The YL105 is designed to match the mounting dimensions of three-phase motors (e.g., standard IEC frame sizes). This means manufacturers can use the same machinery base for both single-phase and three-phase variants, reducing design costs. 4. Typical Applications for the YL105 Motor
The YL-105 is a designed for short-to-medium range data transmission. It typically operates on the 433 MHz frequency band (though variations exist, always check the crystal oscillator on the board).
Route a jumper wire from the 5V pin of the MCU to the VCC pin on the YL-105. Connect the GND pins together. yl105 datasheet better
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Prototyping without an adapter demands messy breadboard splitting or custom soldering to bridge power and logic safely. The YL-105 hosts an intuitive layout: you plug the 8-pin transceiver straight into the socket. Power wires (5V and GND) route cleanly to the outer power pins, while the Serial Peripheral Interface (SPI) pins branch directly to your MCU logic headers. Wiring Guide: YL-105 Breakout to Microcontroller Because the data pins on the The YL105 is designed to match the mounting
If you just want to know "Is it raining? Yes/No," use the DO pin.
The is a 5V to 3.3V adapter board designed specifically for the 8-pin nRF24L01 wireless transceiver module. It allows you to connect the radio module directly to a 5V system without needing external voltage regulators or complex voltage divider circuits. Key Features from the Datasheet Input Voltage: 5V DC (compatible with Arduino/5V MCU) Typical Applications for the YL105 Motor The YL-105
: Unfortunately, a formal manufacturer datasheet for this specific board is rare. The "better" documentation is a combination of its features. Search "YL-105 voltage regulator Arduino" or "YL-105 NRF24L01 adapter pinout" to find community guides, specs, and wiring diagrams. For details on the regulator chip itself, search for the AMS1117 datasheet .