How it Works
Siemens
Loading...
FCI2016-U1
Mounting & Installation
46 pgs1.38 Mb0
Table of contents
Loading...

Siemens FCI2016-U1, FCI2017-U1 Mounting & Installation

Download
Page 1
FCI2016- U1 / FCI2017-U1
Building Technologies
Periphery board (250p) / Periphery board (500p)
Mounting Installa tion
A6V10315038_f_e n_-­2016-02-25 Siemens Industry, Inc.
Page 2
Legal notice
Building Technologies
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
Legal notice
Technical specifications and availability subject to change without notice.
Transmitt al, reproduction, dissemination and/ or editing of this document as well as utilization of its contents and communication thereof to others without express authorization are prohibited. Offenders will be held liable for payment of damages. All rights created by patent grant or registration of a utilit y model or design pat ent are reserved.
Issued by: Siemens Industry, Inc. Building Technologies Div ision 8 Fernwood Road Florham Park, NJ 07932 Tel. +1 973-593-2600 www.sbt.siemens.com/FIS
Edition: 2016-02-25 Document ID: A6V10315038_f_en_--
© Siemens Industry, Inc., 2011
2 | 46
Page 3
46
Building Technologies
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
Table of contents
1 Pe rip hery b oard ( 250p ) FCI 2016 ................................................................. 5
1.1 Description ....................................................................................................... 5
1.2 Installation ........................................................................................................ 7
1.3 Views ............................................................................................................... 8
1.4 Configuration input power and battery ............................................................. 10
1.4.1 Wiring po we r sup p ly in pu t and ba tte ry .............................................. 10
1.4.2 X301 Powe r supp l y termin a l blo ck 1 ................................................. 11
1.4.3 X302 Powe r supp l y 2 termina l blo ck ................................................. 12
1.4.4 X305 ju mper – Power supply 2 on/off ............................................... 12
1.4.5 X304 Voice su p p l y +24 V ................................................................. 13
1.4.6 X303 Battery terminal....................................................................... 13
1.5 NAC circuits .................................................................................................... 13
1.5.1 Wiring the NA C c i rcuits .................................................................... 14
1.5.2 X601 terminal block – NAC 1 class A / NAC 1-1 class B /
NAC 1-2 class B .............................................................................. 14
1.5.3 X602 jumper – ENABLE/DISABLE DEGRADED MODE for
NAC 1 class A or NAC 1-1 class B ................................................... 15
1.5.4 X603 jumper – ENABLE/DISABLE DEGRADED MODE for
NAC 1-2 class B .............................................................................. 15
1.5.5 X604, X60 5 , X6 0 6 Jumper – NAC 1 class A/B .................................. 15
1.5.6 X403 jump er – DEGRA DE ALA R M SIL EN CE ABL E .......................... 16
1.6 Bell follower input ........................................................................................... 16
1.6.1 Wiring .............................................................................................. 16
1.6.2 X801 Bell foll owe r termi na l blo ck ...................................................... 16
1.7 Auxiliary DC 24 V output ................................................................................. 17
1.7.1 Wiring .............................................................................................. 17
1.7.2 X1001 Auxi l ia ry outp ut termi na l blo ck ............................................... 17
1.8 Relays ............................................................................................................ 17
1.8.1 Wiring .............................................................................................. 18
1.8.2 X1101 Rela y termina l block .............................................................. 18
1.9 Detector circuits, circuit driver 1 (circuits 1 and 2) ............................................ 18
1.9.1 Wiring .............................................................................................. 19
1.9.2 X1401 terminal block – detector circuit 1 .......................................... 20
1.9.3 X1402 terminal block – detector circuit 2 .......................................... 20
1.10 Indicators ........................................................................................................ 20
1.11 Reset Buttons ................................................................................................. 20
1.11.1 S100 RESET periphery board .......................................................... 20
1.12 Technical data ................................................................................................ 21
3 |
Page 4
Building
Technologies
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
2 Per ip he ry bo a rd (5 00 p ) FCI2 0 17 ................................................................ 25
2.1 Description ......................................................................................................25
2.2 Installation .......................................................................................................27
2.3 Views ..............................................................................................................28
2.4 Configuration input power and battery ..............................................................30
2.4.1 Wiring power sup pl y inpu t and batte ry ...............................................30
2.4.2 X301 Powe r suppl y termin al bl ock 1 ..................................................31
2.4.3 X302 Powe r suppl y 2 termina l block ..................................................32
2.4.4 X305 ju mper – Power supply 2 on /off ................................................32
2.4.5 X304 Voice sup p l y +24 V ..................................................................32
2.4.6 X303 Battery terminal .......................................................................33
2.5 NAC circuits.....................................................................................................33
2.5.1 Wiring the NAC ci rcu i ts .....................................................................34
2.5.2 X601 terminal block – NAC 1 class A / NAC 1-1 class B /
NAC 1-2 class B ...............................................................................34
2.5.3 X602 jumper – ENABLE/DISABLE DEGRADED MODE for
NAC 1 class A or NAC 1-1 class B ....................................................35
2.5.4 X603 jumper – ENABLE/DISABLE DEGRADED MODE for
NAC 1-2 class B ...............................................................................35
2.5.5 X604, X60 5 , X60 6 Jumper – NAC 1 class A/B ...................................35
2.5.6 X403 jump er – DEGRADE ALARM S ILEN CEABL E ...........................36
2.6 Bell follower input ............................................................................................36
2.6.1 Wiring ...............................................................................................36
2.6.2 X801 Bell follo we r termina l block .......................................................36
2.7 Auxiliary DC 24 V output ..................................................................................37
2.7.1 Wiring ...............................................................................................37
2.7.2 X1001 Auxi li ary outp ut termin al blo ck ................................................37
2.8 Relays .............................................................................................................37
2.8.1 Wiring ...............................................................................................38
2.8.2 X1101 Rela y terminal block ...............................................................38
2.9 Detect or circuits, circuit driver 1 (circuits 1 and 2) and
circuit driver 2 (circuits 3 and 4) .......................................................................38
2.9.1 Wiring ...............................................................................................39
2.9.2 X1401 and X1801 terminal block – detector circuits 1 and 3 ..............40
2.9.3 X1402 and X1802 terminal block – detector circuits 2 and 4 ..............40
2.10 Indicators.........................................................................................................41
2.11 Reset Buttons ..................................................................................................41
2.11.1 S100 RESET periphery board ...........................................................41
2.12 Technical data .................................................................................................42
4 | 46
3 FCC Sta te men t ........................................................................................ 4 5
Page 5
Periphery board (250p) FCI2016
Description
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

