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FIR2024-0056+Fire_Alarm_Equipment_Specification_Sheets+7.8.2024_11.31.15_AM+4361841
RECEIVED FIR2024-0056 Jul 08 2024 CITY OF EDMONDS DEVELOPMENT SERVICES AFC-1000 DEPARTMENT Fire Alarm Installation Manual P POTTER ® The Symbol of Protection Potter Electric Signal Company, LLC St. Louis, MO Customer Service: (866) 240-1870 • Technical Support: (866) 956-1211 • Fax: (314) 595-6999 For listing information visit our website www.pottersignal.com Document 5403649—Rev. F 12/20 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 1. Installation Wiring Documents 120VAC 50Hz-60Hz 240VAC 50Hz-60Hz Connect to separate unswitched AC circuit WIN 0 0 01 ' I[011 • IIn] I ,�• , IIMI ■ = - aoo ■��aoo 000« E • • •a : 0 _- 00000000o m-0000000000000000000000 TO PAD100 SLC DEVICES TO P-LINK DEVICES Battery connection (non -power limited). Use two(2) 12V batteries connected in series. DWG #641-1 Figure 1. AFC-1000 Addressable Fire Panel Wiring Diagram Type of Circuit Voltage Type Power Type AC Connection High Voltage Non -Power Limited Battery Connection Low Voltage Non -Power Limited Trouble Relay High Voltage Non -Power Limited Supervisory Relay High Voltage Non -Power Limited Alarm Relay High Voltage Non -Power Limited I/O Circuits Low Voltage Power Limited Notification Device Circuits (NACs) Low Voltage Power Limited P-Link RS-485 Connections Low Voltage Power Limited Signaling Line Circuit Low Voltage Power Limited Phone Line — DACT High Voltage Power Limited OA AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Main Supply Circuit The AC terminals are located in the upper left hand portion of the main board. The main board supervises the main AC power and provides indication that the AC power is absent. 120VAC 50/60 Hz 240VAC 50/60 Hz Connect to separate Unswitched AC circuit BI IW 1 G ■ Figure 2. Main Supply Circuit Black White Ground DWG #593-6 The terminals are rated at 120 VAC/240 VAC 50/60 Hertz and are marked so accordingly on the board. The earth ground connection is marked as "G" and is the furthest connection from the line voltage connection. The AC input power ratings: Maximum of 5A at the nominal 120 VAC rating. Maximum of 3A at the nominal 240 VAC rating. Rechargeable Battery Circuit The battery charging circuit is provided on the main panel in the lower left portion of the board. Terminal connections are provided to connect wire leads for battery connection. The battery must be a recognized or listed sealed lead acid battery or equivalent. The battery charging voltage is approximately 27.3 VDC and the circuit is supervised. The battery circuit is protected with a non -replaceable 7 amp poly switch located on the main circuit board. The maximum battery charging circuit is 1.0 amp DC. The battery circuit is rated for 8 to 55 AH batteries and the cabinet will house up to two 18 AH batteries. The batteries will operate the panel for at least 24 hours and 5 minutes of alarm. In order to determine the minimum size batteries for standby and alarm times desired, the installer must complete a battery calculation work sheet in order to determine the minimum battery size for a particular application. For reference, the battery calculation work sheet is attached as Appendix A. Complete standby battery calculations must be completed to ensure adequate battery sizes are provided. AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 el ;tions DWG #593-5 Figure 3. Battery Circuit Connections Separation of Circuits - Power Limited, Non -Power Limited, High Voltage Wiring The main AC power connection is considered high -voltage and non -power limited. The phone line connections to the DACT are high -voltage — power limited. Battery conductors, and the alarm, supervisory, and trouble relays are non - power limited. All remaining circuits are low -voltage, power limited connections. Proper separation must be maintained between the circuits listed above. All separations in the different wiring must be maintained by at least 0.25 inches and the wire insulation must be for the higher voltage. In the panel there are sufficient knock outs located around the periphery of the cabinet to allow the installer to maintain power limited and non -power limited connections. The main AC power connection should be made on the left side or top left of the cabinet. The DACT wiring connections should be made along the top right side of the cabinet. Notification Appliance Circuits (NACs) The panels are equipped with six NAC circuits and each are rated for a continuous 3 amps at 24 VDC. The outputs are supervised and regulated. The NACs reverse polarity upon activation and the board and illustrations are marked accordingly. The panels can be programmable to allow for addition of a CA-6500 Class -A Expander. This expander allows for Class A operation of the NACs. Each Class A circuit is rated for a continuous 3 amps at 24 VDC. The outputs are supervised and regulated. NAC circuits are power limited and the type of output is selectable. The NACs may be configured for strobe synchronization with AMSECO, Wheelock, Gentex, or System Sensor strobe devices as shown compatible in this document and the installation instructions. The maximum impedance is a function of the load being applied to the circuit. In order to calculate the maximum impedance as follows: (Alarm Current of Notification Appliances) X (Wire Resistance) < 3 volts. The NAC circuits may be configured for Class A or Class B. 4 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 The panel has ground fault detection on the NAC circuits. The impedance to ground for ground fault detection is 0 ohms. I►JII0JIOI o❑I❑o I❑o INIMI❑O I❑o I o❑IMI1 NAC 1� NAC2 NAC3 NAC4 + NAC5+ _NAC 6+ Notification Appliance 5.1 k EOL Potter Part #3005013 DWG #602-4 Figure 4. Class B NAC Wiring T T O O O O O O O O O O NAC NAG NAG NAG NAG NAG Ls Ls O O O O O O O O O O I 1 NAC 11 t NAC 2 NAC 3 NAC 4 NAC 5 NAC 6 + + + + + I I I I Notification I Applianc�l I I I I I I I DWG #602-5 Figure 5. Class A NAC Wiring Requires CA-6500 The end of line resistor is a 5.1K ohm resistor. The resistor assembly has been evaluated in past projects and is a standard in the Potter panel product line. The Potter part number for the listed end of line assembly is 3005013 EOL Resistor Assembly. 5 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 I/O Circuits The panels are equipped with four I/O circuits. The I/O circuits can be configured as either an input or an output. The I/O circuits can be used in Class B mode only. I/O Circuit as Inputs As inputs, the I/O circuits are used as a dry contact monitoring inputs, and are power limited and supervised. Maximum wiring resistance = 100 ohms. Maximum wiring capacitance = 1 uE Maximum wire length = 10,000 feet. Maximum IDC voltage = 24 VDC Maximum IDC current = 15 ma The circuit can be configured for the same selection of contact input functions as the SLC MCM and SCM modules. I/O Circuit as Outputs (NAC) As outputs, each of the I/O circuits is rated for 1 amp continuous current at 24 VDC. The outputs are supervised and regulated. The circuits reverse polarity upon activation and the board and illustrations are marked accordingly. The circuit is power limited and the type of output is selectable. I/O circuits may be configured for strobe synchronization with AMSECO, Wheelock, Gentex, or System Sensor strobe devices as shown compatible in this document and the installation instructions. The maximum impedance is a function of the load being applied to the circuit. In order to calculate the maximum impedance as follows (Alarm Current of Notification Appliances) X (Wire Resistance) < 3 volts. The panels have ground fault detection on the I/O circuits. The impedance to ground for ground fault detection is 0 ohms. Notifical Appliar Potter Part #3005013 5.1 k EOL Potter Part #3005013 Figure 6. I/O Circuits Shown as Class B NAC / Dry Contact Input DWG #602-7 The end of line resistor is a 5.1K ohm resistor. The resistor assembly has been evaluated in past projects and is a standard in the Potter panel product line. The Potter part number for the listed end of line assembly is 3005013 EOL Resistor Assembly. AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Signaling Line Circuit (SLC) The panels are equipped with one built-in SLC loop supporting a maximum of 127 devices. Up to 9 additional SLC loops are supported by adding the PAD 100-SLCE or the SLCE-127 loop expander modules. The PAD 100-SLCE supports the PAD protocol and the SLCE-127 supports the Nohmi protocol. The addressable points may be any combination of smoke sensors, heat detectors, input modules or output modules. The SLC provides power and communication to each of the sensors and modules connected. The SLC is fully supervised in that the communication signal is sent and must be received from each device. The entire loop is polled approximately every 4 seconds. The voltage range for the SLC is 22-24 VDC. The power is a constant regulated connection with a maximum line resistance of 50 ohms. The SLC has a maximum loop capacitance of 0.5 micro -farads. The maximum SLCE-127 fully loaded loop current is 56.055 mA. The maximum PAD100-SLCE fully loaded loop current is 90.61 mA. The panels have ground fault detection on the SLC circuits and addressable devices. The impedance to ground for ground fault detection is 0 ohms. The SLC may be configured and installed as a Class A, Class X or Class B. If the Nohmi protocol SCI short circuit isolators are installed, a total of 8 devices must be deducted from the total number of devices for each isolator installed. All SLC wiring is low voltage and power limited. SLC Address Programming Addresses for all PAD protocol devices are assigned via a dipswitch on the device. Addresses for the Nohmi protocol devices are assigned by using the hand-held programmer (part # FZAW004 -P/3610053). SLC Class X Wiring For the PAD protocol, Class X requires a PAD 100-IB to be installed for each sensor and/or PAD 100-IM to be installed on each side of each module. The maximum wiring resistance between a PAD 100-IB/PAD 100-IM and another PAD100-IB/PAD100-IM shall be less than 10 ohms and the total resistance must be below 50 ohms. The maximum wiring resistance shall be calculated based on 0.1 ohm per PAD 100-IB/PAD 100-IM. For the Nohmi protocol, Class X requires one AIB to be installed for each sensor and/or SCI to be installed on each side of each module. The maximum wiring resistance between an AIB/SCI shall be less than 10 ohms and the total resistance must be below 50 ohms. The maximum wiring resistance shall be calculated based on 0.1 ohm per AIB/ SCI. Note: Class X requires a close nipple or conduit connection to every module or sensor for both PAD and Nohmi protocols. AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 E Figure 7. PAD Protocol Class X Showing PAD100-IMs Installed .0 Loop ion Module C Loop ion Module C Loop ion Module .0 Loop ion Module DWG #641-2 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 iit a 46! L G ® G G ° G + ® •Nf AFC Series ® ' SLC Loop Class A� Wiring Diagram Co o G Figure 8. PAD Protocol Example of SLC as Class A Figure 9. PAD Protocol Example of SLC as Class B DWG #641-3 DWG #641-4 9 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 III • I'Ir ��� �•� 1 wwl®®®® 1uA ®® wwl®®®® = • • • sd 0 SLCE Loop Class X 0 0 0 0 0 0 00 00 00 00 2a+ 00 00 O s-2 5+2 5-1 5+1 csgnei p O 2a s- s+ csynei.... O 5-2 5+2 5-1 5+1 nevgnei p o '� _.,�®..,.�,� o o ,� ..��, o o 0 0 0 0 0 0 0 0 0 0 0 0 DWG#610-3 0 6.1 0 0 S�I o Figure 10. Nohmi Protocol Example of SLC Wired Class X j 11 u 11 II 11 II 11 11 1 �,. 11�1 ©mv I 111 m�mmnwum 1 ©mm®mm 111 I 11�1 mm I 0 0 0 0 0 00 00 o� 0 00 10 00 0 0 0 DWG #610-2 Figure 11. Nohmi Protocol Example of SLC Wired Class A 10 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 For Class B, installation of the CA-6500 is not required. SLCE Loop (Class B) Terminal Connections I I u Figure 12. Nohmi Protocol Example of SLC as Class B P-Link Expansion Bus Circuits DWG #610-1 All expansion devices are supervised via the RS-485 connection. Wiring is fully supervised and power limited. Any connection to ground of 0 ohms will be annunciated as a ground fault. P-Link Current = 1 Amp P-Link Voltage = 20.0 VDC - 27.3 VDC Maximum wire length = 6,500 feet. Maximum wire resistance = Maximum wiring resistance is based on load. Calculate using the following equation (Total P-Link Alarm Current) x (Wire Resistance) < 6 volts. The worst case P-Link current draw cannot exceed the 1 amp. P-Link wiring gauges and lengths are calculated using the worst -case current draw values from the table below. The worst case current draw numbers are used only for wiring calculations, refer to the battery calculation worksheet for normal standby and alarm currents. P-Link Accessory Worst Case current draw (ma) PAD 100-SLCE (PAD Protocol) 200 SLCE-127 (Nohmi Protocol) 200 PSN-1000/PSN-1000(E) 10 RA-6075R 25 RA-6500R / RA-6500F 25 UD-1000/UD-2000 25 LED-16/LED-16F 25 DRV-50 25 RLY-5 35 FIB-1000 30 FCB-1000 25 SPG-1000 40 MC-1000 10 IDC-6 20 NCE-1000 50 NCF-1000 195 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 To the next device Figure 13. P-Link Class B Wiring Example OO O 0 Connectioni + m P-LINK 1 P-LINK 2 + Q + A B - + A B O O O O + CA-6500 + + P-LINK 1 P-LIN 2 Connection + Expansion - + A B - A B Device DWG #602-12 Figure 14. P-Link Class A Wiring Example Requires CA-6500 0 m Q 0 O Expansion Device The panels can be programmed to support the following P-Link devices: 12 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 PAD100-SLCE/SLCE-127 The panels can be programmed to support up to 9 PAD100-SLCE (PAD protocol) and/or SLCE-127 (Nohmi protocol) loop expanders. The expansion card provides an additional SLC loop, supporting up to 127 addressable points. The expansion cards support both Class B and Class A wiring. Remote Annunciator/Keypad Circuits (RA-6500R, RA-6500F, RA-6075R) A maximum of 31 annunciators in any combination may be connected to the main fire control panel. The RA- 650OR and RA-6500F provide a 4x40 character LCD display, along with standard function and numeric keys. The RA-6075R provides a 2x16 character LCD, along with standard function and numeric keys. UD-1000/UD-2000 The panels can be programmed to support the UD-1000/UD-2000 digital alarm communicator transmitter (DACT). The DACT may be enabled, disabled or bypassed depending on the mode of operation. When the DACT is disabled, the panels are not capable of transmitting any alarms off premises through the DACT. The DACT provides for up to two phone lines for communication to a monitoring station. The DACT communicates using the SIA-DCS or Ademco Contact ID