The short pulsed laser source module is a high peak power pulsed laser source based on the wavelength which is safe to human eyes. Adopting master oscillator power amplifier (MOPA) architecture design and optimized multi-stage optical amplification, the laser source module can achieve high peak power laser output with ns level pulse width, suitable for automotive LiDAR, remote sensing surveying radar, laser ranging applications.
The short pulsed laser source module can be provided in circular and rectangular package, featuring compact structure, small size, wide range of work temperature and ultra-low power consumption. Besides, the pulse output can also be achieved by external TTL signal, suited for system integration.
These short pulsed laser source modules are applicable to various difficult working environments, suitable for automotive LiDAR system, Laser Range Finding,3D laser scanning system,etc.
Telemetry system is the automatic recording and transmission of data from remote or inaccessible sources to an IT system in a different location for monitoring and analysis. Telemetry data may be relayed using radio, infrared, ultrasonic, GSM, satellite or cable, depending on the application (telemetry is not only used in software development, but also in meteorology, intelligence, medicine, and other fields).
In a general sense, telemetry system works through sensors at the remote source which measures physical (such as precipitation, pressure or temperature) or electrical (such as current or voltage) data. This is converted to electrical voltages that are combined with timing data. They form a data stream that is transmitted over a wireless medium, wired or a combination of both. At the remote receiver, the stream is disaggregated and the original data displayed or processed based on the user’s specifications.
The primary benefit of telemetry is the ability of an end user to monitor the state of an object or environment while physically far removed from it. Once you’ve shipped a product, you can’t be physically present, peering over the shoulders of thousands (or millions) of users as they engage with your product to find out what works, what’s easy, and what’s cumbersome. Thanks to telemetry, those insights can be delivered directly into a dashboard for you to analyze and act on.
● Eye-safe operating wavelength 1550nm
● High peak power output up to 10kW
● Pulse repetition rate 1kHz-1MHz
● Pulse width 0.5-250ns
● Single pulse energy up to 30uJ
● Single mode output, AR-coated FC/APC connector or Collimator output
● Robust suitable for harsh environment operation,extended temperature range -35 to +65 degree C.
1550nm Short Pulsed Laser Source Module CKLID-I
|Wavelength Range||nm||1540||1545/1550 100||1565|
|Pulse power @ < 10kHz,>30ns||μJ||100|
|Average Power @>100kHz||W||-||-||2|
|Beam Quality||M²||< 1.1|
|Output Power Stability(15min.)||%||-||-||±3|
|Output Power Stability(8hours)||-||-||±1.5|
|Output Light Isolation||dB||35||-||-|
|Output Fiber Length||m||>0.3|
|Optical Connector||FC/APC or Collimator|
|Pulse-triggered Mode||External TTL trigger|
|Dimensions||mm||90×23.5 (D x H)|
|Pulse width||ns||Linewidth＜ 0.5nm 10ns|
|Pulse average power||W||-||5|
|Output power stability (15min.)||%||-||-||±3|
|Output power stability (8hours)||%||-||-||±1.5|
|Output Fiber Length||m||>0.3|
|Optical Connector||FC/APC or collimated beam output|
|Pulse-triggered mode||External/internal trigger|