PFC-6075R Fire Alarm Control Panel Installation, Operation & Programming Manual Potter Electric Signal Company, LLC St. Louis, MO Customer Service: (866) 240-1870 • Technical Support: (866) 956-1211 • Fax: (314) 595-6999 www.pottersignal.
PFC-6075R • 5403594 • REV D • 9/14 WARRANTY INFORMATION The essential purpose of any sale or contract for sale of any of the products listed in the POTTER catalog or price list is the furnishing of that product. It is expressly understood that in furnishing said product, POTTER does not agree to insure the Purchaser against any losses the Purchaser may incur, even if resulting from the malfunction of said product.
PFC-6075R • 5403594 • REV D • 9/14 Table of Contents Section 1: Introduction.............................................................................................................................. 1-1 Purpose of This Manual...........................................................................................................................1-1 System Overview.....................................................................................................................................
PFC-6075R • 5403594 • REV D • 9/14 Notification Appliance Circuits Installation...........................................................................................3-24 NAC Wiring......................................................................................................................................3-24 NAC Maximum Wiring Impedance Formula...................................................................................3-24 NAC Wiring Configurations .....................................
PFC-6075R • 5403594 • REV D • 9/14 Uploading History Events & Detector (Sensitivity) Status Reports......................................................5-58 History Reports................................................................................................................................5-58 Detector Sensitivity Status Reports..................................................................................................5-59 Printing Reports...................................................
PFC-6075R • 5403594 • REV D • 9/14 LED Driver (DRV-50)......................................................................................................................5-96 Relay Board (RLY-5)........................................................................................................................5-96 Fire Communications Board (FCB-1000).......................................................................................5-97 Serial Parallel Printer (SPG-1000)............................
PFC-6075R • 5403594 • REV D • 9/14 Section 1: Introduction The Model PFC-6075R is a listed and approved, microprocessor based addressable fire control panel and complies with UL-864, NFPA-12, NFPA-12A, NFPA-13, NFPA-15, NFPA-16, NFPA-17, NFPA-17A, NFPA-72, NFPA-750, NFPA-2001, CSFM, and NYC Fire Department Certificate of Approval #6157. The PFC-6075R system software is compatible with Windows XP, Windows Vista and Windows 7 Operating Systems; additionally, the latest version of Microsoft .
PFC-6075R • 5403594 • REV D • 9/14 yy yy yy yy yy 99 Software Zones Dead-front Cabinet Design 2 X 16 character LCD display Dedicated Alarm, Supervisory and Trouble Form C Relays Analog / Addressable Sensing Technology yy Drift Compensation yy Drift Alert yy NFPA 72 compliant calibrated smoke test built-in P-Link Accessories yy RA-6500R, RA-6500 or RA-6075R, RA-6075 Remote Annunciator – Maximum of 31 per system in any combination yy UD-1000 Dual Line Fire Communicator – Maximum of 1 per system yy CA-6075 C
PFC-6075R • 5403594 • REV D • 9/14 How to Use this Manual Refer to this manual before contacting Technical Support. The information in this manual is the key to a successful installation and will assist you in understanding proper wire routing, system requirements, and other guidelines specific to the PFC-6075R system.
PFC-6075R • 5403594 • REV D • 9/14 Section 2: Before You Start Installation This section addresses information that will help you in completing a successful installation, such as the PFC-6075R cabinet layout, specifications, environmental considerations, and calculating the battery circuit and SLC current draw requirements.
PFC-6075R • 5403594 • REV D • 9/14 Electrical Specifications Please refer to the table below for electrical specifications: Table 3: System Panel Electrical Specifications Panel PFC-6075R # NACs 2 up to 4 if both I/O circuits configured as NACs Rating per NAC 3 Amp I/O Circuits (As Outputs) 1 Amp SLC Power Maximum Load of 56.
PFC-6075R • 5403594 • REV D • 9/14 Main Board Wiring Specifications There are several wiring requirements to consider before connecting circuits to the main board: (1) the circuit separation, and (2) wiring types. Circuit Separation Proper separation between the different types of circuits must be maintained between Power Limited, Non-Power Limited, and High Voltage wiring to reduce electrical interferences, transient voltage or voltage ratings.
PFC-6075R • 5403594 • REV D • 9/14 Cabinet Dimensions Figure 1. PFC-6075R Cabinet Dimensions TOP DEPTH = 3.75 " DEPTH = 3.84 " DOOR = 16.78 " BACKBOX = 16.56" DOOR = 16.07" BACKBOX = 15.
PFC-6075R • 5403594 • REV D • 9/14 Cabinet Wiring Connections Optional UD-1000 DACT Figure 2.
PFC-6075R • 5403594 • REV D • 9/14 Battery Circuit Calculations Before selecting the battery, it is important to determine the minimum size batteries for standby and alarm times desired for each application and SLC current draw. If the wrong batteries are installed in a specific application or incorrect current draw used, the proper standby and minimum alarm time will not be present. The battery circuit is rated for 8 to 55 AH batteries and will operate the panel alarm for at least 24 hours and 5 minutes.
PFC-6075R • 5403594 • REV D • 9/14 Battery Calculation Worksheets Description Main board (PFC-6075R) Quantity Standby (mA) Total Standby (mA) Alarm (mA) 1 130 130 220 LCD Remote RA-6075R or RA-6075 20 25 LCD Remote RA-6500R or RA-6500 20 50 CA-6075 Class A Expander 12 44 UD-1000 DACT 16 23 PSN-1000/E Power Expander 15 15 LED-16 P-Link LED-Current (if applicable, see Note 6) 25 15 25 210 DRV-50 LED-Current (if applicable, see Note 6) 25 10 25 215 RLY-5 Relay Current (if applica
PFC-6075R • 5403594 • REV D • 9/14 SLC Current Draw Worksheet Device Type Qty Standby (mA) Total Standby (mA) Alarm (mA) Analog photo smoke detector (PSA) 0.325 0.325 Analog photo DUCT smoke detector (DSA) 0.325 0.325 Analog photo smoke / fixed heat detector (PSHA) 0.325 0.325 Analog fixed heat detector (FHA) 0.325 0.325 Analog combo heat detector (RHA) 0.325 0.325 Conventional initiating zone module - 4 inch mount (CIZM-4) *Note 1 0.325 1.000 Miniature contact module (MCM) 0.
