Anonymous
Apr 15, 2026
Rating: 5/5
Perfect for DIY control panels
Works exactly as described. Soldering was easy and the sensitivity adjustment is very useful for my project.
Description
Reviews
| Brand | - |
| Category | Electronic Components / Maker DIY / Computer Hardware, Monitors & Peripherals |
| Origin | - |
| Dimensions | 15 x 11 x 2 mm |
| Operating Voltage | 3.3V - 5V DC |
| Output Type | Digital Signal |
| Touch Mode | Single Touch |
| Response Time | < 60ms |
| Operating Temperature | -20°C to 70°C |
| Sensitivity | Adjustable via Potentiometer |
| Mounting Type | Through-Hole Solderable |
| PCB Material | FR-4 |
| Net Weight | 1.5g |
Anonymous
Apr 15, 2026
Rating: 5/5
Perfect for DIY control panels
Works exactly as described. Soldering was easy and the sensitivity adjustment is very useful for my project.
Anonymous
Apr 11, 2026
Rating: 5/5
Bulk order success
Bought 50 for our workshop. All units tested functional. Consistent quality across the batch.
Anonymous
Apr 11, 2026
Rating: 3/5
Works but documentation is sparse
The module functions well but I had to look up pinouts online. Would prefer a datasheet included in the package.
Anonymous
Apr 11, 2026
Rating: 5/5
Compact and reliable
Great size for tight spaces. Used it in a wearable project without any issues regarding power consumption.
Anonymous
Jan 26, 2026
Rating: 4/5
Good module, minor tuning needed
Had to spend some time adjusting the potentiometer to get it right, but once set it works reliably.
Q: Is the output latching or momentary?
A: This specific model is configured for momentary output as per the product title.
Q: What current does it draw?
A: Typical consumption is around 5mA during operation.
Q: What is the pinout configuration?
A: VCC, GND, and OUT. Please refer to the silkscreen on the board for specific orientation.
Q: Can I connect multiple modules to one microcontroller?
A: Yes, each module requires a separate digital input pin on your microcontroller.
Q: Can this detect touch through 3mm acrylic?
A: Yes, capacitive touch usually works through thin non-conductive materials like acrylic or glass.