1 Periphery board (250p) FCI2016

1

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 not ification devices, and providing power for the entire panel. There is a detector core on the periphery board, that is isolated from the rest of t he periphery board. An auxiliary output circuit (1.5 A, 24 V) provides power t o remote devices or internal modules. The integrated NAC circuit (NAC 1) provides up to 3 A of power for max. 1 class A circuit or 3 A for each of max. 2 class B circuits. The periphery board has expansion capabilit ies for leased line / city tie operation, a releasing circuit with 2 zones, and an additional NAC circuit (NAC 2).
The periphery board has a battery charger and battery switchover circuit for AC fail or brownout. The batter y charger is capable of charging up to 100 Ah batteries.
Building Technologies
5 |
Page 6
Periphery board (250p) FCI2016
Description
1
Building Technologies
A6V10315038_f_en_
--
Siemens Industry,
Inc.
2016-02-25
Properties
Two different power supplies can be connected:
Power supply (170 W ) FP2011 only for fire control panels with a m aximum load
of 6.5 A
Power supply (300 W) FP2012 for fire control panels and voice alarm fire
control panels with a max imum loading of 11.5 A
Power supply (300 W ) FP2012 for voice alarm fire control panels in housings
(3HU) with a maximum loading of 22 A
Battery charger capable of charging up to 100 Ah batteries at a maximum of 6 A.
Power supply (300W) FP2012 must be used for batteries of more than 33 Ah.
Power supply (170W) FP2011 must be used for batteries of 33 Ah or less
Ground fault s detected at <1 kΩ to ground
Ground fault detection for all circuits except the 2 detector c ircuits handled by PMI.
Each detector core has its own ground fault and supervision circuit.
One integrat ed FDnet/C-NET circuit card for circuits 1 and 2 and EMC surge
protection for four style 4 or two style 6 circuits.
Maximum of 252 device addresses can be controlled per integrated FDnet/C-NET
circuit card.
Three relay outputs and one user programmable relay output for common alarm,
common trouble, common supervision, and user programmable.
The auxiliary output is a regulated DC 24 V output with a max imum of 1.5 A.
Degraded alarm and trouble m ode functions when either or both CPUs for the
periphery board or PMI are compromised.
Integrat ed NAC circuit, specified for DC 24 V, configured for either one class A
(style Z) or two class B (style Y) circuits, with a maximum of 3 A for one class A or max. 3 A for each of the two class B circuits. NACs have integrated synchronization protocol for audible or visual notification appliances.
All NAC circuits are supervised and protected for overcurrent and direct short-
circuited output .
Two slots for optional extensions, one of which is for NAC module (1A/2B) or
releasing module (XCI2001): – NAC module (1A/2B) FCI2001 for one additional class A circuit or two class B
circuits (sam e data as integrated NAC circuit) (P/N S54400-A54-A1). T he module connects to X901.
Releasing module (XCI2001) (P/N S54400-A69-A1) The module connects to
X901.
Leased line or city t ie module FCI2020 (P/N 54400-A57-A1). The module
connects to X902.
Additional periph eral data bus connection (X202) for LED or DACT modules.
Main CPU and detector core CPUs capable of being updated in the f ield through
the PMI.
6 | 46
Page 7
Periphery board (250p) FCI2016
Installation
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

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.
1
Figure 1: Installi ng the periphery boar d (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. w The batteries are not installed or connected.
1. Install the periphery board (500p) (3) on the threaded sleeves (1) of the back box with the 12 fixing screws (2).
2. Wire the periphery board (250p) according to the pin assignments in the following chapters.
3. Set the jumpers.
4. Re-install any modules that you m ay have had to remove.
Building Technologies
7 |
Page 8
Periphery board (250p) FCI2016
Views
1
Building Technologies
A6V10315038_f_en_
--
Siemens Industry,
Inc.
2016-02-25
X801
X901
F301
X303
X304
X301
X202
X1101
X1402
X305
1
1111
1
1
X601
X603
X602
X605
X606
X604
F302

1.3 Views

X1401
H1301
X1302
S100
X403
X902 X204
1 1
1
1
1
3 1
1 6
7
12
8 | 46
X1001
1
11
X201
Figure 2: Printed circuit board view for FCI2016
X302
3
1
Page 9
Periphery board (250p) FCI2016
Views
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
Element Des. Function Fuses F301 30 A fuse for batter y
F302 Fuse 20 A for voice alarm DC 24 V output Indicators H1301 Status display for circuit card 1 (circuits 1 and 2) Adjustment elements S100 Reset key for periphery processor (without circuits) Jumpers X403 Degraded mode ALARM SILENCEABLE/NON SILENCEABLE
X602 Degraded mode ENABLE/DISABLE NAC 1 class A or NAC 1-1 class B
X603 Degraded mode ENABLE/DISABLE NAC 1-2 class B
X604 NAC 1 class A/B selection
X605 NAC 1 class A/B selection
X606 NAC 1 class A/B selection
X305 Power supply 2 ON/OFF Connector X201 Peripheral data bus to the PMI & mainboard
X202 Peripheral data bus output
1
X204 Future extension (not used)
X301 Connector for power supply 1 (PS1)
X302 Connector plug for power supply 2 (PS2) in housing (3HU)
X303 Battery connection
X304
DC 24 V connection to Card Cage VCA2002 for feed to the voice alarm
modules and associated peripher als X601 NAC1 output X801 BELL follower input X901 NAC 2 extension or releasing module X902 Leased line / city tie module X1001 Output DC 24 V AUX X1101 Plug bloc k for relay connections X1302 F or future application X1401 Det ector circuit circuit card 1, circuit 1 X1402 Det ector circuit circuit card 1, circuit 2
Building Technologies
9 |
Page 10
Periphery bo
ard (250p) FCI2016
Configuration input power and battery
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25

1.4 Configuration input power and battery

The periphery board has jum pers 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.
X301
+
BROO
PSSI 2
1
GND
+26V
3 4
Connection for power supply 2 (only 300 W)
Only one power supply (300 W ) may be connected to X302. A 2nd power supply (300 W) is only allowed in an housing (3HU). Jumper X305 must be plugged onto position 2-3.
X302
+
BROO
1 PSSI 2 GND
+26V
3
4
Battery connection
X303
-
BAT-12
BAT+
+
10 | 46
Page 11
Periphery board (250p) FCI2016
Configuration input power and battery
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

1.4.2 X301 Power supply terminal block 1

Terminal X301 must always have a power supply connected.
To power down the system, f irst disconnect the batteries and then the line
supply.
Make sure AC is disconnected. Wire power supply (300 W or 170 W) connection to X301. Check whether jum per X305 is in position 1-2 before a single power supply is connected.
Do not connect AC or batteries until all jumpers and modules are configured and connected in the system. Once everything is installed and connect ed, first AC, then the batteries must be connected.
Pin Designation Description
1
1 BROO
(White) AC low signal. Signals when the supply system connection drops below AC 102 V.
2 PSSI
(Green) Power supply status indication. Used by the
periphery board to know t he health of the power supply. 3 GND (Black) Return ( ground) 4 +24 V (Red) DC +24 V system supply
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG
Building Technologies
11 |
Page 12
Periphery board (250p) FCI2016
Configuration input power and battery
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25
Terminal block X302 may only be used for an additional PS300 when the system
Terminal X301 must always have a power supply
connected. When a single power
1
2
3
1
2
3