PFC-6075R • 5403594 • REV D • 9/14 Isolator Device Load Calculation This section covers the distinction between an addressable sensor and an isolator to correctly calculate the total SLC device load. A device uses an address and consumes power. Whereas, an isolator does not use an address, but does consume power. The following scenarios explain how to calculate the current device load based on the SLC configuration.
PFC-6075R • 5403594 • REV D • 9/14 Scenario 2: Class B Loop – Isolated Branch Configuration In this configuration, there are 4 separate branches each with an isolation device / module and 1 or more sensors. Each sensor requires an address, as shown in Scenario #1 (isolators do not require an address). However, in this scenario, each isolator consumes power equal to 8 devices.
PFC-6075R • 5403594 • REV D • 9/14 Battery Connections The battery charging circuit is located on the main panel in the lower left portion of the board. The maximum battery charging circuit is 1.0 amp DC; the charging voltage is approximately 27.3 VDC and is supervised. Note: The battery should be clearly labeled as “Sealed Lead Acid Battery” or equivalent UL listed or UL Recognized. Connect the battery wire leads to the terminal connections, as shown.
PFC-6075R • 5403594 • REV D • 9/14 Section 3: Installation This section addresses installation procedures for SLCs, NACs and optional modules, including the DACT (UD-1000), Class A Card, and Remote Annunciators. Wiring requirements and configuration examples are included throughout this section. Instructions for addressing SLC devices which must be completed before programming your system are also included.
PFC-6075R • 5403594 • REV D • 9/14 Class A, Style 6 Wiring Configuration Figure 8. Example of Class A, Style 6 Requiring CA-6075 S- Address No. S+ Address No. S- 24- 24+ S- Address No. UL Monitored Output Module Model No. MOM-4 Ser. No. xxxxxx FIRE ALARM EQUIPMENT XXXX Document: TN51317e date:XX.XX.2009 WARNING : Terminals S+, S- are power limited. Terminals NO1, C1, NC1, NO2, C2, NC2 are non power limited Document: TN51318e date:XX.XX.
PFC-6075R • 5403594 • REV D • 9/14 Connecting Analog Detectors When installing analog detectors, such as a photoelectric smoke sensor (PSA), photo smoke/fixed heat detector (PSHA), heat detector (FHA), or an analog combination type heat detector (RHA), use detector bases (i.e. AB-6). An analog detector activates its response LED when activated. An example of wiring an analog detector is shown below. Figure 10.
PFC-6075R • 5403594 • REV D • 9/14 Miniature Contact Module (MCM) Refer to the figure shown below for a MCM wiring example. Figure 13. MCM Wiring Example Note: The resistance of external wiring shall be less that 100Ω. The capacitance of external wiring shall be less than 1 micro farads. 5.1KΩ 1/2W EOLR NO COM S+ To Next Module S- SLC Loop Mini Contact Module Model No.
PFC-6075R • 5403594 • REV D • 9/14 When configuring a Class B, the DCM-4 has two (2) addresses. If address No.1 is set, input circuit No.1 (NO1, C1) will be addressed as No.1, and input circuit No.2 (NO2, C2) will automatically be addressed as No.2. Refer to the figure below for an example of wiring a Class B DCM-4. Figure 16. DCM-4 with Two Class B Circuits Note: The resistance of external wiring shall be less that 100Ω. The capacitance of external wiring shall be less than 1 micro farads.
PFC-6075R • 5403594 • REV D • 9/14 Figure 19. Example of MOM-4 Wiring as a Releasing Device From FACP or Previous Module Select DC JP1 SLC Loop S+ To Next Module From FACP or Previous Module End of Line Device 5.1Kohm 1/2W Part#3005012 Output Rating: 24VDC / 2.0A S- A+ 24+ A- 24- Releasing Device LED Monitored Output Module Model No.
PFC-6075R • 5403594 • REV D • 9/14 Single Action / Dual Action Pull Station (APS-SA / APS-DA) The APS-SA/DA addressable pull stations are non-coded that provide an addressable point to the panel. The APS pull stations have terminals that allow the SLC to be wired directly to the device and then exit to the next device in the loop. Refer to the wiring example shown below. Figure 22.
PFC-6075R • 5403594 • REV D • 9/14 Addressing SLC Devices Before devices can be programmed, they must be assigned a unique address. There are two (2) methods to address devices: (1) You may use a hand-held address setting device or (2) Use the panel's System Tools – SLC Addr Prog option. Only authorized system users may access the System Tools options. You may sequentially address individual devices or groups of devices and assign different numerical ranges (i.e., #1-15, 30-50, and 60-75) as necessary.
PFC-6075R • 5403594 • REV D • 9/14 For a Single Device: 1. From the SLC Addr Prog menu, press 1 to address a Single device. 2. Attach connector wires to SLC PGM terminals, if not already done. The “Connect Device” prompt displays. 3. Connect device. The “Found Address: xx” prompt displays. yy Modify new address, if needed, or press ENTER to continue. yy The “Writing Addr: XX” prompt displays, and the system beeps three (3) times when completed.
PFC-6075R • 5403594 • REV D • 9/14 Notification Appliance Circuits Installation There are two (2) NAC circuits provided on the PFC-6075R rated as continuous 3 amps at 24 VDC. The NAC circuits may be configured for Class A or Class B. (Please refer to the Class A and B wiring examples located in this section.) NAC Wiring yy Outputs are supervised and regulated. yy Circuits are power limited.
PFC-6075R • 5403594 • REV D • 9/14 Figure 25.
PFC-6075R • 5403594 • REV D • 9/14 NAC as Releasing Device Circuit The releasing device circuit is typically a NAC programmed to control a releasing device, such as a solenoid or squib. It is fully supervised and power limited. Figure 26. NAC Releasing Circuit Wiring with EOLD Assembly NAC 1 + NAC 2 + Panel Connection End of line device 5.
PFC-6075R • 5403594 • REV D • 9/14 I/O Circuit Configuration The PFC-6075R is equipped with two (2) I/O circuits that may be configured as either input or output devices. The panel has ground fault detection on the I/O circuits. The impedance to ground for ground fault detection is 0 ohms. Note: The I/O circuits only operate as Class B. Refer to the figure shown below for a wiring example of an I/O circuit configuration. Figure 27.
