa*) Custom Label: Entry/Exit Door Custom Label: Installer Option (describe specific Tracking: Yes location of module).
Page 235 Figure 1.3-10 Programming Key (continued): ACM-16AT/-32A Annunciator: Annun. Pt. Type ID ArrP1 AZON ArrP2 AZON ArrP3 AMON ArrP4 AMON ArrP5 AZON MM = CM Group Interface: A: CM programming Address: LXXMYY (Installer specified). Type ID: CMXC Control-By-Event: (Zaj*) Custom Label: Security Group Output Signal Silence: No Walk Test: Yes/No (Installer Specified).
Page 236 Figure 1.3-10 Programming Key (continued): NIB-96 NIB-96 Network Interface Board Central Station (Master) Protected Premises Unit (Slave) Point Monitor Module Point Annunciator Point: AssP1 Address: LXXMYY Type ID: AAST Type ID: MON The first point of the NIB-96 interface reports Control-By-Event: (Installer Specified) Custom Label: Installer Specified.
Page 237 Figure 1.3-10 Programming Key (continued): NIB-96 NIB-96 Network Interface Board (continued) Protected Premises Unit (Slave) Central Station (Master) Point Arming Switch Monitor Module Point (PPU Arming Switch) Annunciator Point: AssPl** Address: LXXMYY Type ID: AMON Type ID: SACM Control-By-Event: (Zc) Unique Zone Number Custom Label: Installer Specified.
Page 238 Figure 1.3-10 Programming Key (continued): NIB-96 NIB-96 Network Interface Board (continued) Point Protected Premises Unit (Slave) Central Station (Master) Group Interface MM Monitor Module Point (PPU Security Alarm Annunciator Point: AssPp** Input) Type ID: AMON Address: LXXMYY Type ID: SARM Control-By-Event: (Installer Specified) Custom Label: Installer Specified.
Page 239 Figure 1.3-10 Programming Key (continued): 8. Zone Active 1.5 Min. After Arming System 10. Zone Active for a Minimum of 30 Sec. if Entry/ Zone: Zag* Exit Delay Is Violated (Entry/Exit Door Only) Type ID: RZON When System Is Armed Control-By-Event: DEL(00.01.30 (Zab*)) Zone: Zai* Custom Label: Installer Specified.
Page 240: Figure 1.3-11 Cmx Control Module For Ringback
= CM The CMX control module for ringback is illustrated in Figure 1.3-11. PPU Signaling Line Circuit Out CMX-1 CMX-2 PPU Signaling Line Circuit In Note: Tabs on CMX must be broken when used as a Form-C relay. Warning: Observe proper polarity or device will be damaged.
Page 241: Figure 1.3-13 Connecting An Sts-1 Switch To An Mmx-101 Monitor Module
Figure 1.3-13 Connecting an STS-1 Switch to an MMX-101 Monitor Module Figure 1.3-14 Connecting an STS-1 Switch to an MMX-1 Monitor Module 4-27 Security 15088:K 03/21/01...
Page 242 • Multiple Protected Premises with System Arm/Disarm Capability and Central Station Ringback Signal • The minimum security equipment required is as follows: — Each AM2020/AFP1010 PPU must be equipped with a SIB-2048A or SIB-NET Interface — NIB-96 Network Interface — STS-1 Security Tamper Switch —...
Page 243: Figure 1.3-16 System Requirements
MM CM Group Interface Group Interface must be physically located in either the Pull Station protected premises or the Central Station Smoke Detector MM CM AM2020/AFP1010 Central Station SLC Loop CMX-1 End-of-Line Resistor CMX-2 (A2143-00) +24 VDC listed Security Notification Appliance...
Page 244 NOTES... 4-30 Security 15088:K 03/21/01...
Page 245: Appendices
2020 1010 PPENDICES Appendices 15088:K 3/21/01...
Page 246 Appendices 15088:K 3/21/01...
Page 247: Appendix Acircuit/Device Ratings
ESIGN ONSIDERATIONS Each of the various types of circuits within an AM2020/AFP1010 Fire Alarm Control System has a specific type of wire that must be used in order to ensure proper operation. In addition, the wire gauge of a particular circuit is contingent on the length of that circuit.
Page 248: Table A-2 Circuit Ratings/Connections
Type of Circuit Devices/Ratings Circuit Ratings Connections TB1: Term. 2 + 3 (Ground) MPS-24A Main Power Supply 120 VAC, 50/60 Hz, 1.8 amps Term 4 + 5 (Neutral) Term 6 + 7 (Hot) Main Supply Circuit TB1: Term. 2 (Ground) MPS-24B Main Power Supply 120 VAC, 50/60 Hz, 1.8 amps Term 3 (Neutral)
Page 249 Local Energy Municipal Box connection. Supervised and power- Refer to Supervising an Uninterruptable 1 Municipal Box Trip device and limited. (3.65 VDC nominal). (10 ohms max. loop resistance. Trip Power Supply in the AM2020/AFP1010 an A77-716 power supervision current = 250 mA. Manual.
