FCI2016-U1 / FCI2017-U1 Periphery board (250p) / Periphery board (500p) Mounting Installation A6V10315038_f_en_-2016-02-25 Building Technologies Siemens Industry, Inc.
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Table of contents 1 1.1 1.2 1.3 1.4 1.5 1.6 1.7 Periphery board (250p) FCI2016 ................................................................. 5 Description ....................................................................................................... 5 Installation ........................................................................................................ 7 Views ...............................................................................................................
2 2.1 2.2 2.3 2.4 Periphery board (500p) FCI2017 ................................................................ 25 Description ......................................................................................................25 Installation .......................................................................................................27 Views ..............................................................................................................28 Configuration input power and battery .
Periphery board (250p) FCI2016 Description 1 1 Periphery board (250p) FCI2016 1.1 Description The periphery board (250p) FCI2016 is used for fire control panels and voice alarm fire control panels with max. 252 device addresses. The purpose of the periphery board is to provide means for supervising and controlling various peripheral devices, such as detectors and notification devices, and providing power for the entire panel.
1 Periphery board (250p) FCI2016 Description Properties ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● Two different power supplies can be connected: – Power supply (170 W) FP2011 only for fire control panels with a maximum load of 6.5 A – Power supply (300 W) FP2012 for fire control panels and voice alarm fire control panels with a maximum loading of 11.
Periphery board (250p) FCI2016 Installation 1 1.2 Installation The chapter describes how to install periphery board (250p) FCI2016 in the fire control panel and the voice alarm fire control panel. Figure 1: Installing the periphery board (250p) 1 Threaded standoffs on back box 2 12x fixing screw 3 Periphery board (250p) w The back box is installed. w The openings for passing through cables have been broken out. w The power cable is fed through and is disconnected from the power supply.
1 Periphery board (250p) FCI2016 Views 1.3 Views X1401 X1402 1 1 X1101 1 7 6 12 1 X1302 1 H1301 X801 X602 X603 X601 S100 1 X605 X604 X606 X403 3 1 1 X902 1 X204 X901 1 1 X1001 F302 F301 1 3 1 1 1 X201 X202 X301 1 1 X302 X305 X303 1 X304 Figure 2: Printed circuit board view for FCI2016 8 | 46 Building Technologies A6V10315038_f_en_-- Siemens Industry, Inc.
Periphery board (250p) FCI2016 Views 1 Element Des.
1 Periphery board (250p) FCI2016 Configuration input power and battery 1.4 Configuration input power and battery The periphery board has jumpers that are used to configure the system functions. The jumper settings are described in the following sections. 1.4.1 Wiring power supply input and battery Power supply 1 connection (170 W or 300 W) Connection X301 must be used for a single power supply. Jumper X305 must be plugged onto position 1-2.
Periphery board (250p) FCI2016 Configuration input power and battery 1 1.4.2 X301 Power supply terminal block 1 Make sure AC is disconnected. Wire power supply (300 W or 170 W) connection to X301. Check whether jumper X305 is in position 1-2 before a single power supply is connected. Terminal X301 must always have a power supply connected. Do not connect AC or batteries until all jumpers and modules are configured and connected in the system.
Periphery board (250p) FCI2016 1 Configuration input power and battery 1.4.3 X302 Power supply 2 terminal block Terminal block X302 may only be used for an additional PS300 when the system requirements exceed 300 W. The housing (3HU) is the only housing that is capable of having two PS300 supplies connected at the same time. No power supply (170 W) may be connected to terminal block X302. Terminal X301 must always have a power supply connected.
Periphery board (250p) FCI2016 NAC circuits 1 1.4.5 X304 Voice supply +24 V The X304 connector on the periphery board provides the power for all Voice option modules inside the VCA2002 Card Cage and for the connected peripherals. The cable that connects X304 on the Periphery Board to X101 on the Card Cage is included in the VCA2002's scope of supply. 1.4.6 X303 Battery terminal A cable harness is required to connect batteries to the periphery board.
