6N1136

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Optoisolators are isolating devices that are used to transfer electrical signals between circuits without the use of any physical contact. The 6N1136 Transistor Photovoltaic Output Optoisolator is an optically isolated, integrated circuit (IC) that is specifically designed for high power AC and DC load applications. This optoisolator is versatile, efficient, and durable and offers the best possible performance for several applications. It is also able to provide improved system reliability for electronics products.

The 6N1136 is packaged as a 3-pin optoisolator that includes a photovoltaic cell, a photodiode, and a phototransistor. The photodiode is used to monitor the signal from the photovoltaic cell while the phototransistor is used to drive the load. The photodiode produces current that is proportional to the light intensity and the phototransistor provides electrical isolation by converting the intensity of the light into an output current. This allows the signal to be transmitted between two isolated circuits without the need for physical contact.

The 6N1136 includes features such as low forward voltage drop, low on-state resistance, fast turn-on time, high isolation resistance, high voltage gain, and high current carrying capability. This optoisolator is able to transfer a signal over long distances and still maintain a high level of accuracy. Additionally, its high isolation resistance ensures that there is no transfer of current between the two circuits, providing optimal safety.

The 6N1136 is primarily used in applications such as industrial control systems, consumer electronics, medical equipment, and instrumentation. It is also used as a safety feature in equipment such as air conditioners, microwave ovens, and laser printers. This optoisolator is ideal for these applications due to its high voltage gain, high current carrying capability, and low on-state resistance.

The 6N1136’s working principle is based on the optical isolation. The photodiode produces current that is proportional to the light intensity and the phototransistor then converts the intensity of the light into an output current. This output current is then passed to the load, which is typically an AC or DC circuit. This allows the signal to be transferred between two isolated circuits without the need for physical contact. This ensures that there is no transfer of current between the two circuits, providing optimal safety.

In conclusion, the 6N1136 Transistor Photovoltaic Output Optoisolator is an ideal choice for applications such as industrial control systems, consumer electronics, medical equipment, and instrumentation due to its efficiency, durability, high voltage gain, high current carrying capability, and low on-state resistance. Its working principle is based on optical isolation, which ensures that there is no transfer of current between the two circuits, providing optimal safety. This optoisolator is ideal for these applications due to its versatility and excellent performance.

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