TS1224 1000m Arduino Lazer Mesafe Sensörü

If you’re looking for a high-performance laser range sensor compatible with the Arduino platform and capable of accurately measuring distances up to 1000 meters, our Arduino Laser Range Sensor is the perfect choice. Featuring advanced laser technology, it delivers high precision, long-range measurement, and fast response, making it ideal for various measurement and automation tasks.

Key Features

• Long-range Measurement: This sensor can accurately measure distances up to 1000 meters, making it suitable for applications requiring precise long-distance measurements.
• Yüksek Hassasiyet: With cutting-edge laser technology, it provides millimeter-level accuracy, ensuring precise data for your projects.
• Fast Response: The sensor offers a quick response time, ensuring real-time measurement data, even in dynamic environments.
• Arduino Uyumluluğu: Specifically designed for the Arduino platform, this laser range sensor supports seamless integration via I2C or serial communication, making it easy for developers to incorporate into projects.
• Dayanıklılık: With a robust enclosure and durable design, it is built to withstand harsh environments, ensuring long-term stable performance.
• Energy-efficient: Featuring low power consumption, it is suitable for extended use, optimizing battery life, especially in drones, robots, and other mobile applications.

Connection introduction

To connect an Arduino with laser rangefinder sensor, you can typically use the I2C or UART interface, depending on the sensor’s communication protocol.

1. I2C Connection:
   • Connect the sensor’s SCL (clock) ve SDA (data) pins to the corresponding SCL ve SDA pins on the Arduino.
   • Also connect the VCC (power) and GND (ground) pins of the sensor to the 5V ve GND pins on the Arduino.
   • Once connected, you can use the appropriate Arduino library for I2C communication, such as Wire.h, to read distance data from the sensor.
2. UART (Serial) Connection:
   • Connect the sensor’s TX (transmit) pin to the RX pin on the Arduino, and the RX (receive) pin of the sensor to the TX pin on the Arduino.
   • Connect the VCC ve GND pins as mentioned before.
   • In your Arduino code, use the SoftwareSerial or Serial library to read data from the sensor via the UART interface.

Once the hardware connections are made, you can write code to continuously read the sensor’s distance data and integrate it into your Arduino project.

Uygulamalar

1. Drone Distance Measurement: Provides precise ground distance measurement for drones, supporting navigation, obstacle avoidance, and path planning.
2. Robot Positioning: Offers high-precision distance data for robotics in automation systems, enabling precise positioning and obstacle avoidance.
3. Geographical Surveying: Ideal for remote measurement in geographical surveying and engineering projects, particularly in hard-to-reach areas.
4. Automated Warehousing Systems: Provides real-time distance data in logistics and warehouse automation, enhancing storage and movement operations.

Teknik Özellikler

Range	3-1000m@70%Reflectivity
Maksimum Tek Ölçüm Süresi	~1s
Mutlak Doğruluk	±1m
Kör Alan	3m
Çözünürlük	0.1m
Dalga uzunluğu	905 nm Sınıf I
Çalışma Gerilimi	Tipik değer DC+3,3V
Çalışma Akımı	100mA
Güç Tüketimi	<330mW@3.3V
Çalışma sıcaklığı	-20~70℃
İletişim Arayüzü	UART, Varsayılan baud hızı 115200bps
Boyut	26*24.6*11.4mm
Ağırlık	~10 g

Advantages

• Easy Integration: Compatible with the Arduino platform, offering easy-to-use libraries for quick integration.
• Efficient and Stable: Reliable laser ranging technology for stable performance under various environmental conditions.
• Versatile: Suitable for a wide range of applications, including robotics, drones, geographical surveying, and more.

Why Choose Our Arduino Laser Range Sensor?

With years of expertise in laser sensor technology, our Arduino Laser Rangefinder Sensor not only offers outstanding ranging performance but also integrates easily with the Arduino platform. It helps developers quickly apply it to various smart devices and automation systems. Whether you’re developing drones, robots, or performing high-precision measurement tasks, our laser range sensor is the ideal choice.

Buy Now and Enhance the Precision and Efficiency of Your Ranging Projects!

If you have any questions about the Arduino Laser Range Sensor or need help with project integration, please contact our customer support team. We are happy to provide professional technical assistance.