Hw-133-v1.0 Datasheet //top\\ Direct

To use this module effectively, users typically follow these steps:

Because the HW-133-V1.0 ships with a variable potentiometer, to prevent overvoltage damage.

A high-precision variable resistor tied to the internal feedback loop ( FB pin of the IC). Turning the screw varies the internal resistance ratio, steering VOUTcap V sub cap O cap U cap T end-sub down to a minimum of Hw-133-v1.0 Datasheet

I can provide an exact schematic modification or recommend external filtering components tailored to your project. Share public link

💡 : Use a drop of nail polish or hot glue on the potentiometer screw after setting your voltage to prevent it from shifting due to vibrations in mobile projects. To help you get started, tell me: To use this module effectively, users typically follow

write_register(REG_ADC_START, channel); delay_ms(2); val = read_register(REG_ADC_RESULT, 2); return convert_to_voltage(val);

Common ground reference shared between input and output rails. Share public link 💡 : Use a drop

| Compliance | Status | |---|---| | RoHS | Non-compliant (Contains lead) | | REACH | Unaffected | | ECCN | EAR99 | | MSL | Not Applicable | | HTSUS | 8473.30.5100 |

Power down the source, connect your load to the output terminals, and secure the circuit. Typical Hardware Applications

, the datasheet highlights the following core performance metrics: Regulator IC : Typically based on the high-frequency switching regulator. Input Voltage Range : 4.5V to 28V. Output Voltage : Adjustable from 0.8V to 20V. Maximum Output Current Efficiency : Up to 96%. Switching Frequency : Up to 1.5 MHz (typically 1 MHz). Operating Temperature : -45°C to +85°C. Dimensions : Approximately 22mm x 17mm x 4mm. Key Features Integrated Power MOSFET