The Analog Output Lidar ToF Sensor Module is a high-precision distance measurement solution designed for applications requiring fast, stable, and accurate laser measurement. Leveraging indirect Time-of-Flight (iToF) technology, this module provides millimeter-level accuracy with robust anti-interference performance, making it ideal for diameter measurement, UAV navigation, industrial automation, and surveying tasks.
With its compact design and flexible analog output options, the module can be seamlessly integrated into embedded systems, robotics, and drones where lidar for UAV operations demand lightweight and reliable Lidar ToF Sensor.
Kluczowe cechy
- High Accuracy & Stability: Millimeter-level precision even under varying reflectivity conditions.
- Wide Measurement Range: From 0.03 m to 80 m, suitable for close-range industrial inspection or long-range UAV applications.
- Analog Output & UART Interfaces: Supports standard analog output, TTL (3.3V), and configurable UART communication, ensuring compatibility with various systems.
- Lightweight & Compact: Measuring only 27.87 mm × 17.03 mm × 7.01 mm, weighing just 3 g, perfect for space-limited designs such as drones.
- Flexible Frequency Options: 5 Hz and 30 Hz continuous measurement modes, customizable for high-frequency needs.
- Industrial-Grade Design: Operating temperature range from -25℃ to +60℃ with stable performance in outdoor environments.
- Customizable Interfaces: Options for analog, UART, TTL to USB, and RS232/RS485 (via external level conversion module).
Zastosowania
- Diameter Measurement: Ideal for industrial rollers, pipes, and manufacturing lines.
- Lidar for UAV: Ensures precise altitude control, terrain following, and obstacle avoidance.
- Robotics & AGV: Enables navigation, mapping, and distance detection in automated guided vehicles.
- Surveying & Remote Sensing: Provides reliable performance in indoor and outdoor mapping tasks.
- Industrial Process Control: Useful for non-contact material measurement and monitoring.
Specyfikacja techniczna
- Zakres pomiaru: 0.03 – 80 m
- Accuracy: ±(1 mm + D/10,000)
- Rozdzielczość: 1 mm
- Laser Class: Class II, <1 mW, λ=610–690 nm
- Zasilanie: 2.5–3.6 V (3.3 V recommended)
- Output: Analog voltage, UART (TTL 3.3 V), RS232/RS485 via module
- Temperatura pracy: -25℃ to +60℃
- Waga: 3 ±0.5 g
Why Choose Meskernel Lidar ToF Sensor
- Customizable Options: Tailored configurations including analog, UART, and TTL-to-USB communication are available (see customization details).
- Compact Yet Powerful: Designed for embedded systems and UAVs without compromising on performance.
- Proven Reliability: Built with industrial-grade components and tested for stable operation in demanding environments.
- Global Support: Backed by Meskernel’s technical support and one-year warranty.
Często zadawane pytania
Q1: Can the module provide both digital and analog outputs?
Yes, the module supports analog output for simple voltage-based readings, and digital communication via UART, RS232, or RS485.
Q2: How can I connect the sensor to a computer?
You can use a TTL to USB adapter for direct PC connection. The module is fully compatible with common USB-to-TTL converters (e.g., CH340).
Q3: Does the sensor support different baud rates?
Yes. The default baud rate is 115200 bps, but it can be customized (4800/9600/19200/38400/115200 bps).
Q4: Can I use the module in UAV applications?
Absolutely. Its lightweight design and lidar for UAV adaptability make it suitable for drones requiring precise altitude control or obstacle detection.
Q5: Is customization available for industrial projects?
Yes. Meskernel offers customization for analog output, UART, TTL to USB, and even wider temperature/frequency ranges upon request.
The Analog Output Lidar ToF Sensor Module for Diameter Measurement is a versatile, compact, and customizable solution that fits a broad spectrum of applications—from UAV navigation to industrial process control. With its high precision, flexible interfaces, and strong customization options, it stands out as a reliable lidar ToF sensor for both research and commercial projects.
