Siemens SPCP355 Manual De Instrucciones página 3

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Belden 9829
IYSTY 2 x 2 x 0.6 (min)
Fig. 2 shows the wiring of the X-BUS to an expander/controller and a following
expander in spur configuration. Power for connected X-Bus devices must be taken
from one of the PSU power outputs (Fig. 2, item 1).Terminals 3A/3B and 4A/4B are
only used for branch wiring. If using a spur configuration, the last expander is not
wired back to the controller.
See Fig. 2: Wiring of expanders
1 SPCP355 Power Outputs
2 SPC controller
3 SPCP355 I/O Expander
4 Next expander
5 Next expander
Please refer to SPC Installation & Configuration Manual of the connected controller
for further details of wiring, shielding, specifications and limitations
Wiring the inputs
The expander has 8 on-board zone inputs that can be configured as one of the
following:
No End of Line
Single End of Line
Dual End of Line (Fig. 3)
Anti-Masking PIR (Fig. 4)
See Fig. 3: Default configuration (Dual EOL 4K7)
Input 1
1
COM
2
Tamper
3
Alarm
4
4K7
5
EOL 4K7
6
See Fig. 4: Anti-Masking PIR configuration
1
Input 2
2
COM
3
Tamper
4
Alarm
5
4K7
6
Detector Fault
7
2K2
8
EOL 4K7
Please refer to SPC Installation & Configuration Manual for all possible resistor
values and combinations.
Wiring the outputs
The expander and PSU relay logical outputs can be assigned to any of the SPC
system outputs. These relay outputs can switch a rated voltage of 30 V DC at 1A
(non-inductive load). Fig. 6 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. 6: Output Wiring (Active High)
1 Normally Open terminal (NO)
2 Common terminal connection (COM)
3 Normally Closed terminal (NC)
X-BUS addressing
For addressing, reconfiguration, device location, monitoring, editing of names, X-
BUS communication types and failure timer, please refer to the SPC Installation &
Configuration Manual.
Mounting the G5 Housing with Tamper Protection
A tamper switch and back tamper bracket are fitted to the housing. The switch is
used on its own for front tamper only or used with the back tamper bracket for both
front and back tamper protection. Either back and/or front tamper protection is
required depending on local approval.
The tamper bracket is held firmly in place with a securing screw (Fig. 10,
item 1). Remember to remove this screw if commissioning the system for
back tamper protection. Do not remove this screw if using front tamper only.
Fig. 10: Tamper Installation
1
Front tamper securing screw
Tamper bracket
2
Tamper switch
3
4
Back tamper cutout
5
Back tamper screw
6
Orientation slot
Shelf separating battery compartment
7
To mount the G5 housing with back tamper:
Fig. 8: Mounting the G5 housing
1 Mounting holes
2 Back tamper position
3 Shelf separating battery compartment
4 LSAs
Using the supplied mounting template, mark the 4 drill positions for fixing the
400 m
400 m
housing to the wall (see Fig. 8, item 1).
Drill and install suitable screws (see enclosed template) into the wall. Leave
the screws protruding 1.5 cm from the wall.
Front tamper comes pre-configured. To configure the housing for both front
and back tamper, remove the front tamper securing screw (Fig. 10, item 1).
The tamper bracket swings to the far right of the orientation slot.
Mount the G5 housing in the appropriate position on the wall and tighten the
4 mounting screws. Ensure that the housing is flush with the wall surface.
Move the tamper bracket to the far left of the orientation slot and tighten the
back tamper screw (Fig. 10, item 5) to the wall. The bracket should be
perpendicular to the back wall of the housing.
Install the cover on the housing to test the tamper switch connection. Lift the
cover by approximately 1 mm to activate the tamper switch.
WARNING - If the back tamper screw is not secure against the wall, then tamp
protection is compromised. If the housing is removed from the wall or displaced
the back tamper contact needs to be tested again for proper functionality and r
adjusted if required.
Appendix A: PSU LED Status
LED
MAINS
BATT 1/2*
LED
Green
Green
Colour
Condition
Normal
On
On
Mains OK,
battery
On
Flash
charging
Mains fail,
Off
On
battery OK
Mains OK,
and battery
not
On
Off
installed or
faulty.
Mains fail,
and battery
not
installed,
faulty or in
deep
discharge
protection
mode.
Fuse fail
Total load
current
exceeded
PSU switcher failure
*Battery 1 & Battery 2
**Fuse Fail
***Current Limit
Appendix B: Choosing the Stand-by Battery
The table below shows the maximum total current (in mA) that can be drawn from
all 12 V DC load outputs.
Available current in mA = 1000 * (0.85 * battery capacity in Ah) / (standby time in
hours) – (PSU + expander current in mA).
12*
Standby
24
Time
30
(hours)
60
* Where calculated current exceeds 2550mA (2400mA + PSU current), only
the expander current is deducted from the available current..
Appendix C: Fitting Additional Expanders in the SPC
Housing
See Fig. 9: SPCP355 components
1 Battery
7 PSU/Expander
8 Optional expander positions
The housing can accommodate:
2 x Battery (24 Ah or 27 Ah max)
1 x PSU and Expander (SPCP355)
6 x additional I/O Expanders (optional) or 4 x additional I/O Expanders + 2
LSA wiring terminals (optional) (Fig. 8, item 4)
The additional boards can be secured to the back wall of the housing and the shelf
separating the battery compartment using mounting pillars.
Appendix D: System Recovery
In the event of both a mains and battery power failure, the PSU Kickstart Switch
(Fig. 1, item 25) enables the system to be restarted when only battery power is
reinstated. Attach the battery leads. Press and hold the PSU Kickstart Switch. All
LEDs will flash. When the LEDs stop flashing, release the PSU Kickstart Switch.
***
FUSE**
LIMIT
Red
Red
Off
Off
All LEDs off
On
On
Off
Flash
Battery Capacity
2 x 24 Ah
2 x 27 Ah
2360
2360
1505
1718
1165
1335
485
570
STATUS
Green
On
On
On
On
On
On
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