MCT2ETM

Output Type:	Transistor with Base
Supplier Device Package:	6-DIP
Package / Case:	6-DIP (0.400", 10.16mm)
Mounting Type:	Through Hole
Operating Temperature:	-40°C ~ 100°C
Vce Saturation (Max):	400mV
Current - DC Forward (If) (Max):	60mA
Voltage - Forward (Vf) (Typ):	1.25V
Current - Output / Channel:	50mA
Voltage - Output (Max):	30V
Series:	--
Input Type:	DC
Rise / Fall Time (Typ):	2µs, 1.5µs
Turn On / Turn Off Time (Typ):	2µs, 2µs
Current Transfer Ratio (Max):	--
Current Transfer Ratio (Min):	20% @ 10mA
Voltage - Isolation:	7500Vpk
Number of Channels:	1
Part Status:	Obsolete
Packaging:	Tube

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Optoisolators - Transistor, Photovoltaic Output are a type of optical electronic component designed to provide electrical isolation between two channels. This allows for a system to continue functioning properly even when a voltage spike or electrical surge occurs. The electrical operation and application field of this type of component is often referred to as MCT2ETM. This stands for Multi-Channel Transistor, Photovoltaic Output – Electronic Transfer Module.MCT2ETM technology has been around for nearly seven decades and is used for many different types of applications. Essentially, it uses an optoisolator or light sensitive transistor as its main component. When a voltage or current goes through the light sensitive transistor, which sits atop an active electronic base, a light is emitted that is generally shielded from the voltage or current. This light then passes through an optocoupler, which can be either a photoresistor or photo-regulator, and is then directed into the control circuit. The control circuit is generally made up of several other components such as transistors, resistors, capacitors, and other active devices.The primary purpose of this type of optoisolator is to provide flexibility when dealing with voltage surges or other extreme electrical conditions. This is accomplished by having multiple optocouplers, each with their own dedicated light source and active electronic base. This gives the optoisolator the ability to quickly react to any changes in the power supply and adjust itself accordingly.When using the MCT2ETM technology for isolation purposes, it is important to note that there are certain drawbacks. One potential issue is the fact that load currents are limited. The number of optocouplers and the strength of the associated light sources, have an impact on the total load supply current that can be supplied. Additionally, it is important to remember that light-sensitive components may be affected by environmental factors, such as temperature and exposure to radiation and ultraviolet radiation. If these environmental factors are not controlled, then it is possible for the optoisolator to become unstable or unreliable.Despite these potential limitations, MCT2ETM technology has become an important part of many different pieces of electrically isolated equipment. This technology is used for motor controllers, intercom systems, medical devices, security systems, and even telecommunications products. One of the primary benefits of using this type of optoisolator is its ability to provide electrical isolation between components, without sacrificing the overall power supply performance. By using this technology, the overall performance of the equipment can be improved, while providing a reliable and safe means of operation.Another primary benefit of using MCT2ETM technology is its ability to provide precise control over electrical signals. By using multiple optoisolators, each with its own dedicated light source, it is possible to very accurately control signals within a system. This precise control allows for much greater accuracy when monitoring a system or making adjustments. Additionally, by having multiple optoisolators, each with its own dedicated light source, the overall system can remain much more stable and reliable as compared to a single device with a single light source.Finally, MCT2ETM technology provides an excellent means of controlling and conducting electrical signals in a cost-effective manner. By using multiple optoisolators, each with its own dedicated light source, it is possible to reduce the cost of the equipment and minimize the amount of energy that is wasted. Ultimately, this results in a much more economical design, and a much more efficient system.Overall, MCT2ETM technology provides an excellent means of providing electrical isolation and controlling electrical signals. This technology is used in a wide variety of applications, and by using multiple optoisolators with dedicated light sources, the overall performance and reliability of the equipment is greatly improved. In addition, by using MCT2ETM technology, it is possible to reduce the cost of the equipment and reduce energy loss. This makes this type of optoisolator one of the most cost-effective solutions available.

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