PFC-6075R • 5403594 • REV D • 9/14 Reverse Polarity Communication Line Circuit Only I/O 1 and I/O 2 on the PFC-6075R can be programmed as reverse polarity circuits. The short circuit current is rated at 24 VDC and 14 mA maximum. Please refer to the figure below for an example of wiring a reverse polarity communication line circuit. Figure 28.
PFC-6075R • 5403594 • REV D • 9/14 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. Figure 29. Municipal Box Wiring Example - I/O 1 + - I/O 2 Panel Connection + End of line device 5.1k ohm 1/2W Part #3005012 + Municipal Box Notes: I/O circuits and/or NAC Circuits can be used as Municipal Box connection .
PFC-6075R • 5403594 • REV D • 9/14 CA-6075 Class A Expander Installation The Class A configuration requires the use of the CA-6075. Once the card is installed, the additional terminals are provided for the return loop of the NAC. The CA-6075 provides the terminals for both NACs, SLCs, and P-Link. Refer to the figures below for examples of installing and wiring a Class A expander card. Notes: 1. One (1) CA-6075 Class A expander may be installed per panel. 2.
PFC-6075R • 5403594 • REV D • 9/14 P-Link Devices Accessory devices, such as remote and LED annunciators, and the relay expansion board (RLY-5), are connected to the main control panel utilizing the four-wire P-Link bus for power and communication. This panel supports a maximum of 64 P-Link devices, which can be connected using a Class B or Class A wiring style (examples are provided throughout this topic).
PFC-6075R • 5403594 • REV D • 9/14 Figure 33. Example of P-Link Class A Wiring Requiring a CA-6075 P-LINK + A A + B Panel Connection B Expansion Device - + A B - P-LINK + A - - B CA-6075 Connection DWG #602-12A Expansion Device P-Link Addresses Each P-Link device has a five position dip switch which is used to program the device address ranging from one (1) to thirty-one (31).
PFC-6075R • 5403594 • REV D • 9/14 Remote Annunciators Installation (RA-6500R / RA-6500 and RA-6075R / RA-6075) The panel supports up to thirty-one (31) annunciators in any combination may be connected to the main fire control panel. The RA-6500R/RA-6500 provides a 4 x 40 character LCD display. Whereas, the RA-6075R/RA-6075 provides a 2 x 16 character LCD display, along with standard function and numeric keys.
PFC-6075R • 5403594 • REV D • 9/14 The LED-16 is 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 24VDC source, and is fully supervised. Figure 36.
PFC-6075R • 5403594 • REV D • 9/14 The 50 programmable LED outputs are located on connectors P1-P5, each containing ten (10) LED outputs and two (2) 5VDC outputs. The system LEDs and PZT control outputs are located on connector P6. LEDs are wired as shown below; no external resistor is required. All outputs are power limited. Figure 39.
PFC-6075R • 5403594 • REV D • 9/14 Setting Addresses The DRV-50's address is set by dip switch S1, which is located on the back of the board. The address must be set in the range of one to thirty-one (1–31) to be recognized by the panel. (Refer to the "P-Link Addresses" table shown earlier in this section for DIP switch programming.) Figure 42.
PFC-6075R • 5403594 • REV D • 9/14 Setting Addresses The RLY-5's address is set by dip switch S1, which is located on the back of the board. The address must be set in the range of one to thirty-one (1–31) to be recognized by the panel. (Refer to the "P-Link Addresses" table shown earlier in this section for DIP switch programming.) Figure 45.
PFC-6075R • 5403594 • REV D • 9/14 Setting Addresses The FCB-1000's address is set by dip switch S1. The address must be set in the range of one (1) to thirty-one (1–31) to be recognized by the panel. (Refer to the "P-Link Addresses" table shown earlier in this section for DIP switch programming.) Figure 48.
PFC-6075R • 5403594 • REV D • 9/14 FIB-1000 Wiring FIB-1000s are installed in pairs. (Please refer to Diagrams #1 & 2 shown below to properly wire the two FIB-1000s.) The first FIB-1000, referred to as "FIB-1000 (A)" below can be installed in any of the compatible fire alarm enclosures, or the FIB1000RM. It is connected via the 4-wire P-Link connection. Set S2 on FIB-1000 (A) to the "OFF" position, which provides an outgoing fiber option connection.
PFC-6075R • 5403594 • REV D • 9/14 Setting Addresses The FIB-1000's address is set by dip switch S1, which is located on the back of the board. The address must be set in the range of one to thirty (1–30) to be recognized by the panel. (Refer to the "P-Link Addresses" table shown earlier in this section for DIP switch programming.) Figure 52.
PFC-6075R • 5403594 • REV D • 9/14 Setting Addresses A SPG-1000 address is set by dip switch S1. The address must be set in the range of one (1) to thirty-one (1–31) to be recognized by the panel. (Refer to the "P-Link Addresses" table shown earlier in this section for DIP switch programming.) Figure 55.
PFC-6075R • 5403594 • REV D • 9/14 The UD-1000 slides into the guides located at the bottom of the panel, and then secured with screws as shown in the following illustration. Figure 56. Example of an Installed UD-1000 Dialer Screw UD-1000 DACT Slides in guides under main board. DWG #593-32A P-Link & Dip Switch Locations The UD-1000 is connected to the P-Link bus.
PFC-6075R • 5403594 • REV D • 9/14 Section 4: Operation This section provides an overview of the control panel’s basic operations, which includes the status LEDs, function pushbuttons, and a Control Panel Menu Tree quick reference sheet. Control Panel Basic Operation The control panel is comprised of a two (2) line x 16-character LCD display panel, arrow keys, push button function keys, status LEDS, and the numeric keypad.
PFC-6075R • 5403594 • REV D • 9/14 Menu Navigation Keys The arrow keys allow you to scroll or move through the control panel menus. The Enter and Esc keys may also be used to navigate through menus; they are located on the numeric keypad. The table shown below provides a summary of the navigation keys. Table 6: Menu Navigation Keys Push button Description Moves/scrolls up or down through menus. Scrolls to the left or right to display details, if any, of current menu item.
