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- DC-DC Step-Up Booster Power Supply Module XL6009
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Features:
- High Efficiency: Built-in 4A efficient MOSFET switch achieves up to 94% conversion efficiency.
- Ultra-High Switching Frequency: Allows the use of low-capacitance filtering components while maintaining stable output.
- Durable Design: Solid structure ensures reliability for demanding environments.
- Wide Input Voltage: Accepts from 3.5V to 32V, ideal for various power sources.
- Adjustable Output: Output voltage adjustable from 5V to 35V to match your application needs.
- High Output Current: Rated at 2.5A, with a maximum of 3A when additional heatsinking is used.
Specifications:
- Input Voltage: 3.5V – 32V
- Output Voltage: 5V – 35V (adjustable)
- Output Current: Rated: 2.5A; Max: 3A (requires heatsink)
- Load Regulation: ±0.5%
- Voltage Regulation: ±0.5%
- Operating Temperature: -40°C to +125°C
- Maximum Output Power: 10W
- Dimensions: 4.1 x 2.1 x 1.3 cm
Applications:
- Power supply for IoT devices, sensors, and microcontrollers
- Battery charging and energy harvesting applications
- LED drivers and lighting systems
- Automotive and aerospace electronics
How to Use the XL6009 DC-DC Step-up Booster Module
The XL6009 is a high-efficiency step-up (boost) converter capable of providing adjustable output voltage from a lower input voltage. It is easy to integrate into projects requiring a stable voltage supply.
Connections
- VIN (+): Connect to the positive terminal of your power source (3.5V – 32V).
- GND: Connect to the negative terminal of your power source.
- VOUT (+): Connect to the device or circuit requiring the boosted voltage.
- GND: Connect to the negative terminal of the load (common ground).
Adjusting the Output Voltage
- Locate the small potentiometer (screw) on the module.
- Use a screwdriver to turn the potentiometer.
- Measure the output voltage with a multimeter while adjusting.
- Turn clockwise to increase the output voltage, counterclockwise to decrease.
- Do not exceed the module's maximum output voltage (35V) or rated current (2.5A without heatsink).
Tips for Safe Operation
- Always connect the load after adjusting the output voltage to avoid accidental overvoltage.
- For currents above 2.5A, attach a heatsink to prevent overheating.
- Ensure the input voltage is always lower than the desired output voltage, as the module cannot step down voltage.
- Keep wiring short and thick enough to handle the expected current.
- Use a multimeter to monitor voltage and current during initial setup.
Features:
- High Efficiency: Built-in 4A efficient MOSFET switch achieves up to 94% conversion efficiency.
- Ultra-High Switching Frequency: Allows the use of low-capacitance filtering components while maintaining stable output.
- Durable Design: Solid structure ensures reliability for demanding environments.
- Wide Input Voltage: Accepts from 3.5V to 32V, ideal for various power sources.
- Adjustable Output: Output voltage adjustable from 5V to 35V to match your application needs.
- High Output Current: Rated at 2.5A, with a maximum of 3A when additional heatsinking is used.
Specifications:
- Input Voltage: 3.5V – 32V
- Output Voltage: 5V – 35V (adjustable)
- Output Current: Rated: 2.5A; Max: 3A (requires heatsink)
- Load Regulation: ±0.5%
- Voltage Regulation: ±0.5%
- Operating Temperature: -40°C to +125°C
- Maximum Output Power: 10W
- Dimensions: 4.1 x 2.1 x 1.3 cm
Applications:
- Power supply for IoT devices, sensors, and microcontrollers
- Battery charging and energy harvesting applications
- LED drivers and lighting systems
- Automotive and aerospace electronics
How to Use the XL6009 DC-DC Step-up Booster Module
The XL6009 is a high-efficiency step-up (boost) converter capable of providing adjustable output voltage from a lower input voltage. It is easy to integrate into projects requiring a stable voltage supply.
Connections
- VIN (+): Connect to the positive terminal of your power source (3.5V – 32V).
- GND: Connect to the negative terminal of your power source.
- VOUT (+): Connect to the device or circuit requiring the boosted voltage.
- GND: Connect to the negative terminal of the load (common ground).
Adjusting the Output Voltage
- Locate the small potentiometer (screw) on the module.
- Use a screwdriver to turn the potentiometer.
- Measure the output voltage with a multimeter while adjusting.
- Turn clockwise to increase the output voltage, counterclockwise to decrease.
- Do not exceed the module's maximum output voltage (35V) or rated current (2.5A without heatsink).
Tips for Safe Operation
- Always connect the load after adjusting the output voltage to avoid accidental overvoltage.
- For currents above 2.5A, attach a heatsink to prevent overheating.
- Ensure the input voltage is always lower than the desired output voltage, as the module cannot step down voltage.
- Keep wiring short and thick enough to handle the expected current.
- Use a multimeter to monitor voltage and current during initial setup.