introduction

LED lighting is quickly welcomed by users because of its high luminous efficiency, long service life, simple brightness control and environmental protection. As a new energy-saving light source, LED lamps will gradually replace traditional incandescent bulbs. The increasing popularity of LED lighting has placed increasing demands on dimming and control technology. The main concern of current users is that LED lamps must be safe to use, light in weight, long in life, and do not affect the health of users, and can be applied to existing dimming equipment and affordable prices.

Digital power technology breaks through the limitations of traditional solutions, can integrate and optimize user requirements, and provides a complete solution for LED driver and dimming control. This article discusses the advantages of digital technology and the method of solving the problem for the specific design of LED lights.

1, LED drive technology

The high efficiency, no optocoupler-converted LED drive circuit converts energy from the AC grid to the DC form required for its own illumination. Energy is lost during the conversion process. The higher the conversion efficiency, the smaller the loss and the lower the heat dissipation requirement for the drive part. Most LED lamps use glue and aluminum heat sinks to solve the heat problem. For the user, a highly efficient driving scheme can reduce the heat dissipation cost of the driving circuit and reduce the weight of the LED lamp. Reducing the temperature rise of the circuit also helps to increase the service life of the LED lamp. The traditional isolated drive scheme uses an optocoupler to pass the secondary side current signal to the primary side controller to maintain a stable output current. The secondary side detection circuit increases the complexity, cost, and loss of the drive circuit. The use of optocouplers also reduces reliability. Therefore, mainstream LED lamp manufacturers have begun to use the primary side feedback technology without optocoupler. Currently, digital primary feedback technology has matured and is widely used. Digital control enables precise control of the output current without optocoupler feedback. Using transformer feedback waveforms, digital technology can also achieve valley turn-on to improve conversion efficiency.

1.1 No optocoupler precise current control

Figure 1(a) shows a flyback converter with primary feedback. The current waveforms of the primary side and the secondary side are shown in Fig. 1(b). Isp is the peak output current of the transformer secondary winding; Trst is the transformer magnetic recovery time; Tprd is the switching period.

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