What is pn junction with diagram?

Definition: A p-n junction is an interface or a boundary between two semiconductor material types, namely the p-type and the n-type, inside a semiconductor. The p-side or the positive side of the semiconductor has an excess of holes and the n-side or the negative side has an excess of electrons.

What is PN diagram?

P-N Energy Bands Electrons and holes reach an equilibrium at the junction and form a depletion region. The upward direction in the diagram represents increasing electron energy. That implies that you would have to supply energy to get an electron to go up on the diagram, and supply energy to get a hole to go down.

What is a PN junction diode?

A PN Junction Diode is one of the simplest semiconductor devices around, and which has the characteristic of passing current in only one direction only. By applying a negative voltage (reverse bias) results in the free charges being pulled away from the junction resulting in the depletion layer width being increased.

What does a pn junction do?

A p–n junction diode allows electric charges to flow in one direction, but not in the opposite direction; negative charges (electrons) can easily flow through the junction from n to p but not from p to n, and the reverse is true for holes.

What are the properties of pn junction?

It can rectify electric current, inject minority carriers, create a potential barrier, make use of its capacitance properties, accumulate space charge, create various non-linear current—voltage characteristics, transform light energy into electrical, react to various kinds of irradiation, emit light radiation when a …

What is the basic principle of LED?

Working Principle: A light-emitting diode is a two-lead semiconductor light source. It is a p–n junction diode that emits light when activated. When a suitable voltage is applied to the leads, electrons are able to recombine with electron holes within the device, releasing energy in the form of photons.

What are the different types of LEDs?

What are the Different types of LED Lighting

• Types of LED Bulb. In the recent past, LED lighting used to be fairly limited with few designs to choose from.
• LED Colour. The light emitted by normal LED bulbs comes in three different varieties which are:
• Dimmer Switches.
• LED Lighting Tubes.
• SMD LED.
• COB LED.
• Graphene Light.
• Why We Now Use Lumens.

What is LED and its application?

LEDs (Light Emitting Diodes) are the latest development in the lighting industry. Made popular by their efficiency, range of color, and long lifespan, LED lights are ideal for numerous applications including night lighting, art lighting, and outdoor lighting. LED lights are directional light sources.

What is the principle of photodiode?

Principle of operation A photodiode is a PIN structure or p–n junction. When a photon of sufficient energy strikes the diode, it creates an electron–hole pair. This mechanism is also known as the inner photoelectric effect.

What are the types of photodiode?

Types of photodiode

• PN photodiode: The PN photodiode was the first form of photodiode to be developed.
• PIN photodiode: The PIN photodiode is one of the most widely used forms of photodiode today.
• Avalanche photodiode: Avalanche photodiode technology is used in areas of low light because of its high levels of gain.

Which material is used in photodiode?

The Photodiode has a p-n junction or PIN structure. The P-N junction is made up of a light sensitive semi conductor. Silicon (190-1100 nm), Germanium (400-1700 nm), Indium Gallium Arsenide (800-2600 nm), Lead Sulphide (1000-3500 nm) etc are the semiconductors used for making different types of photodiodes.

How do you identify a photodiode?

Photodiode Specifications:

1. Wavelength Sensitivity (λP): 940nm.
2. Open Circuit Voltage: 0.39V.
3. Reverse breakdown voltage: 32V.
4. Reverse Light current: 40μA.
5. Reverse Dark current: 5nA.
6. Rise Time/ Fall Time: 45/45nS.
7. View Angle: 80 deg.
8. Package: 5mm.

What is the most common use of photodiode?

Photodiodes are used in consumer electronics devices such as compact disc players, smoke detectors, medical devices and the receivers for infrared remote control devices used to control equipment from televisions to air conditioners.

What is dark resistance of photodiode?

[′därk ri‚zis·təns] (electronics) The resistance of a selenium cell or other photoelectric device in total darkness.

What is dark current in photodiode?

