Introduction to Digital Power
In applications that are easy to use and require few parameter changes, analog power supply products have more advantages, because the pertinence of their applications can be realized through hardware curing, and in applications where there are more controllable factors, faster real-time response speed, and more In complex high-performance system applications that require an analog system power management, digital power is more advantageous. In addition, in complex multi-system business, compared with analog power supply, digital power supply realizes various applications through software programming. Its scalability and reusability enable users to easily change working parameters and optimize power supply system. It also reduces the number of peripheral components through real-time overcurrent protection and management.
In complex multi-system business, compared with analog power supply, digital power supply realizes various applications through software programming. Its scalability and reusability enable users to easily change working parameters and optimize power supply system. It also reduces the number of peripheral components through real-time overcurrent protection and management.
The digital power supply is controlled by DSP and also by MCU. Relatively speaking, the power supply controlled by DSP adopts digital filtering method, which can better meet the complex power supply requirements, faster real-time response speed, and better power supply voltage stabilization performance than the power supply controlled by MCU.
What are the benefits of digital power
First of all, it is programmable, and all functions such as communication, detection, and telemetry can be realized by software programming. In addition, the digital power supply has high performance and high reliability, and is very flexible.
Interference: Between digital and analog in the single-chip microcomputer, because the digital signal is a pulse signal with a wide spectrum, it is mainly the digital part that interferes strongly with the analog part; not only the digital power supply and the analog power supply are generally separated, but the two Filter connection, in some occasions with high requirements, such as when the AD converter inside some single-chip microcomputers performs AD conversion, it is often necessary to let the digital part enter a dormant state, and most of the digital logic stops working to prevent them from causing damage to the analog part. interference. If the interference is serious, you can even use two power supplies separately, and generally use inductors and capacitors to isolate them. It is also possible to connect the power supplies of the digital and analog parts on the entire board together, and use separate paths to directly connect to the solder joints of the power filter capacitors. If the anti-interference requirements are not high, they can be connected together casually.