PFC-6075R • 5403594 • REV D • 9/14 The table below provides a brief summary of the pushbuttons: Table 7: Control Panel Pushbuttons Pushbutton Description Press to acknowledge the currently displayed condition. Press to silence all outputs programmed as silenceable and buzzer. Press to reset panel to normal condition. Press to begin a fire drill. Status LEDs The control panel’s LEDs communicate system conditions by illuminating and/or flashing the applicable green, red or amber indicators.
PFC-6075R • 5403594 • REV D • 9/14 Control Panel Menu Tree This section provides a reference to menu options as they appear on the LCD panel. Appendix G also provides a copy of the menu tree.
PFC-6075R • 5403594 • REV D • 9/14 Section 5: Programming This section addresses programming options and their parameters, provides an overview of the programming process, and addresses how to use the two programming methods: (1) the LEARN function, and (2) the remote computer programming process. This section also includes procedures on uploading and downloading configuration data using the panel configuration software.
PFC-6075R • 5403594 • REV D • 9/14 Table 9: Programming Options Topic Feature or Option Zone Zone Type Permitted in UL (Y/N) Possible Settings Setting(s) Permitted in UL864? Y Alarm Supervisory Positive Alarm Sequence Auxiliary Releasing Fire Drill System Alarm System Supervisory System Trouble All settings allowed 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
PFC-6075R • 5403594 • REV D • 9/14 Table 9: Programming Options Topic SLC Point Feature or Option Function Permitted in UL (Y/N) Possible Settings Setting(s) Permitted in UL864? Comment Y Photo Detector (PSA) Photo Duct Detector (DSA) Photo/Heat Detector (PSHA) 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.
PFC-6075R • 5403594 • REV D • 9/14 Programming Overview The LEARN function is available through the control panel, and is an efficient way to automatically configure all system devices. LEARN detects all connected devices, assigns a name and selects the applicable device type (i.e., module, sensor or P-Link device). The system configuration mirrors a basic fire protection system where all inputs and outputs are a one-to-one relationship.
PFC-6075R • 5403594 • REV D • 9/14 LEARN Programming The LEARN mode enables you to efficiently configure all connected, addressed input and output devices. (Refer to Section 3: Installation – Addressing SLC Devices, for detailed instructions.) Only authorized users may access this function. LEARN generates a list of all points, which may be viewed through the Points and Zones functions on a remote computer. (Refer to the “Configuring Points” and “Mapping Zones” sections for details.
PFC-6075R • 5403594 • REV D • 9/14 The following series of messages display on the LCD: PFC-6075R Initializing IP PFC-6075R Obtaining IP Notes: • If the Ethernet cable is connected to PC, you will see the "Initializing IP" message prior to the "Obtaining IP" message. • If your PC is connected directly to the panel, the "Obtaining IP" message displays for approximately 45 seconds, followed by the "Private IP" message (the "Private IP" message is not shown here). IP address 10.0.5.
PFC-6075R • 5403594 • REV D • 9/14 Transferring Data This section provides step-by-step instructions for completing uploading and downloading data transfers. The "Transfer" icons are located at the top of the Programmer window and are briefly described below. Table 10: Transfer Functions Icons Description Downloads configuration file from computer to panel. Uploads configuration file from panel to computer. Uploads history events file from panel to computer.
PFC-6075R • 5403594 • REV D • 9/14 Uploading from Panel to Computer is used to upload the configuration file from the panel to the The Upload Configuration File to Computer transfer icon computer once the LEARN function is completed or whenever devices are added or removed from the panel. To upload programming changes to computer: 1. Click the Upload Configuration File to Computer icon or right click from “Transfers” region as shown below: Figure 65.
PFC-6075R • 5403594 • REV D • 9/14 4. Enter IP address or panel name in the “Transfer Via IP” field. Notes: • To capture your panel’s unique IP address, disconnect the Ethernet cable from panel. The message “Ethernet Lost” displays indicating connectivity is lost. Be prepared to write down the address, and reconnect cable. • If you are connecting via a modem, please refer to “Appendix B: Modem Connectivity Setup”. 5. Click OK. The Transfers region displays the uploaded file. Figure 68.
PFC-6075R • 5403594 • REV D • 9/14 File New The File New menu option is used to complete all programming from scratch on the computer. You must select the correct panel model prior to programming. Note: It is imperative that you choose the correct panel model prior to programming or completing any data transfers, otherwise, you cannot complete a successful download to the panel. If this occurs, you will have to reprogram the entire panel. Figure 69.
PFC-6075R • 5403594 • REV D • 9/14 Downloading a Configuration File To download the configuration file: 1. Click the Download Configuration File to Panel icon or right click from the “Transfers” region, then click “Add”. The Transfer dialog box displays. Figure 72. Example of Transfer – Download Dialog Box 2. Verify that Download is selected in the “Transfer Type” field. 3. Enter the file name in the “Filename” field or click the Browse button to select file name. 4.
PFC-6075R • 5403594 • REV D • 9/14 Uploading History Events & Detector (Sensitivity) Status Reports The Upload History File to Computer and Upload Detector (Sensitivity) Status to Computer icons allow you to view valuable information that can be essential when analyzing system operations. You may choose to print the History and Detector Status reports by using the Print icon. These reports may also be scheduled to be sent automatically to authorized e-mail addresses.
PFC-6075R • 5403594 • REV D • 9/14 Detector Sensitivity Status Reports The Upload Detector Status File to Computer icon allows you to create reports showing sensor sensitivity related settings. This information may be used to troubleshoot detector issues. To transfer detector (sensitivity) status information: 1. Click the Upload Detector Status File to Computer icon 2. Verify that Detector Status is selected in the “Transfer Type” field. 3. Click OK. The Transfers window displays results.
PFC-6075R • 5403594 • REV D • 9/14 Printing Reports The Print icon allows you to print History and Detector Status reports. Double-click the History or Status file listed in the Transfer window prior to clicking the Print icon. An example of the Report window, which displays a History report, is shown below: Figure 79. Example of the History Report (Print) Window Move the mouse across the Print icons to display their descriptions. To print a History or Detector Status Report: 1.
PFC-6075R • 5403594 • REV D • 9/14 Panel Software Overview This section gives you an overview of the Panel Configuration Software. It addresses navigating through the program windows, understanding the purpose of icons and program features, using Window’s conventional editing techniques and other program shortcuts to efficiently configure your system. Window Regions / Areas What you select a function from the Panel window located on the left, this determines the information displayed on the right.