In physics and in electronic engineering, dark current is the relatively small electric current that flows through photosensitive devices such as a photomultiplier tube, photodiode, or charge-coupled device even when no photons are entering the device; it consists of the charges generated in the detector when no …

How can we reduce dark current in photodiode?

Systems for reducing dark current in a photodiode include a heater configured to heat a photodiode above room temperature. A reverse bias voltage source is configured to apply a reverse bias voltage to the heated photodiode to reduce a dark current generated by the photodiode.

What is meant by dark current?

Dark current is the relatively small electric current that flows through photosensitive devices such as a photomultiplier tube, photodiode, or charge-coupled device even when no photons are entering the device; it consists of the charges generated in the detector through heat,when no outside radiation is entering the …

How can we reduce dark current?

CCDs can be cooled either with thermoelectric coolers (TECs) or liquid nitrogen to reduce this effect. Practically, the dark current noise should be reduced to a point where its contribution is negligible over a typical exposure time.

What is dark current in phototransistor?

When the phototransistor is placed in the dark and a voltage is applied from collector to emitter, a certain amount of current will flow. This current is called the dark current (ID). This current consists of the leakage current of the collector-base junction multiplied by the dc current gain of the transistor.

What is dark voltage?

Dark current-voltage (dark I-V) measurements are commonly used to analyze the electrical characteristics of solar cells, providing an effective way to determine fundamental performance parameters without the need for a solar simulator.

What is dark current in car?

“Dark current” refers to current consumed by various load devices which use battery power even after the vehicle has been powered off. On the other hand, when the vehicle is delivered to the customer, the mode switch is turned on, such that the battery power can be normally provided to the load device in the vehicle.

What causes dark current?

The primary cause for a dark current is usually thermionic emission on the photocathode. This means the thermal excitation of electrons. It is also strongly temperature-dependent; low-temperature operation is thus a very effective measure for reducing the dark current. The dependence on the operation voltage is weak.

What is dark conductivity?

TiO2 is well known as n-type semiconductor and its electrical properties are determined by donor-like oxygen vacancies and extrinsic impurities. In this work we study the electrical conductivity in the dark of two undoped samples as well as of two N-doped ones, in air and in vacuum.

Which diode maintain minimum dark current?

Series 6: IR photodiodes with minimal dark current

Order #	Chip	Dark current (nA) 3.5 V
3001208	PC10-6	0.2
3001047	PC20-6	0.3
3001054	PS100-6	1

How is responsivity calculated?

How to calculate the responsivity

1. = Photon Detection Efficiency.
2. = Wavelength.
3. = Gain.
4. = Electron Charge.
5. = Afterpulsing Probability.
6. = Crosstalk Probability.
7. = Planck Constant.
8. = Speed of light.

What is the difference between photovoltaic and photoconductive?

The difference between these two classifications is that photoconductive detectors use the increase in electrical conductivity resulting from increases in the number of free carriers generated when photons are absorbed (generation of current), whereas photovoltaic current is generated as a result of the absorption of …

What has more sophisticated structure than PIN photodiode?

1. ___________ has more sophisticated structure than p-i-n photodiode. Explanation: Avalanche photodiode is second major type of detector in optical communications. This diode is more sophisticated so as to create a much higher electric field region.

What are the two main types of photodetectors?

Common Types of Photodetectors

• p-n Photodiodes.
• p-i-n Photodiodes.
• Avalanche Photodiodes.
• MSM Photodetectors.

What are the two main sources of noise in photodiode without internal gain?

Explanation: The two main sources of noise in photodiodes without internal gain are dark current noise and quantum noise. They are regarded as shot noise on the photocurrent. These noise are together called as analog quantum noise.

Why do CCD or CID cameras are used?

4. Why do CCD or CID cameras are used? Explanation: CCD or CID cameras are used to generate the electronic signal that represents the image. The camera collects light from the image scene via lens and uses a photosensitive target to converts it into electronic signal.