1.4.3 X302 Power supply 2 terminal block

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 term inal block X302.
supply is used, it must be c onnected to terminal X301.
Check whether jumper X305 is in position 2-3 before PS300 #1 is connect ed to X301 or #2 to X302. Make s ure line voltage is not present on the system, and that the breaker in the panel is off. Both power supplies need to be connected before line voltage is switched on at t he panel. X301 and X302 should never be connected/disconnect with line voltage present. Batteries may only be connected after the system is brought up on line voltage power.
Pin Designation Descript ion 1 BROO
(White) AC low signal. Signals when the supply system connection drops below AC 102 V.
2 PSSI
(Green) Power supply status indication. Used by the
periphery board to know t he health of the power supply. 3 GND (Black) Return ( ground) 4 +24 V (Red) DC +24 V system supply
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG

1.4.4 X305 jumper – Power supply 2 on/off

This jumper is used to configure the periphery board for one or two power supplies. The factory setting m ay only be changed when a second power supply (300 W) in an housing (3HU) is supported.
X305 Jumper position Function Meaning
1 - 2
2 - 3
Deactivated PS 2 300 W
Activated PS 2 300 W
Default sett ing; for power supply (170 W) and a single power supply (300 W).
For a second power supply (300 W) in an housing (3HU). The power supply is activated and is monitored by the system.
12 | 46
Page 13
Periphery board (250p) FCI2016
NAC circuits
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

1.4.5 X304 Voice supply +24 V

The battery
connection is only made once the whole system has been configured
The hardware required to connect the batteries to the periphery board is in the battery
The NAC circuit can be configured such that, when degraded mode is active,
the
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 inc luded 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. The battery connector end that goes on the periphery board at X303 can only connect one way because it is keyed.
through jumpers and modules , and after AC has been applied.
Pin Designation Description 1 BAT (+) DC 24 V feed for battery (RED WIRE) 2 BAT (-) Return (Ground) feed for battery (BLUE WIRE)
1
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG
kit.

1.5 NAC circuits

The periphery board has an NAC circuit that can be configured for 1 class A (style Z) or 2 class B (style Y) circuits. Configuration is done via 3 jumpers (X 604, X605 and X606).
NAC circuit is activ ated by an alarm in the case of a CPU error on the periphery board.
For the status of degraded mode during an active alarm, NAC activation is set by the jumpers X602 and X603.
The outputs are power limit ed and are supervised for short-circuit and open cir cuit. They are protected against direct short-circ uit of the output terminals.
The synchronization protocol is built into the panel, so no module is needed. The NAC is configured in the Engineering tool set. This includes the output pattern and
class A/B selection. Please note that the periphery board also has three jumpers (X 604, X605 and X606) that must m atch the settings in the Engineering tool set. If they do not match, a trouble will post on the system.
The end-of-line resistor is 2.4 kΩ, 1/2 W. These circuits are for NAC circuits NFPA 72 Local only. For NFPA 72 Municipal Tie or
NFPA 72 Leased Line, use the leased line/city tie module FCI2020. The module connects to X902.
Building Technologies
13 |
Page 14
Periphery board (250p) FCI2016
NAC circuits
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25
To ensure proper f unctioning, the jumpers must be set correctly
for class A/B
+
+
-
-
+
-
EOL
You will find information on the installation in the followi ng 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. For class A, no end-of-line resistor is needed. It is built int o t he circuit.
selection.
In the diagrams below, polarity is shown in activated condition. Notification appliance c ircuit supervised and power limited.
X601
+
NAC1-1 NAC1-1
NAC1-2 NAC1-2
4
-
3
+
2
-
1
Figure 3: X601: Class A (style Z) supervised output connection
X601
+
NAC1-1 NAC1-1
NAC1-2 NAC1-2
Figure 4: X601: Class B (style Y) supervised output connection
4
-
3
+
2
-
1
+
­*
EOL
* EOL resistance must be connec ted during non-use. EOL resistance: 2.4 kΩ, 0.5 W

1.5.2 X601 te rminal block – NAC 1 class A / NAC 1-1 class B / NAC 1-2 class B

Pin Designation Description 4 NAC1-1 (+) Positive feed f or notification appliances for NAC 1 class A or NAC 1-1 class B 3 NAC1-1 (-) Return feed for notification appliances for NAC 1 class A or NAC 1-1 class B 2 NAC1-2 (+) Positive feed f or notification appliances for NAC 1 class A or NAC 1-2 class B 1 NAC1-2 (-) Return feed for notification appliances for NAC 1 class A or NAC 1-2 class B
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG
14 | 46
Page 15
Periphery board (250p) FCI2016
NAC circuits
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
1.5.3 X602 jumper – ENABLE/DISABLE DEGRADED MODE for
1
2
3
123
123
NAC 1 class A or NAC 1-1 class B
Errors of the power P C are displayed on the PMI & mainboard when degraded mode is activated.
X602 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.
1 - 2 Disable degrade Disable degraded mode for NAC 1 class A or NAC 1-1 class B.
Circuit will not activate the notification appliances if degraded mode is activated and an alarm is present.

1.5.4 X603 jumper – ENABLE/DISABLE DEGRADED MODE for NAC 1-2 class B

Errors of the power P C are displayed on the PMI & mainboard when degraded mode is activated.
1
X603 Jumper position Function Meaning
3 - 2 Enable degrade
Enable degraded mode for NAC 1-2 c lass B. Circuit will not activate the notification appliances if degraded mode is activated and an alarm is present.
1 - 2 Disable degrade
Disable degraded mode for NAC 1-2 class B. Circuit will not activate the notification appliances if degraded mode is activated and an alarm is present.

1.5.5 X604, X605, X606 Jumper – NAC 1 class A/B

Class A/B setting of the onboard NAC circuit
X604 X605 X606
Jumper position Function Meaning
3 - 2 Class A Configures periphery board NAC 1 for class A wiring 1 - 2 Class B
Configures periphery board NAC 1-1 and NAC 1-2 for class B wiring
The class A/B configuration of the jumpers on the periphery board must be transferred in the Engineering tool set. An error is generated if the configurations do not match.
Building Technologies
15 |
Page 16
Periphery board (250p) FCI2016
Bell follower input
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25
123

1.5.6 X403 jumper – DEGRADE ALARM SILENCEABLE

Degraded mode behavior of the NAC ci rcuit during an alarm
X403 Jumper position Function Meaning
3 - 2 NONSILENCEABLE
1 - 2 SILENCEABLE

1.6 Bell follower input

The periphery board has an input designed to connect to an external f ire alarm control unit's NAC circuit so that the periphery board's NAC circuits can follow t he activation of the NAC circuits from an external source.

