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Introduction: This LED driver design solution has small volume, low cost, high PF and high TRIAC brightness adjustment performance. For the sake of understanding, the experimental results obtained based on the 7W application are provided as a reference. As long as the design is easily modified, it can be applied to other applications.
This solution uses a single-stage power factor correction (PFC) inverting converter with primary side constant power control. It achieves primary side constant power control in a single-stage inverting topology without an optocoupler. It operates at high and low voltages and provides a constant current of 350mA to drive six LEDs in series.
The PMP4304A reference design is a TRIAC brightness-adjusting single-stage power factor correction LED driver using TI's TPS92210 LED lighting power controller.
Finally, a reference design for a 7W AC/DC LED lighting driver with TRIAC brightness adjustment is presented. The solution uses a single-stage power factor correction (PFC) inverting topology with primary side constant power control. The article introduces you to the complete analysis and design of power converters. Finally, we also provide you with experimental results based on 7W applications. Simple modifications to the design make it suitable for other applications.
LED lighting driver works
Power factor corrected single-stage inverter
This single-stage power factor correction converter uses an isolated inverting AC/DC topology that rectifies the AC input line voltage to a DC output that inputs the sinusoidal current. Single-stage inverting topologies are widely used as isolated LED solutions because of their very low BOM cost and high efficiency.
Figure 1 Single-stage inverter
Traditional single-stage inverting solutions use a conversion mode to adjust constants on time to implement PFC functionality. However, the inverse topology of the conversion mode is not a natural PFC because the duty cycle and frequency often change. Therefore, the accuracy of PF and THD under such conditions is not high.
However, the primary side constant power single-stage inversion is a natural PFC.
When the RMS of Vin changes, the duty cycle changes inversely. When the RMS of Vin is limited, the duty cycle does not change. Therefore, when the system is stable, the duty time and duty cycle are constant.
At the same time, in order to maintain constant power, the system remains at the same switching frequency.
Since Ton, L, f, and Vin are all constant, the input current is the natural sine of Equation 2.
On the other hand, the input power is also a constant of Equation 3.
In summary, we can see that in this application, the primary side constant power single-stage solution has certain advantages compared to the traditional solution. First, the primary side constant power scheme is a natural PFC with both PF and THD superior to conventional solutions. Second, as the name suggests, the primary side constant power scheme is only controlled by the primary side. Therefore, the optocoupler can be excluded to achieve a low cost BOM.
TPS92210 controller and system operation
As far as the TPS92210 controller is concerned, there is an OTM pin that can control the Ton time by connecting its resistors. Details are as follows:
In order to achieve primary side constant power control, we use the following circuit, as shown in Figure 2.
Figure 2 Feedforward circuit for primary side constant power control
Assuming Vin_rms = x, the relationship between Ton and Vin_rms can be calculated as follows:
This formula can be abbreviated as Equation 7:
In order to meet the requirements of primary side constant power control (Vrms *Ton= K), select B=0. At the same time, A and C can be selected according to the input power.
7W offline constant power LED lighting driver design
Design specification
Table 1 Electrical Design Specifications
Schematic
Figure 3 Schematic diagram of PMP4304A
PCB layout
Figure 4 circuit board assembly diagram - layer 1
Figure 5 board assembly diagram - layer 2
effectiveness
Figure 6 Efficiency vs. Input Voltage
Line pressure regulation
Figure 7 Output current and input voltage
Power factor
Figure 8 Relationship between power factor and input voltage
TRIAC brightness adjustment performance
Table 2: Output currents for different brightness regulator conduction angles
Figure 9 shows the relationship between the output current and the conduction angle of the brightness adjuster.
Figure 11 Input current and input voltage at different conduction angles
in conclusion
This article provides a simple analysis of the side constant power control single-stage inverter LED driver and introduces the advantages of using the TPS92210-based primary side control. In addition, an actual 7W design was implemented. It embodies many of the advantages of the TPS92210 solution, such as small size, low cost, high PF and high TRIAC brightness adjustment.
Author:
Mr. Wayne Tang
Phone/WhatsApp:
March 29, 2023
March 21, 2023
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Author:
Mr. Wayne Tang
Phone/WhatsApp:
March 29, 2023
March 21, 2023
April 03, 2023
April 03, 2023
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Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.