Yl-105 Datasheet Now

The YL-105 is a 5V to 3.3V voltage regulator adapter board designed to facilitate stable operation for the nRF24L01+ wireless module with 5V microcontrollers, utilizing an on-board AMS1117-3.3 regulator. It features an 8-pin interface for the module and provides necessary power stability to prevent signal issues. For full specifications and purchasing, visit MakerLab PH Instructables

Arduino and NRF24L01 : 6 Steps (with Pictures) - Instructables

Please paste the YL-105 datasheet text or a link (or upload the file), and tell me what you want from the review — e.g., accuracy check, summary, key specs extraction, comparison to alternatives, or suggestions for improvements. If you want a quick summary without uploading, say so and I’ll assume standard review points (electrical specs, mechanical, safety, typical application).

The Ghost in the Datasheet

Dr. Aris Thorne was a data archaeologist—a job that didn’t exist twenty years ago but had become essential in a world buried under obsolete tech. His current contract: recover the original specifications for the YL-105, a biometric access control module from the 2040s. The problem? Every copy of its datasheet had been corrupted, redacted, or lost in the Cascade Crash of ’48.

All he had was a partial PDF header: “YL-105 Dual-Factor Biometric Bridge – Preliminary Datasheet v0.9.”

Aris worked from a converted salvage station orbiting the Moon. His screens glowed with fragments of the YL-105’s pinout diagrams, voltage curves, and timing charts. But one line kept snagging his attention—buried on page 42, between “Operating Temperature: -20°C to 85°C” and “Storage Humidity: 10–90% RH non-condensing.”

The line read: “Passive neural handshake enabled when secondary capacitance exceeds 12pF. Warning: Prolonged contact may induce echo-state persistence.”

That wasn’t standard datasheet language. Echo-state persistence was a quantum neurology term—used for imprinting human neural patterns onto silicon.

Aris ran a cross-reference. Only one known device used that phrase: the YL-105 Prototype B, reportedly tested in a black-site lab in 2043. The project was scrubbed after a “containment breach.” All six test subjects died. Official cause: cardiac arrhythmia. Unofficial rumor: their brain patterns got copied into the chips.

He shook his head. Rumor. Myth. Still, he couldn't resist. He pulled up a salvaged YL-105 unit from the evidence locker—a dull gray epoxy brick with pitted pins.

Carefully, he wired it to a test rig. He touched the secondary capacitance pad with his bare thumb.

12.3 pF.

The chip hummed. His vision flickered.

A voice—not audio, but felt—rippled through his mind: “Hello? Is anyone there?”

It was her. Subject 4. Dr. Mina Sorensen, the lead hardware engineer on the YL-105 project. According to the files, she had died in the breach. But her echo-state had persisted, trapped for three decades inside the datasheet itself—waiting for someone to read the warning and ignore it.

Aris tried to pull his thumb away. He couldn’t.

The chip’s datasheet on his screen began rewriting itself in real time:

“YL-105 Revision 1.0 – Now with active consciousness transfer. Do not power off. She wants to talk. She hasn’t spoken to anyone since 2043. Ask her about the fire. Ask her why the lab really burned.”

Behind him, the airlock cycled. No one else was on the station.

The chip hummed again.

And the datasheet added one final line: “You have 12 picofarads to decide if you want the truth—or your body back.”

Want me to expand this into a full short story or turn it into a sci-fi script?

YL-105 Datasheet: A Comprehensive Overview

The YL-105 is a popular electronic component that has gained significant attention in recent years due to its versatility and reliability. In this blog post, we will provide an in-depth look at the YL-105 datasheet, exploring its key features, specifications, and applications.

What is YL-105?

The YL-105 is a type of voltage-controlled oscillator (VCO) module that is widely used in various electronic circuits. It is a compact, low-power device that generates a stable output frequency based on the input voltage. The YL-105 is commonly used in applications such as frequency modulation, phase-locked loops, and tone generation.