1 Periphery board (250p) FCI2016 NAC circuits You will find information on the installation in the following documents: ● A6V10315015 for Desigo ● A6V10333409 for Cerberus PRO You will find information on the configuration in the following documents: ● A6V10315023 for Desigo ● A6V10333423 for Cerberus PRO 1.5.1 Wiring the NAC circuits The following wiring diagrams show how to connect notification devices to the circuit, either as class A (style Z) or class B (style Y) circuit.
Periphery board (250p) FCI2016 NAC circuits 1 1.5.3 X602 jumper – ENABLE/DISABLE DEGRADED MODE for NAC 1 class A or NAC 1-1 class B Errors of the power PC are displayed on the PMI & mainboard when degraded mode is activated. X602 3 Jumper position Function Meaning 3-2 Enable degrade Enable degraded mode for NAC 1 class A or NAC 1-1 class B. Circuit will activate the notification appliances if degraded mode is activated and an alarm is present.
Periphery board (250p) FCI2016 1 Bell follower input 1.5.6 X403 jumper – DEGRADE ALARM SILENCEABLE Degraded mode behavior of the NAC circuit during an alarm X403 3 Jumper position Function 3-2 NONSILENCEABLE When degrade mode is active in the system, and an alarm is present, this setting prevents the user from turning off the notification appliances.
Periphery board (250p) FCI2016 Auxiliary DC 24 V output 1 1.7 Auxiliary DC 24 V output Auxiliary output DC 24 V with a maximum output current of 1.5 A. The output can be used for devices such as door holders, DACT, or RDT. The circuit is power limited and is protected against a direct shorted output. The output is power limited and supervised for overcurrent. To configure the output to shut down during AC loss to conserve the battery, you must configure the system with the Engineering tool set.
1 Periphery board (250p) FCI2016 Detector circuits, circuit driver 1 (circuits 1 and 2) 1.8.1 Wiring C NC NO C NC NO Alarm 1 6 Supervisory 7 Trouble 12 User C NC NO C NC NO 1.8.
Periphery board (250p) FCI2016 Detector circuits, circuit driver 1 (circuits 1 and 2) 1 1.9.1 Wiring No EOL required No EOL required Initiating device X1401 4 3 2 1 X1402 1+ 1- 2+ 2- 4 3 1+ 1- 2 1 2+ 2- Figure 5: Style 6 wiring Both circuits are supervised and power limited. No EOL required No EOL required Initiating device X1401 4 3 2 1 1+ 1- 2+ 2- X1402 4 3 2 1 1+ 1- 2+ 2- Figure 6: Style 4 wiring Both circuits are supervised and power limited.
1 Periphery board (250p) FCI2016 Indicators 1.9.2 X1401 terminal block – detector circuit 1 Pin Designation Description 1 2- Return feed for circuit 1-2 2 2+ Positive feed for circuit 1-2 3 1- Return feed for circuit 1-1 4 1+ Positive feed for circuit 1-1 Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG 1.9.
Periphery board (250p) FCI2016 Technical data 1 1.12 Technical data Supply input Battery output NAC circuit AUX output Plug strip X301/302 Operating voltage DC 24 V nominal, filtered Operating current (standby) 120 mA Max. operating current. 136 mA Input current (active) Design ● PS170W (only fire detection systems) 6.5 A at ● 1 x PS300W 11.5 A ● 2 x PS300W 20 A Not power limited Plug strip X303 Voltage DC 20.4 V…DC 26.4 V (DC 24 V nominal) Curent Max. 11.
1 Periphery board (250p) FCI2016 Technical data Bell follower input Detector circuits Relay contacts Plug strip X1001 Voltage DC 24 V filtered or full wave Curent Max. 4 mA Design Voltage surge protection Terminal strips X1401 circuit card 1, circuit 1 X1402 circuit card 1, circuit 2 Output voltage DC 24 V, filtered Number of integrated circuit cards 1 Output current per integrated circuit card Max. 500 mA Addressable devices per integrated circuit card Max.
Periphery board (250p) FCI2016 Technical data Connection terminals Voice alarm supply 1 Inputs, outputs and detector circuits ● Design Plug-in screw terminals ● Admissible cable crosssection Once 12...18 AWG or twice 16...18 AWG Connecting plug X304 Output +24 V Output voltage DC 24 V nominal, filtered Max. output current 20 A Design ● ● Not power limited Short-circuit-proof Building Technologies 23 | 46 A6V10315038_f_en_-- Siemens Industry, Inc.
