Allicdata Part #: | MOC3023SVM-ND |
Manufacturer Part#: |
MOC3023SVM |
Price: | $ 0.76 |
Product Category: | Isolators |
Manufacturer: | ON Semiconductor |
Short Description: | OPTOISOLATOR 4.17KV TRIAC 6SMD |
More Detail: | Optoisolator Triac Output 4170Vrms 1 Channel 6-SMD |
DataSheet: | MOC3023SVM Datasheet/PDF |
Quantity: | 2650 |
1 +: | $ 0.68670 |
10 +: | $ 0.53550 |
100 +: | $ 0.38254 |
500 +: | $ 0.29073 |
1000 +: | $ 0.22952 |
Current - LED Trigger (Ift) (Max): | 5mA |
Approvals: | IEC/EN/DIN, UL |
Supplier Device Package: | 6-SMD |
Package / Case: | 6-SMD, Gull Wing |
Mounting Type: | Surface Mount |
Operating Temperature: | -40°C ~ 85°C |
Current - DC Forward (If) (Max): | 60mA |
Voltage - Forward (Vf) (Typ): | 1.15V |
Turn On Time: | -- |
Current - Hold (Ih): | 100µA (Typ) |
Series: | -- |
Static dV/dt (Min): | -- |
Voltage - Off State: | 400V |
Voltage - Isolation: | 4170Vrms |
Number of Channels: | 1 |
Zero Crossing Circuit: | No |
Output Type: | Triac |
Part Status: | Active |
Packaging: | Tube |
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MOC3023SVM is a type of an optoisolator component with TRIAC, SCR output. It acts as a solid-state equilibrium head exchange system with integrated optical coupling for any low-power switching. The system is known as an opto-isolator which is a physical device used to provide electrical isolation to a circuit, or several circuits. The mechanism of the MOC3023SVM is based on a result of photoelectrical effect, which can be explained as a change in the electrical potential of a material as it is exposed to light.
The main feature of the MOC3023SVM is that it acts as an interrupter for the voltage flow while allowing the ions to pass between various points in a circuit without directly linking them thus creating a physical barrier that does not interrupt the signal. It also provides a level barrier that does not affect the signal quality or cause any additional harm to the circuit. This serves the purpose of preventing potential damage to the circuit and therefore providing a more reliable operation of the system.
The application field of the MOC3023SVM is mainly restricted to low-power applications as it has a small signal handling capability due to the internal ion-barrier that acts as a current-limiting device. It is most commonly used in systems that require voltage regulation or control of small current signals such as dimming of light, triggering of heater devices and speed controlling. In addition, due to its optical mechanism, it can also be used in applications that require optical communication.
When we discuss the working principle of the MOC3023SVM, we can see that it utilizes the use of semiconductors and phosphors to understand the formation of the functional integral. It works on the principle of re-circulating ions which are usually induced by the input voltage. These ions go through an amplifier and a TRIAC which then gets activated and triggers the load. Inside the opto-isolator, there is an interrupter which acts as a low power transformer that enables an external current path from the input to the output through an optical coupling. This ensures that the input and output are completely isolated from each other.
The movement of ions through an electrical field is responsible for the triggering of the TRIAC, which in turn triggers the load. The advantage of the MOC3023SVM is that it eliminates cross-talk in the circuit which oftentimes occurs due to the contact bouncing of the relay and other contact-making components in the circuit. In addition, when only a small amount of current is in play, the system works optimally in micro-amperes. All these features of the MOC3023SVM make it suitable for use in a range of applications.
Overall, we can conclude that the MOC3023SVM is a type of opto-isolator device that provides a level of electrical isolation between components and which is ideal for low power applications. Its operations are based on the photoelectrical effect and are triggered due to the ions which are moving through an electrical field. With its features, it can be used in a variety of applications that need electrical isolation with a low power amplitude.
The specific data is subject to PDF, and the above content is for reference
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