protocols. When enabled, the DACT automatically monitors each phone line or voltage and has the ability to seize the line and connect with a remote receiver. Once the communication is complete, the DACT will hang up the phone line. The UD-1000 is provided with an RJ-I I jack for each phone line. The UD-2000 is provided with terminal blocks for each phone line connection. In order for the DACT to work properly, it must be installed on a plain old telephone service (POTS) or equivalent as deemed by the authority having jurisdiction. The DACT must be installed before any other equipment to ensure it can seize the line and disconnect any other lines. Phone lines are high voltage and should be run in a separate conduit from other circuits. The wire conductors connecting the DACT to the phone system should be 26 AWG or larger. LED-16/LED-16F (LED Annunciator) The panels can be programmed to support up to 31 LED- 16s. Each LED- 16/LED-16F can display alarm/ supervisory/trouble conditions for up to 16 zones. Each LED is assigned to a zone, when that zone becomes active, the LED will illuminate. Five (5) non -programmable system LEDs are also provided, which annunciate the overall system condition (Power, Earth, Silenced, Alarm, Supervisory & Trouble). DRV 50 (LED Driver) The panels can be programmed to support up to 31 DRV-50 modules. The DRV-50 has 50 LED outputs that can be individually mapped to any zone. The DRV-50 also has four (4) programmable supervised dry contact inputs, and five (5) non -programmable system LED outputs, which annunciate the overall system condition (Power, Earth, Silenced, Alarm, Supervisory, & Troubles). RLY 5 (Relay Board) The panels can be programmed to support up to 31 RLY-5 modules. The RLY-5 provides 5 Form-C relay outputs which can be individually mapped to any zone. The Relays have a contact rating of 24VDC / 3.OA, 125VAC / 3A, and Power Factor of 1.0. These outputs are non -power limited and not supervised. Note: If the power supply connected to the relays is power -limited, then the outputs are power limited. FCB-1000 (Fire Communications Bridge) The panels support one FCB-1000. The FCB-1000 provides a remotely -located IP connection into the panel. All IP reporting can be designated to pass through the FCB-1000 instead of through the on -board internet connection. FIB-1000 (Fiber Interface Bridge) 13 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 The panels support up to 31 FIB- 1000s. The FIB-1000 can be used to convert the standard 4 wire P-Link bus to/ from fiber optic cable. The FIB-1000 uses multi -mode fiber, and is capable of Class A operation. SPG-1000 (Serial/Parallel Gateway) The panels support up to 31 SPG-1000 modules. The SPG-1000 can be used to drive a serial and/or parallel printer. MC-1000 (Multi -Connect) The panels support up to 31 MC-1000 modules. The MC-1000 allows multiple AFC series panels to report to the central station through a shared phone line or Internet connection. PSN-1000/E (Power Supply Expander) The panels can be programmed to support up to 31 PSN-1000/PSN-1000(E) Power Expanders. Each power expander provides 6 NAC circuits (3A max), and 2 dry contact input circuits. The PSN-1000/PSN-1000(E) reconditions/repeats the P-Link bus that provides additional distance and power. IDC-6 (Initiating Device Circuit) The panel supports up to 31 IDC-6 modules. Each IDC-6 provides 6 additional conventional Class B inputs or 3 Class A inputs. NCE-1000 (Network Card Ethernet) The panel supports up to 31 NCE-1000 and 200 per system. It is used to network the fire alarm panels using CATS Ethernet cable. It is fully supervised and is capable of Class B and Class A operation. NCF-1000 (Network Card Fiber) The panel supports up to 31 NCF-1000 and 200 per system. It is used to network the fire alarm panels using fiber optic cable. The NCF-1000 allows the user to install SFP (small form -factor pluggable) modules to utilize either single mode or multi -mode fiber. It is fully supervised and is capable of both Class B and Class A operation. 14 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Releasing Device Circuit The releasing circuit is fully supervised and power limited. The releasing device circuit is a NAC that is programmed to control a releasing device such as a solenoid or squib. When the control panel is programmed for releasing, additional features are allowed specific to releasing. A PAD 100-NAC (NAC) notification appliance circuit may be connected to a releasing device as well and operate as a releasing circuit. When the NAC is used for releasing, it must have a regulated power supply that has a battery back-up equal to that of the panel or greater. The output is a constant 24 VDC, regulated output. When connected to a releasing device, the circuit is a special application circuit and listed with the devices as outlined in Section 6 of this document. Note: EOL Device shall be installed in the same electrical enclosure as the releasing device. Device Figure 15. NAC Releasing Circuit Wiring with FOLD Assembly The maximum current is 3 amps. The maximum line impedance is calculated using the following formula. Rmax (ohm) = (24V-Vmin-0.95V)/I total Vmin is the lowest voltage operation of the connected devices. I total is the total current of the connected devices. When a NAC is used as a releasing circuit, the End of Line Diode (EOLD) assembly must be installed. The EOLD is Potter part number 3005012 and must be installed in accordance with the installation manual. According to UL 10th Edition, the disabling of a releasing circuit shall be accomplished by a physical switch activated without the use of the software. When a releasing circuit is disabled a supervisory signal will be annunciated at the FACP. 15 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Municipal Box Connection When programmed as a municipal box connection, the circuit power is limited, supervised for open and short circuit conditions, and provides a local energy connection. '7911MINININININ1191 1/0 1 1/O 246 M 1/0 3 1164 End of line device 5.1kohm 1/2W Part #3005012 Municipal Box Notes: 10 circuits andfor NAC Circuits can be used as Municipal box connection The EOL device shall be installed in the same electrical enclosure as the Municipal Box DWG #602-9 Figure 16. Municipal Box Wiring Example Trip current = NAC1-NAC6 = 3 Amps, I/01-I/04 = 1 Amp Max Voltage = 24 VDC The panel has ground fault detection on municipal box connection circuits. The impedance to ground for ground fault detection is 0 ohms. Reverse Polarity Communication Line Circuit O❑I❑O IOINICI❑O 1/0 1 1/02 1/03 1/04 Keltron TTM-RPS Note: 10 circuit must be configured as a Reverse Polarity circuit This Connection is limited to Same room installation. This connection shall be limited to 20 feet and enclosed in conduit or equivalently protected DWG #602-8 against mechanical injury. Figure 17. Example of Reverse Polarity I/O Circuit Wiring Only the I/O circuits on the panel can be programmed as reverse polarity circuits. The short circuit current is rated at 24 VDC and 14 mA maximum. When configured for reverse polarity, the panel will indicate alarm and trouble events to a remote site. Alarms will override trouble conditions. The panels have ground fault detection on reverse polarity circuits. The impedance to ground for ground fault detection is 0 ohms. The connection between the FACP and the remote device shall be limited to 20 feet and enclosed in conduit or equivalently protected against mechanical injury. 16 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Relay Outputs O O O O O O TROUBLE SUPERVISORY NC COM NO NC COM NO ALARM NC COM NO DWG #593-26 Figure 18. Panel's Dedicated Relay Outputs The panels have three dedicated common relays. The dedicated trouble relay is a failsafe trouble relay that changes position anytime a trouble condition occurs. The contact rating is 24VDC / 3.OA, 125VAC / 3A, Power Factor: 1.0. These outputs are non -power limited and not supervised. However, they are power -limited if the power supply to the connected devices is power -limited. General Wiring Information The cabinet has various conduit knockouts located around the cabinet for ease of wire installation. In addition, this method provides a means to separate different types of circuit to reduce electrical interference, transient voltage or voltage ratings. The enclosure requires the use of power limited and non -power limited wiring on the main board as well as within the enclosure. Power limited wiring is to remain separated from non -power limited by a minimum or 0.25 inches and all cabling should be insulated to the higher voltage. When the panel is installed, the National Electrical Code (NEC, NFPA 70) should be followed for the proper installation and separation of power limited and non -power limited circuits. The mixing of power limited and non -power limited should be avoided. Refer to the following figure for suggested wiring routing. 17 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 NON -POWER HIGH VOLTAGE WIRING HIGH VOLTAGE WIRING V Qo POWER LIMITED 0 o ®a a ®a o WIRING 0 ❑ o o� 0 0 0 0 ❑ ❑ 0 0 00 or o 0.� a o ❑ 0 El D o o 00o ;W o�oo ❑ 0 0 0 E�7 C. 0 0 o POWER LIMITED WIRING o 0 Ll v o 0 o O ❑ H ❑ o ❑ O O ❑ ❑ ❑O o o ❑ ® O ElO ® POWER ® ® 0 o O ®®® LIMITED o F.n n o WIRING 96Ahr 12Vok II 11 18AWP UVolt Figure 19. Example of Panel's Wire Routing 7 DWG #641-5 18 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 2.Operation System Type: Auxiliary Central Station (Protected Premises Unit) Proprietary (Protected Premises Unit) Remote Station (Protected Premises Unit) Local System Service: Automatic Fire Alarm Manual Fire Alarm Sprinkler Supervisory Waterflow Alarm Releasing Service for Pre -Action, Deluge System Signal: Radio Frequency Digital Alarm Communicator (DAC) March Time Non -Coded Reverse Polarity Other Technologies 3. Functionality The panel utilizes a signaling line circuit for communication to various sensors and modules. The system polls each loop between every 4 to 5 seconds. The system is completely supervised and is designed to comply with UL 864. The control panel uses a proprietary protocol to digitally communication with various sensors and modules to determine the status of each. When the panel response from the sensor or module is within a pre -determined range or status, the control will process the commands accordingly. The control panel user interface requires the use of a key to open the outer door. Advanced features will require an additional user code to be entered using a combination of numbers. The panel is completely programmable through the use of a computer program. Remote programming is detailed later in this section. The control panel includes three relay contacts for additional monitoring or building functions. The first relay is a failsafe, dedicated Trouble Relay. This relay changes state during any trouble condition. This relay is not programmable and no additional mapping to this relay can take place. The second relay is a dedicated Supervisory Relay. This relay changes state during any supervisory condition. This relay is not programmable and no additional mapping to this relay can take place. The third relay is a dedicated Alarm Relay. This relay changes state during any alarm condition. This relay is not programmable and no additional mapping to this relay can take place. The AFC-1000 has six NACs and four I/O circuits. Each NAC is rated for 3 amps at 24 VDC. Each I/O circuit is configurable as a NAC rated for 1 amp at 24 VDC, or as a dry contact input. The NACs may be operated in Class A with the addition of a CA-6500 Class A Expander. NACs may be programmed to provide steady (constant) voltage, a cadence pattern, releasing service or synchronized strobes. Full synchronization is maintained system -wide. The NACs may be programmed as silenceable or non- silenceable. Anytime a NAC has been silenced, the condition will be indicated by the silenced LED. If a NAC that is programmed as silenceable is silenced and another alarm event mapped to that NAC occurs, the NAC will resound and the silenced LED will extinguish. 19 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 The Low AC report delay period is programmable from 30 minutes up to 30 hours. For UL installations and applications the installer must set the time delay between 30 minutes and 90 minutes. Supervisory Signal Operation — Zones programmed as supervisory zones can be programmed as latching or non - latching. Trouble Signal Operation — Any fault or off normal that would impair the system is annunciated as a trouble condition. The trouble condition is specifically displayed on the LCD display so the trouble can be corrected. When a trouble occurs the buzzer sounds every ten seconds for one second, the trouble LED illuminates and the trouble relay changes state. The panel transfers from AC to battery instantly upon AC failure or brownout. The trouble relay will indicate the low AC condition after the Low AC Report Delay has elapsed. The control panel can utilize an optional digital alarm communicator transmitter, (UD-1000/UD-2000). The UD- 1000/UD-2000 is a two line dialer with the capability to report in the Ademco Contact ID or the Security Industry Association's Digital Communications Standard (SIA-DCS). When equipped with a UD-1000, the status changes of the panel are remotely communicated to a monitoring station. Programming options allow for selecting separate accounts for alarm/trouble/supervisory/test events. When a UD- 1000/UD-2000 is not installed, the panel will operate as a local system. The DACT will provide a daily test to a remote monitoring point daily. The daily test time is programmable. If two phone lines are utilized, the DACT will alternate between lines on each daily call. If multiple accounts are programmed, then multiple daily tests will be conducted alternating on each line. The panels may be equipped with 31 PSN-1000 series intelligent power expanders. The PSN-1000/PSN-1000(E) is a 10 amp notification power supply and P-Link (RS-485) repeater. The power supply connects to the P-Link bus from the control panel and is operated and supervised from the panel. The power supply has six (6) Class B or three (3) Class A power outputs. Each output is regulated and power limited with a 3 Amp maximum rating. In addition, the PSN-1000s have two (2) programmable dry contact inputs. The dry contact inputs are Class B, supervised inputs. The power supply operates on either 120 or 220 VAC power and has a regulated 24 VDC output. In addition, the panel can charge up to 55 AH batteries and will house 18 AH batteries. The power supplies are programmed and controlled through the main control panel P-Link bus. The panel displays any troubles or off normal conditions of the power supply and the events are stored in the panel history buffer. 