This range of generators may be operated at both 120V
- 60Hz and 240V -60Hz.
Therefore, different connections (and thus uses) are
possible according to the following configurations:
1
Parallel configuration; in this configuration there are
two output :
- 120V between the points 11 and 5 by connecting the
alternator outputs 11-44 and 2-5 according to the
diagram in Fig. 15 Ref. 3.
Use the insulators on the terminal board for the
connection (Fig.14 Ref.2).
2
Serial connection; in this configuration there are two
output :
- 240V between the points 11 and 5 by connecting the
alternator outputs 2-44 according to the diagram in
Fig. 15 Ref. 4
Use the insulators on the terminal board for the
connection (Fig.14 Ref.2).
With the series connection the power may be drawn
simultaneously at a voltage of 120/240V 60Hz, as per
the diagrams in Fig.15 Ref.5 and 6.
If the series connection is used,
to draw a voltage of 120V / 60Hz (Fig.15 Ref. 6), the
current must not exceed 50% of the rated current.
- Use the jumpers on the terminal board (Fig.15
Ref.1,2,3,4) to obtain both the parallel and the series
connections.
- Ensure that the sum of the loads to be fed does not
exceed the rated output of the generator.
- The generator is equipped with a circuit breaker
which cuts the power in the event of an overload
or short-circuit.
Table of characteristics for single voltage
Hz
V
kW
A
115
49.5
230
24.8
120
55
240
27.5
IS 6.5
IS 7.6
6.6
5.7
50
60
Table of characteristics for double voltage
Hz
V
kW
A
115
230
120
240
24.8
27.5
IS 6.5
50
5.7
IS 7.6
60
6.6
6.4.
Generator - Main switching
A switch should be placed in-line to switch the generator
to shore power. The switch should be appropriate to the
size of the loads: a general diagram is shown in fig. 17.
7. LIFTING
To lift the generator, use ONLY the provided lifting
points.
Hooking and/or lifting from any
point other than the provided lifting point could
damage the generator and cause a dangerous
situation.
13