1.6.1 Wiring

NAC is active.
*1) Fire detect ion device or bell extender.
When degrade mode is active in the system, and an alarm is present, this setting prevents the user from turning off the notification appliances .
When degrade mode is active in the system, and an alarm is present, this setting allows the user to turn off the notification appliances. The notification devices remain switched off in the event of a further alarm.
X801
-
BF 1
+
BF
2
­+
*1
16 | 46

1.6.2 X801 Bell follower terminal block

Pin Designation Description 1 BF (-)
2 BF (+)
Admissible cable cros s-section: 1 x 12-18 AWG or 2 x 16-18 AWG
Input from external fire control panel and voice alarm fire control panel.
The return feed of the external fire control panel's NAC circuit connect s here.
Input from external fire control panel and voice alarm fire control panel.
The active positive output signal of the external fire control panel's NAC circuit connects here.
Page 17
Periphery board (250p) FCI2016
Auxiliary DC 24 V output
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

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 limit ed and is protected against a direct shorted output. The out put 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.
If the output is configured to turn off on battery, then the output is used for supplementary purposes only.

1.7.1 Wiring

X1001
+
AUX AUX AUX AUX
1
-
2
+
3
-
4
1

1.7.2 X1001 Au xiliary output termi nal block

Pin Designation Description 1 AUX (+) Positive feed for Aux circuit (DC +24 V) 2 AUX (-) Return feed Aux circuit 3 AUX (+) Positive feed for Aux circuit (DC +24 V) 4 AUX (-) Return feed Aux circuit
Admissible cable cros s-section: 1 x 12-18 AWG or 2 x 16-18 AWG

1.8 Relays

Common alarm relay
The alarm relay changes state whenever a fire alarm is detected. In degrade mode, the alarm relay will still activate in case of a fire, without processor control.
Common trouble relay
The trouble relay c hanges state whenever a system trouble is detected. In degrade mode, the trouble relay will still activate without processor control.
Common supervisory relay
The supervisory relay changes state whenever a supervisory trouble is detected. In degrade mode, the supervisory relay will not function.
Building Technologies
Programmable user relay
The user programmable relay changes state depending on the configurat ion set in the Engineering tool set.
In degrade mode, the user relay will not activate.
17 |
Page 18
Periphery board (250p) FCI2016
Detector circuits,
circuit driver 1 (circuits 1 and 2)
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25
C

1.8.1 Wiring

Supervisory
C NCNO
1
7
C NCNO C NCNO
NC NO
TroubleAlarm
6
12

1.8.2 X1101 Relay terminal block

Pin Designation Description 1 C Common contact common alarm relay 2 NC Normally closed contact common alarm relay 3 NO Normally open contact common alarm relay 4 C Common contact common trouble relay 5 NC Normally closed contact common trouble relay 6 NO Normally open contact common trouble relay 7 C Common contact common supervisory relay 8 NC Normally closed contact common supervisory relay
User
9 NO Normally open contact common supervisory relay 10 C Common contact programmable relay 11 NC Normally closed contact programmable relay 12 NO Normally open contact programmable relay
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG NO/NC (normally open / normally closed) relates to the fire detection system's normal
status.

1.9 Detector circuits, circuit driver 1 (circuits 1 and 2)

The periphery board (250p) has one independent integrated circuit card. This integrated card is a driver that has 2 circuits that can handle a maximum of 252 devices. Circuit driver 1 supports circuits 1 and 2 and can be configured for two circuits (style 6) or four circuit s (style 4).
The detector circuits are isolated from the periphery board's main circuit. The circuit card has its own microprocessor for supervising ground fault, short-circuit, open circuit, and line capacity.
18 | 46
Page 19
Periphery board (250p) FCI2016
Detector circuits, circuit driver 1 (circuits 1 and 2)
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

1.9.1 Wiring

X1402
No EOL required
X1402
No EOL required
132
4
Initiating device
1
No EOL required
2+
1324
2-1+ 1-
X1401
Figure 5: Style 6 wiring
Both circuits are supervised and power limited.
No EOL required
Initiating device
X1401
2+
2-1+ 1-
2+
2+
13 24
2-1+ 1-
13 24
2-1+ 1-
Figure 6: Style 4 wiring
Both circuits are supervised and power limited.
Building Technologies
19 |
Page 20
Periphery board (250p) FCI2016
Indicators
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25

1.9.2 X1401 terminal block – detector circuit 1

Pin Designation Description 1 2- Return feed for circuit 1-2 2 2+ Positive feed f or circuit 1-2 3 1- Return feed for circuit 1-1 4 1+ Positive feed f or circuit 1-1
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG

1.9.3 X1402 terminal block – detector circuit 2

Pin Designation Description 1 2- Return feed for circuit 2-2 2 2+ Positive feed f or circuit 2-2 3 1- Return feed for circuit 2-1 4 1+ Positive feed f or circuit 2-1
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG

1.10 Indicators

LED indicators on the FDnet/C-NET detector circuit
LED Color Condition Meaning H1301 Yellow OFF Normal condition
ON Startup problem s on integrated circuit card 1 1 x flash per second Fail-safe active (no communication to the PMI) 2 x flash per second Fail-safe active and local alarm 1 x flash every 2 seconds Fail-safe active and signalization (local alarm) 1 x flash per second and 2 x rapid
flash every 2 seconds
Fail-safe act ive and local alarm and signalization

1.11 Reset Buttons

1.11.1 S100 RESET periphery board

Button Function Position Meaning S100
20 | 46
Reset main microproc essor on periphery board
Not pressed Normal Pressed
Resets only the main microprocessor on the periphery board.
Page 21
Periphery board (250p) FCI2016
Technical data
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

