LoadingтАж
Product type
An avalanche photodiode (APD) is a semiconductor device that converts light into an electrical current. It operates by utilizing the avalanche effect, where a single photon can generate multiple charge carriers, resulting in an amplified electrical signal. APDs are typically made from materials such as silicon, indium gallium arsenide, or germanium, which are sensitive to specific wavelengths of light.
| Material | Silicon, InGaAs, or Germanium |
| Wavelength sensitivity | 400 nm to 1600 nm |
| Gain | Up to 1000 times |
| Operating voltage | 20 V to 100 V |
| Response time | 10 ns to 100 ns |
When choosing an avalanche photodiode, consider the wavelength sensitivity required for your application, as well as the gain and response time specifications. It's important to specify the desired operating voltage and any environmental conditions the device may encounter. Additionally, inquire about certifications and tolerances that meet industry standards, as well as the quantity needed for your project.
Get quotes for Avalanche Photodiode
Tell us your requirement тАФ quantity, specs and timeline тАФ and our team sources verified manufacturers and brings you the best quote.
The main advantage is its high sensitivity and ability to amplify weak optical signals.
They are best suited for applications requiring high-speed detection and low light levels, such as telecommunications and medical imaging.
An avalanche photodiode has internal gain due to the avalanche effect, while a regular photodiode does not amplify the signal.
Factors include the material used, operating voltage, temperature, and the wavelength of light being detected.
Yes, but it's crucial to select devices rated for high-temperature operation to ensure reliability.
Response times typically range from 10 ns to 100 ns, depending on the specific design and application.