VI-JN1-IX-F2

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DC DC converters are electronic power converters designed to transform a direct current input into one or more outputs with different voltage levels. Among such converters, VI-JN1-IX-F2 stands out for its versatility due to its integrated functionality for driving multiple applications. This article explains the applications and working principle of VI-JN1-IX-F2.

Applications

VI-JN1-IX-F2 is a high-efficiency, isolated DC/DC converter specifically designed to meet a variety of telecom and industrial needs. It has a universal input voltage of 4.5-60V and a maximum output power of 32W. The configurable single and dual outputs provide a wide range of output voltages and applications. It has two independent outputs capable of generating 5, 24, and 48V.

The main application of the VI-JN1-IX-F2 are for wireless charging, DC/DC buffering, distributed power, voltage regulation, and 48V intermediate bus power systems. It can also be used in telecom systems for powering lasers, as well as other types of optical equipment.

Working Principle

The VI-JN1-IX-F2 operates by using a standard switching converter to regulate the input and output voltages, transforming the desired power from the input voltage level to the desired output voltage level at a set rate.

The converter has two integral components - an inductor and a capacitor - that coordinate with the other electrical circuit elements to increase or decrease the current level to achieve the desired output voltage. The components are connected in a buck-boost configuration, which allows them to transform the input voltage level up or down depending on what the device needs.

The switching converter is designed to switch the current in or out of the inductor and capacitor depending on the output voltage. When the output voltage is lower than the desired level, the inductor is used to store the current and release it when required. When the output voltage is higher than the desired level, the capacitor is used to store the current and release it when required.

By changing the switching frequency, the voltage can be altered in a more controlled manner. By pulsing the current through the inductor-capacitor circuit, the level of energy stored is also regulated. The combination of switching frequency and pulsed current ensures that the output voltage is hit appropriately.

Conclusion

VI-JN1-IX-F2 is a versatile DC-DC converter with multiple applications for wireless charging, distributed power, DC/DC buffering, voltage regulation and 48V intermediate bus power systems. It works by using a standard switching converter to regulate the input and output voltages, transforming the desired power from the input voltage level to the desired output voltage level at a set rate. This allows the VI-JN1-IX-F2 to switch the current in or out of the inductor-capacitor circuit to achieve the desired output voltage. Overall, the VI-JN1-IX-F2 is a powerful and efficient DC-DC converter that can be used for a wide range of applications.

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