1.12 Technical data

Supply input Plug strip X301/302
Operating voltage DC 24 V nominal, filtered Operating current (standby) 120 mA Max. operating cur rent. 136 mA
1
Input current (active) Design
PS170W (only f ire detection systems) 6.5 A at
1 x PS300W 11.5 A
2 x PS300W 20 A
Not power limited
Battery out put Plug strip X303
Voltage
DC 20.4 V…DC 26.4 V (DC 24 V nominal)
Curent Max. 11.5 A
NAC circuit Plug strip X601
Voltage DC 24 V
Special Application for strobe loads
Regulated for non-pulsing loads Standby operating cur rent Max. 10 mA Active operating current Max. 1x class A circuit or 2x class B circuits
Max. 3 A for 1x class A circuit
Max. 3 A per class B circuit
2x 3 A = 6 A for 2x class B circuits Max. circuit resistance 1.4 Ω @ 3.0 A Supervised for Open circuit
Short circuit
Ground fault
AUX output Plug strip X1001
Building Technologies
Design Short-circuit protection
Voltage surge protection
Power limited
Voltage DC 24 V nominal "Special Application"
For use with: FN2006/FN2007, HZM, HCP,
FCA2018, FT2014/FT2015, FTI2001 Curent Max. 1.5 A Design Short-circuit protection
Voltage surge protection
Power limited
21 |
Page 22
Periphery board (250p) FCI2016
Tec
hnical data
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25
Bell follower input Plug strip X1001
Voltage DC 24 V filtered or full wave Curent Max. 4 mA Design Voltage surge protection
Detector circ uits Terminal strips X1401 c ircuit card 1, circuit 1
X1402 circuit card 1, circuit 2 Output voltage DC 24 V, filtered Number of integrat ed circuit
1 cards
Output current per integrated
Max. 500 mA circuit card
Addressable devices per
Max. 252 integrated circuit card
Connectable circuits per
2 style 6 or 4 style 4 (mixed variants are possible) integrated circuit card
Protocol FDnet/C-NET Circuit resist ance Max. 180 Ω Capacity 500 nF per circuit Cable types All (twisted recommended)
You will find detailed specif ications in the following
documents:
A6V10315013 for Desigo
A6V10333396 for Cerberus PRO
Connectable devices See 'List of compatibility' Monitored for Ground fault
Short circuit
Open circuit
Circuit capacitance
Relay contacts Plug strip X1201
22 | 46
Design Short-circuit-proof
Voltage surge protection
Open circuit
Power limited
Design Relay output
Break or make contact
Nonpower limited
Alarm and trouble ac tive in degraded mode
operation Switching voltage DC 30 V or AC 120/240 V ohmic Switching current
5 A @ DC 30 V or AC 120 V 4 A @ AC 240 V
Page 23
Periphery board (250p) FCI2016
Technical data
1
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
Connection terminals
Inputs, out puts and det ector circuits
Design Plug-in screw term inals
Admissible cable cross-
Once 12...18 AWG or twice 16...18 AWG
section
Voice alarm supply 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 |
Page 24
Periphery board (250p) FCI2016
Technical data
1
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry,
Inc.
2016-02-25
24 | 46
Page 25
Periphery board (500p) FCI2017
Description
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

2 Periphery board (500p) FCI2017

2

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 f or the entire panel. There are 2 detector cores on the periphery board, each isolated from the rest of t he periphery board, and each other. An auxiliary output circuit (1.5 A, 24 V) provides power t o remote devices or internal modules. The integrated NAC circuit (NAC 1) provides up to 3 A of power for max. 1 class A circ uit or 3 A for each of max. 2 class B circuits. The periphery board has expansion capabilities for leased line / cit y tie operation, a releasing circuit wit h 2 zones, and an additional NAC circuit (NAC 2).
The periphery board has a battery charger and battery switchover circuit for AC fail or brownout. The batter y charger is capable of charging up to 100 Ah batteries.
Building Technologies
25 |
Page 26
Periphery board (500p) FCI2017
Description
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25
Properties
Two different power supplies can be connected: – Power supply (170 W ) FP2011 only for fire control panels with a m aximum load
of 6.5 A
Power supply (300 W) FP2012 for fire control panels and voice alarm fire
control panels with a max imum loading of 11.5 A
Power supply (300 W ) FP2012 for voice alarm fire control panels in housings
(3HU) with a maximum loading of 22 A
Battery charger capable of charging up to 100 Ah batteries at a maximum of 6 A.
Power supply (300W) FP2012 must be used for batteries of more than 33 Ah.
Power supply (170W) FP2011 must be used for batteries of 33 Ah or less.
Ground fault s detected at <1 kΩ to ground.
Ground fault detection for all circuits except the 2 detector c ircuits handled by PMI.
Each detector core has its own ground fault and supervision circuit.
Two integrat ed FDnet/C-NET circuit cards, one for circuits 1 and 2 and one for circuits 3 and 4, and EM C surge protection for eight style 4 or four style 6 circuits.
Maximum of 252 device addresses can be controlled per integrated FDnet/C-NET circuit card.
Three relay outputs and one user programmable relay output for common alarm, common trouble, common supervision, and user programmable.
The auxiliary output is a regulated DC 24 V output with a max imum of 1.5 A.
Degraded alarm and trouble m ode functions when either or both CPUs for the
periphery board or PMI are compromised.
Integrat ed NAC circuits, specified for DC 24 V, configured for either one class A (style Z) or two class B (style Y) circuits, with a maximum of 3 A for one class A or max. 3 A for each of the two class B circuits. NACs have integrated synchronization protocol for audible or visual notification appliances.
All NAC circuits are supervised and protected for overcurrent and direct short-
circuited output .
Two slots for optional extensions, one of which is for NAC module (1A/2B) or releasing module (XCI2001):
NAC module (1A/2B) FCI2001 for one additional class A circuit or two class B
circuits (sam e data as integrated NAC circuits) (P/N S54400-A54-A1). The module connects to X901.
Releasing module (XCI2001) (P/N S54400-A69-A1) The module connects to
X901.
Leased line or city t ie module FCI2020 (P/N 54400-A57-A1). The module
connects to X902.
Additional periph eral data bus connection (X202) for LED or DACT modules.
Main CPU and detector core CPUs capable of being updated in the f ield through
the PMI.
26 | 46
Page 27
Periphery board (500p) FCI2017
Installation
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

2.2 Installation

2
3
The chapter describes how to install periphery board (500p) F CI2017 in fire control panels and voice alarm fire c ontrol panels.
2
1
Figure 7: Installi ng the periphery boar d (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. w The batteries are not installed or connected.
1. Install the periphery board (500p) (3) on the threaded sleeves (1) of the back box with the 12 fixing screws (2).
2. Wire the periphery board (500p) according to the pin assignments in the following chapters.
3. Set the jumpers.
4. Re-install any modules that you m ay have had to remove.
Building Technologies
27 |
Page 28
Per
iphery board (500p) FCI2017
Views
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25
X801
X901
F301
X303
X304
X301
X202
X1101
X1802
X1402
X1702
X201
X601
X305
1
1111111
111
1
1
X603
X602
X605
X606
X604
X302
F302