1 Periphery board (250p) FCI2016 Technical data 24 | 46 Building Technologies A6V10315038_f_en_-- Siemens Industry, Inc.
Periphery board (500p) FCI2017 Description 2 2 Periphery board (500p) FCI2017 2.1 Description The FCI2017 periphery board (500p) is used for fire control panels and voice alarm fire control panels with max. 504 device addresses. The purpose of the periphery board is to provide means for supervising and controlling various peripheral devices, such as detectors and notification devices, and providing power for the entire panel.
2 Periphery board (500p) FCI2017 Description Properties ● ● ● ● ● ● ● ● ● ● ● ● ● ● ● Two different power supplies can be connected: – Power supply (170 W) FP2011 only for fire control panels with a maximum load of 6.5 A – Power supply (300 W) FP2012 for fire control panels and voice alarm fire control panels with a maximum loading of 11.
Periphery board (500p) FCI2017 2 Installation 2.2 Installation The chapter describes how to install periphery board (500p) FCI2017 in fire control panels and voice alarm fire control panels. 1 2 3 Figure 7: Installing the periphery board (500p) 1 Threaded standoffs on back box 2 12x fixing screw 3 Periphery board (500p) w The back box is installed. w The openings for passing through cables have been broken out. w The power cable is fed through and is disconnected from the power supply.
Periphery board (500p) FCI2017 2 Views 2.3 Views X1401 X1402 X1801 X1802 1 1 1 1 X1101 1 7 1 X1302 6 12 1 H1701 H1301 1 X1702 X801 1 X602 X603 X601 S100 1 X605 X604 X606 X403 3 1 1 X902 1 X204 X901 1 1 X1001 F302 F301 1 3 1 1 1 X201 X202 X301 1 1 X302 X305 X303 1 X304 Figure 8: Printed circuit board view for FCI2017 Element Des.
Periphery board (500p) FCI2017 Views 2 Element Des.
2 Periphery board (500p) FCI2017 Configuration input power and battery 2.4 Configuration input power and battery The periphery board has jumpers that are used to configure the system functions. The jumper settings are described in the following sections. 2.4.1 Wiring power supply input and battery Power supply 1 connection (170 W or 300 W) Connection X301 must be used for a single power supply. Jumper X305 must be plugged onto position 1-2.
Periphery board (500p) FCI2017 Configuration input power and battery 2 2.4.2 X301 Power supply terminal block 1 Make sure AC is disconnected. Wire power supply (300 W or 170 W) connection to X301. Check whether jumper X305 is in position 1-2 before a single power supply is connected. Terminal X301 must always have a power supply connected. Do not connect AC or batteries until all jumpers and modules are configured and connected in the system.
Periphery board (500p) FCI2017 2 Configuration input power and battery 2.4.3 X302 Power supply 2 terminal block Terminal block X302 may only be used for an additional PS300 when the system requirements exceed 300 W. The housing (3HU) is the only housing that is capable of having two PS300 supplies connected at the same time. No power supply (170 W) may be connected to terminal block X302. Terminal X301 must always have a power supply connected.
Periphery board (500p) FCI2017 NAC circuits 2 2.4.6 X303 Battery terminal A cable harness is required to connect batteries to the periphery board. The battery connector end that goes on the periphery board at X303 can only connect one way because it is keyed. The battery connection is only made once the whole system has been configured through jumpers and modules, and after AC has been applied.
2 Periphery board (500p) FCI2017 NAC circuits 2.5.1 Wiring the NAC circuits The following wiring diagrams show how to connect notification devices to the circuit, either as class A (style Z) or class B (style Y) circuit. For class A, no end-of-line resistor is needed. It is built into the circuit. To ensure proper functioning, the jumpers must be set correctly for class A/B selection. In the diagrams below, polarity is shown in activated condition.
Periphery board (500p) FCI2017 NAC circuits 2 2.5.3 X602 jumper – ENABLE/DISABLE DEGRADED MODE for NAC 1 class A or NAC 1-1 class B Errors of the power PC are displayed on the PMI & mainboard when degraded mode is activated. X602 3 Jumper position Function Meaning 3-2 Enable degrade Enable degraded mode for NAC 1 class A or NAC 1-1 class B. Circuit will activate the notification appliances if degraded mode is activated and an alarm is present.
