Payment Type:T/T,L/C
Incoterm:FOB,CFR,CIF,EXW
Min. Order:2 Piece/Pieces
Transportation:Ocean,Land,Air,Express
Port:shenzhen port,shanghai port,guangzhou port
Model No.: LDL-5
Brand: Meskernel
Place Of Origin: China
Principle: Ultrasonic Sensor, Optical Sensor
Amplifier Type: Optical
Jack: Digital
Technology: Optical
Output Function: Overtemp, Vtemp, Overtemp, /Overtemp, Vtemp
Mounting Type: manual installation
Features: Distance Ranging
Brand Name: Meskernel
Place Of Origin: Sichuan, China
Measuring Time(seconds): 0.125-4 seconds
Accuracy(mm): ±2mm
Voltage(V): DC 2.0-3.3V
Data Interface Optional: TTL/RS485/RS232
Series: Laser Distance Module
Storage Temperature(℃): -25-60℃
Packaging: 1
Productivity: 300000
Transportation: Ocean,Land,Air,Express
Place of Origin: chengdu;china
Supply Ability: 100000
Certificate: ISO;CE;FCC;ROHS;FDA
HS Code: 9015101000;90151809090
Port: shenzhen port,shanghai port,guangzhou port
Payment Type: T/T,L/C
Incoterm: FOB,CFR,CIF,EXW
The laser range module is not only compact and lightweight, but also offers a measurement distance of up to 5 meters, enabling quick and accurate display of distances. This laser sensor incorporates advanced engineering techniques to deliver superior performance in terms of size, weight, and cost-effectiveness. This Laser Distance Sensor is just 15mm wide, 42mm long, and 6mm thick.The phase laser ranging for measuring is utilized by the LDL Laser Ranging Sensor.
Accuracy | ±1mm |
Units of measurement | mm |
Measure distance | 0.03-20 meters |
measure time | 0.35~4 seconds |
Laser standards | Class II |
operating temperature | 0-40 ℃ (32-104 ℉ ) |
Storage temperature | 25~60 ℃ (-13~140 ℉) |
Voltage | DC 2.5~3.3V |
size | 42*15*6mm |
weight | 4g |
The laser distance sensor used to measure selective lasers are generally used for surveys over short distances. This laser range module provides accurate measurements within a millimeter and is one of the most accurate means of measuring distances. The High Precision Laser Distance Sensor is used in many applications for a short period of time. Observing the differential equation, the wave intensity is produced by the phase distance. It's easier than directly calculating the return time.
Phase laser ranging involves amplitude modulating a laser beam using radio band frequencies and then measuring the phase delay resulting from the modulated light traveling back and forth. This allows the phase delay to be converted into a representation of distance based on the wavelength of the modulated light. Indirect measurement of the time it takes for light to travel to and from a measurement line. Precision ranging usually uses Phase Distance Sensors, and their accuracy usually reaches millimeter level.