2.3 Vi ews

X1401 X1801
H1701 H1301
X1302
S100
X403
X902 X204
1 1
1
1
1
3 1
1 6
7
12
X1001
1
3
Figure 8: Printed circuit board view for FCI2017
Element Des. Function Fuses F301 30 A fuse for battery
F302 Fuse 20 A for voice alarm DC 24 V output
LEDs H1301 Status indicator for detector core A (circuits 1 and 2)
H1701 Status indicator for detector core B (circuits 3 and 4)
Reset buttons S100
Reset button for m icroprocessor for periphery board circuit ry (not including detector circuits)
1
28 | 46
Page 29
Periphery board (500p) FCI2017
Views
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
Element Des. Function Jumpers X403 DEGRADE ALARM SILENCEABLE/NON SILENC EABLE
X602 DEGRADED MODE ENABLE/DISABLE for NAC 1 class A or NAC 1-1 class B X603 DEGRADED MODE ENABLE/DISABLE for NAC 1-2 class B X604 NAC 1 class A/B selection X605 NAC 1 class A/B selection X606 NAC 1 class A/B selection X305 Power supply 2 ON/OFF
Connector X201 PMI & mainboard bus
X202 Peripheral data bus output X204 Future expansion X301 Connector for power supply 1 (PS1) X302 Connector plug for power supply 2 (PS2) in housing (3HU) X303 Battery connection
2
X304
DC 24 V connection t o Card Cage VCA2002 for feed to the voice alarm modules and
associated peripherals X601 NAC1 output X801 Bell follower input X901 NAC 2 expansion or releasing module X902 Leased line / city tie module X1001 Auxiliary DC 24 V output X1101 Common alarm relay positions 1…3
Common trouble relay positions 4…6
Common supervisory relay positions 7…9
User programmable relay positions 10…12 X1302 For future applications X1401 Detector circuit core A, circuit 1 X1402 Detector circuit core A, circuit 2 X1702 For future applications X1801 Detector circuit core B, circuit 3 X1802 Detector circuit core B, circuit 4
Building Technologies
29 |
Page 30
Periphery board (500p) FCI2017
Configuration input power and battery
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25

2.4 Configuration input power and battery

The periphery board has jum pers 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.
X301
+
BROO
PSSI 2
1
GND
+26V
3 4
Connection for power supply 2 (only 300 W)
Only one power supply (300 W ) may be connected to X302. A 2nd power supply (300 W) is only allowed in an housing (3HU). Jumper X305 must be plugged onto position 2-3.
X302
+
BROO
1 PSSI 2 GND
+26V
3
4
Battery connection
X303
-
BAT-12
BAT+
+
30 | 46
Page 31
Periphery board (500p) FCI2017
Configuration input power and battery
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

2.4.2 X301 Power supply terminal block 1

Terminal X301 must always have a power supply connected.
To power down the system, f irst disconnect the batteries and then the line supply .
Make sure AC is disconnected. Wire power supply (300 W or 170 W) connection to X301. Check whether jum per X305 is in position 1-2 before a single power supply is connected.
Do not connect AC or batteries until all jumpers and modules are configured and connected in the system. Once everything is installed and connect ed, first AC, then the batteries must be connected.
Pin Designation Description
2
1 BROO
(White) AC low signal. Signals when the supply system connection drops below AC 102 V.
2 PSSI
(Green) Power supply status indication. Used by the
periphery board to know t he health of the power supply. 3 GND (Black) Return ( ground) 4 +24 V (Red) DC +24 V system supply
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG
Building Technologies
31 |
Page 32
Periphery board (500p) FCI2017
Confi
guration input power and battery
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25
Terminal block X302 may only be used for an additional PS300 when the system
Terminal X301 must always have a power supply connected. When a single power
1
2
3
1
2
3

2.4.3 X302 Power supply 2 terminal block

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 term inal block X302.
supply is used, it must be c onnected to terminal X301.
Check whether jumper X305 is in position 2-3 before PS300 #1 is connect ed to X301 or #2 to X302. Make s ure line voltage is not present on the system, and that the breaker in the panel is off. Both power supplies need to be connected before line voltage is switched on at t he panel. X301 and X302 should never be connected/disconnect with line voltage present. Batteries may only be connected after the system is brought up on line voltage power.
Pin Designation Descript ion 1 BROO
(White) AC low signal. Signals when the supply system connection drops below AC 102 V.
2 PSSI
(Green) Power supply status indication. Used by the
periphery board to know t he health of the power supply. 3 GND (Black) Return ( ground) 4 +24 V (Red) DC +24 V system supply
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG

2.4.4 X305 jumper – Power supply 2 on/off

This jumper is used to configure the periphery board for one or two power supplies. The factory setting m ay only be changed when a second power supply (300 W) in an housing (3HU) is supported.
X305 Jumper position Function Meaning
1 - 2
2 - 3
Deactivated PS 2 300 W
Activated PS 2 300 W
Default sett ing; for power supply (170 W) and a single power supply (300 W).
For a second power supply (300 W) in an housing (3HU). The power supply is activated and is monitored by the system.

2.4.5 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 inc luded in the VCA2002's scope of supply.
32 | 46
Page 33
Periphery board (500p) FCI2017
NAC circuits
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

2.4.6 X303 Battery terminal

The battery connection is only made once the whole system has been conf igured
The hardware required to connect the batteries to the periphery board is in the battery
The NAC circuit can be configured such that, when
degraded mode is active, the
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.
through jumpers and modules , and after AC has been applied.
Pin Designation Description 1 BAT (+) DC 24 V feed for battery (RED WIRE) 2 BAT (-) Return (Ground) feed for battery (BLUE WIRE)
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG
kit.
2

2.5 NAC circuits

The periphery board has an NAC circuit that can be configured for 1 class A (style Z) or 2 class B (style Y) circuits. Configuration is done via 3 jumpers (X 604, X605 and X606).
NAC circuit is activ ated by an alarm in the case of a CPU error on the periphery board.
For the status of degraded mode during an active alarm, NAC activation is set by the jumpers X602 and X603.
The outputs are power limit ed and are supervised for short-circuit and open cir cuit. They are protected against direct short-circ uit of the output terminals.
The synchronization protocol is built into the panel, so no module is needed. The NAC is configured in the Engineering tool set. This includes the output pattern and
class A/B selection. Please note that the periphery board also has three jumpers (X 604, X605 and X606) that must m atch the settings in the Engineering tool set. If they do not match, a trouble will post on the system.
The end-of-line resistor is 2.4 kΩ, 1/2 W. These circuits are for NAC circuits NFPA 72 Local only. For NFPA 72 Municipal Tie or
NFPA 72 Leased Line, use the leased line/city tie module FCI2020. The module connects to X902.
You will find information on the installation in the followi ng 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
Building Technologies
33 |
Page 34
Periphery board (500p) FCI2017
NAC circuits
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25
To ensure proper functioning, the
jumpers must be set correctly for class A/B
+
+
-
-
+
-*EOL

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 int o t he circuit.
selection.
In the diagrams below, polarity is shown in activated condition. Notification appliance c ircuit supervised and power limited.
X601
+
NAC1-1 NAC1-1
NAC1-2 NAC1-2
Figure 9: X601: Class A (style Z) supervised output connection
4
-
3
+
2
-
1
X601
+
NAC1-1 NAC1-1
NAC1-2 NAC1-2
Figure 10: X601: Class B (style Y) supervised output connection
4
-
3
+
2
-
1
+
-
EOL
* EOL resistance must be connec ted during non-use. EOL resistance: 2.4 kΩ, 0.5 W

