Potter ARC-100 Fire Alarm Installation Manual

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ARC 100 Alarm Installation Manual Electric Signal Company LLC Louis MO Service 866 240 1870 Technical Support 866 956 1211 Fax 314 595 6999 listing information visit our website www pottersignal com 5403650 Rev E Installation Wiring Documents 50Hz 60Hz 50Hz 60Hz to separate AC circuit VAC Position relays are limited connection non power limited two 2 12V batteries connected in series 1 2 PAD100 SLC DEVICES P LINK DEVICES 640 1 1 ARC 100 Addressable Fire Panel Wiring Diagram of Circuit Connection Connection Relay Relay Relay Circuits Device Circuits NACs RS 485 Connections Line Circuit Line DACT Type Voltage Voltage Voltage Voltage Voltage Voltage Voltage Voltage Voltage Voltage Type Limited Limited Limited Limited Limited Limited Limited Limited Limited Limited INSTALLATION MANUAL 5403650 REV E 12 20firealarmresources com AC terminals are located in the upper left hand portion of the main board The main board supervises the main power and provides indication that the AC power is absent Supply Circuit 50 60 Hz 50 60 Hz to separate AC circuit G 2 Main Supply Circuit POWER 593 6 terminals are rated at 120 VAC 240 VAC 50 60 Hertz and are marked so accordingly on the board The earth connection is marked as and is the furthest connection from the line voltage connection AC input power ratings of 5A at the nominal 120 VAC rating of 3A at the nominal 240 VAC rating Battery Circuit battery charging circuit is provided on the main panel in the lower left portion of the board Terminal are provided to connect wire leads for battery connection The battery must be a recognized or listed lead acid battery or equivalent battery charging voltage is approximately 27.3 VDC and the circuit is supervised The battery circuit is protected a non replaceable 7 amp poly switch located on the main circuit board The maximum battery charging circuit is amp DC battery circuit is rated for 8 to 55 AH batteries and the cabinet will house up to two 18 AH batteries The will operate the panel for at least 24 hours and 5 minutes of alarm In order to determine the minimum size for standby and alarm times desired the installer must complete a battery calculation work sheet in order to the minimum battery size for a particular application For reference the battery calculation work sheet is as Appendix A Complete standby battery calculations must be completed to ensure adequate battery sizes provided INSTALLATION MANUAL 5403650 REV REV E 12 20firealarmresources com V V 593 5 3 Battery Circuit Connections of Circuits Power Limited Non Power Limited High Voltage Wiring main AC power connection is considered high voltage and non power limited The phone line connections to the are high voltage power limited Battery conductors and the alarm supervisory and trouble relays are non limited All remaining circuits are low voltage power limited connections separation must be maintained between the circuits listed above All separations in the different wiring must maintained by at least 0.25 inches and the wire insulation must be for the higher voltage the panel there are sufficient knock outs located around the periphery of the cabinet to allow the installer to power limited and non power limited connections The main AC power connection should be made on left side or top left of the cabinet The DACT wiring connections should be made along the top right side of the Appliance Circuits NACs panel is equipped with two NAC circuits and each are rated for a continuous 3 amps at 24 VDC The outputs supervised and regulated The NACs reverse polarity upon activation and the board and illustrations are marked panel can be programmable to allow for addition of a CA 6075 Class A Expander This expander allows for A operation of the NACs Each Class A circuit is rated for a continuous 3 amps at 24 VDC The outputs are and regulated circuits are power limited and the type of output is selectable The NACs may be configured for strobe with AMSECO Wheelock Gentex or System Sensor strobe devices as shown compatible in this and the installation instructions maximum impedance is a function of the load being applied to the circuit In order to calculate the maximum as follows Current of Notification Appliances X Wire Resistance 3 volts NAC circuits may be configured for Class A or Class B panel has ground fault detection on the NAC circuits The impedance to ground for ground fault detection is ohms INSTALLATION MANUAL 5403650 REV E 12 20firealarmresources com 1 NAC 2 602 4A EOL Part 3005013 4 Class B NAC Wiring 1 NAC 2 1 NAC 2 602 5B 5 Class A NAC Wiring Requires CA 6075 end of line resistor is a 5.1K ohm resistor The resistor assembly has been evaluated in past projects and is a in the Potter panel product line The Potter part number for the listed end of line assembly is 3005013 EOL Assembly INSTALLATION MANUAL 5403650 REV REV E 12 20firealarmresources com Circuits panel is equipped with two I O circuits The I O circuits can be configured as either an input or an output The circuits can be used in Class B mode only Circuit as Inputs inputs the I O circuits are used as a dry contact monitoring inputs and are power limited and supervised wiring resistance 100 ohms wiring capacitance 1 uF wire length 10,000 feet IDC voltage 24 VDC IDC current 15 ma circuit can be configured for the same selection of contact input functions as the SLC MCM and SCM modules Circuit as Outputs NAC outputs each of the I O circuits is rated for 1 amp continuous current at 24 VDC The outputs are supervised and The circuits reverse polarity upon activation and the board and illustrations are marked accordingly circuit is power limited and the type of output is selectable I O circuits may be configured for strobe with AMSECO Wheelock Gentex or System Sensor strobe devices as shown compatible in this and the installation instructions maximum impedance is a function of the load being applied to the circuit In order to calculate the maximum as follows Current of Notification Appliances X Wire Resistance 3 volts panels have ground fault detection on the I O circuits The impedance to ground for ground fault detection is 0 1 I O 2 Open Contact EOL Part 3005013 EOL Part 3005013 602 7A 6 I O Circuits Shown as Class B NAC Dry Contact Input end of line resistor is a 5.1K ohm resistor The resistor assembly has been evaluated in past projects and is a in the Potter panel product line The Potter part number for the listed end of line assembly is 3005013 EOL Assembly INSTALLATION MANUAL 5403650 REV E 12 20firealarmresources com Line Circuit SLC panel is equipped with one built in SLC loop supporting a maximum of 100 PAD protocol devices One PAD100 or one SLCE 127 can be added to the system to support 100 devices instead of using the built in SLC loop The supports the PAD protocol and the SLCE 127 supports the Nohmi protocol addressable points may be any combination of smoke sensors heat detectors input modules or output modules SLC provides power and communication to each of the sensors and modules connected The SLC is fully in that the communication signal is sent and must be received from each device The entire loop is polled every 4 seconds voltage range for the SLC is 22 24 VDC The power is a constant regulated connection with a maximum line of 50 ohms The SLC has a maximum loop capacitance of 0.5 micro farads The maximum PAD100 SLCE loaded loop current is 90.61 mA panel has ground fault detection on the SLC circuits and addressable devices The impedance to ground for fault detection is 0 ohms SLC may be configured and installed as a Class A Class X or Class B

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