- Stock: In Stock
- Brand: xcluma
- Model: BE-002250
- Weight: 420.00g
- SKU: BE-002250
- MPN: BE-002250
step up converter 1500W 30A DC Boost Converter Step-up Power Module In10~60V Out 12~90V High Q hb frequency converter
Features:
- The power supply module uses double sendust magnets winded with 1.2mm copper wires.
- 100V/210A low resistance MOS with large power and current input, suitable for large power LED, motors.
- Support reverse input with MOS so there is no worry about wrong input wire and burn out power supply.
- Low voltage will protect module and battery against damage from over-discharge when use a storage battery as input.
- Thickened heatsink and intelligent temperature control cooling fan dissipate heat better.
Specifications:
Type: Non-isolated step-up module (BOOST)
Input Voltage: DC10V to 60V
Maximum. Input Current: 30A(input voltage 10V to 30V)
25A(input voltage 31V to 60V)
Quiescent Current: 15mA(will increase when convert 12V to 20V)
Output Voltage: 12V to 90V (adjustable, default is 19V)
Maximum. Output Current: 20A (related to the input and output voltage difference, the greater voltage difference is, the smaller output current will be. please enhance heat dissipation when current is over 15A)
Constant Current Range: 0.8A to 20A(+/-0.3A)
Reverse Input : Yes (150A MOS)
Lower Voltage : Yes (V8 to 50V adjustable, self-recovery)
Operating Temperature: - 40℃ to +85 ℃(if temperature is too high, please enhance heat dissipation)
Frequency: 150KHz
Conversion Efficiency: 92% to 97% (Efficiency is related to input/output voltage, current and voltage difference. The smaller difference is, the higher efficiency will be)
Input Over-current : Yes (automatically protect when input is more than 35A, and power supply voltage will not increase)
Short Circuit : Yes(input 30A fuse)
Wiring Method: Terminals(please use large current copper wire)
Maximum. Output Power = Input Voltage*Maximum Current (If input 12V, the maximum output power=12V*30A = 360W)
Size:130 x 84 x 52mm / 5.11 x 3.3 x 2.04"
Instruction:
Voltage Adjustment:
Power on module while not connect to load, then adjust "V-ADJ" potentiometer clockwise to increase, counterclockwise to decrease. Due to large output capacitance capacity, response will be slow when adjust high voltage to low voltage.
Current Adjustment:
Adjust "CC A-ADJ" potentiometer counterclockwise about 30 circles to minimize the output current before connecting to load. Then adjust "CC A-ADJ" clockwise to the current value you need.If you use the module for battery charging, connect to output after battery is discharged. Because if the more energy is left in battery, the less charging current will be.
Low Input Voltage Adjustment:
If we set a low input voltage for a 12V battery, connect input to a 10V voltage, then adjust RV1(clockwise to increase, counterclockwise to decrease) till UVLO light up. Now the voltage is 10V, that is to say, when battery voltage drops to 10V, module won't step up voltage and the output voltage will be same as input voltage.
Type: Non-isolated step-up module (BOOST)
Input Voltage: DC10V to 60V
Maximum. Input Current: 30A(input voltage 10V to 30V)
25A(input voltage 31V to 60V)
Quiescent Current: 15mA(will increase when convert 12V to 20V)
Output Voltage: 12V to 90V (adjustable, default is 19V)
Maximum. Output Current: 20A (related to the input and output voltage difference, the greater voltage difference is, the smaller output current will be. please enhance heat dissipation when current is over 15A)
Constant Current Range: 0.8A to 20A(+/-0.3A)
Reverse Input : Yes (150A MOS)
Lower Voltage : Yes (V8 to 50V adjustable, self-recovery)
Operating Temperature: - 40℃ to +85 ℃(if temperature is too high, please enhance heat dissipation)
Frequency: 150KHz
Conversion Efficiency: 92% to 97% (Efficiency is related to input/output voltage, current and voltage difference. The smaller difference is, the higher efficiency will be)
Input Over-current : Yes (automatically protect when input is more than 35A, and power supply voltage will not increase)
Short Circuit : Yes(input 30A fuse)
Wiring Method: Terminals(please use large current copper wire)
Maximum. Output Power = Input Voltage*Maximum Current (If input 12V, the maximum output power=12V*30A = 360W)
Size:130 x 84 x 52mm / 5.11 x 3.3 x 2.04"
Power on module while not connect to load, then adjust "V-ADJ" potentiometer clockwise to increase, counterclockwise to decrease. Due to large output capacitance capacity, response will be slow when adjust high voltage to low voltage.
Current Adjustment:
Adjust "CC A-ADJ" potentiometer counterclockwise about 30 circles to minimize the output current before connecting to load. Then adjust "CC A-ADJ" clockwise to the current value you need.If you use the module for battery charging, connect to output after battery is discharged. Because if the more energy is left in battery, the less charging current will be.
Low Input Voltage Adjustment:
If we set a low input voltage for a 12V battery, connect input to a 10V voltage, then adjust RV1(clockwise to increase, counterclockwise to decrease) till UVLO light up. Now the voltage is 10V, that is to say, when battery voltage drops to 10V, module won't step up voltage and the output voltage will be same as input voltage.