Page 250 Table A-2 (Continued) Type of Circuit Devices/Ratings Circuit Ratings Connections FFT-7/FFT-7S Connector P3 Term. 3(+) and 2 (-): 24 VDC (nominal), 1-Vrms max. 800 Hz to 2800 Hz. Seven (7) to XPC-8 Connector P3.2 (+), P3.1(-), and/or P4.2 telephone handsets active at one time max including Master (+) P4.1 (-), P5.2 (+) P5.1(-), P6.2 (+) P6.1(-), Common FFT-7/FFT-7S Fire Fighter’s...
Page 251 50 ohms. Supervised and power-limited. Term. 1, 5 (+); 3,7 (-). A circuit or path directly ISO-X. Ten SLC Loops max per over which multiple AM2020 system, four per AFP1010. signals are transmitted When more than 100 Isolator and received. Modules/Isolator Bases are connected...
Page 252 +/- 12 volts peak-to-peak. Power-limited but See Chapter One, Figures 5.1-2, 5.3- Interface Boards: Employs PRN-4, not supervised. Max distance limited by 1, and 5.3-2 of the AM2020/AFP1010 PRN-5, and Keltron 40-column capacitance of wire (refer to EIA-232E Manual. printers.
Page 253: Appendix B Listed Equipment
B.1 U ECTION NDERWRITER ABORATORIES Equipment listed by Underwriter's Laboratories (UL) Underwriter's Laboratories (UL) Underwriter's Laboratories (UL) as compatible with the AM2020/AFP1010: Underwriter's Laboratories (UL) Underwriter's Laboratories (UL) Notifier A2143-00 47K ELR, 1/2 watt resistor ISO-X Loop Fault Isolator Module AA-30/AA-30E 30-Watt Audio Amplifier L20-300-BX Enclosure;...
Page 254: Factory Mutual
ACTORY UTUAL Equipment suitable for use in Factory Mutual (FM) Systems Factory Mutual (FM) Systems Factory Mutual (FM) Systems as compatible with the AM2020/AFP1010: Factory Mutual (FM) Systems Factory Mutual (FM) Systems SIB-232 Serial Interface Board ABF-1 Annunciator Flush Box...
Page 255: Lloyd's Register
B.3 L ECTION LOYD EGISTER Equipment listed by Lloyd's Register Lloyd's Register Lloyd's Register Lloyd's Register as compatible with the AM2020/AFP1010: Lloyd's Register AA-30 Audio Amplifier AA-120 Audio Amplifier ABM-16AT Annunciator Blank Module ABM-32A Annunciator Module Blank ACM-16AT Annunciator Control Module...
Page 256: United States Coast Guard
B.4 U ECTION NITED TATES OAST UARD Equipment suitable for use in marine and shipyard applications as compatible with the AM2020/AFP1010: AA-120 120-Watt Audio Amplifier XPC-8 Transponder Control Module AA-30 30-Watt Audio Amplifier XPDP Transponder Dress Panel ABM-16AT Annunciator Blank Module...
Page 257 B.5 O ECTION PTIONAL YSTEM OMPONENTS Following is a list of optional equipment which may be used with the Notifier AM2020/AFP1010: Annunciators B601BH Sounder for Flangeless Base ACM-16AT, AEM-16AT, ABM-16AT B710LP Low Profile Flanged Base ACM-32A, AEM-32A, ABM-32A BX-501 Standard Base for Intelligent Detectors...
Page 258: City Of New York
HVAC systems shall not be arranged to automatically restart upon the reset of a smoke detector or control board. g. The AM2020/AFP1010 is intended to be used as a Central Station Protected Premise Unit, it is to be connected to a listed Ademco Model 678UL-F which in turn is connected to a Listed Ademco Model 685 receiver.
Page 259: Programming Sheets & Glossary
2020 1010 ROGRAMMING & HEETS LOSSARY...
Page 260 Programming Sheets & Glossary 15088:K 3/21/01...
Page 261 Programming Sheets & Glossary 15088: K 3/21/01...
Page 262 Programming Sheets & Glossary 15088:K 3/21/01...
Page 263 Programming Sheets & Glossary 15088: K 3/21/01...
Page 264: Glossary Of Terms And Abbreviations
APS-6R - Auxiliary Power Supply. Used to supply filtered, non-resettable power to compatible devices. Central Station - Main AM2020/AFP1010 panel and any associated annunciators and printers. Control-by-Event (CBE) Programming - A method of providing a variety of output responses based on various initiating conditions (events).
Page 265 Point - The occupation of a system memory address by an addressable SLC Loop device, software zone or annunciator point. Protected Premises Unit - A remote AM2020/AFP1010 panel located inside the protected premises and report- ing back to the central station via a NIB-96.
Page 266 Tracking - Attribute of an input device which prevents the latching of active (i.e. alarm, supervisory) states. Upload - To make a copy of the AM2020/AFP1010 system configuration program data and store it in a file on an IBM compatible PC (personal computer).
Page 267: Limited Warranty
For products not under NOTIFIER manufacturing date-stamp control, the warranty ® is eighteen (18) months from date of original purchase by NOTIFIER 's distributor unless the installation instructions or catalog sets forth a shorter period, in which case the shorter period shall apply. This warranty is void if the product is altered, ®...
Page 268 World Headquarters One Fire-Lite Place, Northford, CT 06472-1653 USA 203-484-7161 • Fax 203-484-7118 Programming Sheets & Glossary 15088:K 3/21/01 G-10 www.notifier.com...

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