PFC-6075R • 5403594 • REV D • 9/14 Program Icons The panel software uses several standard Windows’ icons, such as the close button and scroll bars. There are others that are unique to the panel software, such as auto hide, and window position which are summarized in the table below: Table 11: Panel Configuration Icons Name Icon Description/Function Located in the upper right region of some windows.
PFC-6075R • 5403594 • REV D • 9/14 Programming Functions Overview The table below gives you a snapshot of the menu order along with a brief description of each. Details for these options are provided on the following pages. Table 12: Programming Menu Overview Menu Option Description Remote Access Code Displays remote access “User Name” and “Password”. Job Details Allows site specific information to be entered.
PFC-6075R • 5403594 • REV D • 9/14 Remote Access Code The Panel Configuration window displays the remote access user name and password on the right section of the screen (refer to the example shown below). Figure 83. Example of the Panel Configuration Screen User Name / Password The default user name and password is “Potter” as shown below; they can be changed to ensure that only authorized personnel can transfer data to and from the panel. Figure 84. Remote Access Code Screen Notes: 1.
PFC-6075R • 5403594 • REV D • 9/14 General System Functions Job Details Site specific information, such as company name, address and phone numbers may be entered in this window. This information is stored in the panel and is used to identify the panel when using e-mail reporting options. Please refer to the figure shown below. To enter site information: 1. Click the Job Details program option. The Job Details window displays. Figure 85. Job Details Window 2.
PFC-6075R • 5403594 • REV D • 9/14 Day/Night Sensitivity Mode and Holiday Scheduling The Sensitivity option allows you to enable the “Day/Night Sensitivity” feature, establish the starting and ending times for “Night” sensitivity, create a “Holiday Schedule”, and choose the days of the week that the site is normally occupied. Note: The Day/Night Sensitivity option is not selected or enabled by default. To enable day/night sensitivity and setup holidays: 1. Click on the Sensitivity option.
PFC-6075R • 5403594 • REV D • 9/14 User Codes The Users option allows you to create up to ten (10) user code profiles, if needed. Each profile may have different access rights, which controls the panel functions a user may access as well as the option to connect to the Facility Management Tool. Note: Please refer to the "Facility Management Tool" manual to learn more about programming, installing and using this tool. To create a new user: 1. Click on the Users option. The User’s Code window displays.
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information. System E-mail Functions The PFC-6075R comes with built-in e-mail capabilities.
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information. P-Link E-mail Notification Requirements The following table lists the necessary hardware and Internet connectivity requirements to use P-Link functions, such as DACT and e-mail notification.
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information. E-mail Report Programming To setup History and Detector Status reports schedule: 1. Click on the E-mail Reporting option. The E-mail Reporting window displays. 2.
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information. 3. Select one or more e-mail address using one of the following options: • Choose "Use Default” to select the address entered in “General Options” (as shown below).
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information. 3. In the “Subject” field, enter one or more of the following keywords: • History to send a current event history report back to sender. • Status to send a current detector (sensitivity) status report back to sender.
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information.
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information. Figure 98. Example of Detector "Sensitivity" Status Comma Separated Values file (.csv) Refer to Table 17 – Zone Attributes in this Section for an explanation of Day/Night Sensitivity settings. Figure 99.
PFC-6075R • 5403594 • REV D • 9/14 System e-mail communications and functions are intended for informational reporting purposes only. They are intended to be used as a convenience function. E-mail communications should NOT be used as a primary means of reporting emergency information. Creating E-mail Reminders E-mail reminders are fully customizable e-mail messages that may be sent based on a predefined schedule.
PFC-6075R • 5403594 • REV D • 9/14 System Programming System programming involves defining the function of devices and their relationships to each other, referred to as mapping. You can define behavior characteristics of individual or groups of devices, map devices into zones, and further customize your system using the panel configuration software from a computer.
PFC-6075R • 5403594 • REV D • 9/14 Mapping Terminology The table below provides mapping terms that may be helpful to you in understanding the mapping concept: Table 15: Mapping Terminology Term Definition Mapping Creating relationships between devices, modules and sensors and defining their behavior. A group of devices. yy Zones may represent a group of devices located in a specific physical area at the site. Example: Zone 1 comprised of all devices located in the main lobby of a hotel, [i.e.
PFC-6075R • 5403594 • REV D • 9/14 Table 16: Zone Styles Zone Description System Alarm Used for outputs that will be activated upon any alarm. System Supervisory Used for outputs that will be activated upon any supervisory. System Trouble Used for outputs that will be activated upon any trouble. Zone Attributes Zone attributes are the settings that control the overall behavior of devices within the zone. The zone may be configured as latching or non-latching, silenceable vs.
PFC-6075R • 5403594 • REV D • 9/14 Table 17: Zone Attributes Attribute Output Pattern Default = Constant Day Sensitivity Default = 3.5% Range: 1.1% – 3.5% Night Sensitivity Default = 2.5% Range: 1.1% – 3.5% Description • Defines the output pattern of general-purpose NAC circuits in the zone that occurs during alarm conditions. • Click on drop-down arrow to display and select an option: Constant 24VDC ANSI .5 sec on, .5 sec off, .5 sec on, .5 sec off, 5 sec on, 1.
PFC-6075R • 5403594 • REV D • 9/14 Releasing Zone Attributes The fields shown below are available only when configuring a “Releasing” zone. Please refer to the “Releasing Zones Configuration” heading located later in this section for details on these fields. Figure 105. Releasing Zone Fields Creating Zones When creating zones, you may create one or more at a time. This section explains this process and includes examples for your convenience. To create a zone: 1.
PFC-6075R • 5403594 • REV D • 9/14 Configuring Zones The next step is to customize a zone’s attributes, which includes changing the name, selecting type of zone, and other characteristics (i.e., constant, double time output pattern, latching or non-latching, silenceable, auto-silence timer, etc.). To configure a zone: 1. Double-click in the Zone’s “Name” field to modify default name. Note: Up to 16 alphanumeric characters may be entered. For example: “Main Lobby” or “Server Room.” 2.