2.5.2 X601 te rminal block – NAC 1 class A / NAC 1-1 class B / NAC 1-2 class B

Pin Designation Description 4 NAC1-1 (+) Positive feed for notification appliances for NAC 1 class A or NAC 1-1 class B 3 NAC1-1 (-) Return feed for notification appliances f or NAC 1 class A or NAC 1-1 class B 2 NAC1-2 (+) Positive feed for notification appliances for NAC 1 class A or NAC 1-2 class B 1 NAC1-2 (-) Return feed for notification appliances f or NAC 1 class A or NAC 1-2 class B
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG
34 | 46
Page 35
Periphery board (500p) FCI2017
NAC circuits
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
2.5.3 X602 jumper – ENABLE/DISABLE DEGRADED MODE for
1
2
3
123
123
NAC 1 class A or NAC 1-1 class B
Errors of the power P C are displayed on the PMI & mainboard when degraded mode is activated.
X602 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.
1 - 2 Disable degrade Disable degraded mode for NAC 1 class A or NAC 1-1 class B.
Circuit will not activate the notification appliances if degraded mode is activated and an alarm is present.

2.5.4 X603 jumper – ENABLE/DISABLE DEGRADED MODE for NAC 1-2 class B

Errors of the power P C are displayed on the PMI & mainboard when degraded mode is activated.
2
X603 Jumper position Function Meaning
3 - 2 Enable degrade
Enable degraded mode for NAC 1-2 c lass B. Circuit will not activate the notification appliances if degraded mode is activated and an alarm is present.
1 - 2 Disable degrade
Disable degraded mode for NAC 1-2 class B. Circuit will not activate the notification appliances if degraded mode is activated and an alarm is present.

2.5.5 X604, X605, X606 Jumper – NAC 1 class A/B

Class A/B setting of the onboard NAC circuit
X604 X605 X606
Jumper position Function Meaning
3 - 2 Class A Configures periphery board NAC 1 for class A wiring 1 - 2 Class B
Configures periphery board NAC 1-1 and NAC 1-2 for class B wiring
The class A/B configuration of the jumpers on the periphery board must be transferred in the Engineering tool set. An error is generated if the configurations do not match.
Building Technologies
35 |
Page 36
Periphery board (500p) FCI2017
Bell follower input
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25
123

2.5.6 X403 jumper – DEGRADE ALARM SILENCEABLE

Degraded mode behavior of the NAC ci rcuit during an alarm
X403 Jumper position Function Meaning
3 - 2 NONSILENCEABLE
1 - 2 SILENCEABLE

2.6 Bell follower input

The periphery board has an input designed to connect to an external f ire alarm control unit's NAC circuit so that the periphery board's NAC circuits can follow t he activation of the NAC circuits from an external source.

2.6.1 Wiring

NAC is active.
*1) Fire detect ion device or bell extender.
When degrade mode is active in the system, and an alarm is present, this setting prevents the user from turning off the notification appliances .
When degrade mode is active in the system, and an alarm is present, this setting allows the user to turn off the notification appliances. The notification devices remain switched off in the event of a further alarm.
X801
-
BF 1
+
BF
2
­+
*1
36 | 46

2.6.2 X801 Bell follower terminal block

Pin Designation Description 1 BF (-)
2 BF (+)
Admissible cable cros s-section: 1 x 12-18 AWG or 2 x 16-18 AWG
Input from external fire control panel and voice alarm fire control panel.
The return feed of the external fire control panel's NAC circuit connect s here.
Input from external fire control panel and voice alarm fire control panel.
The active positive output signal of the external fire control panel's NAC cir cuit connects here.
Page 37
Periphery board (500p) F
CI2017
Auxiliary DC 24 V output
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

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 limit ed and is protected against a direct shorted output. The out put 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.
If the output is configured to turn off on battery, then the output is used for supplementary purposes only.

2.7.1 Wiring

X1001
+
AUX AUX AUX AUX
1
-
2
+
3
-
4
2

2.7.2 X1001 Au xiliary output termi nal block

Pin Designation Description 1 AUX (+) Positive feed for Aux circuit (DC +24 V) 2 AUX (-) Return feed Aux circuit 3 AUX (+) Positive feed for Aux circuit (DC +24 V) 4 AUX (-) Return feed Aux circuit
Admissible cable cros s-section: 1 x 12-18 AWG or 2 x 16-18 AWG

2.8 Relays

Common alarm relay
The alarm relay changes state whenever a fire alarm is detected. In degrade mode, the alarm relay will still activate in case of a fire, without processor control.
Common trouble relay
The trouble relay c hanges state whenever a system trouble is detected. In degrade mode, the trouble relay will still activate without processor control.
Common supervisory relay
The supervisory relay changes state whenever a supervisory trouble is detected. In degrade mode, the supervisory relay will not function.
Building Technologies
Programmable user relay
The user programmable relay changes state depending on the configurat ion set in the Engineering tool set.
In degrade mode, the user relay will not activate.
37 |
Page 38
Periphery board (500p) FCI2017
Detector circuits, circuit driver 1 (circuits 1 and 2) and circuit driver 2 (circuits 3 and 4)
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25
C

2.8.1 Wiring

Supervisory
C NCNO
1
7
C NCNO C NCNO
NC NO
TroubleAlarm
6
12

2.8.2 X1101 Relay terminal block

Pin Designation Description 1 C Common contact common alarm relay 2 NC Normally closed contact common alarm relay 3 NO Normally open cont act common alarm relay 4 C Common contact common trouble relay 5 NC Normally closed contact common trouble relay 6 NO Normally open cont act common trouble relay 7 C Common contact common supervisory relay 8 NC Normally closed contact common supervisory relay
User
9 NO Normally open cont act common supervisory relay 10 C Common contact programmable relay 11 NC Norm ally closed contact programmable relay 12 NO Normally open contact programmable relay
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG NO/NC (normally open / normally closed) relates to the fire detection system's normal
status.

