MOC8100FR2M

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

Optoisolators, also know as optically coupled isolators, are electronic devices used to isolate a circuit from another electrically. The MOC8100FR2M optoisolator is an ideal choice for applications that require reliable electrical isolation. This device features a photovoltaic output transistor and a wide variety of packages to suit a wide range of applications. Here, we’ll discuss the application fields of the MOC8100FR2M, and its working principle.

Application Fields

The MOC8100FR2M optoisolator is suitable for various applications including general purpose industrial and commercial isolation, switching and sensing, communications, and power supply protection. The device is particularly suitable for applications that require precise current or voltage sensing or switching.

The MOC8100FR2M is available in several different packages including TO-220, DIP, and SIP. The device is also available in an integrated circuit form with a small chip size, making it suitable for miniaturized circuits. This device is also compatible with both digital and analog circuitry. The optoisolator provides a high level of isolation, making it ideal for applications where electrical noise must be kept out. The device also has high power handling capabilities and wide operating temperature ranges.

Working Principle

The MOC8100FR2M optoisolator is composed of a photodiode and a transistor coupled together. The optoisolator works by using a light-emitting diode (LED) to produce light, which is then detected by the optoisolator’s photodiode. When the photodiode detects the light from the LED, it will generate a small current, which is then amplified by the transistor. The optoisolator’s output will then be triggered depending on the intensity of the light detected by the photodiode.

The optoisolator’s transistor output can be used to control a wide range of devices, including relays, motors, and actuators. The device can also be used as a digital switch, using the transistor to control the flow of current in a circuit. In addition, the transistor output can be used to sense the presence or absence of an input signal, making it ideal for monitoring applications.

The MOC8100FR2M optoisolator also features a wide variety of circuitry, allowing for customized configurations depending on the application. The device has different voltage and current levels, allowing it to be used in various types of applications. In addition, the optoisolator also features a wide range of standby current options, allowing the device to operate in various types of conditions.

Conclusion

The MOC8100FR2M optoisolator is an ideal choice for applications that require isolation, switching, and sensing. The device features a photovoltaic output transistor, a wide variety of packages, and circuitry for custom applications. The device operates by using an LED to generate light, which is then detected by a photodiode and amplified by a transistor. The optoisolator can then be used to control a wide range of devices, sense input signals, and monitor applications.

The specific data is subject to PDF, and the above content is for reference