Yl105 Datasheet Jun 2026
The is a reliable workhorse for rectification and power regulation. Whether you are repairing a device or designing a new circuit, adhering to the VRRMcap V sub cap R cap R cap M end-sub
(in ideal line-of-sight conditions with the PA/LNA version reaching further) -40∘Cnegative 40 raised to the composed with power C +85∘Cpositive 85 raised to the composed with power C Pinout Configuration
The YL105 typically utilizes an 8-pin layout. While you should always verify with the specific manufacturer's marking, the standard configuration is often as follows: Positive power supply. GND: Ground reference. yl105 datasheet
Built to withstand exposure to various chemicals and fluids, making it suitable for industrial use. Electrical Properties: Provides a dielectric strength of Flexibility:
– Cut the tube 10–15% longer than the area to be covered to account for minor longitudinal shrinkage. The is a reliable workhorse for rectification and
Found in battery chargers for small appliances.
| Model | Supplied I.D. (in) | Supplied I.D. (mm) | Recovered I.D. (in) | Recovered I.D. (mm) | Recovered Wall Thickness | |-------|--------------------|--------------------|---------------------|---------------------|--------------------------| | F2211/2 YL105 | 0.500 | 12.70 | 0.250 | 6.35 | 0.025" (0.64 mm) | | F221V3/4 YL105 | 0.751 | 19.10 | 0.374 | 9.52 | 0.030" (0.76 mm) | | F2211IN YL105 | 1.000 | 25.40 | 0.500 | 12.70 | – | | F2212IN YL105 | 2.000 | 50.80 | 1.000 | 25.40 | 0.045" (1.14 mm) | | F22111/2 YL105 | 1.500 | 38.10 | 0.750 | 19.05 | 0.040" (1.02 mm) | GND: Ground reference
void loop() hallState = digitalRead(hallPin); if (hallState == LOW) // active low typical digitalWrite(ledPin, HIGH); Serial.println("Magnet detected"); else digitalWrite(ledPin, LOW);
The YL-105 module typically features a standard 2.54mm pitch header (usually 8 pins).
: Power Supply Input (Connects directly to the 5V rail of your MCU).
For longevity, it is recommended to use a component rated for at least 20% higher voltage than your circuit's maximum peak voltage. Conclusion