PFC-6075R • 5403594 • REV D • 9/14 NAC Functions The four (4) on-board circuits (NACs 1&2, I/O Ckts 1&2) are automatically configured as “General Purpose”, but may be reconfigured and renamed. The I/O circuits have additional configuration options since they may be configured as inputs. Refer to the tables below for descriptions of the configuration functions. Table 18: NAC & I/O Circuit Configuration Functions Function Description Unused Circuit is unused.
PFC-6075R • 5403594 • REV D • 9/14 SLC Functions The SLC configuration options are described in the table below: Table 20: SLC Configuration Functions Function Description Unused SLC point is unused.
PFC-6075R • 5403594 • REV D • 9/14 To configure points: 1. Click on the Points function to display the "Points Configuration" window. Figure 110. Example of a Configuration Window Note: Click the columns to sort devices by the field selected, i.e., "Name", "Alarm Verification" or "Low Temp Trouble". 2. • Supervisory – Designates a detector as a supervisory input instead of an alarm input. • Alarm Verification – Specifies that a detector will utilize the alarm verification feature.
PFC-6075R • 5403594 • REV D • 9/14 To configure a range of points: 1. Click the first point to configure from the “Function” field. 2. Press and hold the SHIFT key, then click in “Function” field of last point. Figure 112. Example of Configuring a “Range” of Points 3. Right-click from “Function” field to display configuration options. Note: If you right-click outside of “Function” field, the range is deselected, and only one (1) device will be configured. 4. Click on device type from shortcut menu.
PFC-6075R • 5403594 • REV D • 9/14 4. Click on device type from the shortcut menu. In the example shown here, "Addr Detector Photo Heat" has been selected as the device type. Figure 114. Example of Configuring “Selective” Points Adding Points to Zones This section provides procedures and examples of adding points to one or more zones. Points can be moved and deleted from zones through the Zones panel using the “drag and drop” technique.
PFC-6075R • 5403594 • REV D • 9/14 3. Drag and drop selected points from the Points' window to the “Device” window. The selected points display in the “Device” window, as shown below. Figure 117. Example of Moving Selected Points into a Zone To move one or more points into multiple zones: 1. Select the applicable Zones in the Zones window, and select points. 2. Drag and drop selected points into Device window. Figure 118.
PFC-6075R • 5403594 • REV D • 9/14 Group by Area You may group information by different fields in many of the program windows. This flexibility is helpful when configuring or viewing a large amount of information, such as all devices, zones or remote annunciators. Examples are included for illustration purposes only. To group by area (field): 1. Click on “group bar” located at top of window, if available. Figure 120. Example of Group Bar in Points Window 2. The “group by area” region displays, as shown.
PFC-6075R • 5403594 • REV D • 9/14 Cross Zone Configurations The purpose of creating cross zones is to ensure that two (2) or more separate zones are activated before an output zone is triggered. Although crossing two (2) zones is the most common configuration, up to eight (8) zones may be combined. In this case, when all the zones that have been crossed are active, the specified outputs will be activated.
PFC-6075R • 5403594 • REV D • 9/14 Releasing Zone Configurations The flexibility of the PFC-6075R system provides the platform for a variety of releasing applications.
PFC-6075R • 5403594 • REV D • 9/14 Table 21: Releasing Zone Fields Fields Abort Type Default = None Pre-Release Timer Default = 60 seconds Range = 0 – 60 seconds Pre-Release Pattern Default = Constant Description 3. IRI (Industrial Risk Insurers) yy Abort switch must be pressed before any pre-discharge begins. yy When the alarm count is reached, the pre-discharge time begins counting down to 10 seconds and holds.
PFC-6075R • 5403594 • REV D • 9/14 Single Interlock (One Count) Releasing Application This releasing application requires the activation of one zone or a manual release input within a designated releasing zone to start the release sequence. Figure 126. Example of Single Interlock (One Count) Releasing Application One (1) releasing zone contains two (2) input devices and one (1) output.
PFC-6075R • 5403594 • REV D • 9/14 Two Count Releasing Application with Abort Switch This releasing application requires the activation of two sensors or a manual release input within a designated releasing zone to start the release sequence. The timing of the release can be affected by the operation of an abort input within the designated releasing zone. Activation of an input module classified for the abort switch function will initiate the abort type sequence as selected in programming.
PFC-6075R • 5403594 • REV D • 9/14 Programming Modules This section addresses how to program optional all P-Link appliances, including the DACT (UD-1000), RA-6500R, RA-6075R, CA-6075 Class A expansion card, LED-16 annunciators, and others. CA-6075 Class A Converter Module The PFC-6075R supports one (1) Class A Expander card. To add and configure a Class A module: 1. Select the Class A Card function from the system panel. 2. Click the Add Device button. The “Add Device” window displays. Figure 131.
PFC-6075R • 5403594 • REV D • 9/14 Remote Annunciators (RA-6500R/RA-6500 and RA-6075R/RA-6075) The PFC-6075R supports up to thirty-one (31) remote annunciators in any combination of RA-6500R/RA-6500 and RA-6075R/ RA-6075. Each LCD annunciator may be programmed with a unique name to help identify the location of an “off normal” condition. To add and configure a remote annunciator: 1. Select Annunciators from system panel. 2. Click the Add Device button to display the "Annunciator Add Device” window.
PFC-6075R • 5403594 • REV D • 9/14 LED Driver (DRV-50) The panel supports ten (10) DRV-50s. The DRV-50 provides up to 50 LED outputs which may be mapped to any zone. Like the LED annunciator, the LED driver provides five (5) non-programmable system LEDs that annunciate the overall system condition (Power, Earth, Silenced, Alarm, Supervisory and Trouble). Additionally, the LED driver has four (4) programmable supervised dry contact inputs.
PFC-6075R • 5403594 • REV D • 9/14 Fire Communications Board (FCB-1000) The panel supports one (1) FCB-1000. The FCB-1000 provides a remotely-located IP connection into the panel, which may be designated as the IP reporting device versus passing through the on-board internet connection. To add and configure the FCB-1000 board: 1. Select FCB-1000 from the system panel. 2. Click the Add Device button. The “Add Device” window displays. Figure 137. Example of Add FCB-1000 Window 3.
