The Control panel will monitor the batteries at all times,
(refer to Static Test and Dynamic Test).
Static Test
The Static Test monitors the battery char
-
ge during Mains failure. In the event of Low battery sta
-
tus (below 22.8 V), the Low Battery LED will turn ON. If
this occurs, the Mains power must be restored before
the batteries empty, otherwise, the system will shut
-
down.
Dinamic Test
The Dynamic Test monitors the opera
-
ting capacity of the batteries. In the event of a Failed
Test result (batteries do not meet the Test require
-
ments), the No Battery LED will turn ON.
If this occurs, the backup battery must be replaced im
-
mediately, otherwise, the system will be unable to
function in the event of Mains failure (black-out).
Work carefully through the following steps to connect
the Mains Supply.
1. Locate the backup batteries in the housing (see Fi
-
gure 2, 3) .
2. Using the Jumper (supplied), connect the batteries
in series.
3. Observing the battery polarity, connect the battery
terminals to terminals BAT1 or BAT2 on Main Bo-
ard (wires supplied).
4. FC510-FC520 Use 17 Ah @ 12 V YUASA NP
17-12 FR batteries; or similar with case flame class
UL94-V2 (or higher).
5. Connect the Earth wire to the [Q] terminal on the
terminal board 32.
6. Connect the Neutral wire to terminal [N], and the
Line wire to terminal [L] on the terminal board 32.
+
The Control panel will reset on power up.
!
DO NOT allow the power cable to cross over ot
-
her wiring (see Figure 19a). The power cable
must be routed as per Figure 19c and held
firmly in place by a cable tie (see Figure 19b).
n
Thermal Probe
This Control panel supports the KST thermal probe.
The probe will optimize the battery charging process by
regulating the charge voltage in accordance with the
battery temperature.
Work carefully through the following instructions (refer
to the figure 2):
1. Connect the probe 22 to the connector 43 on the
Main board of the Control panel and the wire (sup
-
plied) between the connector 45 on Main Board and
the connector 29 on the BAQ140T24 switching Po
-
wer supply.
2. Attach the probe to one of the batteries, in such a
way as to obtain optimum heat transfer.
3. Measure the Probe temperature.
4. Using the graph in Figure 17 and/or Table 5, find
the value (in accordance with the battery tempera
-
ture) that the output voltage of the Switching Power
Supply will be based on.
5. Using the trimmer 30, adjust the voltage on the ter-
minal board 32 to the required value.
+
NOTE: to verify the battery efficiency, the PCB will
measure the internal resistance. In order for this
measure is not distorted, you should use only the
cables supplied; cables that are longer and have
an insufficient section may erroneously simulate
the condition of inefficient battery.
INSTALLATION 25
To Next Page
Loading...