20 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 120VAC 50Hz-60H2 240VAC 50Hz-60H2 Connect to separate unswitched AC circui Non -power limited relay connection Non -power limited battery connection DWG #608-23 Figure 20. PSN-1000 Wiring Example Link rminals Power limited wiring The panels may be equipped with 9 additional PAD 100-SLCE (PAD Protocol) and/or Nohmi Protocol SLCE-127 boards that utilize a signaling line circuit for communication to various sensors and modules. The system polls each loop between every 4-5 seconds. The PAD 100-SLCE and the SLCE-127 supports a maximum of 127 addressable devices configured in any combination of smoke sensors, heat detectors, input modules or output modules. The PAD100-SLCE and the SLCE-127 outputs are supervised and regulated. Circuits are low voltage and power limited. All wiring must be separated by at least 0.25 inches and the wire insulation must be for the higher voltage. Refer to Figure 19 for suggested wire routing. The PAD 100-SLCE and the SLCE-127 are supplied with a mounting bracket which allows it to be mounted into a compatible fire enclosure. Please refer to the figures shown below: --- DWG #602-16 �602-17 Figure 21. PAD100-SLCE / Nohmi Protocol SLCE-127 Board & Shown Installed in AFC-1000 Cabinet 21 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 When the panels are equipped with a LED- 16/LED-16(F) module, alarm/supervisory/trouble conditions display for up to 16 zones. Blank zone labels are provided for use with the LED- 16s. Zone names/identifiers can be typed or written on the supplied card -stock, and then inserted into the LED- 16/LED-16F as shown below. Labels are inserted here as needed Zone labels may be inserted here 0 0 0 0 SYMN ffic� an�°s®s" r G VLd®W®ham Y OU13LE R 0 ❑ EARTH 0 soLENCE® 0 ALMN TROURE 0 0 0 0 DWG #6084 Figure 22. LED-16/LED-16(F) Module & Board m 0 mCD mm mm DWG #608-5 The LED- 16s are controlled over the 4-wire P-Link connection. The higher current required for the LED outputs can be provided by the panel, or from an auxiliary power source as shown below. The auxiliary power can be any fire listed 24VDC source, and is fully supervised. P-Link from Po rfrom P-Link from control panel auxiliary control panel DWG #608-6 supply Figure 23. Examples of Wiring a LED-16/LED-16(F) Module to Control Panel or Auxiliary Power Supply The panels may be equipped with a DRV-50 (LED Driver) module, which can be individually mapped to any zone. The DRV-50 is controlled over the 4-wire P-Link connection. The DRV-50 mounts in a mounting bracket as shown below. This can then be mounted into any of the compatible fire enclosures, or the AE-2, AE-8 or AE-14 accessory cabinets. Figure 24. DRV-50 Board Showing Mounting Bracket io8a 22 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 The 50 programmable LED outputs are located on connectors P1-P5, each containing 10 LED outputs and two 5VDC outputs. The system LEDs & PZT control outputs are located on connector P6. LEDs are wired as shown below, no external resistor is required. All outputs are power limited. All connections to P1-P6 are limited to same room installation. LED1 LED10 LED+ LED+ TRB SUP ALR SIL EARTH PWR PZT- LED+ Programmable LED System LED and PZT Connectors P1-P5 Connector P6 DWG #608-8 Figure 25. DRV-50 "Pl-P5" and "P6" Connectors The 4 programmable dry -contact inputs are located on connector P7. All input circuits are power limited and use UL listed 5.lk EOL resistor (Potter part #3005013). The inputs can be programmed for any of the contact input functions available for other input circuits available on the panel. Inputs I1-14 are Class B dry contact inputs only. All contact inputs are fully supervised. Ground fault detection impedance is 0 ohms. 5.1k 5.1k 5.1k 5.1k Dry Contact Inputs (P7) P7 Maximum wiring resistance = 100 ohms v Maximum wiring capacitance = 1 uF co Maximum wire length = 10,000 feet NMaximum IDC voltage = 24 VDC _ Maximum IDC current = 5 mA DWG #608-9 Figure 26. DRV-50 Dry Contact Input "P7" Connector The higher current required for the DRV-50 outputs can be provided by the panel, or from an auxiliary power source as shown below. The auxiliary power can be any fire listed 24VDC source, and is fully supervised. Output power must be 16 VDC-33 VDC, and must be power limited. P-Link from control panel Power from P-Link from DWG #608-6 auxiliary control panel supply Figure 27. Examples of Wiring DRV-50 from Control Panel or Auxiliary Power Supply 23 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 The panels may be equipped with a RLY-5 (Relay Board) module, which is controlled over the 4-wire P-Link connection. The RLY-5 mounts in a mounting bracket as shown below. The RLY-5 can be mounted inside the panel cabinet, or the AE-2, AE-8 or AE-14 accessory cabinets. t608-10 Figure 28. RLY-5 Board Showing Mounting Bracket The RLY-5 higher current required for the relay outputs can be provided by the panel, or from an auxiliary power source as shown below. The auxiliary power can be any fire listed 24VDC source, and is fully supervised. Output power must be 16VDC-33VDC, and must be power limited. Relay contacts are rated for 120VAC/24VDC, 3 Amp (resistive). All connections to relay contacts shall be power limited. Not to be used for off -premise signaling. P-Link from control panel Power from P-Link from auxiliary control panel supply DWG #608-6A INC (Normally Closed) C (Common) NO (Normally Open) NFRraY f �10 NC RELAY2 NO NC RELAY3 NO NC RELAY4 NO NC RELAY5 NO Figure 29. RLY-5 Wiring to Control Panel / Auxiliary Power Supply & RLY-5 Normally Open / Normally Closed Contacts DWG #608-10C When the FCB-1000 (Fire Communications Bridge) is added to the panel, a remotely -located IP connection is provided into the panel. The FCB-1000 can be mounted inside the AE-2, AE-8 orAE-14 accessory enclosure. The optional rack -mount kit (FCB-1000RM) includes a standard 19 inch rack -mount enclosure, which can then be installed directly in an equipment rack. Note: The Ethernet/IP connection is limited to same room installation. This connection shall be limited to 20 feet, and enclosed in conduit or equivalently protected against mechanical injury. Figure 30. FCB-1000 Bridge & FCB-1000RM Showing Rack Mount 24 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 When the panels are equipped with the FIB-1000 (Fiber Interface Bridge) optional board, the standard 4 wire P-Link bus may be converted to/from the fiber optic cable. The FIB-1000 can be mounted inside the AE-2, AE-8 or AE-14 accessory enclosure. The optional rack -mount kit (FIB-1000RM) includes a standard 19 inch rack -mount enclosure, which can then be installed directly in an equipment rack. Utilizes multimode 62.5/125 micron fiber optic cable (wave length = 820 nm) Tolerates up to 12 db of signal loss 2 Figure 31. FIB-1000 Bridge & FIB-1000RM Showing Rack Mount An optional SPG-1000 serial/parallel gateway (printer driver) board can be mounted inside the AE-2, AE-8 or AE-14 accessory enclosure. A rack -mount kit (SPG-1000RM) includes a standard 19 inch rack -mount enclosure, which can then be installed directly in an equipment rack. DWG #608-15 Figure 32. SPG-1000 Serial Parallel Gateway Board & Rack Mount DWG #608-16 Note: Serial/Parallel printer connection is limited to same room installation. This connection shall be limited to 20 feet, and enclosed in conduit or equivalently protected against mechanical injury. 25 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 When the AFC series panels are equipped with the MC-1000 (Multi -Connect Module) optional board, up to 63 panels may be interconnected to report to the central station through a shared phone line or Internet connection. DWG #641-6 Figure 33. MC-1000 Multi -Connect Board & MC-1000 Shown Installed in AFC-100 The panel supports up to thirty one (31) IDC-6 modules. The IDC-6 is controlled over the 4 wire P-Link connection. . It can be mounted in the large panel enclosure, the PSN-1000, or either of the AE-2, AE-8 or AE-14 accessory cabinets.. O V 0 0 0 O ° O O 0 0 O a O Figure 34. IDC-6 Initiating Device Circuit Expander and II; "o C-6 Installation The IDC-6 higher current required for the inputs can be provided by the panel, or from an auxiliary power source as shown below. The auxiliary power can be any fire listed 24VDC source, and is fully supervised. IDC-6 operating voltage range is 15VDC-28VDC, and must be power limited. Class A P-Link Class A P-Link Power provbed by panel Class A Power provided by aux supply TO P1 OeNOs 24V Pc From FACP FACP r "Previous d, P-Link Device Figure 35. IDC-6 Class A Wiring 24V PO-10 TO n,1 P-Link DeJ FACP or next de— From FACP or Pre P-Llnk Device 26 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Power from Plink from auxiliary control panel Supply Figure 36. IDC-6 Class B Wiring The NCE-1000 is used to network the fire alarm control panels via CATS Ethernet cable. It is fully supervised and is capable for Class B and Class A operation. The NCE-1000 can be used as a Class A extender which extends the length of the Ethernet connection from 300 feet to 600 feet. The NCE-1000 may be mounted in either the control panel cabinet, the PSN- 1000/E, the AE-2, AE-8 or AE-14. When wiring Class A or B, the connection between the FACP and the module shall be limited to 20 feet and enclosed in conduit or equivalently protected against mechanical injury. A maximum of 31 NCE-1000s can be installed per panel, with a maximum of 200 panels per network. Please refer to installation manual 5406326. Figure 37. NCE-1000 Network Card The NCF-1000 is used to network the fire alarm control panels using fiber optic cable. The NCF-1000 allows the user to install SFP (small form -factor pluggable) modules to utilize either single mode or multi -mode fiber. It is fully supervised and is capable of both Class B and Class A operation. The NCF-1000 may be mounted in either the control panel cabinet, the PSN-1000/E, the AE-2, AE-8 or AE-14. The connection between the FACP and the module shall be limited to 20 feet and enclosed in conduit or equivalently protected against mechanical injury. A maximum of 31 NCF-1000s can be installed per panel with a maximum of 200 panels per network. Please refer to installation manual 5406424. Figure 38. NCF-1000 Network Card Fiber 27 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 The control panel has an interface display for allowing users, technicians and installers the ability to recognize the status and input changes to the control panel. The display consists of three parts — the 160 character LCD display, the keypad and LEDs. The keypad on the control panel is utilized for common user functions and system programming. The common user function buttons the following: ACK — When pressed acknowledges the status change of the panel. Signal Silence — When the button is pressed will silence outputs that are programmed as silenceable. System Reset — When this button is pressed, the system will reset the panel to a normal condition. Once the reset is complete, any off normal status will be displayed. Fire Drill — When programmed, the Fire Drill button will activate the programmed outputs to simulate an actual alarm without creating an alarm event. The display has the following LEDs: Power — A green LED that illuminates any time AC power is present. Alarm — A red LED that flashes any time an input programmed as an alarm device is active and has not been acknowledged. The LED will illuminate steady after all alarm conditions have been acknowledged. Pre -Release — An amber LED that illuminates when a releasing zone is in a Pre -Discharge mode. Release — A red LED that is on steady when a releasing output is active. Earth Fault — An amber LED that flashes any time a ground fault is present on one of the control panel circuits and has not been acknowledged. The LED will illuminate steady after all earth faults have been acknowledged. Supervisory — An amber LED that flashes any time an input programmed as supervisory is active and has not been acknowledged. The LED will illuminate steady after all supervisory conditions have been acknowledged. Signal Silence —An amber LED that will illuminate any time the signal silence is active. Trouble — An amber LED that flashes any time a trouble condition on the system is present and has not been acknowledged. The LED will illuminate steady after all trouble conditions have been acknowledged. The control panel has the following functions: Drift Compensation — The system employs drift compensation as a false alarm preventive measure. The drift compensation is controlled as part of the smoke head and not part of the control panel. Calibrated Smoke Detector Sensitivity Testing — The control panel polls the smoke sensors for the current AD value approximately once every four seconds. Approximately every 4 minutes, the control panel polls the smoke sensors for the dirty value and compares the dirty value of the sensor to the alarm threshold. If the dirty value is 50% of the alarm threshold, a sensor trouble will be annunciated. A technician may also request the status of any sensor in the system through the front panel menu. In addition, a report can be printed that provides the level of sensitivity and the current level. Remote Programming — The control panel is capable of being programmed remotely via the optional UD- I 000/UD- 2000 communicator. The remote modem calls the panel from a remote location and if programmed to answer phone calls it will pick up the call. Before the panel will accept any changes to the configuration data, an on -site user must enable the panel for remote access via the front panel keypad. Positive Alarm Sequence — The control panel is programmable for Positive Alarm Sequence. When a zone is programmed as positive alarm sequence and an automatic sensor is activated, the user has up to 15 seconds to acknowledge the alarm. Failure to acknowledge the alarm will activate the evacuation appliances. If the alarm is acknowledged, the user has up to 180 seconds to reset the system. Failure to reset the system after the acknowledgment timer will result in the evacuation signal being activated. 