![VI-200-MY-F1 Allicdata Electronics](https://files.allicdata.com/upload/common/default.jpg)
Allicdata Part #: | VI-200-MY-F1-ND |
Manufacturer Part#: |
VI-200-MY-F1 |
Price: | $ 0.00 |
Product Category: | Power Supplies - Board Mount |
Manufacturer: | Vicor Corporation |
Short Description: | DC DC CONVERTER 5V 50W |
More Detail: | Isolated Module DC DC Converter 1 Output 5V 10A... |
DataSheet: | ![]() |
Quantity: | 1000 |
1 +: | 0.00000 |
Current - Output (Max): | 10A |
Size / Dimension: | 4.60" L x 1.86" W x 0.79" H (116.8mm x 47.2mm x 20.1mm) |
Package / Case: | Full Brick |
Mounting Type: | Through Hole |
Efficiency: | 90% |
Operating Temperature: | -55°C ~ 85°C |
Features: | OCP, OTP, OVP, SCP |
Applications: | ITE (Commercial) |
Voltage - Isolation: | 3kV |
Power (Watts): | 50W |
Series: | VI-200™ |
Voltage - Output 3: | -- |
Voltage - Output 2: | -- |
Voltage - Output 1: | 5V |
Voltage - Input (Max): | 20V |
Voltage - Input (Min): | 10V |
Number of Outputs: | 1 |
Type: | Isolated Module |
Part Status: | Active |
Packaging: | Bulk |
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DC DC Converters
The VI-200-MY-F1 is one of many types of DC-DC converters available on the market. Its primary purpose is to reduce or convert incoming direct current to an adjustable voltage or current, for use in small devices. Many of these converters are used in consumer electronics, industrial devices, and automotive applications. This type of device can be used to monitor and control voltage, current or other signals.
Application Field and Working Principle
The VI-200-MY-F1 is a DC-DC converter of the Switch Mode Power Supply (SMPS) type. This type of converter typically provides high efficiency when compared to linear voltage regulators. It is designed for applications such as power supplies, battery charging circuits, DC motor drives, and step-down converters. The working principle of a dc-dc converter is based on a switch mode or a voltage multiplier structure.
When an input source is applied, the switch mode converter first rectifies the source voltage and converts it into direct current. This DC voltage is then applied to a filter circuit, such as a capacitor, which helps to smooth out any irregularities in the voltage waveform. The filtered input voltage is then applied to an input transformer, which converts it into a step-up or step-down configuration. The output voltage of the transformer is then rectified and filtered again before it is made available as a usable output voltage.
Most modern applications require a further control circuit, also known as a PWM (Pulse Width Modulation) regulator, to adjust the output voltage accurately. The PWM regulator monitors the output voltage and adjusts the input voltage accordingly. This helps to provide an accurate output voltage. The PWM regulator is typically connected to the output of the converter and monitors the output voltage. It then adjusts the duty cycle of the switch based on the immediate need of the output as prescribed by the user.
Advantages of VI-200-MY-F1 DC-DC Converters
The main advantage of using a switch-mode power supply is that it can provide high efficiency with a very small physical size. This is useful for applications where space is of a premium, or where the component size needs to be kept to a minimum. The VI-200-MY-F1 is a perfect example of this; it is a very small component which can provide a voltage range of 0.5V to 35V, and is suitable for a wide range of applications because of its flexibility.
This type of converter can also provide a much higher efficiency than linear voltage regulators. This is because the switch-mode power supply works by “switching” the input voltage on and off at different frequencies in order to keep the output voltage at the desired value. As each switch is only a very short time period, the efficiency of the conversion process is much higher than what can be achieved with a linear regulator.
The VI-200-MY-F1 DC-DC converter also provides high power density. This means that it can provide a higher output power for the same size of the component. This further reduces the size of the component and makes it more suitable for applications where space is limited.
Conclusion
The VI-200-MY-F1 is an excellent DC-DC converter which can provide a wide range of adjustable outputs in a highly efficient and compact package. Its working principle is based on the switching mode, and it is suitable for a wide range of applications, from consumer electronics to industrial uses. Its main advantages are its small size, high efficiency, and high power density, making it an ideal choice for applications which require a precise and reliable output.
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