Schottky Photodiode

- a summary of the Schottky photodiode detailing the basics of its operation, applications and other salient features.

The Schottky photodiode is based around the Schottky barrier diode and it may also be called the metal-semiconductor diode as a result of its structure.

The Schottky photodiode provides additional capabilities over other forms of photodiode in terms of speed and long wavelength detection capability. As a result the Schottky photodiode has a unique niche in amongst the other forms of photodiode that are available.

Schottky photodiode basics

As the name indicates, the Schottky photodiode uses the Schottky diode (or Schottky barrier diode as it is sometimes called) as its basis of the photodetector.

The Schottky photodiode is unique as a photodetector as it is able to operate in two photo-detection modes:

  • Electron pair generation:   This occurs from band to band or energy gap excitation in the semiconductor.
  • Emission of carriers:   The emission of carriers occurs from the metal to the semiconductor over the Schottky barrier. This often referred to as internal photoemission.

The metal-semiconductor junction provides a similar action to that of the intrinsic layer of the PIN photodiode. Accordingly is provides a larger areas for capture of the photon energy.

Schottky photodiode applications

The Schottky photodiode is particularly compatible with mature silicon and silicide technology. As a result these photodiodes have been widely used in CCD - charge coupled device - as the image sensing photodetector.

The Schottky photodiode can be integrated into a single chip along with CCD transfer gate - these are also compatible with silicon technology. The CCD itself forms a shift register to allow the data from the array of Schottky photodiode detectors to transferred out of the overall chip in a managed way - providing method of extracting the huge data files from the large array of photodetectors with a sensible number of leads on the integrated circuit.

As a result of these advantages the Schottky photodiode detector has been the most widely used technology for focal plane arrays.

By Ian Poole

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Read more about semiconductor diodes . . . . .

•  Diode types •  PN junction •  Diode specifications •  Gunn diode
•  IMPATT diode •  Laser diode •  Photo diode •  PIN diode
•  Schottky diode •  Step recovery diode •  Tunnel diode •  Varactor diode
•  Zener diode •  Light emitting diode •  BARITT diode •  Backward diode

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Next Generation Freight Transport Mark Patrick | mouser Electronics
Next Generation Freight Transport
As road freight transport levels continue to grow, concerns about the impact on the environment and human health come sharply into focus. Fossil fuel dependency makes it a leading source of greenhouse gas (GHG) emissions, but shifting freight to other transportation modes will prove challenging. Solutions that will improve the efficiency and performance of road freight transport are therefore essential to achieve defined environmental goals. In this blog, we will explore a potential solution that has been pioneered by Siemens - called eHighway. This combines the efficiency of electrified railways with the flexibility of trucks in order to form an innovative, next generation freight traffic system that is efficient, economical and environmentally friendly. is operated and owned by Adrio Communications Ltd and edited by Ian Poole. All information is © Adrio Communications Ltd and may not be copied except for individual personal use. This includes copying material in whatever form into website pages. While every effort is made to ensure the accuracy of the information on, no liability is accepted for any consequences of using it. This site uses cookies. By using this site, these terms including the use of cookies are accepted. More explanation can be found in our Privacy Policy