28 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Alarm Verification — The control panel is programmable to enable alarm verification in compliance with UL 864 and NFPA 72. Zones with smoke sensors programmed as alarm verification when activated will delay the notification circuits from activating for up to 60 seconds. If the smoke sensor is still in the alarm condition after the programmed delay, the evacuation signals will activate. Note: Alarm activation requiring activation of two or more automatic detection devices shall not utilize alarm verification or any other time delay. The control panel maintains the date and time independently of the main or secondary power. The date and time can be changed through the front keypad menu. In addition, daylight savings time may be programmed into the system, the dates of the time change are programmable if this feature is selected. When an appropriate pass code is entered via the key pad into the control panel, the user may disable a device within the system. Any addressable point, NAC or suppression circuit may be disabled. When a device or circuit is disabled, the panel will indicate the off -normal condition. When the device or circuit is enabled, the trouble will clear and the panel will operate in a normal fashion. More than one device or circuit may be disabled at any one time. The circuits may individually be enabled and not affect the others. The control panel controls the alarm threshold of the smoke detectors programmed as part of the system. The alarm threshold is limited to the listed value of the smoke detector. The selectable range of sensitivity is 1.5 percent per foot obscuration to 3.5 percent per foot obscuration. The alarm threshold may be adjusted in the computer software. The control panel may be programmed for Day and Night mode smoke detector alarm threshold. The smoke detectors must be programmed for the day and night mode in addition to the Day/Night mode being enabled. In addition, the programmer must select the days and times for the days and nights. Up to fifty holidays may be programmed for the night mode (more sensitive) setting. The alarm threshold is only programmable for the listed range of the detector. The control panel utilizes a concept of software zones for mapping inputs to outputs. Inputs and outputs are mapped to a single or multiple zones and when an input activates, all of the outputs within the same zone are activated. The panel also supports Cross Zoning, Counting Zones or a combination of a Cross/Count Zone. Cross zoning requires two inputs from separate zones in order to activate an output. A counting zone requires two inputs within the same zone to activate an output. The combination of a Cross/Counting Zone is two inputs in different zone or two inputs within the same zone to activate an output. 4. Programming Options The control panel is configured using a PC based programming tool. The panel stores the site specific configuration data in non-volatile memory. NOTICE TO USERS, INSTALLERS, AUTHORITIES HAVING JURISDICTION, AND OTHER INVOLVED PARTIES This product incorporates field -programmable software. In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited to specific values or not used at all as indicated below. Topic Feature or Permitted Possible Settings Setting(s) Comment Option in UL Permitted (Y/N) in UL864? Misc Idle LCD Message Y Yes/No All Settings Allowed Misc Display Events Y Initial Event Initial Event Auto display of Newest Event first event Misc SLC Blink Y Normal/Slow/Off All Settings Allowed Misc Alarm Verification Y 0-60 Sec All Settings Allowed Time Misc Waterflow Delay Y 0-255 Sec All Settings Allowed 29 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Topic Feature or Permitted Possible Settings Setting(s) Comment Option in UL Permitted (Y/N) in UL864? Misc AC Report Delay Y 30 Minutes to 30 Hours 1-3 Hours For UL864 use 1-3 Hr Misc DH Low AC Y No delay, 15 Sec, 1 minute, All Settings Allowed Dropout Delay 5 minute Misc Autotest Time Y Time of Day All Settings Allowed Misc Autotest Interval Y 1-24 Hours All Settings Allowed Misc Strobes Active Y Yes/No All Settings Allowed When Silenced Misc 50 Hz AC Y Yes/No All Settings Allowed Misc CO Tone on Y Yes/No All Settings Allowed Annunciators Misc Low Temp Events Y Yes/No All Settings Allowed Are Supervised Misc Disable 24 hours Y Yes/No All Settings Allowed PZT Resound Misc Display AM/PM Y AM/PM, 24 Hour All Settings Allowed Misc Synchronize to Y Yes/No All Settings Allowed Network Time Misc SNTP Server Y North-America.Pool.NTP.org All Settings Allowed Misc Time Zone Y 24 Time Zone Selections All Settings Allowed Misc DST Enabled Y Yes/No All Settings Allowed Misc DST Start Y Month/Day All Settings Allowed Misc DST End Y Month/Day All Settings Allowed Zone Zone Style Y Alarm All Settings Allowed Supervisory PAS Auxiliary Releasing Fire Drill Waterflow Alert System Alarm System Supervisory System Trouble CO Alarm CO Supervisory Zone Alarm Count Y 1-10 All Settings Allowed Zone Silenceable Y Yes/No All Settings Allowed Zone Silence Inhibit Y Yes/No All Settings Allowed Zone Auto Silence Y Yes/No All Settings Allowed Zone Auto Unsilence Y Yes/No All Settings Allowed Zone Restore Delay Y 0-300 Sec Full range allowed Zone Latching Y Yes/No All Settings Allowed Zone Local Y Yes/No All Settings Allowed 30 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Topic Feature or Permitted Possible Settings Setting(s) Comment Option in UL Permitted (Y/N) in UL864? Zone Output Pattern Y Constant All Settings Allowed ANSI Temp 3 March Code Double Time ANSI Temp 4 Zone Day Sensitivity Y 1.1%-3.5% Full range allowed Within listed range of sensor Zone Night Sensitivity Y 1.1 %-3.5% Full range allowed Within listed range of sensor Zone Heat Setting Y 135F-185F Full range allowed Within listed range of sensor Zone Low Temp Heat Y OF-135F Full range allowed Sens Zone Enable PAD100 Y Yes/No All Settings Allowed ROR Zone Combo ROR/ Y 135F-174F All Settings Allowed Within listed range Fixed Setting of sensor SLC Point Type Y Photo Detector (PD) All Settings Allowed Specifies use/type PAD Protocol Fixed Heat Detector (HD) of SLC device for CO Detector (CO) PAD Protocol Combination Photo/Heat Detector (PHD) Duct Detector (DUCT) Duct Detector w/Relay (DUCTR) Duct Detector Remote Test Switch (DRTS) Duct Remote LED Indicator (MS -RA) Duct LED w/Test Switch (MS-KA/P/R) Mini Input Module (MIM) Speaker Module (SM) Pull Station Module Single Action (PSSA) Pull Station Module Dual Action (PSDA) Relay Module (RM) Notification Appliance Circuit (NAC) Twin Relay & Twin Input (TRTI) Double Input Module (DIM) One Relay & One Input (OROI) Zone Module (ZM) Remote LED (LED) Remote LED w/Key (LEDK) Single Input Module (SIM) 31 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Topic Feature or Permitted Possible Settings Setting(s) Comment Option in UL Permitted (Y/N) in UL864? SLC Point Function Y Sensor Only All Settings Allowed Specifies use/type PAD Protocol Sensor with Sound Base (AB) of SLC device for Sensor with Relay Base (RB) PAD Protocol Sensor with Low Frequency Sounder Base (LFSB) Sensor with Speaker Base (SPKB) Sensor with Duct Relay Addr Relay General Purpose Addr Relay Zone Trouble Addr Relay HVAC Shutdown Addr Relay Reset Followers Addr NAC General Purpose Addr NAC Release Solenoid Addr Zone Module General Purpose Output Zone Trouble Output SLC Point Function Y Photo Detector (PSA) All Settings Allowed Specifies use/type Nohmi Protocol Photo Duct Detector (DSA) of SLC device for Photo/Heat Detector (PSHA) Nohmi Protocol Fixed Heat Detector (FHA) Combination Fixed / ROR Heat Detector (RHA) Conv. Zone Module (CIZM) Mini Contact Mod (MCM) Single Contact Mod (SCM) Dual Contact Mod (DCM) Mon. Output Mod (MOM) Twin Relay Mod (TRM) Sounder Base (ASB) Relay Base (ARB) SLC Point Dry Contact Input Y Pull Station All Settings Allowcd Applies to all Functions Water Flow dry -contact input PAD and Nohmi Supervisory devices & circuits Protocol Tamper Fire Drill Disable Inputs, Trouble Monitor Disable Outputs, Aux and Disable Inputs Abort / Outputs cannot Release Follower be assigned to a Reset Releasing Zone to Silence comply with UL Fire Alarm 10th Edition. Disable Inputs Disable Outputs Disable Inputs and Outputs Lamp Test CO Alarm CO Supervisory HVAC Reset Medical Alert Tornado Alert Process Alert Security Alert SLC Point Alarm Verif Y I Yes/No All Settings Allowed 32 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Topic Feature or Permitted Possible Settings Setting(s) Comment Option in UL Permitted (Y/N) in UL864? SLC Point Supervisory Y Yes/No All Settings Allowed NACs Function Y General Purpose All Settings Allowed Specifies use of AMSECO Sync NAC circuit(s) Gentex Sync Gentex Sync with T4 System Sensor Sync Wheelock Sync Constant Output Resettable Output Door Holder Output ANSII Output City Tie Output Release Solenoid Output Sounder Base Power Day/Night Smoke Sensitivity Y Full listed range of smoke All Settings Allowed Up to 50 holidays detector where day mode is not active. DACT Daily Test Call Y Any time of day All Settings Allowed Alternates between line 1 and 2 if line 2 is enabled. E-Mail Email Status N Alarms, Troubles, Supervisory, Reports Test, History & Status Reports IP-Reporting IP Based Central Y Alarm, Supervisory, Trouble & All Settings Allowed Station Reporting Test Reports Network Programming Programming of a networks system uses all the above options. In addition, reference points are used to associate points between panels. Panels are also assigned to buildings allowing interactions between buildings via these reference points. Please refer to 8830161 Network Programming Guide and www.pottersignal.com for more information. 5. Testing/Maintenance The control panel has one fuse on the board for the AC power over current protection. The AC fuse is rated at 8A 250VAC Time -Lag and screened onto the main board as F 1. The batteries are to be replaced at least once every four years. The batteries are required to be UL recognized batteries with a date of manufacture permanently marked on the battery. The battery is to be tested at least annually and if the battery is showing signs of failure, it is to be replaced. The battery is to remain in the cabinet with nothing on or around the batteries. Only properly sized sealed lead acid batteries are to be used with the control panel. Use of another battery or not providing the proper clearance may result in a fire or an explosions. The control panel is required to be installed in accordance with local and state building codes and NFPA 72 (National Fire Alarm Code). The control panel and related system is required to be inspected and tested in accordance with NFPA 72. 33 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 6. Compatibilities NAC Appliances Please refer to Potter document 5403592 NAC Compatibility Document. Two Wire Smoke Detectors None listed with the control panel, all devices listed the PAD 100-ZM or CIZM, please refer to the PAD 100-ZM or CIZM Installation Sheet. Note: PAD 100-ZM and CIZM modules require a 24 VDC power source. When using the CIZM, the power source must be 19.0 VDC — 26.4 VDC. When using the PAD 100-ZM, the power source must be 19.6 VDC — 28 VDC. Power source must be power limited, and UL1481 listed. Releasing Compatibility Refer to Document #5403625. Network Compatibility The IPA series, AFC/ARC series and the PFC-4064 can be interconnected via the NCE and NCF network cards. SLC Devices Nohmi Protocol PAD Protocol PSA — Photoelectric Smoke Detector PAD 100/PAD200-PD — Photo Detector PSHA — Photoelectric/Heat Smoke Detector PAD 100-HD — Fixed Heat Detector FHA — Fixed Temperature Heat Detector PAD 100-CD — CO Detector RHA — Rate of Rise/fixed Temperature Heat Detector PAD 100/PAD200-PHD — Combination Photo/Heat Detector DSA — Photo Duct Detector PAD 100/PAD200-DUCT — Duct Detector APS-SA/DA — Addressable Pull Station (Single Action / Dual Action) PAD 100/PAD200-DUCTR — Duct Detector w/Relay AIB — Addressable Isolator Base PAD 100/PAD200-DD — Duct Detector Sensor ASB —Addressable Sounder Base PAD 100-DRTS — Duct Detector Remote Test Switch ARB — Addressable Relay Base MS -RA — DUCT Remote LED Indicator MCM — Miniature Contact Module MS-KA/P/R — DUCT LED w/Test Switch SCM-4 — Single Contact Module PAD 100-MIM — Mini Input Module DCM-4 — Dual Contact Module PAD 100-SM — Speaker Module TRM-4 — Twin Relay Module PAD 100-PSSA —Pull Station Module Single Action MOM-4 — Monitored Output Module PAD 100-PSDA — Pull Station Module Dual Action CIZM-4 — Conventional Input Zone Module PAD 100-SB — Addressable Sounder Base SCI — Short Circuit Isolator PAD 100-RB —Addressable Relay Base PAD 100-IB — Addressable Isolator Base PAD 100-IM — Isolator Module PAD 100-RM — Relay Module PAD 100-NAC — Notification Appliance Circuit PAD 100-TRTI — Twin Relay -Twin Input PAD 100-DIM — Double Input Module PAD 100-OROI — One Relay -One Input PAD 100-ZM — Zone Module PAD 100-LED — Remote LED PAD 100-LEDK — Remote LED w/Key PAD 100-SIM — Single Input Module PAD 100-LFSB - Low Frequency Sounder Base PAD 100-SPKB - Speaker Base 34 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 DACUDACR Compatibility UD-1000/UD-2000 DACT The DACT transmits in Ademco Contact ID and Security Industries Association's Digital Communication Standards (SIA-DCS). Each account may be configured for Contact ID or SIA-DCS independent of the other accounts setting. Therefore some account(s) could be Contact ID and others could be SIA-DCS or vice versa. Similarly, accounts could be the same reporting type. Compatible Receivers Silent Knight Model 9500/9800 (Ademco MX8000) Sur -Gard System III SG-DRL3 (POTS Line Card) IP Reporting Compatibility Sur -Gard System III SG-DRL3-IPCA (Network Line Card) Notes: Where the fire alarm transmitter is sharing on -premises communications equipment, the shared equipment shall be Listed. Secondary power shall be provided for all equipment necessary for the transmission and reception of alarm, supervisory and trouble signals at the protected premises. Secondary power shall be provided for all equipment necessary for the transmission and reception of alarm, supervisory and trouble signals at the supervising station. The connection between the FACP and on -premises communications equipment shall be limited to 20 feet and enclosed in conduit or equivalently protected against mechanical injury. RS-485 Devices PAD 100-SLCE Provides an additional PAD protocol SLC loop with a maximum of 127 addressable points. SLCE-127 Provides an additional Nohmi protocol SLC loop with a maximum of 127 addressable points. RA-650OR / RA-650OF 4x40 character LCD Remote Annunciator RA-6075R 2x16 character LCD Remote Annunciator PSN-1000/E 10 Amp Power Expander LED-16 / LED- 16F Device that displays alarm/supervisory/trouble conditions for up to 16 zones and five (5) non -programmable system LEDs that annunciate system's overall conditions (Power, Earth, Silenced, Alarm, Supervisory, & Troubles). DRV-50 Device that provides 50 LED outputs can be individually mapped to any zone, four (4) programmable supervised dry contact inputs, and five (5) non -programmable system LEDs annunciate the overall system condition (Power, Earth, Silenced, Alarm, Supervisory, & Troubles). RLY-5 Device that provides five (5) Form-C relay outputs which can be individually mapped to any zone. FCB-1000 Device that provides remote IP connection. FIB-1000 Device that converts the 4 wire P-Link bus to/from fiber optic cable. MC-1000 Allows up to 63 AFC series panels to report to the central station through a shared phone line or Internet connection. IDC-6 Device that provides six (6) additional conventional Class B inputs or three (3) Class A inputs that can be individually mapped to any zone. NCE-1000 Device that is used to network fire alarm panels using CATS Ethernet cable. NCF-1000 Device that is used to network fVp alarm panels using fiber optic cable. AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Class A Expander CA-6500 Class A Expander Printers Keltron 90 Series Fire Alarm printer or other UL Listed fire alarm printer (Ancillary). 