120W Programmable Battery Charger for Electric Vehicle with Universal Input
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Price:
Negotiable
- minimum:
- Total supply:
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Delivery term:
The date of payment from buyers deliver within days
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seat:
Jiangsu
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Validity to:
Long-term effective
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Last update:
2017-10-27 16:20
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Browse the number:
235
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- Contactaixin:
Miss Rita Zhang(Mr.)
- Email: telephone: phone:
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Arrea:
Jiangsu
Address:12f Building a, No. 6 Yongzhi Road, Baixia High Tech Park, Qinhuai District, Nanjing, Jiangsu, China 210014
- Website:
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The EVC-AA-120-XXYYYY is a 120 Watt, constant power, factory programmable charger for use in charging Lithium Ion and other chemistry battery systems used in Electric Vehicles. The charger can be programmed to the customer's current/voltage requirements up to 120 Watts of power. See table below for available ranges.
Features
Universal AC Input / Full Range
90 - 305 VAC Input
High Reliability
Efficiency up to 89%
Power Factor up to 0.98 min @ 110 VAC Full Load
Over Voltage Protection
Short Circuit Protection
Over Temperature Protection
Open Circuit Protection
Waterproof IP67 Enclosure
RoHS Compliant
5 Year Warranty
Model Selection
Model Number |
Programmable Output Charging Current Range |
Voltage Range |
EVC-24-120-XXYYYY* |
3800 mA to 4200 mA 2527 mA to 2793 mA 1938 mA to 2142 mA |
15 V - 30 V 22.5 V - 45 V 29 V - 58.8 V |
*XXYYYY specifies nominal programmable Voltage (XX) based on the nominal output charging current (YYYY). |
Specifications
Input Parameters | |||
Input Voltage Range* *Designed to optimum performance at 110 and 230 nominal lines |
MIN TYP MAX | 90 110 305 |
VAC |
Input Frequency | TYP | 47 - 63 | Hz |
Power Factor 110 VAC Input, Full Load 230 VAC Input, Full Load |
MIN |
0.98 0.95 |
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Input Current 110 VAC, Continuous 230 VAC, Continuous |
MAX |
1.5 0.75 |
A rms |
Efficiency 115VAC Full Load 230VAC Full Load | TYP TYP |
86 89 |
% |
24V Output Parameters | |||
24V Charging Current Setting Range |
MIN TYP MAX |
3800 4000 4200 |
mA |
24V Charging Voltage Range |
MIN MAX |
15 30 |
V |
The output charging current can be programmed between 3800mA and 4200mA, while the maximum output voltage increases up to 30V accordingly based on the principle of 120W maximum output power. | |||
Output Overshoot/Undershoot (Power On/OFF) Overshoot (output peak current) 5.6A maximum @ nominal AC input, full load, 25 ºC. Measured with 20MHz bandwidth. |
36V Output Parameters | |||
36V Charging Current Setting Range |
MIN TYP MAX |
2527 2660 2793 |
mA |
36V Charging Voltage Range |
MIN MAX |
22.5 45 |
V |
The output charging current can be programmed between 2527mA and 2793mA, while the maximum output voltage increases up to 30V accordingly based on the principle of 120W maximum output power. | |||
Output Overshoot/Undershoot (Power On/OFF) Overshoot (output peak current) 5.6A maximum @ nominal AC input, full load, 25 ºC. Measured with 20MHz bandwidth. |
48V Output Parameters | |||
48V Charging Current Setting Range |
MIN TYP MAX |
1938 2040 2142 |
mA |
48V Charging Voltage Range |
MIN MAX |
29 58.8 |
V |
The output charging current can be programmed between 1938mA and 2142mA, while the maximum output voltage increases up to 58.8V accordingly based on the principle of 120W maximum output power. | |||
Output Overshoot/Undershoot (Power On/OFF) Overshoot (output peak current) 5.6A maximum @ nominal AC input, full load, 25 ºC. Measured with 20MHz bandwidth. |
All Models | |||
Current Accuracy | MAX | ±5 | % |
Voltage Accuracy | MAX | ±2 | % |
Output Power | MAX | 120 | W |
Ripple and Noise - Iout with typical CV load at 25ºC 100- 240VAC input measured at 20 MHz bandwidth |
MAX |
20 |
% Iout |
Turn-on Delay Time Full Load @ 110 VAC Full Load @ 230 VAC | MAX |
2 |
s |
Rise Time @ 25ºC, Full Load |
MAX | 150 | mS |
Current Temperature Coefficient 0 ºC < Tcase <tcmax |
MAX | 0.05 | % / ºC |
Voltage Temperature Coefficient 0 ºC < Tcase <tcmax |
MAX | 0.05 | % / ºC |
Isolation Test: Primary to Secondary |
3750 VAC 10 mA Max/60 seconds (3 seconds for production) |
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Isolation Test: Primary to Ground |
1875VAC 10 mA Max/60 seconds (3 seconds for production) |
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Isolation Test: Secondary to Ground |
500VAC 10 mA Max/60 seconds (3 seconds for production) |
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Leakage Current: @240VAC/50Hz |
0.50mA Max |
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Ground Resistance: @ 25A, 1 minute |
MAX |
0.1 |
Ω |
Isolation Resistance: Primary to Secondary with 500 VDC test voltage |
MIN |
100 |
MΩ |
MTBF: (MIL-HDBK-217F 25ºC, 230VAC input and full load output) |
≥ 200,000 |
Hours |
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Life Time: @ 50ºC, 230 VAC input and full load output |
≥ 50,000 |
Hours |
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Temperature - Operating |
MIN MAX |
-20 +60 |
ºC |
Temperature - Storage |
MIN MAX |
-40 +85 |
ºC |
Relative Humidity |
10% - 100% |
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Weatherproof |
IP64 for Enclosure |
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Case Size |
10.75" x 1.93" x 1.59" 273mm x 49mm x 40.5mm |
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Unit Weight |
0.8 kg |
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Agency Approval |
Designed to meet CE and UL1012 |
Protection | |
Short Circuit Protection |
Auto-Recovery - return to normal when fault condition is removed |
Over Voltage Protection |
Can be programmed at 3-5V over maximum voltage output. Auto-recovery during over voltage protection and will return to normal operation when fault condition is removed. |
Over Temperature Protection |
The unit will go into thermal protection when it is overheating. The unit will enter auto- recovery mode and will self-recover when the temperature becomes normal. |
Open Circuit Protection |
When output is open, power supply will enter auto-recovery and return to normal operation after fault condition is removed. |
*Notes:
- When the output voltage is less than set maximum voltage, charger will be in CC mode. When the output voltage reaches and is above ±2% of the set maximum voltage, the charger will be in CV mode.
- Vibration - 10 to 300 Hz sweep at a constant acceleration of 1.0G (Breadth: 3.5mm) for 1 hour for each of the perpendicular axes X, Y, Z.
- Specifications are subject to change without notice.
Charging Curve
Charging curves are defined at maximum voltage and current.
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