VI-NUY-CM

Power (Watts):	396W
Approvals:	CE
Minimum Load Required:	Yes
Size / Dimension:	9.25" L x 7.30" W x 1.37" H (234.8mm x 185.4mm x 34.8mm)
Mounting Type:	Chassis Mount
Features:	Adjustable Output, Remote Sense
Operating Temperature:	0°C ~ 85°C (With Derating)
Efficiency:	80%
Voltage - Isolation:	4.242kV
Applications:	ITE (Commercial)
Series:	FlatPAC™
Current - Output (Max):	120A
Voltage - Output 4:	--
Voltage - Output 3:	--
Voltage - Output 2:	--
Voltage - Output 1:	3.3V
Voltage - Input:	90 ~ 132 VAC, 180 ~ 264 VAC
Number of Outputs:	1
Type:	Enclosed
Part Status:	Active

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AC DC Converters

VI-NUY-CM applications field and working principle has been of significant interest in the area of power electronics for many years. VI-NUY-CM, or Voltage Source Inverter-Non-Zero-Uniform-Switched-Capacitor, is a type of AC-to-DC converter that provides a high efficiency, high voltage gain and low cost solution to many power conversion circuits. This article will provide an overview of the VI-NUY-CM application field and working principle.VI-NUY-CM is based on the conventional Voltage Source Inverter (VSI) topology and the principle of self-oscillation. In a conventional VSI, a voltage input is applied to a set of switches connected in series. The switches then act as a switch and provide an output of a given voltage depending on the position of the switches and the amplitude of the voltage input. In a VI-NUY-CM, the switches are replaced by capacitors. The capacitors are charged up to a given voltage, and then discharged in a sawtooth pattern. This creates a voltage waveform, which is then converted to a DC output.The advantages of the VI-NUY-CM topology include high efficiency, high voltage gain, low voltage ripple, low output signal distortion, low power dissipation, and low cost. In addition, the VI-NUY-CM converter does not require an internal feedback loop, as with a conventional VSI converter. This reduces the complexity of the system and allows for a simpler design. VI-NUY-CM converters are primarily used in applications where high voltage gains are needed and the output signal is required to be of low distortion. Some examples include motor control, power conditioning, solar photovoltaic systems, renewable energy, and LED lighting. VI-NUY-CM also has the ability to provide a high output power capability due to its ability to store energy in the capacitors.The working principle of the VI-NUY-CM converter is based on self-oscillation. When a voltage input is applied to the capacitors, they begin to charge and discharge in a periodic pattern. This creates a voltage waveform, which is then converted to a DC output by the regulator. The regulator then ensures that the output voltage is maintained at a constant level. The output voltage can be adjusted by varying the input voltage, or by changing the bias capacitor values.In summary, the VI-NUY-CM application field and working principle has been of significant interest in the area of power electronics for many years. The VI-NUY-CM topology provides a high efficiency, high voltage gain and low cost solution to many power conversion circuits. It is primarily used in applications where high voltage gains are needed and the output signal is required to be of low distortion. The working principle is based on self-oscillation, and the output voltage can be adjusted by varying the input voltage, or by changing the bias capacitor values.

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