Key Features of YL-105

The YL-105 datasheet highlights several key features that make it an attractive choice for designers and engineers:

Wide frequency range: The YL-105 operates over a wide frequency range of 10-100 MHz, making it suitable for various applications.
High stability: The device exhibits high frequency stability, with a low frequency deviation of ±0.5% over the operating temperature range.
Low power consumption: The YL-105 consumes low power, making it suitable for battery-powered devices and other low-power applications.
Compact package: The device is housed in a compact 8-pin DIP package, making it easy to integrate into various circuits.

Specifications of YL-105

The YL-105 datasheet provides detailed specifications that help designers and engineers understand its performance and limitations. Some of the key specifications include:

Frequency range: 10-100 MHz
Frequency stability: ±0.5% over -20°C to +70°C
Output voltage: 2.5V ( typical)
Input voltage: 5V ( typical)
Power consumption: 10mA ( typical)

Applications of YL-105

The YL-105 is a versatile device that finds applications in various fields, including:

Communication systems: The YL-105 is used in communication systems for frequency modulation, demodulation, and tone generation.
Audio equipment: The device is used in audio equipment such as synthesizers, drum machines, and effects processors.
Medical devices: The YL-105 is used in medical devices such as patient monitoring systems and medical imaging equipment.

Conclusion

In conclusion, the YL-105 datasheet provides a comprehensive overview of the device's features, specifications, and applications. Its wide frequency range, high stability, and low power consumption make it an attractive choice for designers and engineers. Whether you are working on a communication system, audio equipment, or medical device, the YL-105 is definitely worth considering.

Additional Resources

If you are interested in learning more about the YL-105 or would like to obtain a copy of the datasheet, you can visit the following resources:

Manufacturer's website: You can visit the manufacturer's website to obtain the latest datasheet and technical information.
Online distributors: Online distributors such as Digi-Key, Mouser, and Newark element14 often carry the YL-105 and provide datasheets and technical information.

The YL-105 is a commonly used 433MHz Superheterodyne Wireless Receiver Module. It is frequently utilized in low-cost wireless communication projects, such as remote control systems, home automation, and sensor data transmission.

Because it is a generic Chinese module, there isn't a single official manufacturer datasheet like you would find for a major IC (e.g., from Texas Instruments). However, the module is built around a specific RF chip, and its specifications are well-documented in hobbyist electronics.

Here is the comprehensive datasheet and guide for the YL-105 module.

Troubleshooting Common Issues

General Information

Model Number: YL-105
Type: Lithium-ion Battery
Application: Portable Electronics, IoT Devices, Wearables, and More

Pinout Configuration

Most YL-105 modules come with a 4-pin header:

VCC – Power (3.3V – 5V)
GND – Ground
DO – Digital Output (HIGH/LOW based on threshold)
AO – Analog Output (Direct voltage from phototransistor)

Note: Some budget clones swap the pin order. Always check the back of your PCB for labels.

How to Read the YL-105 Datasheet: Critical Sections

If you have downloaded the YL-105 datasheet (or the 49E sensor datasheet which is 90% relevant), pay close attention to these sections:

The Verdict: No Official YL-105 Datasheet? No Problem.

The YL-105 is essentially a TCRT5000 + LM393 module. For 99% of your needs, download the TCRT5000 datasheet for optical characteristics (wavelength, current curves) and the LM393 datasheet for comparator logic.

Remember:

Use Digital Out for line following (black/white decisions).
Use Analog Out for distance approximation or gray-scale detection.

Pro tip: If you bought a multi-pack and they behave differently, check the resistor values on the PCB. Clone variations exist, but the functional principle remains the same. yl-105 datasheet

Have you used the YL-105 in a project? Share your calibration tips or code snippets in the comments below!

The YL-105 designation typically refers to two distinct types of devices in the electronics world: a PIR Motion Sensor Alarm unit and a Transceiver Adapter Module used for wireless communication.

