Allicdata Part #: | VI-BTN-MV-S-ND |
Manufacturer Part#: |
VI-BTN-MV-S |
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-MV-S 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: | -55°C ~ 85°C |
Efficiency: | 90% |
Mounting Type: | Through Hole |
Package / Case: | Full Brick |
Size / Dimension: | 4.60" L x 1.80" W x 0.52" H (116.8mm x 45.7mm x 13.2mm) |
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DC DC Converters
DC to DC converters are an essential component of many electronic power systems. These devices are used to convert direct current (DC) from one voltage level to a different voltage level. A DC converter can be used to both boost (step-up) and buck (step-down)in voltage. In many cases, they provide the function of regulating or smoothing the output voltage to prevent damage to any connected devices.
The VI-BTN-MV-S application field and working principle is used to describe how these types of converters work. The VI-BTN-MV-S stands for Voltage Input - Boost Transistor - Multiplier Voltage – Star Point. This circuit uses a basic switching power supply architecture, with the addition of a transistor as an active switch.
The voltage input is provided by the power source, this can be either AC or DC, depending on the application. The voltage then passes through the boost transistor, which has a diode connected to it that blocks any reverse current. This diode helps the transistor switch quickly between on and off cycles. The transistor then makes the output voltage higher than the input voltage.
This boosted voltage then passes through the multiplier voltage circuit which raises the voltage to a much higher level than the input. This is done by multiplying the voltage with the current in the circuit. Finally, the voltage passes through the star point circuit. This circuit acts as a filter and smoothes out any spikes in the output voltage to prevent any damage to connected devices.
The working principle of the VI-BTN-MV-S circuit is based on the process of conversion, from one voltage level to another. The input voltage is boosted using the boost transistor and then further increased by the multiplier voltage circuit. Finally, the output is smoothed by the star point circuit to protect any connected devices. In this way, DC to DC converters can be used to provide stable AC or DC power to a variety of electronic power systems.
The specific data is subject to PDF, and the above content is for reference
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