PFC-6075R • 5403594 • REV D • 9/14 Serial Parallel Printer (SPG-1000) The SPG-1000 module allows up to 31 serial and/or parallel printers to be used to log system events. Note: Parallel printers must be connected to the DB25 (J1) connector, serial printers to the DB9 (J2) connection. To add and configure the SPG-1000: 1. Select SPG-1000 from the system panel. 2. Click the Add Device button to display the “Add Device” window. Figure 139. Example of the Add SPG-1000 Window 3.
PFC-6075R • 5403594 • REV D • 9/14 Fiber Interface Bridge (FIB-1000) The panel supports thirty (30) FIB-1000s. This optional board allows the standard 4-wire P-Link bus to be converted to and/or from fiber optic cable. To add and configure the FIB-1000 Bridge: 1. Select FIB-1000 from the system panel. 2. Click the Add Device button. The “FIB-1000 Add Device” window displays. Figure 140. Example of the Add FIB-1000 Window 3. Double-click in the “Name” field to customize name. 4.
PFC-6075R • 5403594 • REV D • 9/14 DACT (UD-1000) Each system may have one DACT module or Digital Alarm Communicator Transmitter. The DACT provides notification to a remote monitoring company when alarms, troubles and supervisory conditions occur. Programming options allow you to select separate accounts for test events and alarm, trouble, and supervisory conditions.
PFC-6075R • 5403594 • REV D • 9/14 To add and configure a DACT module: 1. Select the Dialer function from the system panel. 2. Click the Add Device button. The “Add Dialer” window displays. Figure 143. Example of Add Dialer Window 3. In the “Phone Line 1 and Phone Line 2” fields, make any necessary changes. Figure 144. Example of Phone Lines Options Each "," (comma) creates a 1-second pause before the dialer attempts to dial a reporting account number.
PFC-6075R • 5403594 • REV D • 9/14 Section 6: PSN-1000 / PSN-1000(E) – Installing, Operating & Programming The PSN-1000 and PSN-1000(E) power supply boards provide power and communication expansion capability to the PFC-6000 series control panels. They provide an electrically isolated P-Link repeater output that supports additional power and communications distance. The PSN-1000(E)'s larger cabinet allows space for mounting up to six (6) additional P-Link and expansion cards (i.e., FIB-1000, etc.).
PFC-6075R • 5403594 • REV D • 9/14 Wiring Types Wiring specifications must be followed to prevent damage and/or other consequences.
PFC-6075R • 5403594 • REV D • 9/14 Cabinet Installation The PSN-1000/PSN-1000(E) slides into the guides located at the bottom of the panel, and then secured with screws as shown in the following illustration. Figure 147.
PFC-6075R • 5403594 • REV D • 9/14 Cabinet Wiring Connections Figure 148.
PFC-6075R • 5403594 • REV D • 9/14 Rechargeable Battery Circuit The battery charging circuit is on the power supply board providing terminal connections to connect the wire leads. The battery must be a recognized or listed sealed lead acid battery or equivalent. It is rated for 8 to 55 AH batteries and will operate the panel alarm for at least 24 hours and 5 minutes. The battery charging voltage is approximately 27.3 VDC and the circuit is supervised. The maximum battery charging circuit is 1.0 amp DC.
PFC-6075R • 5403594 • REV D • 9/14 PSN-1000/PSN-1000(E) Battery Calculation Worksheet Complete one for all P-Link devices powered by the PSN-1000 / PSN-1000(E) Alarm (mA) Total Alarm (mA) 60 200 200 LCD Remote RA-6075R / RA-6075 20 25 LCD Remote RA-6500R / RA-6500 20 50 PSN-1000/E Power Expander 15 15 LED-16 P-Link LED-Current (if applicable, see Note 6) 25 15 25 210 DRV-50 LED-Current (if applicable, see Note 6) 25 10 25 215 RLY-5 Relay Current (if applicable, see Note 6) 25 10 35 1
PFC-6075R • 5403594 • REV D • 9/14 Notification Appliance Circuits (NACs) There are six (6) NAC circuits provided on the PSN-1000/PSN-1000(E) rated as continuous 3 amps at 24 VDC. The NAC circuits may be configured for Class A or Class B. (Please refer to the Class A and B wiring examples shown in this section.) The circuits reverse polarity upon activation and are marked accordingly on the board and illustrations. NAC Wiring • Outputs are supervised and regulated. • NAC circuits are power limited.
PFC-6075R • 5403594 • REV D • 9/14 Figure 150. PSN-1000 / PSN-1000 (E) Class A NAC Wiring Example - I2 + - NAC 2 + - NAC 4 + - NAC 6 + - I1 + - NAC 1 + - NAC 5 + - NAC 3 + - + A B + A B P-LINK Notification Appliance DWG #602-25 PSN-1000/PSN1000(E) as Releasing Device Circuit The releasing device circuit is typically a NAC programmed to control a releasing device, such as a solenoid or squib. Any of the PSN-1000/PSN-1000(E) NACs may be programmed as a releasing circuit.
PFC-6075R • 5403594 • REV D • 9/14 Input Circuits The panel is equipped with two (2) input circuits, I1 and I2, that are low voltage, power limited, and supervised. When configured, the circuits function as dry-contact monitoring circuits. Note: These circuits operate as Class B only. Please refer to the figure shown below. Configuration Characteristics • Maximum allowable wire length is 10,000 feet. • Maximum allowable wiring resistance is 100 ohms. • Maximum wiring capacitance is 1 uF.
PFC-6075R • 5403594 • REV D • 9/14 Repeater Output The PSN-1000/PSN-1000(E) repeater output provides power which supports additional P-Link devices, including LCD Annunciators and/or SLC Loop expanders. This is possible because the P-Link repeater output reconditions and repeats all P-Link communications. Refer to the following figures for examples of Class A and B wiring. Configuration Characteristics yy PSN-1000 current rating is one (1) amp. yy PSN-1000 voltage rating is 24 VDC.
PFC-6075R • 5403594 • REV D • 9/14 Municipal Box Connection When the PSN-1000/PSN-1000(E) is programmed as a municipal box connection, the circuit is power limited and supervised for open and short circuit conditions. It also provides a local energy connection. Please refer to the figure shown below for a wiring example. Configuration Characteristics yy NAC1-NAC6's trip current is 3 amps. yy Maximum voltage rating is 24 VDC. Notes: 1.