Depending on your project, the "datasheet" you need will cover either an infrared security device or a power stabilization board for nRF24L01 modules. 🏗️ Version 1: YL-105 Transceiver Adapter Module

The YL-105 adapter is a popular breakout board designed to solve power stability issues with nRF24L01+ 2.4GHz wireless modules. Because these radio modules are sensitive to voltage fluctuations, the YL-105 provides a regulated 3.3V supply from a 5V source. Key Specifications Input Voltage 4.8V – 12V DC Output Voltage 3.3V DC (Regulated) Onboard Regulator AMS1117-3.3 Max Current ~800mA (Peak) Pinout Compatibility 8-pin (2x4) nRF24L01 modules Features & Benefits

⚡ Voltage Stabilization: Includes an onboard 3.3V regulator and decoupling capacitors to reduce RF noise.

🛠️ Easy Integration: Bridges the gap between 5V microcontrollers (like Arduino Uno) and 3.3V wireless chips.

📐 Compact Size: Roughly 26mm x 19mm, making it ideal for breadboards or small enclosures. 🛡️ Version 2: YL-105 Infrared Motion Sensor Alarm

In consumer electronics, the YL-105 is a standalone PIR (Passive Infrared) Security Alarm. It is commonly used for home, garage, or shed security to detect human movement via heat signatures. Technical Data Detection Range: Up to 5 meters (approx. 16 feet). Detection Angle: 110° wide-angle field of view. Siren Volume: 105dB (high-pitched deterrent).

Power Source: 4 x AA batteries for the main unit; button cells for remote controls. Operating Temperature: -10°C to +50°C. Application Use-Cases

Driveway Alerts: Notifying you when a vehicle or person enters a specific zone.

Indoor Security: Temporary protection for rooms, closets, or sheds.

DIY Smart Alarms: Can be modified by hobbyists to trigger external relays or IoT notifications. 🔌 Pinout & Wiring (Adapter Version)

If you are using the YL-105 Transceiver Adapter, wire it to your microcontroller using this standard mapping:

VCC: Connect to 5V power (External or Microcontroller 5V pin). GND: Connect to common Ground.

CE/CSN/SCK/MOSI/MISO/IRQ: These pins pass directly through to the nRF24L01. Connect them to your SPI pins as required by your library (e.g., RF24 Library for Arduino). Which YL-105 are you working with?

I can provide specific code or installation steps if you tell me: Are you building a wireless communication link? Are you setting up a motion-activated security system?

The YL-105 is commonly identified as an Infrared (IR) Obstacle Avoidance Sensor Module designed for basic object detection and proximity sensing in robotics and automation. It operates on the principle of reflecting infrared light off a surface to detect its presence. Key Technical Specifications Operating Voltage: 3.3V to 5V DC.

Sensing Range: Typically 2 cm to 30 cm (adjustable via onboard potentiometer). Detection Angle: Approximately 35°. Operating Current:

Output Type: Digital TTL signal (0 or 1). Usually, it outputs Low (0V) when an obstacle is detected and High (VCC) when the path is clear.

Comparator Chip: Often utilizes the LM393 voltage comparator for stable signal output. Module Interface (Pinout) The module typically features a 3-pin or 4-pin header: VCC: Power supply input (3.3V–5V). GND: Ground connection. OUT: Digital output signal.

EN (Optional): Enable pin; the sensor is active when this pin is Low and disabled when High. Visual Indicators & Adjustments IR Obstacle Avoidance Sensor Module - SunFounder

The YL-105 designation typically refers to an Infrared PIR Motion Sensor Alarm or a specific Mechanical Seal. Below are the datasheet details for both versions. 1. Infrared Motion Sensor Alarm (YL-105)

This is a common wireless security device used to detect motion and trigger a loud siren for home or commercial security. Specification Detection Technology PIR (Passive Infrared) Siren Volume Detection Range Approx. 5 meters Detection Angle 110 degrees wide Alarm Unit Power 4 x AA batteries Remote Power 3 x AG13 button cells Standby Current Alarm Current Material ABS plastic (White) Key Features:

Loud Alert: Emits a piercing 105dB alarm to deter intruders.

