ZTE Cpc 60 Manual

CPC-60 manual CPC-60 manual

User Manual: ZTE cpc-60 manual

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Owner’s Manual
Product:

DC-DC Step Down Converter

Model:

CPC-60

Thank you for purchasing a Canadian Power Conversion product.
Please read this manual before operating this converter.

INSTRUCTION MANUAL
24 VDC TO 12VDC CONVERTER

-

MODEL NO. CPC-60

CPC-60 is a 24 VDC (nominal) to 12 VDC (nominal) dc-dc converter based on a
high performance fixed frequency power switching regulator. It is designed to
deliver a maximum current of 60 A at a dc voltage of 13.8 VDC.
Features:






High efficiency switching regulator
Small size and light weight
Cycle by cycle current limiting
Over voltage , short circuit and reverse polarity protections
2 temperature controlled fans for cooling

INSTALLATION AND OPERATION:

General installation requirements
-

-

The CPC-60 needs to be installed in a dry, cool, protected and well
ventilated area
The unit may be installed on the top of or the bottom of a horizontal
surface. It can also be installed horizontally on a vertical surface. (Fans
should not be pointing up or down)
The unit has temperature controlled fans for cooling. The suction and
discharge openings on the sides should not be blocked.
*Note: The fan will only come on if the unit gets hot.

Input and output connections
The CPC-60 has a terminal block with 3 x M-6 bolt & nut connections. One is for
positive 24 VDC input (marked INPUT), one for common negative for input and
output (marked MINUS) and one is for positive 13.8 VDC output (marked OUTPUT).

CAUTION ! Please ensure that the polarity of the input connection is not reversed.
Always connect the positive of the 24 V battery to the positive terminal marked
INPUT and the negative terminal to the common negative terminal marked
MINUS. If there is a reverse polarity connection, the fuse inside unit will blow.
Sizing of input and output conductors.

Conductors have resistance that opposes the current flow and produces a
voltage drop and heating. The resistance is directly proportional to the length of
the conductor and is inversely proportional to the thickness. Consequently, a
longer and thinner conductor will have higher resistance and will produce a
higher voltage drop and more heating. The size of a conductor for a particular
application will depend upon the maximum current it is required to carry and for
what distance. The size of a conductor is designated by AWG (American Wire
Gauge) number. The smaller the AWG number, the thicker the conductor. The
conductors should be sized for a maximum voltage drop of 2%. The cables
should be multi-stranded insulated copper cable rated for at least 90 º C and
preferably oil resistant. To purchase cables, please visit a welding or marine
supply store.

Cables for 24 VDC input and 12 VDC output connections.
The cables on the 24 VDC input side must be able to carry a max. current of
approx 70 A. To limit voltage drop to 2%, use # 4 AWG for distance up to 6 ft. and
# 2 AWG for up to 10 ft. Use ring type of terminals for M-6 bolt on the ends of the
cables to enable connection to the M-6 bolts of the terminal block.

External fuses on the input and output sides.
The input and output connections should be made through 32 V, 30A fast blow
fuses (For example “2 pieces of Bussmann” Type ATC-30 or ATM-30 automotive
type fuses in parallel or 1 piece of Type MAX-60). The fuses should be connected
in series with the positive input and output cables. The fuse on the 24 V input side
should be as close to the battery positive terminal as possible. This will prevent
the possibility of overheating & melting of the input side cables in case of short
circuit on the input side cabling (A battery can provide very large currents during
short circuit condition)

WARNING: The warranty will be voided if the above external fuses are not used
Battery Charging
The CPC-60 can also be used as a 13.8 VDC battery charger. It can charge a 12V
starter or ancillary battery from a 24V system.

SPECIFICATIONS

Input to output isolation
Input voltage
Output voltage
Output voltage regulation
Input current at no load
Output current
Continuous
Current limit *

Not isolated
20 to 35 VDC
13.8 VDC ± 0.1 V
< 3%
Approx. 50 mA
60 A
70 A

*Note: In current limit condition, the output voltage will drop if the current drawn increases beyond the current
limit value of 70 A

Output ripple and noise
Efficiency
Operating ambient temperature
Humidity
Protections:
- Overload
- Over heating
- Reverse polarity
- Over voltage
Input side fuse
Safety and EMC Standards:
- Emission
- Immunity
- Automotive directive
Input / output connections
Weight
Dimensions (H x W x D)
177mm)
Warranty

less than 50 mV RMS
Approx. 92%
-20 to +30oC(derate linearly to 0 at 70º C)
Max. 95%, non condensing
By current limiting
Drop in output voltage
Fuse protection, 30 A
Varistor (also protects against load dump)
60 A (2 pieces of 32V, 30A in parallel)
EN50081-1
EN50082-1
95/45/EC
Terminal Block – (M6 Bolt & Nut)
2.6 lbs / 1.2 Kg
3.6” x 3.5” x 7.0”(93 x 90 x
5 years

NOTE: Specifications are subject to change without notice

CAUTION! : THERE IS NO ISOLATION BETWEEN THE INPUT AND THE OUTPUT. INPUT AND
OUTPUT HAVE A COMMON NEGATIVE

Contact Information

Corporate Address:

10673 – 240A Street, Maple Ridge, B.C. Canada V3W 2B1
t. 604.476.1553

f. 604.123.4567

e. cpc@canadianpowerconversion.com
w. www.canadianpowerconversion.com



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