7. System Configurations AFC-1000 (4,064 Point System) Model Description Local Releasing Service Auxiliary Remote Station Central Station Proprietary AFC-1000 Main Board/Panel Assembly Y Y Y Y Y Y CA-6500 Class A Expander O O O O O O UD-1000/UD- 2000 DACT N N N Y Y Y PAD100-SLCE PAD Protocol SLC Loop Expander O O O O O O SLCE-127 Nohmi Protocol SLC Loop Expander O O O O O O RA-6075R LCD type remote Annunciator O O O O O O RA-6500R, RA-650OF LCD type remote Annunciator O O O O O O PSN-1000 Fire Power Expander O O O O O O LED-16/LED-16F LED Annunciator O O O O O O DRV-50 LED Driver O O O O O O RLY-5 Relay Expander O O O O O O FCB-1000 Fire Communications Bridge I O O O O O O FIB-1000 Fiber Interface Bridge O O O O O O SPG-1000 Serial/Parallel Gateway O O O O O O MC-1000 Multi -Connect Module O O O O O O IDC-6 Initiating Device Circuit O O O O O O NCE-1000 Network Card Ethernet I O O O O O O NCF-1000 Network Card Fiber O O O O O O 3005013 End of line resistor Y Y Y Y Y Y 3005012 1 End of line resistor and diode N Y Y N N N Y = Yes, required for applicable section. N = No, not required for applicable section. O = Optional, may or may not be used, has no affect on the applicable section. 36 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 8. System Power/Size Panel # NACs Rating per NAC SLC Power Notes Class AFC-1000 6 up to 10 if 3 Amp Maximum One built-in SLC SLC — Class A or B all I/O circuits Load of Loop, up to 9 NAC — Class A or B configured as 90.61 mA additional using P-Link — Class A or B NACs PAD100-SLCE I/O — Class B only and/or SLCE-127 Loop Expanders All are low voltage and power limited System Size Accessories/subassemblies Maximum System Size AFC-1000 1,270 maximum points any combination of detectors or modules if 9 PAD100-SLCE and/or SLCE-127 SLC Loop Expanders are added 6 notification circuits on the main board 4 I/O circuits UD-1000/UD-2000 1 DACT 37 (E)POTTER Fire Panel Operating Instructions The Symbol of Protection Normal Standby The green AC POWER LED will be illuminated and the user defined message on the LCD will be displayed. If the AC power is removed for more than 5 seconds, the green AC power LED will extinguish. Acknowledging Off normal events are acknowledged by pressing the ACK key while reviewing events. After all events have been acknowledged, the buzzer will deactivate and the associated LED will stop flashing and remain on continuously. During Positive Alarm Sequence operation the "ACK" key must be pressed within 15 seconds of the alarm initiation to activate the investigation timer. Alarm Condition The red ALARM LED will be illuminated anytime an alarm is occurring in the system. The LCD will display the number of inputs in alarm, and the buzzer will be activated. The buzzer will remain active until all alarms have been acknowledged, or until the Silence key is pressed. Silencing Alarm When the system is in Alarm, the notification circuits (strobes and horns) can be shut off by pushing the SILENCE button. Resetting Alarm After the condition that caused the alarm has been identified and corrected, the system may be reset to the Normal Standby by pressing the RESET button. Supervisory Condition When a supervisory condition is detected, the amber SUPERVISORY LED will illuminate and the buzzer will sound. The LCD display will indicate the number of supervisory events that are active. The local buzzer will sound until all supervisory events have been acknowledged. Restoring Supervisory If the Supervisory condition is non -latching, once the device is restored to the normal condition, the supervisory Condition event will clear. If the supervisory condition is latching, the device that was activated must be restored and the RESET pressed. Trouble Condition When a fault condition occurs, the amber TROUBLE LED will illuminate and the local buzzer will sound until the fault is removed or the ACK button is pressed acknowledging the trouble condition. If the buzzer is acknowledged and the fault is not removed within 24 hours, the buzzer will resound. Silencing Trouble(s) When a trouble is occurring, the local buzzer will sound until either all troubles have been acknowledged or the SILENCE button is pressed. Ground Fault When a conductor contacts and earth ground, the amber EARTH FAULT LED will illuminate and the LCD display will provide further information of where the fault is located. Pre -Release The amber Pre -Release LED will illuminate when the system is in a count down timer for an agent release. (Releasing Panels Only) Additionally, pre-release events and countdown timers are displayed on the LCD. Release The red Release LED will illuminate when a release condition is active. Additionally, release events will be (Releasing Panels Only) displayed on the LCD. Agent Release Abort If the system is being used as an agent releasing panel and a pre -discharge timer is programmed, the release (Releasing Panels Only) may be aborted by pressing the abort switch. For ULI installations, pushing the Abort will allow the timer to countdown until 10 seconds and then halt. Releasing and reactivating the Abort will set the timer to 10 seconds. Testing and Test this system monthly or more frequently as required by the AHJ. Before conducting any testing contact Maintenance the building personnel and the monitoring facility as applicable. When testing a system configured for releasing, activate the releasing disconnect switch to prevent accidental discharge of a suppression system. Test the circuits as outlined in the Installation Manual. Test in accordance with NFPA 72 Inspection, Testing and Maintenance Chapter(s) and any local requirements. The batteries should be marked with the date of installation and replaced every four years or sooner if battery trouble occurs. Batteries should be checked with a tester acceptable to the AHJ such as a Stone Technologies model STC612A or equivalent. In case of a fuse replacement, refer to the Installation Manual for the proper rating. Contact the agency below for service or operational questions. For service, contact: Name: Company: Frame and display instructions adjacent to the fire alarm panel. Address: 5409071—Rev B Telephone: AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Appendix A: Battery Calculation Work Sheets Description Quantity Standby (mA) Total Standby (mA) Alarm (mA) Total Alarm (mA) Main board (AFC-1000) l 130 130 220 LCD Remote RA-6075R 20 25 LCD Remote RA-650OR or RA-650OF 20 25 CA-6500 Class A Expander 12 44 UD-1000/UD-2000 DACT 16 23 PSN-1000/E Power Expander 15 15 LED-16 or LED- 16F P-Link Current LED -Current (if applicable, see Note 5) 25 15 25 210 DRV-50 LED -Current (#LEDs x 5 mA; if applicable, see Note 5) 25 10 25 215 RLY-5 Relay Current (if applicable, see Note 5) 25 10 35 135 FCB-1000 Fire Communications Bridge 25 25 FIB-1000 Fiber Interface Bridge 30 30 SPG-1000 Serial Parallel Gateway 40 40 MC-1000 Multi -Connect Module 10 10 IDC-6 Initiating Device Circuit 20 20 IDC PWR (See Note 5) Class B Input Zones (Per Zone) 5 45 Class A Input Zones (Per Zone) 5 45 NCE-1000 50 50 NCF-1000 95 95 NAC 1 NAC 2 NAC 3 NAC 4 NAC 5 NAC 6 I/O 1 I/O 2 I/O 3 I/O 4 Built-in SLC Current Draw - Calculated by SLC worksheet SLC Loop# SLC Loop# SLC Loop# SLC Loop# _ SLC Loop# SLC Loop# SLC Loop# 39 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Description Quantity Standby (mA) Total Standby (mA) Alarm (mA) Total Alarm Alarm SLC Loop# SLC Loop# Total (mA) Total (ma) Convert to Amps x 0.001 Convert to Amps x 0.001 (*Refer to maximum allowable standby current) Total A: Total A: 60 minutes per hour Alarm time (minutes) Multiply by standby hours x Example: 5 minute alarm: enter 12 10 minute alarm: enter 6 Total Standby AH Total Alarm AH +Total Standby AH Total AH Efficiency Factor - 0.80 Required AH *Maximum Allowable Standby Current Important Notes: (UL 24-Hour standby time) 1) FACP enclosure can house up to two (2) 18 AH batteries. Larger batteries require accessory 7 AH .198 A enclosure, part #SSU00500. 18 AH .565 A 2) NFPA 72 requires 24 hours of standby power followed by 5 minutes alarm activation. 33 AH 1.065 A 3) Door holder circuits configured to disconnect upon AC loss need not be included in the battery 55 AH 1.798 A standby calculation since they will not draw power during that time. Door holders will contribute to standby current draw when AC is present. 4) Total current must not exceed power supply rating (10A). 5) LED/Relay/IDC-6 current must be accounted for in the battery calculation for the supplying source. 40 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 Built-in SLC Current Draw Worksheet (PAD Protocol) Device Type Qty Standby (mA) Total Standby (mA) Alarm Standby (mA) Total Alarm (m/A) Photo detector (PAD 100/PAD200-PD) .300 .300 Fixed heat detector (PAD100-HD) .300 .300 CO detector (PAD 100-CD) .300 .300 Combination photo/heat detector (PAD I00/PAD200-PHD) .300 .300 Duct detector (PAD 1 00/PAD200-DUCT) .300 .300 Duct detector w/relay (PAD 100/PAD200-DUCTR) *Notes 4 & 5 .500 .500 Duct detector remote test switch (PAD 100-DRTS) 10.0 15.0 Mini input module (PAD 100-MIM) .200 .200 Speaker Module (PAD 100-SM) .240 .240 Pull station module single action (PAD100-PSSA) .200 .200 Pull station module dual action (PAD 100-PSDA) .200 .200 Relay module (PAD 100-RM) .240 .240 Notification appliance circuit (PAD100-NAC) *Note 2 .200 .200 Twin relay -twin input module (PAD 100-TRTI) .240 .240 Double input module (PAD 100-DIM) .240 .240 One relay -one input module (PAD 100-OROI) .240 .240 Zone module (PAD 100-ZM) *Note 1 .240 .240 Remote LED (PAD 100-LED) .240 .240 Remote LED with key (PAD 100-LEDK) .200 .200 Single input module (PAD 100-SIM) .240 .240 Addressable sounder base (PAD 100-SB) *Note 3 .200 .200 Addressable Low Frequency Sounder Base (PAD 100-LFSB) *Note 6 .200 .200 Addressable relay base (PAD 100-RB) .200 .200 Isolator base (PAD 100-I13) .150 .150 Isolator module (PAD 100-IM) .150 .150 SLC alarm LED Current n/a n/a n/a 36.0 SLC Standby Current SLC Alarm Current * Note 1: PAD 100-ZM requires 24VDC power source. Standby Current = 15.0 mA. Alarm Current = 60.0 mA. * Note 2: PAD100-NAC requires 24VDC power source. Standby Current = 3.0 mA. Alarm Current = 8.0 mA. * Note 3: PAD100-SB requires 24VDC power source. Standby Current = 4.0 mA. Alarm Current = 30.0 mA. * Note 4: PAD100-DUCTR requires 24VDC power source. Standby Current = 30.0 mA. Alarm Current = 60.0 mA. * Note 5: When connecting the MS-RAMS-KA/P/R power source, Standby Current = 45.0 mA. Alarm Current = 90 mA. * Note 6: PAD 100-LFSB requires 24VDC power source. Standby current = 4.1 mA. Alarm Current = 156.6 mA. 41 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 SLC #_ Current Draw Worksheet for PAD100-SLCEs (PAD Protocol) (Complete one for each configured PAD100-SLCE) Device Type Qty Standby (mA) Total Standby mA Alarm (mA) Total Alarm mA PAD 100-SLCE Expansion Board (PAD Protocol) 60 60 60 60 Photo detector (PAD I 00/PAD200-PD) .300 .300 Fixed heat detector (PAD 100-HD) .300 .300 CO detector (PAD 100-CD) .300 .300 Combination photo/heat detector (PAD I 00/PAD200-PHD) .300 .300 Duct detector (PAD I 00/PAD200-DUCT) .300 .300 Duct detector w/relay (PAD I 00/PAD200-DUCTR) *Notes 4 & 5 .500 .500 Duct detector remote test switch (PAD 100-DRTS) 10.0 15.0 Mini input module (PAD 100-MIM) .200 .200 Speaker module (PAD 100-SM) .240 .240 Pull station module single action (PAD100-PSSA) .200 .200 Pull station module dual action (PAD 100-PSDA) .200 .200 Relay module (PAD 100-RM) .240 .240 Notification appliance circuit (PAD 100-NAC) *Note 2 .200 .200 Twin relay -twin input module (PAD 100-TRTI) .240 .240 Double input module (PAD 100-DIM) .240 .240 One relay -one input module (PAD 100-OROI) .240 .240 Zone module (PAD 100-ZM) *Note 1 .240 .240 Remote LED (PAD 100-LED) .240 .240 Remote LED with key (PAD 100-LEDK) .200 .200 Single input module (PAD 100-SIM) .240 .240 Addressable sounder base (PAD 100-SB) *Note 3 .200 .200 Addressable Low Frequency Sounder Base (PAD100-LFSB) *Note 6 .200 .200 Addressable relay base (PAD 100-RB) .200 .200 Isolator base (PAD I00-IB) .150 .150 Isolator module (PAD 100-IM) .150 .150 SLC alarm LED Current n/a n/a n/a 36.0 SLC Standby Current SLC Alarm Current * Note 1: PAD100-ZM requires 24VDC power source. Standby Current = 15.0 mA. Alarm Current = 60.0 mA. * Note 2: PAD100-NAC requires 24VDC power source. Standby Current = 3.0 mA. Alarm Current = 8.0 mA. * Note 3: PAD100-SB requires 24VDC power source. Standby Current = 4.0 mA. Alarm Current = 30.0 mA. * Note 4: PAD100-DUCTR requires 24VDC power source. Standby Current = 30.0 mA. Alarm Current = 60.0 mA. * Note 5: When connecting the MS-RAMS-KA/P/R power source, Standby Current = 45.0 mA. Alarm Current = 90.0 mA. * Note 6: PAD 100-LFSB requires 24VDC power source. Standby current = 4.1 mA. Alarm Current = 156.6 mA. 42 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 SLC #_ Current Draw Worksheet for SLCE-127s (Nohmi Protocol) (Complete one for each configured SLCE-127) Device Type Qty Standby (mA) Total Standby mA Alarm (mA) Total Alarm mA SLCE-127 Expansion Board (Nohmi Protocol) 60 60 60 60 Analog photo smoke detector (PSA) 0.325 0.325 Analog photo smoke / fixed heat detector (PSHA) 0.325 0.325 Analog fixed temperature heat detector (FHA) 0.325 0.325 Analog rate of rise/fixed temperature heat detector (RHA) 0.325 0.325 Analog photo DUCT smoke detector (DSA) 0.325 0.325 Conventional initiating zone module - 4 inch mount (CIZM-4) *Note 1 0.325 1.000 Miniature contact module (MCM) 0.325 0.325 Single contact module - 4 inch mount (SCM-4) 0.325 1.000 Dual contact module - 4 inch mount (DCM-4) 0.325 1.000 Monitored output module - 4 inch mount (MOM-4) *Note 2 0.325 1.000 Twin relay module - 4 inch mount (TRM-4) 0.325 1.000 Short circuit isolator (SCI) 0.325 2.34 Analog sounder base (ASB) *Note 3 0.325 0.325 Analog relay base (ARB) *Note 4 0.325 0.325 Isolator base (AIB) 0.325 2.34 SLC alarm LED Current n/a n/a n/a 27.0 SLC Standby Current SLC Alarm Current * Note 1: CIZM requires 24VDC power source. Standby Current Class A = 4.90 mA, Class B (8.5 mA). Alarm Current = 50.0 mA * Note 2: MOM requires 24VDC power source. Standby Current = 1.60 mA. Alarm Current = 1.60 mA * Note 3: ASB requires 24VDC power source. Standby Current = 5 MA. Alarm Current = 100 mA * Note 4: ARB requires 24VDC power source. Standby Current = 5 mA. Alarm Current = 50 mA 43 AFC-1000 INSTALLATION MANUAL-5403649-REV F 12/20 10. Installation Notes Circuit board assembly is mounted in the cabinet using four (4) fasteners as shown in the illustration below. Figure 39. AFU-1000 Cabinet Showing Circuit Board Assembly 44 AV1-ft -:1. :AES CORPORATION 7707 Fire Subscribers IntelliNet 7LI Feature Highlights • Offers flexible power and configuration options. • Engineered for backward compatibility with legacy systems. `............. • Enables future ready capabilities. • Provides instant Subscriber status through front panel with Power and Trouble LEDs, a backlit LCD display, and Menu/Silence button. • Includes dual communication/multiple communication technology (reporting over RF and n P). c EL us FWPJ • Improves functionality with an adaptive Graphic User Interface (GUI) for programming via smartphones, tablets, and PCs. Key Benefits • Built upon the solid foundation of AES-IntelliNet° patented mesh radio technology for use in private licensed wireless networks. • Protects Subscriber units against unauthorized access and rogue activity with a password protected Dealer Code. • Makes programming and streamlined troubleshooting easy with user friendly interface. • Adds integrated supervision of 7794A AES-IntelliPro full data module. • Provides versatile power options. Models IntelfilletO 2.0 Fire Subscribers 7707P-88-M IntelliNet 2.0 Fire Subscriber, 8-Zone with Multiple Communication Technologies (MCT), Red Enclosure IntelliNet 2.0 Fire Subscriber, 8-Zone with 7794A AES-IntelliPro and Integrated 7707P 88 ULP M Onboard Local Annunciator, plus Multiple Communication Technologies (MCT), Red Enclosure IntelliNet 2.0 Fire Subscriber, 4x4 Zone (4 Reversing Polarity, 4 Supervised) with 7707P 44 M Multiple Communication Technologies (MCT), Red Enclosure IntelliNet 2.0 Fire Subscriber, 44 Zone (4 Reversing Polarity, 4 Supervised) 7707P-44-ULP-M with 7794A AES-IntelliPro and Integrated oOnboard Local Annunciator, plus Multiple Communication Technologies MCT, Red Enclosure Technical Specifications DIMENSIONS ALARM SIGNAL INPUTS/ ZONES 13"H x 8.5"W x 4.5"D 8 Individually programmable (33cm H x 21.5cm W x 11.4cm D) E.O.L. type zone inputs • 4x4 Option with 4 reverse WEIGHT polarity input and 4 • 15.85 Ibs (7.2 kilograms) with individually programmable 12Ah battery E.O.L. type zone inputs • 7 Ibs (3.2 kilograms) excluding Optional 7794A AES-IntelliPro battery for full data via Contact ID, Pulse, Modem Ile, and RADIO FREQUENCY Modem IIla2 Standard Frequency Range: 450-470 MHz UL LISTINGS ContactAES for other UHF • UL 864 Standard for Control and VHFfrequencies Units and Accessories for Fire Alarm Systems, Edition 10 ANTENNA • ULC S559-04 Equipment for 2.5 dB Tamper resistant antenna Fire Signal Receiving Centers included and Systems, Edition 1 POWER INPUT TROUBLE OUTPUT—ACK • 16.5V AC Class 2 Transformer DELAY/ANTENNA CUT Transformer not included Form C relay, fail secure, • 24V DC External Regulated rated 24V DC 1A resistive, Power Supply unsupervised • 24V DC Regulated Power Supply from FACP AUX Power RESET BUTTON Located on main circuit board BACKUP BATTERY 12 Ah with 7794A; 6 Ah without, OPERATING TEMPERATURE UL recognized lead acid gel cell 32 to 120°F (0 to 49°C) battery Size based on Subscriber STORAGE TEMPERATURE configuration 14 to 140OF (-10 to 60°C) CURRENT CONSUMPTION RELATIVE HUMIDITY Backup Battery Power 0 to 93%, non -condensing • Standby = .190A • Transmit = .752A PORTS • Optional 7794A = .165A, • (1) Ethernet Standby and Alarm • (2) USBs ANNUNCIATOR Integrated Local Annunciator PROGRAMMING INTERFACE Web browser capable device accessible via smartphone, tablet, laptop, or PC POWER OUTPUT 2 or 5 Watts Contact AES for other options ENCLOSURE MATERIAL Metal with paint finish FINISH COLOR Red VISUAL INDICATORS • Front panel LCD (2 x 20 alphanumeric character backlit display) • Power and Trouble LEDs (ALM, Trouble, Tx, Rx, WA) • Menu/ Silence button PAD 100-PSSA/PS DA P POTTER Addressable Pull Station �A The Symbol of Protection Single/Dual Action Features • Single or Dual Action versions • Durable die-cast construction • Reset key matches the fire alarm control panels • Compatible with IPA Series panels • SLC Class A, Class X & Class B • Product includes a 5 year warranty Description The PAD100-PSSA (Single Action) is activated by simply pulling the white "T" bar handle down. The PAD100-PSDA (Dual Action) is activated by lifting the front cover and then pulling the white "T" bar handle down. Once activated, the "T" bar cannot be reset without opening the front cover. Opening the front cover will also activate the pull station. To reset the PAD100-PS Series, use the Potter WS-93 key to unlock and open the front cover. Once the cover is open, push the "T" bar back into the normal position and re -secure the front cover. Application The PAD100-PSSA/PSDA is compatible with Potter's IPA series addressable fire alarm control panels. It is a non -coded addressable pull station available in either a single or dual action model and installs on a single gang box or surface mounts using the P32-BB or P32-DBB (deep) back box. Technical Specifications Operating Voltage 24.0 VDC Max SLC Standby Current 200uA Max SLC Alarm Current 200uA 32°F - 120°F (0° - 49°C) Environmental Limitations Indoor Only Dimensions 4.75" H x 3.25" W x 1.75" D Relative Humidity Range 0 - 93% (non -condensing) Single gang box or Mounting Options Potter P32-BB/DBB APS-SA - 1.22 lbs. Shipping Weight APS-DA - 1.46 lbs. Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830097 - REV B • 12/17 PAGE 1 OF 2 PAD 100-PSSA/PSDA (E)POTTER Addressable Pull Station The Symbol of Protection Single/Dual Action Setting the Address The PAD 100-PS Series uses one SLC address assigned to the device. The address is set using the DIP switch located on the back of the PAD 100-PS device. Pull Station Front View Fig I PAD 100-PSDA Pull Station Back View and bring Fig 2 FROM FACP OR PREVIOUS DEVICE TO NEXT DEVICE Ordering Information Model Description Stock No. PAD100-PSSA Addressable Pull Station, Single Action 3992721 PAD100-PSDA Addressable Pull Station, Dual Action 3992720 V PorrEl? PAD 100-PSSA FACTORY WIRED CONTACTS 0 0 Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830097 - REV B • 12/17 PAGE 2 OF 2 (E)POTTER The Symbol of Protection Features • Single module with dual contact monitoring inputs • Two (2) Class B or one (1) Class A monitoring inputs • SLC Class A, Class X & Class B • Mounts in a standard 4" or double gang box • Wiring terminals accessible when mounted in box • All wiring terminals accept 22 to 12 AWG • Product includes a 5 year warranty • UUKL Listed for Smoke Control NOTE. This addressable module does not support 2-wire smoke detectors. Description The PAD100-DIM uses one (1) SLC loop address when monitoring two (2) Class B circuits or one (1) Class A circuit. The module mounts on either a 4" square or double gang box. The module is capable of monitoring two (2) separate class B circuits making it ideal for monitoring sprinkler waterflow and valve tamper switches when they are located in the same proximity. The PAD 100-DIM includes one red LED to indicate the module's status. In normal condition, the LED flashes when the device is being polled by the control panel. When an input is activated, the LED will flash at a fast rate. Application The PAD100-DIM is compatible with Potter's IPA and AFC/ARC series addressable fire alarm control panels. The PAD100-DIM is an interface module used to monitor dry contact devices such as sprinkler waterflow, valve tamper switches, or conventional pull stations. The module is capable of monitoring two separate Class B or one Class A circuits. Setting the Address Each addressable SLC device must be assigned an address. The address is set using the DIP switch located on the PAD 100-DIM. When the PAD100- DIM is used to monitor two individual Class B circuits a single device address is assigned, each input is then identified as a sub -point of the module address. For example, if the address number is assigned as "8", the first input will be "8.1" and the second input will be "8.2". Before connecting a device to the SLC loop, take the following precautions to prevent potential damage to the panel or device: 1. Power to the device is removed. 2. Field wiring is correctly installed. 3. Field wiring has no open or short circuits. PAD100-DIM Dual Input Module P�SVMaztO i2 THE JyQ W F M APPROVED Technical Specifications Operating Voltage 24.OV Max SLC Standby 240µA Current Max SLC Alarm 240µA Current Max Wiring Resistance loon of IDC Max Wiring lµF Capacitance of IDC EOL Resistor 5.1K Q Operating Temperature Range 32 to 120°F (0 to 49°C) Operating Humidity Range 0 to 93% (non -condensing) Max no. of Module Per 127 units Loop Dimensions 4.17" (106mm)L X 4.17" (106mm)W X 1.14" (29mm)D Mounting Options Standard 4" Square or Double Gang Box Shipping Weight 0.6 lbs Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830082 - REV D • 12/18 PAGE 1 OF 2 (E)POTTER The Symbol of Protection Installation Using Compatible Electrical Box Fig I Wiring Diagrams PADI00-DIM With One Class A Circuit Fig 2 FROM FACP OR PREVIOUS MODULE TO NEXT MODULE NOTE: END -OF -LINE RESISTOR IS NOT REQUIRED PADI00-DIM With Two Class B Circuits Fig 3 FROM FACP PREVIOUS N TO NEXT M( END -OF -LINE RESISTOR 5.1KOHMyW Part #3005013 END -OF -LINE RESISTOR 5.1KOHM,4W Part #3005013 Ordering Information MOVE TH E "CL-A"DIP SWITCH TO -UP -POSITION ® FOR CLASS A WIRING Model Description Stock No. PAD100-DIM Dual Input Module 3992703 MOVE THE "CL-A" DIP SWITCH TO "DOWN" POSITION FOR CLASS B WIRING PAD100-DIM Dual Input Module Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830082 - REV D • 12/18 PAGE 2 OF 2 (E)POTTER The Symbol of Protection PAD100-SIM Single Input Module Features PgSEMeIFa • One (1) Class B monitoring input • SLC Class A, Class X & Class B 2 THE v� • Mounts in a standard 4" or double gang box • Wiring terminals accessible when mounted in box J • All wiring terminals accept 22 to 12 AWG • Product includes a 5 year warranty p pOTrEK 0 • UUKL Listed for Smoke Control ""• NOTE. This addressable module does not support 2-wire smoke aj detectors. 1 Description The PAD 100-SIM uses one (1) SLC loop addresses when monitoring one (1) Class B circuit. The module mounts on either a 4" square or double gang box. The module is capable of monitoring one (1) Class B circuit. The PAD100-SIM includes one red LED to indicate the module's status. In normal condition, the LED flashes when the device is being polled by the control panel. When the input is activated, the LED will flash at a fast rate. Application The PAD100-SIM is compatible with Potter's IPA and AFC/ARC series addressable fire alarm control panels. The PAD100-SIM is an interface module used to monitor dry contact devices such as sprinkler waterflow, valve tamper switches, or conventional pull stations. The module is capable of monitoring one Class B circuit. Setting the Address Each addressable SLC device must be assigned an address. The address is set using the DIP switch located on the PAD 100-SIM. Before connecting a device to the SLC loop, take the following precautions to prevent potential damage to the panel or device: 1. Power to the device is removed. 2. Field wiring is correctly installed. 3. Field wiring has no open or short circuits. F M ��_ S 'E'Rvtt'4 APPROVED Technical Specifications Operating Voltage 24.OV Max SLC Standby 240µA Current Max SLC Alarm 240µA Current Max Wiring Resistance loon of IDC Max Wiring lµF Capacitance of IDC EOL Resistor 5.1K Q Operating Temperature Range 32 to 120°F (0 to 49°C) Operating Humidity Range 0 to 93% (non -condensing) Max no. of Module Per 127 units Loop Dimensions 4.17" (106mm)L X 4.17" (106mm)W X 1.14" (29mm)D Mounting Options Standard 4" Square or Double Gang Box Shipping Weight 0.6 lbs Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830083 - REV D • 12/18 PAGE 1 OF 2 (E)POTTER The Symbol of Protection Installation Using Compatible Electrical Box Fig 1 Wiring Diagram PADI00-SIM With Class B Circuit Fig 2 FROM FACP PREVIOUS N TO NEXT M( END -OF -LINE RESISTOR 5.1KOHM % W Part #3005013 tE Ordering Information Model Description Stock No. PAD100-SIM Single Input Module 3992704 PAD 100-S I M Single Input Module Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830083 - REV D • 12/18 PAGE 2 OF 2 (E)POTTER The Symbol of Protection PAD100-RM Relay Module Features Q�SEnne�Fo • One (1) Form C relay contact • SLC Class A, Class X & Class B 2 THE ur' • Mounts in a standard 4" or double gang box A • Wiring terminals accessible when mounted in box • All wiring terminals accept 22 to 12 AWG J • Product includes a 5 year warranty • UUKL Listed for Smoke Control ©pDTTER ON "." el Description The PAD100-RM uses one (1) SLC loop address to provide one (1) Form C relay contact. The module mounts on either a 4" square or double gang box. The PAD 100-RM includes one red LED to indicate the module's status. In normal condition, the LED flashes when the device is being polled by the control panel. Application The PAD100-RM is compatible with Potter's IPA and AFC/ARC series addressable fire alarm control panels. The PAD100-RM is an interface module providing one (1) Form C relay contact. Setting the Address Each addressable SLC device must be assigned an address. The address is set using the DIP switch located on the PAD100-RM. The PAD 100-RM uses a single device address to identify relay contacts. Before connecting a device to the SLC loop, take the following precautions to prevent potential damage to the panel or device: 1. Power to the device is removed. 2. Field wiring is correctly installed. 