Technical Support Line +44 (0)23 9269 6638 2405STE PAK200479 Issue 04I May 2016
Page 3 of 4
I
NSTALLATION
This unit is only suitable for installation as permanently connected equipment. The PSU is NOT SUITABLE for external installation.
This unit must be fed from a mains power source having a separate (approved) disconnect device and fitted with a fuse or other over-current
protection device rated at 3A maximum. Ensure that the disconnect device used has appropriate earth fault protection to the applicable standard.
Where the PSU is used to provide power to a fire alarm circuit, the mains isolation and disconnect device should be provided solely for this purpose
and be suitably marked “FIRE ALARM – DO NOT TURN OFF”. All cabling should meet national and local fire system installation regulations, e.g.
FP200 type cable for high integrity installations.
Where the PSU is used for other applications, it should be installed according to all relevant safety regulations applicable to that application.
Where the PSU Fault and EPS Fault outputs are used, they should only be connected to circuits having voltages less than 60V dc.
Cable Sizing
1)
Mains input cable must be to the applicable standard with a 3A or greater current capacity, i.e. 0.5mm
2
nominal conductor area, having a
minimum operating voltage of 300/500 Vac.
2)
The low voltage output cable must be sized to carry the rated load current to the devices connected to the PSU.
3)
Mains input and low voltage output cables should be routed to use different entry / exit holes in the case. Bushes should be used to protect
cable sheaths from chafing. Ensure that these bushings are correctly sized (i.e. close fitting with respect to cable sizing). Note that the
bushes should meet a minimum flammability specification of UL94 HB.
4)
All cabling should be securely fastened in position using a cable tie through the saddles provided.
Mounting
5)
Fix to wall or other support structure in correct orientation i.e. with hinge on left hand side, using screws of sufficient size and length through
the mounting holes.
6)
PSU should be mounted no further than 10cm from the control and indicating equipment, close coupled by conduit.
7)
Knock-outs are provided in the case for mating with external trunking or conduit.
8)
Ensure that all unused holes (on the rear of the case) are sealed to prevent the ingress of damp and dust.
C
OMMISSIONING
Mains Power Up
1)
With no external connections made to the PSU, connect the mains input wires to the terminal block,
ensuring that the mains isolator
(disconnect device) is open
. Fasten wiring in place with cable tie to saddle.
Note: Equipment must be earthed.
2)
Apply mains input. Ensure that the green Mains LED illuminates and that the red Fault LED flashes after approximately 20s (indicating a
disconnected battery).
3)
Disconnect the mains power.
Load Output and Remote Signalling
4)
Connect the EPS and PSU Fault outputs to the appropriate inputs of control equipment if remote fault monitoring is required.
5)
Loop the load (output) wiring through the supplied ferrite EMC suppressor as shown in Figure. 1. Cable tie to saddle provided (adjacent to
exit hole).
6)
Re-apply mains. Verify that the green Mains LED illuminates and the red
Fault LED flashes after approximately 20s (disconnected battery).
7)
If connected, verify that the EPS Fault monitor shows a
closed
contact
and the PSU Fault monitor shows an
open
contact.
8)
Perform a full functional test of system including full alarm condition
.
Standby Battery
9)
Mount two 12V 17Ah batteries in lower part of enclosure.. Higher
capacity batteries should be mounted in a separate battery box (Part
BATT-BOX-3802). All cabling between the two boxes should be routed to
use separate case entry/exit holes from other cabling and use suitable
bushes to protect the cables
.
10)
Connect the two 12V standby batteries in series using the single cable provided. Connect the
negative
of one battery to the
positive
of the
other.
DO NOT CONNECT
the other two battery terminals to each other.
11)
Connect the free Positive and Negative terminals of the batteries to the PCB terminals Batt+ and Batt - using the cables provided. See Figure
2.
12)
If the batteries are housed remotely, replace the battery lead assembly (including battery temperature sensor) with an extended length
assembly (Part BAT-LD-T-24-300), Ensure the temperature sensor and battery connections are made according to figure 2.
13)
Verify that the red Fault LED stops flashing after about 20s (battery connection detected). Verify that the remote PSU Fault monitor shows a
closed
contact.
14)
Disconnect the mains power. Verify that the green Mains LED extinguishes and the red Fault LED starts to pulse (indicating that the PSU is
running from its standby batteries).
15)
If connected, verify that the EPS Fault monitor shows an
open
contact and the PSU Fault monitor shows a
closed
contact.
16)
Perform a full functional test of system including full alarm condition. Verify that the standby batteries can support the system load. Note:
ensure batteries have sufficient charge.
Final
17)
Reconnect the mains. Verify that the green Mains LED illuminates and the red Fault LED extinguishes.
18)
If connected, verify that the EPS Fault monitor shows a
closed
contact and the PSU Fault monitor shows a
closed
contact.
19)
Close cover and secure using fastening screws provided.
O
PERATING
I
NSTRUCTIONS
This unit is intended for use by Service Personnel only. There are NO USER SERVICEABLE parts inside.
The green Mains LED will be illuminated whilst the mains supply is present. In the event of a failure, the red Fault LED will flash and the solid state
remote fault output contacts will open.
Figure 1 - Ferrite EMC suppressor
Figure 2 – Connection of battery leads
and temp sensor to terminal block.