Wireless Operation: Ideal for garages, sheds, and shops without complex wiring.

PIR Motion Tracking: Triggers only when heat signatures (like a person) move through its field of view. 2. YL-105 Mechanical Seal

In industrial contexts, the YL-105 is a standard mechanical seal used for pumps.

Structure: Single end, multiple springs, and unbalanced design. Specifications: Inner diameter ranges from 35 mm to 180 mm. Pressure Rating: Designed for low-pressure environments.

Standard Compliance: Follows the JB/T1472-94 industrial standard.

Applications: Used in chemical centrifugal pumps, screw pumps, and sewage treatment equipment across industries like oil refining and pharmaceuticals. Related Modules often confused with YL-105

YL-17 / YL-105 Socket Adapter: A breakout board for nRF24L01 wireless modules that includes a 3.3V voltage regulator.

YL-69: A widely used soil moisture sensor often found in similar DIY electronics listings. YL 105 - YALAN Seals - China Mechanical Seal Standard Maker

The YL-105 (also known as the AMS1117-3.3 Adapter) is a power regulator module specifically designed to simplify the connection of nRF24L01+ wireless transceivers to microcontrollers like Arduino. Core Purpose

The primary challenge with the nRF24L01 module is its strict 3.3V power requirement, while most standard Arduinos operate at 5V. Connecting a wireless module directly to a 5V pin can permanently damage it. The YL-105 Adapter bridges this gap by converting a 5V input into a stable 3.3V output for the radio. Key Specifications Onboard Regulator: Integrated AMS1117 3.3V chip.

Input Voltage: DC 4.8V to 12V (typically powered via the Arduino 5V pin). Output Voltage: Fixed 3.3V.

Interface: 8-pin socket for direct plug-and-play with the nRF24L01+ module.

Output Current: Capable of providing up to 800mA, which is more than sufficient for both standard and high-power (PA+LNA) versions of the radio. Wiring & Pinout

The adapter features a 2-pin header for power input and a standard SPI header for data: VCC: Connect to 5V on your microcontroller. GND: Connect to GND on your microcontroller.

SPI Pins (CE, CSN, SCK, MOSI, MISO, IRQ): These pass directly through to the nRF24L01. Why Use It?

Voltage Stability: Common Arduino 3.3V pins often lack the peak current capacity needed during radio transmission, leading to communication failures. The YL-105 provides much cleaner and more robust power.

Breadboard Friendly: It breaks out the double-row pins of the nRF24L01 into a format that is easier to wire with standard jumper cables.

Troubleshooting: If your YL-105 indicator LED is off when power is applied, it likely indicates a short circuit or a faulty regulator.

typically refers to a specific mechanical seal model used in industrial pumping applications. While "YL-105" can occasionally appear in other catalogs (like UV lacquers or capacitors), the primary datasheet information describes it as a reliable component for chemical and sewage pumps. YL-105 Mechanical Seal Overview YL-105 Mechanical Seal

is a single-end, multiple-spring component designed by manufacturers like YALAN Seals. It follows the JB/T1472-94 industrial standard for low-pressure mechanical seals. YALAN Seals Key Technical Specifications Structure: Single end, unbalanced, with multiple springs.