3. Field wiring has no open or short circuits. FM � S FR.. APPROVED Technical Specifications Operating Voltage 24.OV Max SLC Standby 240µA Current Max SLC Alarm 240µA Current Relay Contacts 2A @30VDC, 0.5A @125VAC Operating Temperature Range 32 to 120°F (0 to 49°C) Operating Humidity Range 0 to 93% (non -condensing) Max no. of Module Per 127 units Loop Dimensions 4.17" (106mm)L X 4.17" (I06mm)W X 1.14" (29mm)D Mounting Options Standard 4" Square or Double Gang Box Shipping Weight 0.6 lbs Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830084 - REV D • 12/18 PAGE 1 OF 2 (E)POTTER The Symbol of Protection Installation Using Compatible Electrical Box Fig I W Wiring Diagram PADI00-RMRe1ay Circuit Fig 2 FROM FACP OR PREVIOUS MODULE TO NEXT MODULE 0 ® ONE (1) FORM C o RELAY CONTACTS m o PA07U6AM o o m Q ® p PAD100-RM Relay Module It is possible that the internal relay in the PAD 100-RM may be shipped in the non -normal / activated state. To ensure that the internal relay is set to the normal state, connect the module to the SLC loop and reset the control panel before terminating the wiring to the modules output. Ordering Information Model Description I Stock No. PAD100-RM Relay Module 13992705 Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830084 - REV D 12/18 PAGE 2 OF 2 (E)POTTER h The Symbol of Protection Features • Detects Smoke in Building HVAC Ducts • Ships Complete with Housing and Head • Compatible with Addressable IPA and AFC/ARC Series Panels • SLC Class A, Class X & Class B • Installation Without Removing the Head • Listed Air Velocity of 100 to 4,000 ft/minute • No Screens or Filters in Housing • Durable Plastic Enclosure and Clear Cover • Integrated Cover Tamper Switch • Utilizes Simple Snap in Sampling Tubes STN Series • One Form C Relay • UUKL Listed for Smoke Control • Compatible with Supervised PAD 100-DRTS Remote Test Switch, MS -RA, MS-KA/R, MS-KA/P/R Remote Indicators • Product includes 5-year warranty Description The PAD300-DUCTR is designed and built to meet all local requirements, as well as the NFPA regulations regarding duct smoke detectors. Air sampling is accomplished by two (2) tubes which protrude into the duct. An exhaust tube of one (1) standard length (7") is supplied in the installation kit with the smoke duct unit. Once the duct width has been determined, the air intake sampling tubes must be ordered. Sampling tubes are supplied in three standard lengths: 2.5 ft., 5 ft., and 10 ft. and cut to size to fit the duct. Mounting the duct smoke unit is accomplished by the use of a template and two (2) sheet metal screws, which are provided. Mounting can be achieved without the removal of the clear cover which is secured by four (4) capture screws. Application The Potter Electric PAD300-DUCTR duct smoke detector provides early detection of smoke and products of combustion present in air moving through HVAC ducts in commercial, industrial and residential applications. The PAD300-DUCTR is compatible with the IPA and AFC/ARC series addressable fire alarm control panels. PAD300-DUCTR Analog Addressable Duct Detector Technical Specifications Duct Detector Model Number PAD300-DUCTR Operating Voltage 24 VDC Current Draw 500 µA Detector Head Model PAD300-DD Detector Head Type Photoelectric Alarm Set Point Fixed at 2.5% / ft (8%/m) Sensitivity Test Method Self Diagnostic Test Air Velocity 100 ft./min to 4000 ft./min Ambient Temperature 32°F to 120°F (0°C to 49°C) Humidity 10% to 85% Relative Humidity (Non -condensing) Housing Material Plastic Backbox, Clear Plastic Cover Finish Gray Backbox with Clear Cover Dimensions 13 1/2"L x 4 1/2" W x 2 1/4" H Maximum Net Weight 2 lbs. Sampling Tubes 2.5 ft., 5 ft., or 10 ft. Relay Contact Rating 8A@30VDC, l0A@120VAC, l0A@250VAC Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830209 - REV A • 10/22 PAGE 1 OF 2 (E)POTTER PAD300-DUCTR The Symbol of Protection Analog Addressable Duct Detector Engineering Specifications Air duct smoke detectors shall be Potter Electric PAD300-DUCTR Series. The detectors are certified by UL per 268 by Underwriters Laboratories. The detectors shall operate at air velocities from 100 feet per minute to 4000 feet per minute. The duct detector housings shall be of plastic construction and complete mechanical installation may be performed without removal of detector cover. Visual indication of alarm and power must be provided on detector front. Detector heads shall not require additional filters or screens which must be maintained. The housing shall contain a detector base and PAD300-DD duct smoke detector head. Terminal connections shall be of the screw type and be a minimum of # 12 screw. All wiring must comply with local codes and regulations. Detector shall use the STN series of sampling tubes. Wiring Diagrams PAD300-DRTS Wiring Fig I FROM FACP OR PREVIOUS MODULE TO 24VDC TO NEXT MODULE PnWFR FORM C RELAY 10A,250VAC Ordering Information E Model Description Stock No. PAD300-DUCTR Analog Addressable Duct Detector 3992796 PAD100-DRTS Duct Remote Test Switch 3992711 MS -RA Remote Annunciator 1000256 MS-KA/R Remote Annunciator with Test/Reset Switch 1000254 MS-KA/P/R Remote Annunciator with Test Switch 1 1000253 Model Description Stock No. STN-2.5 2.5' Sampling Tube 1000274 STN-5 5' Sampling Tube 1000275 STN-10 10' Sampling Tube 1000276 MS-KAIPIR Wiring Fig 2 FROM FACP OR TO NEXT MODULE 24VDC FROM FACP OR PREVIOUS MODULE 24VDCTO FACP OR IFNEXTMODULE TO MS -RA (RED WIRE) TOMS -RA (BLACK WIRE) FORM C RELAY 10A,250VAC SUPERVISION OPTION ❑SHOWN IN"OFF"POSITION ONoR❑lumper must be in°Off"position when using the MS-KA/P/R. o o Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830209- REV A • 10/22 PAGE 2 OF 2 (E)POTTER h The Symbol of Protection Features • UL 268 7th Edition Low profile, less than 2 inches with the base • Wide selectable sensitivity range of 1.0 to 3.7%/foot • Sensor communicates sensitivity to control panel • UL listed smoke calibration and sensitivity • Optional locking tab to prevent unwanted removal • Simple DIP switch address setting, no programming tool required • LED alarm indicator Product includes a 5 year warranty UUKL Listed for Smoke Control Description The Photoelectric Smoke Sensor is a listed Analog Addressable smoke sensor compatible with fire alarm control panels that utilize the Potter Addressable Device (PAD) protocol. The PAD200-PD is a low profile smoke sensor with a wide sensitivity range. The sensor and base (not included) are made of a durable plastic in an off-white color to blend in with the ceiling. The PAD200-PD has a sensitivity range of 1.0 to 3.7 % per foot and is UL. The PAD200-PD features drift compensation and has built in dirty detector warning as well as. The PAD200-PD and the control panel communicate over a proven and robust digital communication path and the system analyzes the information at the particular device. The total polling speed is less than five (5) seconds, well under the UL requirements. The sensor is compatible with any of the PAD series sensor bases and simply twists on. The PAD200-PD is addressed using DIP switches in the rear of the sensor and can be easily programmed in the field without special tools. Setting the Address Each addressable device on the SLC loop must have a unique address from 1 to 127 to function properly. The address is set using DIP switches. Before connecting a device to the SLC loop, take the following precautions to prevent potential damage to SLC or device. Verify the following: Power to the device is removed 2. Field wiring is correctly installed. 3. Field wiring has no open or short circuits. PAD200-PD Photoelectric Smoke Sensor UL LISTED Technical Specifications Operating Voltage 24 VDC Detector Current Draw 300 µA Alarm indicator 1 LED Alarm set -point range 1.0 to 3.7 %/ft 3.6-12 %/m Installation temperature 32 to 120 ° F / 0 to 49 ° C range Operating relative 0% to 93% (Non -condensing) humidity range Start-up time Max. 1 sec. Maximum number of 127 addresses per loop Maximum number of lighted indicators in 30 alarm per loop. Color Eggshell White Weight (without base) 101 g (3.56oz) Dimensions (without Height: 1.35 in (34mm) base) Diameter: 3.93 in (100 mm) Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830172 - REV A • 5/21 PAGE 1 OF 2 (E)POTTER The Symbol of Protection PAD200-PD Photoelectric Smoke Sensor Air Velocity Ratings The PAD200-PD has an Open Area of Protection air velocity rating of 0 to 300 feet per minute. The system has a maximum of 30 LEDs that can be turned on simultaneously. If the system already has 30 LEDs on, the PAD200-PD will operate even though the LED may not illuminate. Operation The PAD200-PD is an analog addressable sensor that uses one address on the Signaling Line Circuit (SLC) of a compatible fire alarm control panel. The unit communicates with the control panel as it is polled. The LEDs flash every time the unit is polled and they will flash at a fast rate if the unit is in an active status. The polling LED can be turned off if desired for less conspicuous operation. The PAD200-PD with the PAD 100-4DB or PAD 100-6DB has a low profile of less than two (2) inches to blend into the surrounding environment. The sensor includes an insect screen to prevent foreign objects from reaching the chamber and the can be cleaned to restore operation of a dirty detector. Sensor Sensitivity The PAD200-PD and the compatible control panel work in tandem to keep the sensitivity consistent. As the sensor is installed over time, the sensor compensates for the dirt in the unit until it is out of range. At that time, the panel will indicate a dirty sensor. The sensor will then have to be cleaned or replaced. The PAD200-PD can be programmed to provide a maintenance alert prior to reaching the dirty sensor level which will allow for intervention prior to the sensor going into trouble. This allows for sensor replacement or cleaning prior to a nuisance trouble occurs. NOTE: As required by NFPA, do not install the sensors until all construction is complete and the work area has been thoroughly cleaned. If the sensors have been installed in a construction environment, they should be cleaned or replaced before the system is placed into service. Spacing The PAD200-PD is UL listed with a recommended maximum spacing of 30 feet. Refer to NFPA 72 for specific information regarding detector spacing, placement and special applications. Compatible Bases All bases will mount on a single gang, double gang, octagon, 4" square or mud ring electrical box. Device Description Stock No. PAD100-4DB 4" Standard Base 3992731 PAD100-6DB 6" Standard Base 3992732 PAD100-I13 6" base with an isolator module included. 3992730 PAD100-RB 6" base with one Form-C relay contact. 2A @ 30VDC, 0.5A @ 125VAC 3992728 PAD 100-SB 6" base with sounder module included. Sound pattern is provided from external source. 3992729 PAD 100-SPKB 6" base with speaker included 3992762 Ordering Information Model Description I Stock No. PAD200-PD Photoelectric Smoke Sensor 3992770 Potter Electric Signal Company, LLC St. Louis, MO Phone: 800-325-3936 www.pottersignal.com 8830172 - REV A • 5/21 PAGE 2 OF 2 Eluxa low frequency sounders and sounder strobes Description Eaton has developed the Wheelock Eluxa low frequency sounders (ELFHN) and sounder strobes (ELFHS) to meet the National Fire Protection Association (NFPA 72) low frequency sounder requirements for sleeping rooms for both fire alarm and carbon monoxide (CO) signaling. In a single device, the Eluxa low frequency sounders features both low and high candela settings and alarm signals for dual applications-T3 (fire) andT4 (CO) tones. High efficiency, LED technology Eaton's high energy efficient technology leads the industry in lowest current draw across the full candela range, which reduces overall power consumption and costs in fire alarm systems. As the first notification appliances in the industry to utilize LED as the light source, this breakthrough and patented optical design, resulting in best -in -class efficiency, enables material and system cost savings, allowing for a greater number of appliances on the notification appliance circuit and fewer power supplies. All strobe models feature 110 and 177 candela settings for both wall- and ceiling- mount models. Low profile design and rich feature set With the industry's smallest footprint, the Eluxa low frequency sounders and sounder strobes are aesthetically pleasing as the low profile design does not detract from the interior decor. Eluxa is feature rich with low and high candela settings and 3 horn patterns (Continuous, T3, T3/T4) in 1 device, pre-wire/pre-test via mounting plate with hinged feature for ease -of -installation, and no tools needed for setting changes. These products are suitable for indoor wall and ceiling mount applications. The ELFHS and ELFHN models are for 24V operation. Special lettering, ALERT, CO, and no lettering, is available. Approvals and synchronization Eaton's Eluxa strobes meet the 20 millisecond light pulse duration requirements of the 2016 edition of NFPA 72. By meeting this latest requirement, xenon and LED devices can now be in the same field of view. The Eluxa notification appliances are listed under UL Standards 1971, 1638, and 464 and under CAN/ULC-S525 and CAN/ULC-S526. The appliances are Restriction of Hazardous Substances (RoHS) compliant and contain no mercury or other hazardous substances. In addition, the Eluxa product line has been UL/ULC listed as compatible with all Fire Alarm Control Panels (FACP) and accessories that have been determined to be compatible with Exceder LED3 and Wheelock RSS strobe -based products including the RSS, CH, E, EH, ET, ST, HS, MT, S8, SA, STH and Z Series. The listing also includes the ability to install the Eluxa strobes in the same notification zone and field of view with any Wheelock RSS strobe and Exceder LED3 models. F I .T*N Powering Business Worldwide Technical Data TD450159EN Effective August 2021 Eluxa low frequency sounders and sounder strobes Features • Meets NFPA 72 fire and CO low frequency sounder codes for sleeping rooms in a single device • 3 horn patterns • Continuous, T3, and T3/T4; Fire and CO signaling in 1 device • Energy efficient • LED technology provides industry's lowest current draw • Low -profile design • Smallest footprint with sleek, modern aesthetics • Special lettering available: ALERT, CO, no lettering • Field selectable candela settings: 110, 177 cd • Easy -to -install • Mounting plate included with all models: Convenient capture hinge allows installers to easily hold the device while fastening the single -mount screw in place. • Finger slide switches —No tools needed for setting changes • Built-in level adjustment feature and snap -on grille cover • IN/OUT screw terminals using #12 to #18 AWG wires • Mounting Options: ELSPKBB backboxes, single -gang backboxes and 4" square backboxes for wall models and LSPKBB-C backboxes and 4" square, 2 1/8" deep backboxes for ceiling models. • Strobe synchronization components • Meet synchronizing standards with Wheelock's DSM Sync Modules or Power Supplies • Compliance • NFPA 72 2016 - 20 ms flash duration requirements • UL 1971, UL 1638, UL 464, ULC S525, ULC S526 • California State Fire Marshal (CSFM) • ADA/NFPA/ANSI/OSHA • RoHS Note: Please read these specifications and associated installation instructions, before using, specifying, or installing this product. Visit Eaton. com/Lifesafetynotification for current installation instructions. General Notes • Strobes are designed to flash at 1 flash per second minimum over their "Regulated Voltage Range:' Note that NFPA-72 specifies a flash rate of 1 to 2 flashes per second and ADA Guidelines specify a flash rate of 1 to 3 flashes per second. • All candela ratings represent minimum effective Strobe intensity based on UL 1971. Settings The 520 tone is generated within the appliance itself. When the selector switch is set forT3, the sound pattern is also generated within the appliance. When the selection switch is set to continuous, the product is listed for coded operations. TheT3/T4 pattern or other pattern must be generated by the FACP according to the alarm condition sensed by the panel (fire or CO alarm). When the device is set toT3/T4, the appliance can switch fromT3 to T4 based upon the condition sensed by the FACP and passed to the Wheelock DSM module. Drawings Figure 1. Wall Low Frequency Sounder Strobe 1.89 135 0527 °°0000000°°° O O °°°°°°Q°°°° °°°O°°°°°°°°°°°°°° ° °.p°O °°° °°O O°° ° ° O° °° °%°% °° °° O°O° °O°O °° °° 0°0° °0°0 °° °° °°°°°°°°°°°°O°O °°0000:t 0.0000°°°° Figure 2. Ceiling Low Frequency Sounder Table 1. Horn Only Current Draw UUULC Max Current O Eluxa Sounders 24VDC Model Horn Settings 16.0-33.0 ELFHN/ELFHNC Continuous 0.098 Code 3 0.098 Code 3/Code 4 0.098 Table 2. Horn Strobe Current Draw UL/ULC Max Current O Eluxa Sounder Strobes Regulated Voltage Model Range VDC 110 177 ELFHS 16.0-33.0 0.164 0.256 ELFHSC 16.0-33.0 0.164 0.256 O RMS current ratings are per UL maximum RMS method. UL max current rating is the maximum RMS current within the listed voltage range (16-33v). For strobes the UL max current is usually at the minimum listed voltage. For audibles the max current is usually at the maximum listed voltage. For unfiltered FWR ratings, see installation instructions. 