CP-6-series Mechanical Reference.pdf - 第158页
Part 4 Chapter 4 Checking the T ransformer Connections Edition 1.0 4-4-2 CP-6-series Mechanical Reference Notes:
Part 4 Chapter 4 Checking the Transformer Connections
Edition 1.0 4-4-1 CP-6-series Mechanical Reference
4. Checking the Transformer Connections
Point
Set the transformer inside of the CP-6 corresponding to the supply voltage. If the
transformer is set an incorrect input voltage, electrical parts may be damaged.
Procedure
<CP-6, CP-6M, CP-642, CP-642M, CP-643E, CP-643ME, CP-65>
Remove the screws on the cover and take the cover off. Check that the main transformer
is set to the specified input voltage.
<CP-652C>
Open the box cover, and check that the main transformer is set to the specified input
voltage.
R 1
S 1
U200V
U210V
U220V
U230V
U380V
U400V
U415V
U460V
U480V
V200V
V210V
V220V
V230V
V380V
V400V
V415V
V460V
V480V
W200V
W210V
W220V
W230V
W380V
W400V
W415V
W460V
W480V
T 1
R1 Red
S1 White
T1 Black
CP-652C
CP6M4020
CP-6, CP-6M, CP-642, CP-642M, CP-643E, CP-643ME, CP-65
Part 4 Chapter 4 Checking the Transformer Connections
Edition 1.0 4-4-2 CP-6-series Mechanical Reference
Notes:
Edition 1.3 4-5-1 CP-6-series Mechanical Reference
Part 4 Chapter 5 Electric Power Supply
5. Electric Power Supply
Power Consumption
CP-6 : approximately 8.5 KVA
CP-6M, CP-642, CP-642M, CP-643E, CP-643ME, CP-65 : approximately 10.0 KVA
CP-652C : approximately 20.3 KVA
(Capacity of transformer)
Connect the machine to a power supply with a capacity more than specified above.
Voltage
The CP-6 series contains a multiple input transformer which allows the machine to be
used with the normal supply voltage in any country.
Before connecting the power supply to the machine, make sure that the transformer tap
position matches the actual voltage to be supplied to the machine.
(The transformer is normally set correctly for the destination country before the machine
is shipped from the Fuji factory.)
Power Supply Cable
Use a power supply cable with at least 22 mm
2
. (Power supply of 200~230 V)
Thin cables may overheat or cause drop in the supply voltage.