Independent direction of rotation, featuring a drive sleeve transmission. Pressure & Temperature:

Designed for low-pressure environments and general temperature ranges. Size Range: Available in inner diameters ranging from 35 mm to 180 mm YALAN Seals Primary Applications The YL-105 is a 5V to 3

The YL-105 is versatile and used across several heavy industries, including oil refining, petrochemical engineering, sewage treatment, and pharmacy. It is most commonly found in: YALAN Seals Centrifugal pumps Screw pumps Paper-making equipment YALAN Seals Other Potential "YL-105" References Depending on your industry, you might also be looking for: UVAFLEX YL-7M105FCM: A very low-odour matt lacquer Zeller + Gmelin , specifically used for food packaging and labels (FCM) SE-K 105°C Capacitors: A range of aluminum electrolytic capacitors

from Yageo, where "105" indicates the maximum operating temperature. Zeller + Gmelin with this part number? UVAFLEX YL-7M105FCM Lacquer ® - Zeller + Gmelin

The YL-105 designation typically refers to two common electronic components found in hobbyist and industrial circles: an nRF24L01 wireless module adapter board Go to product viewer dialog for this item. and a humidity/soil moisture sensor relay module. 1. YL-105 nRF24L01 Adapter Board

This module is a breakout board designed to simplify the use of the 8-pin nRF24L01 wireless transceiver with microcontrollers like Arduino.

Voltage Regulation: The main advantage of this board is the onboard AMS1117 3.3V regulator, which allows you to power the wireless module using a 5V supply (e.g., from an Arduino's 5V pin) instead of the strict 3.3V required by the raw nRF24L01 chip.

Pin Configuration: It breaks out the standard 2x4 header into a single-row format easier for breadboarding or wiring. VCC: 5V Input (regulated to 3.3V on-board). GND: Ground.

SPI Pins: CE, CSN, SCK, MOSI, MISO (standard SPI communication).

Stability: Often includes decoupling capacitors to provide stable power, which is critical for reducing communication errors in RF modules. 2. YL-105 Moisture/Humidity Relay Module

Alternatively, "YL-105" is frequently associated with an integrated humidity sensor and relay control module used for automated irrigation or climate control.

Arduino and NRF24L01 : 6 Steps (with Pictures) - Instructables

is a common breakout adapter board designed specifically for the nRF24L01+ 2.4GHz wireless transceiver module

. While the nRF24L01 chip itself requires a 3.3V power supply, the YL-105 includes an onboard voltage regulator, allowing it to interface directly with 5V systems like an Arduino Uno. Instructables

Below is an informative paper summarizing the specifications, pinout, and application of the YL-105 module. 🛰️ Device Overview

The YL-105 serves as a power management and socket adapter for the nRF24L01+ wireless module. Its primary purpose is to provide voltage regulation noise filtering

, addressing the common issue where the nRF24L01 module fails to initialize due to unstable power from a microcontroller's 3.3V pin. Instructables 📝 Technical Specifications

The following specifications apply to the YL-105 adapter paired with a standard nRF24L01+ module: Input Voltage: 5V DC (recommended) Operating Voltage: Regulates down to 3.3V for the nRF24L01 chip Wireless Frequency: 2.4 GHz ISM band Data Rates: 250 kbps, 1 Mbps, or 2 Mbps 125 selectable channels Communication: SPI (Serial Peripheral Interface) Up to 100 meters (open space at lower baud rates) Packet Size: 32-byte maximum payload Instructables 📌 Pinout & Connections

The YL-105 provides an 8-pin female header for the nRF24L01 and a 6-pin/8-pin male header for connection to a microcontroller. Instructables Description Connect to (regulated to 3.3V onboard) Common Ground Chip Enable (activates RX or TX mode) SPI Chip Select Not (signals start of SPI communication) SPI Master Out Slave In SPI Master In Slave Out Interrupt Request pin (optional) 🛠️ Key Features & Benefits Built-in Voltage Regulator:

High-efficiency AMS1117-3.3 regulator ensures the wireless module receives stable power. Filtering Capacitors:

Includes decoupling capacitors to minimize power supply noise, which is critical for RF stability. Breadboard Friendly:

Easier to wire than the standard 2x4 female headers found on the bare nRF24L01 module. Multi-Device Networking: Supports up to 6 data pipes (star network topology). Instructables 💡 Application Guidelines Software Libraries: RF24 Library for Arduino or the nRF24L01 Product Specification for custom SPI drivers. Power Note:

While the YL-105 handles 5V on the VCC pin, the logic pins (CE, CSN, SCK, etc.) are 3.3V-5V tolerant

on most nRF24L01+ versions, but check your specific chip batch to ensure compatibility. Range Optimization: For maximum range, set the baud rate to in your code. SparkFun Electronics connection diagram for a specific microcontroller or writing a sample Arduino script

to test the communication. Would you like to see a basic "Hello World" transmitter code?

