Yl105 Datasheet [ 100% EXTENDED ]

The internal components of the YL-105 module define its strict mechanical and electrical boundaries. Specification / Value Suppled directly from the microcontroller power rail. Output Voltage Provided via the onboard linear regulator. Onboard Voltage Regulator AMS1117-3.3 (or equivalent) Handles down-regulation and filters voltage ripple. Supported RF Module nRF24L01+ / nRF24L01+PA+LNA Fits the standard 8-pin dual-row headers. Interface Communication Serial Peripheral Interface (SPI) Passes through the native SPI bus lines. Dimensions 26 mm x 19 mm x 12 mm Ideal for space-constrained electronics projects. Core Functions of the YL-105 1. Onboard Voltage Regulation

| Parameter | F2211/2 YL105 | F2213/4 YL105 | F221V1IN YL105 | F22111/2 YL105 | | :--- | :--- | :--- | :--- | :--- | | | Tubing, Flexible | Tubing, Flexible | Tubing, Flexible | Tubing, Flexible | | Shrink Ratio | 2:1 | 2:1 | 2:1 | 2:1 | | Supplied I.D. | 0.500" (12.70mm) | 0.750" (19.05mm) | 1.000" (25.40mm) | 1.500" (38.10mm) | | Recovered I.D. | 0.250" (6.35mm) | 0.375" (9.53mm) | 0.500" (12.70mm) | 0.750" (19.05mm) | | Recovered Wall Thickness | 0.025" (0.64mm) | 0.030" (0.76mm) | 0.035" (0.89mm) | Data Unavailable | | Material | PO (Polyolefin), Irradiated | PO (Polyolefin), Irradiated | PO (Polyolefin), Irradiated | PO (Polyolefin), Irradiated | | Shrink Temperature | 90°C | 90°C | 90°C | 90°C | | Operating Temp. Range | -55°C to 135°C | -55°C to 135°C | -55°C to 135°C | Data Unavailable | | Key Features | Flame Resistant, Fluid Resistant | Flame Resistant, Fluid Resistant | Flame Resistant, Fluid Resistant, UV Resistant | Flame Resistant, Fluid Resistant |

The adapter board is a vital, inexpensive component for anyone looking to incorporate wireless data transfer into a

This comprehensive guide explores the YL105 designation, breaks down the Alpha Wire part numbering system, and provides an in-depth look at the electrical, thermal, and mechanical properties of the most common YL105-tagged products. You will also find guidance on interpreting technical specifications, sourcing components, and practical installation advice. yl105 datasheet

The LM393 comparator uses the and the sensor’s output . The datasheet fails to mention that the potentiometer is not a precision reference—it drifts with temperature and vibration. Your digital trigger point will change over time.

Note: While the power input is safely stepped down to 3.3V, the data pins (MOSI, MISO, SCK, CE, CSN) bypass the regulator and pass directly to the transceiver. Fortunately, the data input pins on the nRF24L01 chip are 5V-tolerant, meaning logic level shifters are usually unnecessary when pairing it with a 5V MCU. Input / Microcontroller Interface Side

An evaluation of the specifications confirms how this breakout board resolves these hardware incompatibilities. By embedding a dedicated on-board low-dropout (LDO) voltage regulator and breaking out the complex 8-pin RF footprint into a standard, breadboard-friendly layout, the YL-105 simplifies low-power wireless networking. Technical Specifications & Operating Limits The internal components of the YL-105 module define

If you are developing with Arduino, look for the "A7105" library or libraries related to the "FlySky" protocol (as the A7105 is the chip used in many FlySky RC transmitters).

Note: Since "YL-105" is a common PCB module designation (often sold on breakout boards with an LM393 comparator), this review assumes you are referring to the (based on the 49E or similar linear Hall element). If you meant a specific IC datasheet, this review covers the typical engineering specifications of the module itself.

The datasheet details for the YL-105 adapter board usually include: Input Voltage: 5V DC (can be powered directly from an Arduino's 5V pin). On-board Regulator: Onboard Voltage Regulator AMS1117-3

In this circuit, the YL105 transistor is used to amplify a small input signal. The input signal is applied to the base of the transistor through a coupling capacitor. The amplified signal is then taken from the collector of the transistor.

Which (e.g., Arduino Uno, ESP32, Raspberry Pi Pico) you plan to use.