Terminology » RF Components » Photodiode vs. Photomultiplier: Key Differences Explained

Photodiode vs. Photomultiplier: Key Differences Explained

photodiode photomultiplier light detection photon sensor rf components

This page compares Photodiode Vs Photomultiplier and mentions the difference between Photodiode and Photomultiplier tubes.

Photodiode

Photodiode

Photodiode

It consists of a normal p-n junction housed in a small enclosure with a transparent window through which light can fall inside. Figure-1 depicts a photodiode from OSRAM and the symbol of a photodiode.

A photodiode is basically a type of photodetector capable of converting light into either current or voltage. A photodiode is operated in reverse bias, in which leakage current increases in proportion to the amount of light falling on the junction. This is a result of light energy which breaks the bonds in the crystal lattice of the semiconductor, producing electrons and holes. This effect is similar to a photovoltaic cell.

  • Photodiodes have high quantum efficiency and are compact in size.
  • They are insensitive to magnetic fields.
  • Available as conventional photodiodes and avalanche photodiodes.
  • Conventional photodiodes do not have internal amplification.

Photomultiplier Tube

Photomultiplier Tube construction

Photomultiplier Tube construction

  • PMTs (Photomultiplier Tubes) are used for the light detection of very weak signals.
  • It is a photo-emissive device in which the absorption of a photon results in the emission of an electron.
  • It is one of the class of vacuum tubes also known as vacuum phototubes.
  • It is a visible range photon sensor.
  • Earlier PMTs were of larger size having glass vacuum envelopes, now they are available in smaller sizes.
  • Nowadays, PMTs are replaced by avalanche photodiodes, but still they are in use in a variety of applications such as Raman spectrophotometry, Fluorescent molecular tagging applications, and single bubble sonoluminescence.

Major Difference between Photodiode and Photomultiplier Tube

The following are the major differences between a photodiode and a photomultiplier tube.

  • Photodiodes convert one photon into one electron, while photomultipliers amplify electrons.
  • Photomultiplier tubes use a detector which changes photons into electrons so that they can be detected. Later, the photomultiplier tube uses dynodes to amplify the electrons.