VE-BWL-CW

Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us:   sales@allicdata.com

DC-DC converters provide power conversion from one DC power source to another, and are an important part of many electronic systems. The principle of these converters relies on the principle of magnetic transformation to obtain different voltage and current output levels from the same input. A common type of DC-DC converter is the VE-BWL-CW, which stands for voltage-boosted, wave-synchronized-locked, current-waveform-controlled. This versatile converter type offers a range of applications, from powering communications equipment to providing solutions for distributed energy production systems.

The VE-BWL-CW DC-DC converter uses an advanced voltage-boost technique to step up input voltage levels to the desired output voltage. This technique is based on wave synchronization between the input and output signals, with the output signal being locked to a reference signal. This ensures a high degree of accuracy and stability in the output signal. In addition, the output signal can be further modified according to the user\'s requirements by introducing additional control signals.

The key components in a VE-BWL-CW DC-DC converter are the input and output stages, the synchronous boost converter, and the digital control (DCC) circuit. The input and output stages comprise voltage and current control loops, which regulate the input and output signals according to the control signals sent by the DCC circuit. In addition, the output voltage is boosted by the synchronous boost converter, which is designed to ensure that the output signal has the desired voltage.

The DCC circuit acts as the master controller and coordinates the operation of the input and output stages and the synchronous boost converter. It is responsible for generating the control signals, as well as reading and responding to the feedback signals from the input and output stages. Additionally, it also provides interface and protection features, such as over-voltage and short-circuit protection.

The primary application of VE-BWL-CW DC-DC converters is in communications equipment, where they are used to convert between digital and analog signals up to frequencies of 1MHz. Another application is in the distributed energy production systems, where VE-BWL-CW DC-DC converters are used for fast and efficient conversion of power levels from solar cells to the grid. In addition, the converters are being used in consumer electronics for charging applications and are being deployed as part of the growing number of smart energy grids.

The working principle of VE-BWL-CW DC-DC converters is based on the principle of magnetic transformation. The converter relies on two inductors, which are connected to the input and output structures, in conjunction with the DCC circuit to modulate the voltage and current flows in a controlled manner. The DCC circuit generates the control signals, which regulate the switching of the inductors, in order to achieve the desired voltage and current output levels from the same input.

In conclusion, VE-BWL-CW DC-DC converters are widely used in a variety of applications ranging from communications equipment to distributed energy production systems. The working principle of these converters relies on magnetic transformation and the control of two inductors, which are connected to the input and output structures. The DCC circuit acts as the master controller for the converter and is responsible for generating the control signals, as well as providing interface and protection features.

The specific data is subject to PDF, and the above content is for reference