Off-the-shelf & Custom Infrared Lens, thermal imaging cameras & systems components

Home / All / Thermal IR Optronics Related Components / Laser Range Finder /

Laser Range Finder 9V-16V 1535nm LRF G1535 3S

Home / All / Thermal IR Optronics Related Components / Laser Range Finder /

Laser Range Finder 9V-16V 1535nm LRF G1535 3S

Find Your Product
Whatever your requirements, our know-how, expert team, and technology are all there, ready to provide you with the precise, fully-tailored solution you need.
Please send your message to us
*Email
Name
Tel
*Title
*Content
Upload
  • Only supports .rar/.zip/.jpg/.png/.gif/.doc/.xls/.pdf, maximum 20MB.

Laser Range Finder 9V-16V 1535nm LRF G1535 3S

Laser Range Finder 9V-16V 1535nm LRF G1535 3S
CategoriesLaser Range Finder
BrandQuanhom Optronics
ModelLRF G1535 3S
Power Supply9V-16V
Continuous Ranging Frequency1-10Hz(adjustable)
Operating Temperature-40℃-+65℃
Update TimeDec 21,2024
Detail Information
  • Specifications
  • Download file
  • FAQ
  • Video
  • Applications
Specifications

Performance

Performance range [m]:

Continuous ranging frequency
adjustable from 1Hz to 10Hz
Wavelength
1535nm
Laser divergence Angle
≤0.5mrad
Accuracy Rate
≥98%
Ranging accuracy
≤±1m (RMS) 
Minimum range
≤50m
Ranging resolution
≤30m
Operating Temperature
-40℃~+65℃
Storage Temperature
-55℃~+70℃
Weight
≤55g
Size
≤51.5mm×26mm×41.5mm
Power Supply voltage
DC9V-16V
Power

average power consumption ≤1.5W, peak power consumption ≤5W

Communication interface
RS422, 115200bps
Rate of work
Average working rate≤1.5W, working efficiency≤5W
Download document
file name
type
download
PDF format
Calibration method

FAQ
-What is the composition and working principle of the laser rangefinder?

The laser rangefinder consists of an optical system, a laser, a drive circuit, a receiving circuit, a signal processing circuit, a system power circuit and an external data interface circuit.

The signal processing circuit receives the ranging command sent by the upper computer through the external data interface circuit, and then sends the control signal to the drive circuit. After receiving the control signal, the drive circuit injects an electrical pulse signal into the laser. The laser pulse laser output from the laser is sent to the detected target by the optical transmitting system, and and simultaneously the main wave collected by the receiving circuit is sent to the signal processing circuit after truing. Reflected back by the target, the laser signal is converged to the receiving circuit through the receiving optical system, and then sent to the signal processing circuit after amplification and truing. The signal processor receives the main wave and echo to realize data sampling, counting and calculation. After completing data processing, the signal processing circuit uploads the distance information to the upper computer, so as to complete a distance measurement.

- What are the applications of laser rangefinder?

The laser rangefinder is light in weight, small in size, simple in operation, fast and accurate, with the error only one fifth to several hundredths of other optical rangefinders. Therefore, it is widely used in terrain measurement, battlefield measurement, ranging of tanks, aircraft, ships and artillery to targets, measuring the altitude of clouds, aircraft, missiles, and artificial satellites, etc. It is an important technical equipment to improve the accuracy of tanks, aircraft, ships and artillery, and is also widely used in industrial measurement and control, mines, ports and other fields. 

APPLICATIONS
Airborne
Enhanced Vision
Homeland Security
Review
  • Loading...