PFC-6075R • 5403594 • REV D • 9/14 PSN-1000/PSN-1000(E) Operations The PSN-1000/PSN-1000(E) operates as a fully integrated power expander. The input circuits and/or NAC circuits are configured in the same manner as any input circuit or NAC circuit in the system. Circuit functions and zone assignments are defined using the system software. Status LEDs The PSN-1000/PSN-1000(E)'s status LEDs communicate system conditions by illuminating and/or flashing the applicable green or amber indicators.
PFC-6075R • 5403594 • REV D • 9/14 PSN-1000/PSN-1000(E) Programming The panel can be programmed to support up to thirty-one (31) PSN-1000/PSN-1000(E) Power Expanders. Each power supply provides six (6) NAC circuits (3A max), and two (2) dry contact input circuits. Both Class A and B configurations are supported; however, Class A requires that NAC circuits are paired as follows: NAC 1&2, NAC 3&4 and NAC 5&6, thus providing three (3) Class A circuits.
PFC-6075R • 5403594 • REV D • 9/14 Notes: yy If a power supply is Class A, select the applicable NACs (NAC 1/2, NAC 3/4 or NAC 5/6). yy If a power supply is Class B, programming is completed. yy Class-A operation may be independently selected for the P-Link repeater output and any of the NAC circuit pairs. 4. Repeat steps, as needed, to continue creating or adding additional power supplies. Deleting a Power Supply To delete a power supply: 1.
PFC-6075R • 5403594 • REV D • 9/14 Section 7: IP Communication The system's built-in, on-board IP Communicator provides notification to a remote monitoring company when alarms, troubles, and supervisory conditions occur. The IP Communicator is used with an IP capable Sur-Guard receiver by means of the Fibro protocol. Note: The UD-1000 or DACT may also be installed to provide notification to a remote monitoring company via telephone lines.
PFC-6075R • 5403594 • REV D • 9/14 Programming the IP Communicator IP Reporting Accounts The "IP Reporting Accounts" section is used to program the IP Communicator operations and to customize the format of the reporting accounts. You may choose different settings for Alarms, Troubles and Supervisory conditions. Up to five (5) primary or secondary accounts may be configured. To add and configure a IP Dialer: 1. Select IP Dialer from the system panel, and click the Add IP Reporting button.
PFC-6075R • 5403594 • REV D • 9/14 Figure 165. Example of Primary Account Settings "Expanded" Window Click here to collapse additional fields. Notes: – Use the scroll bar to display additional fields if not shown on right. – Click the collapse icon at any time to hide the account setting fields. yy Enter the Account ID. yy Select the applicable Primary Format option: CID / SIA yy Click in the Report Test Events selection box to send Test signals to this account.
PFC-6075R • 5403594 • REV D • 9/14 Appendix A: Basic Operating Instructions These instructions must be framed and displayed next to the PFC-6075R panel in accordance with NFPA 72 fire code for Local Protected Fire Alarm Systems. Test the system in accordance to NFPA 72. Table 25: Button Functions Button Function ACK Arrows Drill Esc Reset Silence Table 26: Operating Instructions Operation Task Silence Alarms, Troubles Press the SILENCE pushbutton.
PFC-6075R • 5403594 • REV D • 9/14 Table 26: Operating Instructions Operation Set Date / Time Enable / Disable Point View Event History Task • Press ENTER – Main Menu. • Press 3 – Set Date / Time. • Use keypad to enter correct date; use right arrow to move through date field and to display time field. • Press ENTER to save changes. • • • • • • • • Press ENTER – Main Menu. Press 2 – Enable/Disable; enter panel’s code. Press 1 – By Point Up / Down to select Device / Internal SLC / PWR, and press ENTER.
PFC-6075R • 5403594 • REV D • 9/14 Appendix B: Modem Connectivity Setup If your computer uses a modem for connectivity to the panel, choose the Options – Communications menu option. This involves choosing “Modem” as the transfer medium, and specifying the modem com port. In rare instances, a modem may also require an initialization string. Refer to your manufacturer’s instructions for this information. To setup a modem: 1. Select Options – Communication. The "Communication – Options" dialog box displays.
PFC-6075R • 5403594 • REV D • 9/14 Appendix C: System Maintenance and Testing Acceptance Test The control panel is required to be installed in accordance with local and state building codes and NFPA 72 (National Fire Alarm Code). At the conclusion of each original installation or modification of this system, the control panel and related system is required to be inspected and tested in accordance with NFPA 72 to verify compliance with the applicable standards.
PFC-6075R • 5403594 • REV D • 9/14 Appendix D: PSN-1000/PSN-1000(E) Maintenance and Testing De-Energize Unit Prior to Servicing. The power supply board 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 F1. 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.
PFC-6075R • 5403594 • REV D • 9/14 Appendix E: Compatible Devices Table This section provides a listing of all NAC appliances, two-wire (2-wire) smoke detectors, releasing and SLC circuit devices, optional modules, and other device compatibilities. Table 27: Device / Modules Compatibilities Module/Device Compatibilities NAC Appliances Refer to Potter document “5403592 NAC Compatibility Document”.
PFC-6075R • 5403594 • REV D • 9/14 Appendix F: TroubleShooting Tips This section provides basic error messages, their descriptions and recommended actions for each condition. Table 28: Troubleshooting Error Message Error Description/Action Keypad “##”: Missing The panel is not able to communicate with the annunciator. Action: Check wiring and programming. SLC “##”: TYPE ERR Device is not programmed for the correct function. Action: Program device for correct function.
PFC-6075R • 5403594 • REV D • 9/14 Appendix F: Troubleshooting Tips MAIN MENU 1=View History 2=Enable/Disable 3=Set Date/Time 4=Walk Test 2=By Zone 1=By Point Select Device Internal SLC Internal PWR Zone 1 1=Disable Inputs 2=Disable Outputs MAIN MENU 5=System Tools 1=SLC Tools 2=Point Control 3=Ethernet Status 4=DACT Test 5=DACT Reset 6=Erase History 7=Lamp Test 8=App Revisions 6=Programming 1=LEARN Mode 2=Panel Default 3=IP Settings 4=Dflt ID/Pswd 5=Prog ID/Pswd Esc=Exit 1=SLC Pinpoint 2=SL
Fire Panel Operating Instructions 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.