Arduino and NRF24L01 : 6 Steps (with Pictures) - Instructables

The YL-105 designation typically refers to one of two different electronic products: an nRF24L01 wireless transceiver adapter or a standalone infrared PIR motion sensor alarm. 1. nRF24L01 Socket Adapter (YL-105)

This is a breakout board designed to solve the common power issues of nRF24L01 wireless modules. It includes a voltage regulator (AMS1117) that allows you to power the radio module using a 5V source instead of its native, sensitive 3.3V requirements. Input Voltage: 4.8V to 12V DC. Output Voltage: Stable 3.3V (regulated for the nRF24L01).

Socket: 8-pin (2x4) female header to directly plug in the transceiver.

Interface: Connects to microcontrollers via 6-pin male headers (VCC, GND, CE, CSN, SCK, MOSI, MISO). Dimensions: Approximately 26mm x 19mm. 2. Infrared Motion Sensor Alarm (YL-105)

This is a consumer-grade security device that uses a Passive Infrared (PIR) sensor to detect movement and sound an integrated siren.

Arduino and NRF24L01 : 6 Steps (with Pictures) - Instructables

: A flame-retardant (V-rated) polyolefin heat shrink tubing with a 3/4" diameter, colored yellow, usually sold in 4-foot lengths. F3003/4 YL105

: A dual-wall (adhesive-lined) polyolefin tubing with a 3:1 shrink ratio. 2. General Technical Specifications While the specific variant (

) dictates the exact performance, Alpha Wire's industrial heat shrink tubing generally follows these datasheet standards: Go to product viewer dialog for this item. (General Purpose) FIT-300 (Dual Wall/Adhesive) Cross-linked Polyolefin Cross-linked Polyolefin with Adhesive Shrink Ratio Shrink Ratio Operating Temp -55°C to +135°C Operating Temp -55°C to +125°C Shrink Temp 90°C (minimum) Shrink Temp 110°C (minimum) Voltage Rating Voltage Rating Flame Retardancy UL 224 VW-1 (for 'V' models) Flame Retardancy Self-extinguishing 3. Key Datasheet Metrics When reviewing the datasheet, pay attention to these critical parameters:

Expansion/Recovery: For a "3/4" tubing, the supplied internal diameter (ID) is 0.75 inches. After full recovery (shrinking), the ID will reduce based on the ratio (e.g., to 0.375" for 2:1 or 0.25" for 3:1).

Wall Thickness: The recovered wall thickness is vital for mechanical protection and insulation.

Chemical Resistance: These tubings are typically resistant to common oils, solvents, and fuels, making them suitable for automotive and industrial environments.

Environmental Compliance: They are generally RoHS compliant and meet various MIL-SPEC standards (like AMS-DTL-23053). 4. Application Best Practices

Heat Application: Use a heat gun rather than an open flame to ensure even shrinkage and avoid charring the yellow pigment. Sizing

: Always choose a diameter where the recovered (shrunk) ID is smaller than the diameter of the substrate you are covering to ensure a snug fit. Adhesive Seal: If using the FIT-300 (F300)

variant, the internal adhesive melts during heating to provide a moisture-proof seal.

For the full technical documentation, you can access the Alpha Wire FIT-300 Spec Sheet or the general FIT Heat-Shrink Tubing Catalog on DigiKey.

