IDEALPLUSING | How to optimize the control and modulation of DC-DC converters
DC-DC converters optimize performance through open-loop and closed-loop control, pulse width modulation and current modulation to achieve stable and reliable output voltage and current.

The difference between current modulation and PWM modulation is tThe DC-DC converter is an important electronic device that can convert DC power from one voltage level to another and is widely used in various occasions. In order to make the performance of the dc dc converter better, we need to optimize its control and modulation methods.

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Control method

 

The control method of the high power dc dc converter is generally divided into two types: open-loop control and closed-loop control.

1. Open-loop control

Open-loop control means that in the step up dc dc converter, the control of voltage and current is achieved by directly controlling the switching state of the switch tube by the controller. The advantages of open-loop control are simplicity and low cost, but its disadvantage is that it cannot eliminate the influence of external disturbances, so it is easy to cause fluctuations in output voltage and current.

2. Closed-loop control

Closed-loop control means that in the 100v dc dc converter, the control of voltage and current is achieved by monitoring the output voltage and current through the controller and adjusting the switching state of the switch tube to achieve the control purpose. The advantage of closed-loop control is that it can eliminate the influence of external disturbances, and the output voltage and current are more stable, but the cost is relatively high.

For most applications, closed-loop control is a better choice because it can provide more stable and reliable power output.

 

Modulation method

1. Pulse width modulation PWM

Pulse width modulation (PWM) is a modulation method widely used in mouser dc dc converter. PWM modulation can achieve certain high and low level changes on the switch tube according to the input signal generated by the controller to make the power supply output voltage and current stable and reliable.

PWM has the advantages of stable output voltage and strong anti-interference performance, and its application covers almost all high power dc dc converter fields. The setting of PWM timing, frequency and other parameters is crucial for the control and optimization of the converter.

2. Current modulation

Current modulation is rarely used in high voltage dc dc converter, but it has better performance advantages than PWM in some applications. Current modulation refers to controlling the size and stability of the output current by changing the on and off time of the switch tube.

hat current modulation pays more attention to current characteristics, while PWM modulation takes output voltage characteristics as the main consideration. This also provides a better and more stable solution for effectively controlling different load changes.

In order to make the performance of DC-DC converters better, we not only need to choose appropriate control and modulation methods, but also need proper debugging and optimization. This requires a deep understanding of the operating characteristics of the isolated dc converter, and the optimization of the appropriate control mode and performance parameters in combination with actual requirements.


Key Points

· An ideal high power dc dc converter exhibits 100% efficiency, but in practice, the observed efficiency is between 70% and 95%.

· The basis of operation of any switching dc dc converter is the principle of electronic conversion.

· It involves converting one DC voltage to another - which can be higher or lower than the input voltage, which is achieved by temporarily storing the input energy and then releasing this energy in a controlled manner to a different voltage output.

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