Historically, this function was delegated to isolation transformers, which use inductive coupling between galvanically isolated input and output sides. The main function of an opto-isolator is to block such high voltages and voltage transients, so that a surge in one part of the system will not disrupt or destroy the other parts. A circuit can also incorporate high voltages by design, in which case it needs safe, reliable means of interfacing its high-voltage components with low-voltage ones. Remote lightning strikes can induce surges up to 10 kV, one thousand times more than the voltage limits of many electronic components. Įlectronic equipment and signal and power transmission lines can be subjected to voltage surges induced by lightning, electrostatic discharge, radio frequency transmissions, switching pulses (spikes) and perturbations in power supply. Relative sizes of LED (red) and sensor (green) are exaggerated. Planar (top) and silicone dome (bottom) layouts - cross-section through a standard dual in-line package. A slotted optical switch contains a source of light and a sensor, but its optical channel is open, allowing modulation of light by external objects obstructing the path of light or reflecting light into the sensor. An optocoupled solid-state relay contains a photodiode opto-isolator which drives a power switch, usually a complementary pair of MOSFETs. Since LEDs can sense light in addition to emitting it, construction of symmetrical, bidirectional opto-isolators is possible. The sensor can be a photoresistor, a photodiode, a phototransistor, a silicon-controlled rectifier (SCR) or a triac. OperationĪn opto-isolator contains a source (emitter) of light, almost always a near infrared light-emitting diode (LED), that converts electrical input signal into light, a closed optical channel (also called dielectrical channel ), and a photosensor, which detects incoming light and either generates electric energy directly, or modulates electric current flowing from an external power supply. The fastest opto-isolators use PIN diodes in photoconductive mode. They attain medium data transfer speed, sufficient for applications like electroencephalography. The majority of opto-isolators on the market use bipolar silicon phototransistor sensors. Commercialization of LED technology in 1968–1970 caused a boom in optoelectronics, and by the end of the 1970s the industry developed all principal types of opto-isolators. They are the slowest, but also the most linear isolators and still retain a niche market in the audio and music industries. Photoresistor-based opto-isolators were introduced in 1968. The value of optically coupling a solid state light emitter to a semiconductor detector for the purpose of electrical isolation was recognized in 1963 by Akmenkalns, et al. Usually opto-isolators transfer digital (on-off) signals, but some techniques allow them to be used with analog signals. Other types of source-sensor combinations include LED- photodiode, LED- LASCR, and lamp- photoresistor pairs. Ī common type of opto-isolator consists of an LED and a phototransistor in the same opaque package. Commercially available opto-isolators withstand input-to-output voltages up to 10 kV and voltage transients with speeds up to 25 kV/ μs. Opto-isolators prevent high voltages from affecting the system receiving the signal. Īn opto-isolator (also called an optocoupler, photocoupler, or optical isolator) is an electronic component that transfers electrical signals between two isolated circuits by using light. Schematic diagram of an opto-isolator showing source of light (LED) on the left, dielectric barrier in the center, and sensor (phototransistor) on the right.
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