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WARNING
This device shall only be connected to power
supplies compliant to EN60950-1, chapter 2.5
("limited power source").
When changing or installing a
SPCE650/651/652 on the SPC-series system,
ensure that all anti-static precautions are
adhered to while handling connectors, wires,
terminals and PCBs.
Introduction to the SPCE650/651/652
The SPCE650/651/652 allows an existing system to
be expanded externally providing additional zone
inputs and relay outputs.
The SPCE650/651/652 incorporates the following
elements, as shown in Fig. 1.
Front tamper switch
1.
The Expander has a front tamper switch with
spring. When the lid is closed the spring closes
the switch.
Tamper by-pass [J1]
2.
The jumper setting determines the operation of
the tamper. The tamper operation can be
overridden by fitting J1. The engineer must
ensure that J1 is removed before leaving site
for the system to comply with standards.
Buzzer
3.
The buzzer is activated in order to locate the
expander (see SPC Configuration Manual).
Manual addressing switches
4.
The switches allow manual setting of the ID of
each expander in the system.
X-BUS Status LED
5.
The LED indicates the status of the X-BUS
when the system is in FULL ENGINEER mode,
as shown below:
LED status
Description
Flashes regularly
The X-BUS
(once every 1.5 seconds
communications status is
approx.)
OK.
Flashes quickly
Indicates the last in line
(once every 0.2 seconds
expander (excludes star
approx.)
and multi-drop
configuration)
Outputs
6.
The expander provides 2 programmable
outputs for use on the SPC-series system.
Inputs
7.
The expander has 8 on-board zone inputs that
can be configured as intruder alarm zones on
the SPC-series system.
Auxiliary Power Supply (12 V)
8.
These are used to power auxiliary devices to a
maximum of 200 mA.
Input Power
9.
The expander requires 12 V DC that can be
supplied directly from the SPC-series controller
or from a SPC PSU expander.
X-BUS Interface
10.
The communication bus is used to connect
expanders together on the SPC-series system
(see section Wiring the X-BUS interface).
Termination Jumper
11.
This jumper as a default is always fitted,
however, when wiring for Star configuration this
fitting should be removed (see section Wiring
the X-BUS interface).
SPCE651
The SPCE651 enables inertia type sensors to be
connected to the zone inputs. It is important that the
inertia sensor is calibrated and the correct pulse
count and gross attack settings are programmed
correctly. Refer to the Installation and Configuration
manual for details on configuring analyzed
expanders.
SPCE652
Please ensure the back tamper spring has been
fitted to the underside of the expander housing. The
spring should be perpendicular to the exit aperture
hole and be firmly connected to the switch plunger
on the internal PCB.
Wiring the X-BUS interface
The X-BUS interface provides connection of
expanders and keypads to the SPC controller. The
X-BUS can be wired in a number of different
configurations depending on the installation
requirements.
NOTE: Maximum system cable length = number of
expanders and keypads in the system x maximum
distance for cable type.
Cable type
CQR standard alarm cable
UTP category: 5 (solid core)
Belden 9829
IYSTY 2 x 2 x 0.6 (min)
Fig. 2 shows the wiring of the X-BUS to an
expander/controller and the following expander/
controller in Spur configuration. Terminals 3A/3B
and 4A/4B are only used for using a branch wiring
technique. If using a Spur configuration, the last
expander is not wired back to the controller.
See Fig. 2: Wiring of expanders
1 SPC controller
2 Previous expander
3 SPCE650/651/652
4 Next expander
Please refer to SPC Configuration Manual of
connected controller for further wiring instructions,
shielding, specifications and limitations.
Wiring the Inputs
The SPCE650/651/652 has 8 on-board zone inputs
that can be configured to be one of the following:
• No End of Line (NEOL)
• Single End of Line (SEOL)
• Dual End of Line (DEOL) (Figure 3)
• Anti-Masking PIR (Figure 4)
See Fig. 3: Default configuration (DEOL 4K7)
1 COM
2 Input X
3 Tamper
4 Alarm 4K7
5 EOL 4K7
See Fig. 4: Anti-Masking PIR configuration
1 COM
2 Input X
3 Tamper
4 Alarm 1K
5 EOL 2K2
6 EOL 1K
Please refer to SPC Configuration Manual for all
possible resistor values and combinations.
Anti-Masking is only reported as "Alarm"
type to ARC and if area or system is set.
Wiring the outputs
The SPCE650/651/652 has 2 on-board 1-A, single
pole changeover relays that can be assigned to any
of the SPC system outputs. These relay outputs can
switch a rated voltage of 30 V DC (non-inductive
load).
Fig. 5 shows the wiring of an active high output.
When the relay is activated, the common terminal
connection (COM) is switched from the Normally
Closed terminal (NC) to the Normally Open terminal
(NO).
See Fig. 5: Wiring of a standard +12 V Siren
1 Normally Open terminal (NO)
2 Common terminal connection (COM)
3 Normally Closed terminal (NC)
X-BUS addressing
For further addressing, reconfiguration, device
location, monitoring, editing of names, X-BUS type
of communication, failure timer please refer to SPC
Configuration Manual.
Appendix
See Fig. 6: SPCE650/651/652 Enclosure
specifications
1 Expander anchor points
2 Wall spacers
3 Cover anchor points
4 Cable grips
5 Mounting holes
6 Cable entry holes
Distance
7 Cable ties
200 m
8 Cover hooks
400 m
400 m
See Fig. 7: Expander cover
400 m
1 Front tamper guide
2 Cover fixing screws
Mounting Expander in SPC Hinged Enclosure
The SPCE650/651/652 may also be installed in a
hinged enclosure. This enclosure can
accommodate:
•
1 battery (17 Ah max.), 1 SPC controller and a
4 I/O expanders (optional)
•
1 battery (17 Ah max.), 1 PSU expander and 3
I/O expanders (optional)
To access or install an expander:
Open the front cover on the enclosure.
With an appropriate screwdriver loosen (but do
not remove) the top two screws on the mounting
bracket.
Gently push the mounting bracket in an upward
direction until the screws are free from contact
with the bracket.
Slowly but firmly pull the mounting bracket out
until it rotates down and is secured by the resting
pins.
The underside of the mounting bracket and the
enclosure provides space for additional
expanders to be installed (secured by 4 mounting
pillars).
See Fig. 8: Rotated views
1 Battery
2 Expanders
3 SPC controller or SPC PSU
Technical Data
Operating voltage 9.5 – 14 V DC
Current
consumption
Number of
on-board zones
EOL resistor
Number of on-
board relays
Field bus
Interfaces
Tamper contact
Operating
temperature
Relative humidity Max. 90 % (no condensation)
Housing
protection
Colour
Housing
protection class
Mounting
Dimensions
(W x H x D)
Weight
Housing material ABS
Housing
Standards
Installation Instruction
Min. 40 mA at 12 V DC
Max. 80 mA at 12 V DC
8
Dual 4K7 (default), other resistor
combinations config.
2 single-pole changeover,
30 V DC / 1 A
(resistive switching current)
X-BUS on RS485 (307 kb/s)
X-BUS (In, Out, Branch)
On-board front spring tamper
SPCE652: On-board back spring
tamper
-10 to +50 °C
IP30
RAL 9003
Class II Indoor General
Surface, wall-mounted
Enclosure: 200 x 153 x 47 mm
PCB: 150 x 82 x 20 mm
0.35 kg
Plastic enclosure
SPCE650
EN50131-1:2006 (Grade 2 and 3)
TS50131-3:2003 (Grade 3)
SSF 1014:3 (Larmklass 1)
SPCE652
SSF 1014:3 (Larmklass 2)
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