Allicdata Part #: | VI-BTN-CV-ND |
Manufacturer Part#: |
VI-BTN-CV |
Price: | $ 0.00 |
Product Category: | Power Supplies - Board Mount |
Manufacturer: | Vicor Corporation |
Short Description: | DC DC CONVERTER 18.5V 150W |
More Detail: | Isolated Module DC DC Converter 1 Output 18.5V ... |
DataSheet: | VI-BTN-CV Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | VI-200™ |
Packaging: | Bulk |
Part Status: | Active |
Type: | Isolated Module |
Number of Outputs: | 1 |
Voltage - Input (Min): | 66V |
Voltage - Input (Max): | 160V |
Voltage - Output 1: | 18.5V |
Voltage - Output 2: | -- |
Voltage - Output 3: | -- |
Current - Output (Max): | 2.7A |
Power (Watts): | 150W |
Voltage - Isolation: | 3kV |
Applications: | ITE (Commercial) |
Features: | OCP, OTP, OVP, SCP |
Operating Temperature: | -25°C ~ 85°C |
Efficiency: | 90% |
Mounting Type: | Through Hole |
Package / Case: | Full Brick |
Size / Dimension: | 4.60" L x 2.40" W x 0.50" H (116.8mm x 61.0mm x 12.7mm) |
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DC-DC converters are the most versatile power conversion components available in the market. They convert a given DC voltage to other DC voltages of the same type, or convert DC to an AC voltage. DC-DC converters are largely used in applications such as solar power systems, computer servers, IT equipment, vehicle power systems, and medical diagnostic systems. The main types of DC-DC converters are VI-BTN-CV, EFN-MOSFET, and LDO (low-dropout) converters.
VI-BTN-CV Application Field and Working Principle
The VI-BTN-CV (Vibration Inducing-Bi-directional Transconductance-Constant Voltage) DC-DC converter is a type of step-down converter that is mainly used for converting a variable input voltage to a stable output voltage. It is typically used in applications such as automotive electronic systems, avionics, home appliances, industrial equipment, and virtual reality systems. The VI-BTN-CV converter is also suitable for use with a wide range of load size, and can withstand voltage variations of up to 10%.
The VI-BTN-CV converter works by using the principle of ‘transconductance’, where current is converted to voltage. When the input voltage changes, the output voltage also changes, which triggers the converter. The converter is then able to correct the variations and maintain the output voltage within the required range. The circuitry of the converter is based on a feedback loop, which helps in maintaining the output voltage. To ensure that the output voltage is accurate, the feedback loop is designed with a very small time constant.
The VI-BTN-CV converter has a high efficiency of 90%, and can be used in wide environmental conditions. It also offers complete protection against overvoltage, overcurrent and short circuit conditions. Moreover, the converter is shock proof and is capable of operating on a wide temperature range from -20° C to +65° C.
Conclusion
The VI-BTN-CV DC-DC converter has numerous advantages that make it a good choice for a wide variety of applications. It is very efficient, and capable of rapidly correcting voltage variations. It has a wide temperature range of operation, and offers complete protection against overvoltage, overcurrent and short circuit conditions. The only disadvantage of the VI-BTN-CV converter is its limited availability in the market.
The specific data is subject to PDF, and the above content is for reference
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