DC-DC Step Up Module 5-32V to 5-50V XL6009/XL6019 Adjustable Module QS-0524CBDE-15W
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Step Up Boost ModuleSKU :
23111338
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Brand: QSKJ
Model: QS-0524CBDE-15W
Features:
- The new original XLSEMI chip, eliminate fake, disassemble chip.
- Imported SMD electrolytic capacitors, not accompanied by homemade capacitance.
- Up to 400Khz operating frequency, and LC filter circuit, output ripple is very low.
- Import TDK inductors, the heat and noise to a minimum.
- Input and output three MLCC Multilayer ceramic capacitors, interference enhance stability.
- PCB use kb of A grade sheet material, to prevent cardboard, garbage plate.
- Built-in MOSFET, the LM2577 built-triode say goodbye, can reach 94% efficiency.
- Increased enable the port, you can control whether the boost circuit.
- Dimensions: 49 (L) * 23.4 (W) * 11.4 (H) mm (excluding potentiometer)
Parameters:
- Module Properties: non-isolated step-up module (BOOST)
- Input voltage: 5-32V
- Output voltage: (1) continuously adjustable (5-50V)
- Output Current: 2.5A (MAX)
- Input Current: 4A (MAX)
- Output power: natural cooling 15W, plus heat sink 25W (MAX) real power
- Maximum output power = input voltage conversion efficiency * 4A *conversion efficiency
- Full load temperature rise: 45 C
- Operating frequency: 400khz
- Load current: 5V turn 12V 15mA, 8.4V turn 12V 7mA, 12V switch 24V 9mA, 12V switch 36V 18mA, 24V switch 48V 9mA, 24V switch 36V 6mA.
- Load regulation: ± 0.5%
- Voltage regulation: ± 0.5%
- Dynamic response speed: 5% 200uS
- Enable Control Port: Yes, high 1.4V-VIN (ON), low 0-0.8V (OFF), the default high
- Short circuit protection: None (Please install fuse or protection circuit input)
- Input reverse polarity protection: None, please with our reverse protection diode board or in the input series.
- Installation: You can screw (Fixing holes 3 mm), 2 fixing holes
- Operating temperature: Industrial grade (-40 C to + 85 C) (ambient temperature exceeds 40 degrees, lower power use, or to enhance heat dissipation)
- Conversion efficiency: the efficiency of the measured voltage and current commonly used (hereinafter, for reference only)
A=Input voltage. B=Input Current. C=Output voltage. D=Output Current. E=conversion efficiency
| Input Voltage V | Input Current A | Output Voltage V | Output Current A | Conversion Efficiency | |
|---|---|---|---|---|---|
| Row 2 | 5.083 | 0.531 | 12.012 | 0.200 | 89.01% |
| Row 3 | 5.055 | 1.361 | 12.006 | 0.500 | 87.25% |
| Row 4 | 5.011 | 2.990 | 11.983 | 1.000 | 79.98% |
| Row 5 | 8.413 | 0.316 | 12.021 | 0.200 | 90.43% |
| Row 6 | 8.402 | 0.777 | 12.016 | 0.500 | 92.03% |
| Row 7 | 8.378 | 1.585 | 12.004 | 1.000 | 90.40% |
| Row 8 | 8.355 | 2.440 | 11.986 | 1.500 | 88.19% |
| Row 9 | 8.332 | 3.345 | 11.953 | 2.000 | 85.78% |
| Row 10 | 12.012 | 0.442 | 24.125 | 0.200 | 90.88% |
| Row 11 | 11.993 | 1.093 | 24.125 | 0.500 | 92.02% |
| Row 12 | 11.963 | 2.227 | 24.050 | 1.000 | 90.27% |
| Row 13 | 11.985 | 1.352 | 36.320 | 0.400 | 89.66% |
| Row 14 | 23.985 | 1.087 | 48.020 | 0.500 | 92.09% |
| Row 15 | 23.992 | 0.799 | 35.850 | 0.500 | 93.51% |