Periphery board (500p) FCI2017 2 Bell follower input 2.5.6 X403 jumper – DEGRADE ALARM SILENCEABLE Degraded mode behavior of the NAC circuit during an alarm X403 3 Jumper position Function 3-2 NONSILENCEABLE When degrade mode is active in the system, and an alarm is present, this setting prevents the user from turning off the notification appliances.
Periphery board (500p) FCI2017 Auxiliary DC 24 V output 2 2.7 Auxiliary DC 24 V output Auxiliary output DC 24 V with a maximum output current of 1.5 A. The output can be used for devices such as door holders, DACT, or RDT. The circuit is power limited and is protected against a direct shorted output. The output is power limited and supervised for overcurrent. To configure the output to shut down during AC loss to conserve the battery, you must configure the system with the Engineering tool set.
2 Periphery board (500p) FCI2017 Detector circuits, circuit driver 1 (circuits 1 and 2) and circuit driver 2 (circuits 3 and 4) 2.8.1 Wiring C NC NO C NC NO Alarm 1 6 Supervisory 7 Trouble 12 User C NC NO C NC NO 2.8.
Periphery board (500p) FCI2017 Detector circuits, circuit driver 1 (circuits 1 and 2) and circuit driver 2 (circuits 3 and 4) 2 2.9.1 Wiring No EOL required No EOL required Initiating device X1401 4 3 2 1 X1801 4 X1402 3 2 1 X1802 1+ 1- 2+ 2- 1+ 1- 2+ 2- Figure 11: Style 6 wiring Both circuits are supervised and power limited.
2 Periphery board (500p) FCI2017 Detector circuits, circuit driver 1 (circuits 1 and 2) and circuit driver 2 (circuits 3 and 4) 2.9.
Periphery board (500p) FCI2017 Indicators 2 2.
2 Periphery board (500p) FCI2017 Technical data 2.12 Technical data Supply input Battery NAC circuit AUX output Plug strip X301/302 Operating voltage DC 24 V nominal, filtered Operating current (standby) 120 mA Max. operating current. 136 mA Input current (active) Design ● Plug strip X303 Voltage DC 20.4 V…DC 26.4 V (DC 24 V nominal) Curent 11.5 A Plug strip X601 Voltage DC 24 V Special Application for strobe loads Regulated for non-pulsing loads Standby operating current Max.
Periphery board (500p) FCI2017 Technical data Bell follower input Detector circuits Relay contacts 2 Plug strip X1001 Voltage DC 24 V filtered or full wave Curent Max. 4 mA Design Voltage surge protection Terminal strips X1401 circuit card 1, circuit 1 X1402 circuit card 1, circuit 2 X1801 circuit card 2, circuit 3 X1802 circuit card 2, circuit 4 Output voltage DC 24 V, filtered Number of integrated circuit cards 2 Output current per integrated circuit card Max.
2 Periphery board (500p) FCI2017 Technical data Connection terminals Voice alarm supply Inputs, outputs and detector circuits: ● Design Plug-in screw terminals ● Admissible cable cross-section Once 12...18 AWG or twice 16...18 AWG Connecting plug X304 Output +24 V Output voltage DC 24 V nominal, filtered Max. output current 20 A Design ● ● Not power limited Short-circuit-proof 44 | 46 Building Technologies A6V10315038_f_en_-- Siemens Industry, Inc.
FCC Statement 3 3 FCC Statement WARNING Installation and usage of equipment is not in accordance with instructions manual Radiation of radio frequency energy Interference to radio communications ● ● Install and use equipment in accordance with instructions manual. Read the following information. This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instructions manual, may cause interference to radio communications.
Issued by Siemens Industry, Inc. Building Technologies Division 8 Fernwood Road Florham Park, NJ 07932 +1 973-593-2600 www.sbt.siemens.com/FIS Document ID: A6V10315038_f_en_-Edition: 2016-02-25 © Siemens Industry, Inc., 2011 Technical specifications and availability subject to change without notice. SAP order no.