2.9 Detector circuits, circuit driver 1 (circuits 1 and 2) and circuit driver 2 (circuits 3 and 4)

The periphery board (500p) has two independent integrated circuit cards. Each integrated card is a driver that has 2 circuits that can handle a maximum of 252 devices. Circuit driver 1 supports circuits 1 and 2 and circuit driver 2 supports circuits 3 and 4.
Each circuit driver can be configured for two style 6 circuits or four style 4 circuits: The detector circuits are isolated from the periphery board's main circuit. Each circuit
card has a microprocessor which supervises ground fault, short -circuit, open circuit, and line capacity.
38 | 46
Page 39
Periphery board (500p) FCI2017
Detector circuits, circuit driver 1 (circuits 1 and 2) and cir
cuit driver 2 (circuits 3 and 4)
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

2.9.1 Wiring

X1402
No EOL requi red
X1402
No EOL required
132
4
Initiating device
2
No EOL required
X1401
Figure 11: Style 6 wiring
3
2+
1
24
X1802X1801
2-1 + 1-
Both circuits are supervised and power limited.
No EOL required
Initiating device
X1401
X1802X1801
2+
2-1+ 1-
Figure 12: Style 4 wiring
Both circuits are supervised and power limited.
3
2+
1
24
2-1+ 1-
13 24
2+
2-1+ 1-
Building Technologies
39 |
Page 40
Periphery board (500p) FCI2017
Detector circuits, circuit driver 1 (circuits 1 and 2) and circuit driver 2 (circuits 3 and 4)
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25

2.9.2 X1401 and X1801 terminal block – detector circuits 1 and 3

X1401: Circuit driv er 1, circuit 1 X1801: Circuit driv er 2, circuit 3
Pin Designation Descript ion 1 2- Return feed for circuit 1-2 or circuit 3-2 2 2+ Positive output for circuit 1-2 or circuit 3-2 3 1- Return feed for circuit 1-1 or circuit 3-1 4 1+ Positive output for circuit 1-1 or circuit 3-1
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG

2.9.3 X1402 and X1802 terminal block – detector circuits 2 and 4

X1401: Circuit driv er 1, circuit 2 X1801: Circuit driv er 2, circuit 4
Pin Designation Descript ion 1 2- Return feed for circuit 2-2 or circuit 4-2 2 2+ Positive output for circuit 2-2 or circuit 4-2 3 1- Return feed for circuit 2-1 or circuit 4-1 4 1+ Positive output for circuit 2-1 or circuit 4-1
Admissible cable cross-section: 1 x 12…18 AWG or 2 x 16…18 AWG
40 | 46
Page 41
Periphery board (500p) FCI2017
Indicators
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

2.10 Indicators

Standard LED indicators
LED Color Condition Meaning H1301 Yellow OFF Default
2
ON
1 flash every 2 seconds Failsafe active (no communication to PMI) 2 fast flashes (every 2 seconds) Failsafe active + local alarm 1 fast flash (every 1 second) Failsafe act ive + signaling (local alarm) Flash (every 1 second) and 2 fast flashes
(every 2 seconds)
H1701 Yellow OFF Default
ON
1 flash every 2 seconds Failsafe active (no communication to PMI) 2 fast flashes (every 2 seconds) Failsafe active + local alarm 1 fast flash (every 1 second) Failsafe act ive + signaling (local alarm) Flash (every 1 second) and 2 fast flashes
(every 2 seconds)
Startup problems FDnet/C-NET core A (clock)
Failsafe active + local alarm + signaling
Startup problems FDnet/C-NET core B (clock)
Failsafe active + local alarm + signaling

2.11 Reset Buttons

2.11.1 S100 RESET periphery board

Button Function Position Meaning S100
Building Technologies
Reset main microproc essor on periphery board
Not pressed Normal Pressed
Resets only the main microprocessor on the periphery board.
41 |
Page 42
Periphery board (500p) FCI2017
Technical data
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25

2.12 Technical data

Supply input Plug strip X301/302
Operating voltage DC 24 V nominal, filtered Operating current (standby) 120 mA Max. operating cur rent. 136 mA Input current (active)
PS170W (only fire detection
Design
1 x PS300W 11.5 A
2 x PS300W 20 A
Not power limited
Battery Plug strip X303
Voltage
DC 20.4 V…DC 26.4 V (DC 24 V nominal)
Curent 11.5 A
NAC circuit Plug strip X601
Voltage DC 24 V
Special Application for strobe loads
Regulated for non-pulsing loads Standby operating cur rent Max. 10 mA Active operating current
Max. 1x class A circuit or 2x class B
circuits
Max. 3 A for 1x class A circuit
Max. 3 A per class B circuit
2x 3 A = 6 A for 2x class B circuits Maximum circuit res istance 1.4 Ω @ 3.0 A
systems) 6.5 A at
Supervised for Open circuit
Short circuit
Ground fault
Design Short-circuit protection
Voltage surge protection
Power limited
AUX output Plug st rip X1001
Voltage DC 24 V nominal "Special Application"
For use with: FN2006/FN2007, HZM,
HCP, FCA2018, FT2014/FT2015,
FTI2001 Curent Max. 1.5 A Design Short-circuit protection
Voltage surge protection
Power limited
42 | 46
Page 43
Periphery board (500p) FCI2017
Technical data
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25
Bell follower input Plug strip X1001
Voltage DC 24 V filtered or full wave Curent Max. 4 mA Design Voltage surge protection
Detector circ uits 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 integrat ed circuit cards 2 Output current per integrated circuit card Max. 500 mA
2
Addressable devices per integrated circuit
Max. 252 card
Connectable circuits per integrated circuit card
2 style 6 or 4 style 4 (mixed variants are
possible) Protocol FDnet/C-NET Circuit resist ance Max. 180 Ω Capacity 500 nF per circuit Cable types All (twisted recommended)
You will find detailed specif ications in the
following documents:
A6V10315013 for Desigo
A6V10333396 for Cerberus PRO
Connectable devices See List of compatibility Monitored for Ground fault
Short circuit
Open circuit
Circuit capacitance
Design Short-circuit-proof
Voltage surge protection
Open circuit
Power limited
Relay contacts Plug strip X1201
Building Technologies
Design Relay output
Break or make contact
Nonpower limited
Alarm and trouble ac tive in degraded
mode operation Switching voltage DC 30 V or AC 120/240 V ohmic Switching current
5 A @ DC 30 V or AC 120 V 4 A @ AC 240 V
43 |
Page 44
Periphery board (500p) FCI2017
Technical data
2
Building Technologies
A6V10315038_f_e n_
--
Siemens Industry, Inc.
2016-02-25
Connection terminals I nputs, outputs and detector circuit s:
Design Plug-in screw term inals
Admissible cable cross-section Once 12...18 AWG or twice 16...18 AWG
Voice alarm supply 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
Page 45
FCC Statement
46
A6V10315038_f_en_
--
Siemens Industry, Inc.
2016-02-25

3 FCC Statement

Installation and usage of equipment is not in accordance with instructions manual
Read the following information.
WARNING
Radiation of radio frequenc y energy Interference to radio communications
Install and use equipm ent in accordance with instructions manual.
This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordanc e with the instructions manual, may cause interference to radio communicat ions.
It has been tested and found t o comply with the limits for a Class A computing device pursuant to Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference when operated in a commercial environment.
Operation of this equipment in a residential area is likely t o cause interference in which case the user at his own expense will be required to take whatever measures may be required to correct the interference.
3
Building Technologies
45 |
Page 46
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_-- SAP order no.: A5Q00050751 FS20/FS920 Edition: 20 16-02-25
Technical specifications and availability subject to change without notice.
© Siemens Industry, I nc., 2011
Loading...
Buy Points How it Works FAQ Contact Us Questions and Suggestions Privacy Policy Cookie Policy Terms of Use