Product features: 1. Good heat dissipation effect and higher output power (the power can reach around 1800W when 48V input and fan are added).
2. Equipped with a temperature controlled fan and hydraulic bearing fan, it achieves a very good balance in noise and heat dissipation.
3. Using 100V 210A TO-247 large package power transistor, with large power margin and good dynamic response.
4. Double large-sized iron silicon aluminum magnetic rings, using four 1.2-purity copper enameled wires in parallel, with low heat generation and high efficiency.
5. Equipped with constant current function, it can be used for boosting the voltage of electric vehicles, charging batteries, etc. The undervoltage protection is adjustable, which can effectively protect various batteries and can also be used for solar cells.
Product Introduction 1. Using wing shaped heat dissipation has excellent heat dissipation effect and a larger output power (the power can reach around 1800W when 48V input and fan are added).
2. Temperature controlled fan, combined with hydraulic bearing fan, achieves a very good balance in noise and heat dissipation. When the load is light, the fan does not rotate. When the load is heavy and the temperature reaches around 60 degrees, the fan automatically turns on. It can effectively reduce noise and extend lifespan.
3. The insulation board of the main power tube is made of high-grade aluminum oxide, with a thermal conductivity 10 times that of ordinary insulation pads.
4. Using 100V 210A TO-247 large package power transistor, with large power margin and good dynamic response.
5. Double large-sized iron silicon aluminum magnetic rings, using four 1.2-purity copper enameled wires in parallel, with low heat generation and high efficiency.
6. Multi turn potentiometer with high adjustment accuracy and small drift.
7. Kang copper wire output current sampling, constant current stability, and small temperature drift.
8. The undervoltage protection is adjustable, which can effectively protect various batteries and can also be used for solar cells.
9. Equipped with constant current function, it can be used for boosting the voltage of electric scooters, charging batteries, and so on.
10. Input three 20A fuses in parallel to protect against the risk of accidental short circuits in the output.
11. Three indicator lights: undervoltage, overcurrent, power indicator, and clear working status at a glance.
12. Both input and output use high-frequency capacitors, with low output ripple, low heat generation, and long lifespan.
13. MLCC ceramic capacitors have been added to the input and output, resulting in a significant reduction in output ripple, which is approximately 100 millivolts at 48V to 72V 4A.
Product parameters: Module Name: 1500W Boost Constant Current Module
Module nature: Non isolated boost module (BOOST)
Input voltage: DC10-60V
Constant current range: 0.8-20A (+/-0.3A)
Input current:
10-30V input voltage, maximum current 30A
31-60V input voltage, maximum current 25A
Static working current: 15mA (when 12V rises to 20V, the higher the output voltage, the more static current will increase)
Output voltage: 12-90V continuously adjustable (note: default shipment is around 19V output voltage, current is around 30, undervoltage protection is around 10.5V, if you need to adjust to other voltage values, please explain. If you have a multimeter, buyers can adjust it themselves)
Output current: 20A MAX If it exceeds 15A, please strengthen heat dissipation (related to input and output pressure differences, the larger the pressure difference, the smaller the output current)
Input anti reverse connection: Yes (150A power MOS anti reverse)
Low battery protection: with (8-50V adjustable) self recovery type
Working temperature: -40~+85 degrees (please strengthen heat dissipation when the ambient temperature is too high)
Working frequency: 150KHz
Installation method: 4 3mm copper pillars
Input overcurrent protection: Yes (if the input exceeds 35A, automatic protection will be provided, and the power supply will not be boosted)
Short circuit protection: With (input 30A fuse) dual short circuit protection, safer to use
Input reverse protection: With (15OA power MOSFET anti reverse. Can be reversed for a long time)
Wiring method: Terminal block (please use high current pure copper wire)
Module size: 130x52x84 (mm)
Output power:=input voltage * 30A,
For example, if 12V * 30A=360W is input, the maximum power when 12V is input is 360W
=Input voltage * 30A
For example: Input 24V * 30A=720W, that is, the maximum power when inputting 24V is 720W
nstructions for use:
Voltage regulation: When the power is turned on and unloaded, use a flat screwdriver to adjust the output terminal "V-ADJ" potentiometer clockwise to increase and counterclockwise to decrease. Due to the large output capacitor capacity, the response will be slower when adjusting the output voltage from high voltage to low voltage. The amplitude of the instrument adjustment is smaller. (The default output voltage is set to 19V for shipment)
Current regulation: Turn the "CCA-ADJ" potentiometer counterclockwise for about 30 turns, set the output current to the minimum, connect the LED battery and other loads, and turn the "CCA-ADJ" potentiometer clockwise to the current you need. For battery charging, after discharging the battery, connect it to the output and adjust the CC A-ADJ to the current you need. When using it for charging, be sure to use the discharged battery for accurate adjustment, because the more remaining battery charge, the lower the charging current. The default output power is set to 3A for shipment. If you need us to adjust the current value properly, please do not use short-circuit output to adjust the current. The circuit structure of the boost module cannot be adjusted by short-circuit
Input low battery protection adjustment: Low battery protection is mainly aimed at preventing over discharge of the battery when the input power is a battery. If the battery voltage is too low, it can damage the power module and the battery input is a switch mode power supply. Low voltage protection method 1 should also be set, such as setting a 12V battery low battery protection. Connect a 10V voltage to the input terminal of the power module and use a flat screwdriver to adjust RV1 (increase the clockwise protection voltage value and decrease the counterclockwise protection voltage value) until the UVLO light is on. At this time, the low battery protection voltage is 10V. When the battery voltage drops to 10V, the power module does not rise (the input voltage is equal to the output voltage). Only when the input voltage is higher than 10V, the power supply will recover and start boosting.
Method 2: Connect the input battery or switch power supply. If the UVLO light on the board is off, turn the RV1 potentiometer counterclockwise to turn on the UVLO light. After turning it on, turn it clockwise twice. If the UVLO light is on, turn the RV1 potentiometer clockwise, turn the UVLO light off, and then turn it two more turns. (Adapted to 8V-45V voltage)
Product List: 1X module
1X accessory package