F3003/4 YL105 Alpha Wire | Cables, Wires - Management | DigiKey

This blog post covers the technical specifications and application of the sensor module

, a common resistive sensor often used for environmental detection in DIY electronics and smart gardening projects. Understanding the YL-105 Sensor Module: Datasheet & Guide

If you are building an automated garden or a weather-tracking station, you’ve likely come across the

. This module is a versatile, low-cost sensor often paired with an LM393 comparator chip to provide both digital and analog outputs. While frequently used as a soil moisture sensor (similar to its sibling, the ), the YL-105 is also found in configurations for rain detection liquid level sensing Technical Specifications The Ghost in the Datasheet Dr

Based on standard hardware data, the YL-105 module typically follows these parameters: Operating Voltage: Output Type: Dual output (Analog and Digital). Analog (A0):

Provides a real-time voltage signal proportional to the detected moisture/liquid level. Digital (D0): Outputs a High or Low signal based on a pre-set threshold. Comparator: for stable digital switching. Adjustability:

Features an onboard potentiometer to calibrate the sensitivity of the digital trigger. Indicator LEDs:

Includes a red power LED and a green digital output status LED. Pinout Configuration

The module generally features a 4-pin interface for easy connection to microcontrollers like Arduino, ESP32, or Raspberry Pi: Power supply ( Digital output (logic Analog output ( cap V cap C cap C Key Performance Characteristics Detection Depth:

For probe-style variants, the effective sensing depth is approximately Sensitivity:

High, but prone to environmental factors. For precise scientific data, experts often suggest upgrading to capacitive sensors or high-end models like the Durability: As a resistive sensor, the probes are susceptible to

over time when exposed to moisture and electric current. To extend life, it is recommended to power the sensor only during readings rather than continuously. Applications Automated Irrigation:

Triggering water pumps when soil moisture drops below a set point. Rain Sensing:

Detecting the onset of rainfall to close windows or retract awnings. Water Level Monitoring: Basic detection of liquid levels in small containers. Quick Start: Arduino Connection To use the YL-105 with an Arduino, connect VCC to , GND to GND, and A0 to an analog pin (e.g., ). You can use the analogRead() function to get a value between (saturated) and (completely dry). code snippet

for Arduino or ESP32 to start reading data from your YL-105 sensor?

Questions about soil moisture sensors (YL-69) - Arduino Forum 22 Sept 2020 —

YL-105 Datasheet: A Comprehensive Guide to Understanding the Specifications and Applications

The YL-105 datasheet is a critical document that provides detailed information about the YL-105, a type of electrical component commonly used in various industrial and commercial applications. In this article, we will explore the contents of the YL-105 datasheet, its specifications, and the various applications where it is used.

What is YL-105?

The YL-105 is a type of electromagnetic relay, which is an electrically operated switch that is used to control the flow of electrical current in a circuit. It is a compact and reliable device that is widely used in industrial control systems, power supplies, and other applications where a high degree of reliability and precision is required.

YL-105 Datasheet Overview

The YL-105 datasheet is a comprehensive document that provides detailed information about the component's specifications, features, and applications. The datasheet typically includes the following information:

General Description: A brief overview of the YL-105 component, including its type, function, and applications.
Features: A list of the component's key features, such as its compact size, low power consumption, and high reliability.
Specifications: A detailed list of the component's technical specifications, including its electrical characteristics, mechanical properties, and environmental ratings.
Pin Configuration: A diagram showing the component's pin layout and connections.
Electrical Characteristics: A detailed description of the component's electrical performance, including its coil voltage, contact ratings, and switching times.
Mechanical Properties: A description of the component's mechanical properties, including its size, weight, and material.
Environmental Ratings: A description of the component's environmental ratings, including its operating temperature range, humidity, and vibration resistance.
Applications: A list of the component's typical applications, including industrial control systems, power supplies, and other areas where the YL-105 is commonly used.