2 EATON www.eaton.com Technical Data TD450159EN Effective August 2021 Eluxa low frequency sounders and sounder strobes Table 3. Sound Output (SPL) - UL Table 4. Sound Output (SPL)- ULC ELFHS/ELFHN 24V ELFHS/ELFHN Reverberant dBA per UL 464 O dBA per ULC S525-160 Description 16.OV 24.OV 33.OV Description 16.OV 24.OV 33.OV Continuous 80 80 80 Continuous 85 85 85 Code 3 80 80 80 Code 3 85 85 85 Code 3/Code 4 e 80 80 80 Code 3/Code 4 85 85 85 Table 5. Specification & Ordering Information Sync w/ DSM or Model Strobe Candela Mounting Red White Lettering Wheelock Power Supplies Sounder Strobes ELFHSR 110, 177 Wall X FIRE X ELFHSW 110, 177 Wall X FIRE X ELFHSR-AL 110, 177 Wall X ALERT X ELFHSW-AL 110, 177 Wall X ALERT X ELFHSR-CO 110, 177 Wall X CO X ELFHSW-CO 110, 177 Wall X CO X ELFHSR-N 110, 177 Wall X No Lettering X ELFHSW-N 110, 177 Wall X No Lettering X ELFHSRC 110, 177 Ceiling X FIRE X ELFHSWC 110, 177 Ceiling X FIRE X ELFHSRC-AL 110, 177 Ceiling X ALERT X ELFHSWC-AL 110, 177 Ceiling X ALERT X ELFHSRC-CO 110,177 Ceiling X CO X ELFHSWC-CO 110,177 Ceiling X CO X ELFHSRC-N 110,177 Ceiling X No Lettering X ELFHSWC-N 110,177 Ceiling X No Lettering X Sounders ELFHNR Wall X FIRE X ELFHNW Wall X FIRE X ELFHNR-AL Wall X ALERT X ELFHNW-AL Wall X ALERT X ELFHNR-CO Wall X CO X ELFHNW-CO Wall X CO X ELFHNR-N Wall X No Lettering X ELFHNW-N Wall X No Lettering X ELFHNRC Ceiling X FIRE X ELFHNWC Ceiling X FIRE X ELFHNRC-AL Ceiling X ALERT X ELFHNWC-AL Ceiling X ALERT X ELFHNRC-CO Ceiling X CO X ELFHNWC-CO Ceiling X CO X ELFHNRC-N Ceiling X No Lettering X ELFHNWC-N Ceiling X No Lettering X Accessories Description Red White ELSPKBB-R Eluxa Backbox Wall X ELSPKBB-W Eluxa Backbox Wall X LSPKBB-CR Exceder LED Backbox Ceiling X LSPKBB-CW Exceder LED Backbox Ceiling X O RMS current ratings are per UL maximum RMS method. UL max current rating is the maximum RMS current within the listed voltage range (16-33v). For strobes the UL max current is usually at the minimum listed voltage. For audibles the max current is usually at the maximum listed voltage. For unfiltered FWR ratings, see installation instructions. Note: Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Cooper Wheelock Inc., dba Eaton standard terms and conditions. 3 EATON www.eaton.com Technical Data TD450159EN Eluxa low frequency Effective August 2021 sounders and sounder strobes Table 6. Specifications Physical Material Red or white textured UV stabilized, colored impregnated engineered plastic. Exceeds 94V-0 UL flammability rating Weight 1.10 lbs. Lens Light Emitting Diode (LED) in a rugged Lexan lens Dimensions Wall: ELFHN - 6.35"H x 4.56" W x 1.54" D; ELFHS: 6.35"H x 4.56" W x 1.54" D; ELFHNC: 6.27" Diameter x 1.9" D; ELFHSC: 6.27" Diameter x 2.29" Depth Operating Temperature Indoor: 32°F to 122°F VC to 50°C) and maximum humidity of 93% Mounting & Wire Connections Mounting (indoor only) Wall and ceiling -mount applications (model dependent). Mounting Options: ELSPKBB backboxes, single -gang back - boxes and 4" square backboxes for wall models and LSPKBB-C backboxes and 4" square, 21/8" deep backboxes for ceiling models. Wire Connections #12 through #18 AWG Power & General Operating voltage 24 VDCNFWR: 16 - 33 VDCNFWR Strobe Output Rating UL 1971: Field selectable candela 110, 177 cd Strobe Flash Rate Strobes are designed to flash at 1 flash per second Synchronization Models Strobes can be synchronized with Wheelock's DSM Sync Modules, PS Power Supplies, using Wheelock patented sync protocol Temporal Audible Pattern Continuous, Code 3, or Code 3/Code 4 Sync Control. The Code 3 temporal pattern (1/2 second on, 1/2 second off, 1/2 second on, 1/2 second off, 1/2 second on, 1-1/2 off and repeat) is specified by ANSI and NFPA 72 for standard emer- gency evacuation signaling. The Code 4 temporal pattern (four cycles of 100 milliseconds ± 10 percent "on" and 100 milliseconds ± 10 percent "off," followed by 5 seconds ± 10 percent "off►is specified by NFPA 720. Architects and Engineers Specifications The low frequency sounders and sounder strobes appliances shall be Eluxa series ELFHN sounder and ELFHS sounder strobe for wall -mount applications and ELFHNC and ELFHSC for ceiling -mount applications or approved equals. The sounders shall be UL Listed under UL 464 for Fire Protective Service and ULC S525. Sounders equipped with strobes shall be listed under UL 1971 for Emergency Devices for the Hearing -Impaired, UL 1638, and ULC S526. The series shall be Restriction of Hazardous Substances (RoHS) compliant and contain no mercury or other hazardous substances. In addition, the sounder strobes shall meet the requirements of FCC Part 15 and ICES-003. All inputs shall be compatible with standard reverse polarity supervision of circuit wiring by a Fire Alarm Control Panel (FACP) with the ability to operate from 16 to 33 VDC. The ELFHS sounder strobe shall produce a flash rate of one (1) flash per second over the Regulated Voltage Range and shall incorporate a Light Emitting Diode (LED) as the light source with a rugged Lexan® lens. The strobe shall be of low current design. The LED strobe flash duration shall be 20 ms or less. The strobe intensity of ELFHS models shall have field selectable of 110 and 177 candela. The audible shall have a minimum of 3 modes of operation: T3 (fire), Continuous, and T3/74 Sync Control. The ELFHS and ELFHN shall be designed with a low profile design for indoor surface or flush mounting. Mounting options shall include ELSPKBB backboxes, single -gang backboxes, and 4" square ��P wrIIMEM WE ENCOURAGE AND SUPPORT NICET CERTIFICATION 3 YEAR WARRANTY Eaton 1000 Eaton Boulevard Cleveland, OH 44122 United States Eaton.com Eaton Life safety & mass notification solutions _ 273 Branchport Ave. Long Branch, NJ 07740 Powering Business Worldwide Eaton.com/Lifesafetynotification backboxes for wall models and LSPKBB-C backboxes and 4" square, 2 1/8" deep backboxes for ceiling models. The sounder and sounder strobe shall incorporate a mounting plate with a snap -on grille cover and shall mount to standard electrical hardware requiring no additional trimplate or adapter. Removal of an appliance shall result in a supervision fault condition by the Fire Alarm Control Panel (FACP). All notification appliances shall be backwards compatible. The ELFHN and ELFHS wall models shall have a low profile mea- suring 6.35"H x 4.56" W x 1.54" D. ELFHNC and ELFHSC ceiling models shall have a low profile with a diameter measuring 6.27" and depth of 2.29" Finish shall be red or white. Special lettering, ALERT, CO and No lettering, shall be available. When synchronization is required, the appliance shall be compatible with Wheelock's DSM Sync Modules, PS Power Supplies, or other manufacturer's panels with built-in Wheelock Patented Sync Protocol. The strobes shall not drift out of synchro- nization at any time during operation. If the sync protocol fails to operate, the strobe shall revert to a non -synchronized flash -rate and still maintain (1) flash per second over its Regulated Voltage Range. The appliance shall also be designed so that the audible signal may be silenced while maintaining strobe activation when used with Wheelock patented sync protocol. UL 1971, UL 1638, UL 464, ULC S525, ULC S526, CSFM, FCC, RoHS, ICES © 2021 Eaton All Rights Reserved Printed in USA Publication No.TD450159EN August 2021 Eaton is a registered trademark. All other trademarks are property of their respective owners. Eluxa horns, horn strobes, & strobes Description The Wheelock Eluxa horns, horn strobes, and strobes by Eaton feature an advanced power saving LED technology with a full range of low and high candela settings for indoor wall and ceiling -mount applications. Designed in sleek, modern enclosures, Eluxa's aesthetically pleasing low profile will blend with the building's interior decor. ..,..,: High efficiency, LED technology -': Eaton's high energy efficient technology leads the industry in lowest current draw for a combined high and low candela device, which reduces overall power consumption. As the first notification T appliances in the industry to utilize LED as the light source, this m breakthrough optical design, resulting in best -in -class efficiency, enables material and system cost savings, allowing for a greater :_ram number of appliances on the notification appliance circuit and fewer w1 power supplies. This reduces installation and operating costs. All strobe models feature six candela settings: 15, 30, 75, 110, 135, 185 cd on wall models and 15, 30, 75, 110, 150, 177 cd on ceiling models. �HI Low profile design and rich feature set With the industry's smallest footprint, the Eluxa horns, horn strobes, and strobes are aesthetically pleasing to building owners as the i low profile design does not detract from the interior decor. Eluxa is feature rich with 6 candela settings and 3 horn patterns (Continuous, T3, T3/T4) in 1 device, pre-wire/pre-test via mounting plate with �J hinged feature for ease -of -installation, single -gang design (wall models), and no tools needed for setting changes. The ELST strobe, ELHS horn strobe, and the ELHN horn are for 24V operation. ELHN is suitable for 12V applications. Approvals and synchronization Eaton's Eluxa strobes meet the 20 millisecond light pulse duration requirements of the 2016 edition of NFPA 72. By meeting this latest requirement, xenon and LED devices can now be in the same field of view. The Eluxa notification appliances are listed under UL Standards 1971, 1638, and 464 and under CAN/ULC-S525 and CAN/ULC-S526. The appliances are Restriction of Hazardous Substances (RoHS) compliant and contain no mercury or other hazardous substances. In addition, the Eluxa product line has been UL/ULC listed as compatible with all Fire Alarm Control Panels (FACP) and accessories that have been determined to be compatible with Exceder LED3 and Wheelock RSS strobe -based products including the RSS, CH, E, EH, ET, ST, HS, MT, S8, SA, STH and Z Series. The listing also includes the ability to install the Eluxa strobes in the same notification zone and field of view with any Wheelock RSS and Exceder LED3 strobe models. FM,T* N Powering Business Worldwide Technical Data TD450157EN Effective April 2021 Eluxa horns, horn strobes, & strobes Features • Energy efficient • LED technology provides industry's lowest current draw • Fewer power supplies required, smaller wire gage, reduced wire runs • Low -profile design • One of the smallest, most compact single -gang designs • Sleek, modern aesthetics with no visible mounting screws • Special lettering available • 6 Field selectable settings in 1 device • Wall: 15, 30, 75, 110, 135, 185 cd • Ceiling: 15, 30, 75, 110, 150, 177 cd • 3 horn patterns • Continuous,T3, andT3/T4; Fire and CO signaling in 1 device • Sound pressure (Anechoic) dBA • Low 86, High 91 (for Continuous, T3, and T4) • Easy -to -install • Mounting plate included with all models: Convenient capture hinge allows installers to easily hold the device while fastening the single -mount screw in place. • Pre-wire/pre-test capability to check for wiring and ground faults prior to appliance installation • Finger slide switches --No tools needed for setting changes • IN/OUT screw terminals using #12 to #18 AWG wires • Mounting options include ELSBB, any single -gang backbox and to 4" square with adapter kit for wall models and LSPKBB-C backboxes, 4" square, 1 1/2" or 2 1/8"deep and 4" Octagonal, 1 1/2" or 2 1/8"deep for ceiling models • Strobe synchronization • Meet synchronizing standards with Wheelock's DSM Sync Modules, PS Power Supplies or SAFEPATH products • Ability to mix xenon and LED strobes in the same field of view • Compliance • NFPA 72 2016 - 20 ms flash duration requirements • U L 1971, U L 1638, U L 464, U LC-S525, U LC-S526 • California State Fire Marshal (CSFM) • RoHS • FCC Part 15, ICES Note: Please read these specifications and associated installation instruc- tions, before using, specifying, or installing this product. Visit Eaton.com/ Lifesafetynotification for current installation instructions. General Notes • Strobes are designed to flash at 1 flash per second minimum over their "Regulated Voltage Range:' Note that NFPA-72 specifies a flash rate of 1 to 2 flashes per second and ADA Guidelines specify a flash rate of 1 to 3 flashes per second. • All candela ratings represent minimum effective strobe intensity based on UL 1971. Drawings .39 Figure 1. Wall, horn strobe Figure 2. Ceiling, horn strobe Table 1. Horn ratings per UL/ULC Anechoic Eluxa Horns Regulated Voltage High Low Model Range VDC dB dB ELHN/ELHNC 8.0 - 17.5 0.025 0.020 ELHN/ELHNC 16.0 - 33.0 0.028 0.021 2 EATON www.eaton.com