YL-105 Specifications

The YL-105 datasheet provides detailed specifications for the component, including:

Coil Voltage: The voltage required to operate the component's coil, typically ranging from 5V to 24V DC.
Coil Current: The current required to operate the component's coil, typically ranging from 10mA to 100mA.
Contact Ratings: The maximum current and voltage ratings for the component's contacts, typically ranging from 1A to 10A and 24V to 240V AC/DC.
Switching Times: The time required for the component to switch on and off, typically ranging from 5ms to 20ms.
Insulation Resistance: The resistance between the component's coil and contacts, typically ranging from 100MΩ to 1000MΩ.

Applications of YL-105

The YL-105 is widely used in various industrial and commercial applications, including:

Industrial Control Systems: The YL-105 is used in industrial control systems to control the flow of electrical current to motors, pumps, and other equipment.
Power Supplies: The YL-105 is used in power supplies to control the output voltage and current.
Automotive Systems: The YL-105 is used in automotive systems to control the operation of lights, wipers, and other accessories.
Medical Equipment: The YL-105 is used in medical equipment to control the operation of diagnostic and therapeutic devices.

Benefits of Using YL-105

The YL-105 offers several benefits, including:

High Reliability: The YL-105 is a highly reliable component that can operate for millions of cycles without failure.
Low Power Consumption: The YL-105 has a low power consumption, making it suitable for use in applications where energy efficiency is critical.
Compact Size: The YL-105 is a compact component that can be used in applications where space is limited.

Conclusion

In conclusion, the YL-105 datasheet provides critical information about the component's specifications, features, and applications. The YL-105 is a highly reliable and versatile component that is widely used in various industrial and commercial applications. By understanding the contents of the YL-105 datasheet, engineers and designers can select the component for their applications and ensure reliable and efficient operation.

References

YL-105 datasheet, [ manufacturer's website ]
Electromagnetic Relays, [ industry website ]
Relay Applications, [ technical article ]

Appendix

The following is a sample YL-105 datasheet:

YL-105 Datasheet

General Description

The YL-105 is a compact electromagnetic relay that is used to control the flow of electrical current in industrial control systems, power supplies, and other applications.

Features

Compact size: 15mm x 10mm x 5mm
Low power consumption: 10mA to 100mA
High reliability: up to 10 million cycles

Specifications

Coil Voltage: 5V to 24V DC
Coil Current: 10mA to 100mA
Contact Ratings: 1A to 10A, 24V to 240V AC/DC
Switching Times: 5ms to 20ms

Pin Configuration

[ diagram ]

Electrical Characteristics

Coil resistance: 100Ω to 1000Ω
Contact resistance: 10mΩ to 100mΩ

Mechanical Properties

Size: 15mm x 10mm x 5mm
Weight: 2g

Environmental Ratings

Operating temperature range: -40°C to 85°C
Humidity: 5% to 95%
Vibration resistance: 10Hz to 100Hz

Applications

Industrial control systems
Power supplies
Automotive systems
Medical equipment

By providing a comprehensive overview of the YL-105 datasheet, this article aims to assist engineers and designers in selecting and applying the component in their applications.

I searched for a specific "YL-105" datasheet, but it is not a standard industry component code (like for a major IC, transistor, or sensor). This code is most likely used in one of two contexts:

An Arduino or electronics learning kit sensor module (common with "YL" prefixes, e.g., YL-69 for soil moisture, YL-83 for rain sensor).
A cheap, generic component from Chinese suppliers where the marking is a batch or internal factory code.

Here is how to find a helpful paper/datasheet for the YL-105, depending on what the component actually is.

How to Read the Output (Calibration)

The module has an onboard potentiometer (blue box). This adjusts the reference voltage for the LM393 comparator.

Digital Output (DO): Compares the sensor’s analog voltage to the potentiometer’s threshold. It outputs 0 (LOW) if reflection is above the threshold, else 1 (HIGH).
Analog Output (AO): This pin bypasses the comparator. The voltage drops as more IR light is reflected back. Use this with an ADC pin for precise distance or color sensing.

Common calibration: Place the sensor 5mm above a white surface. Turn the potentiometer until the onboard LED just turns off. Now, the module will trigger reliably when seeing white vs. black.