Lighting

75W Digitally-Controlled AC-DC LED Driver Reference Design

The STEVAL-LLL004V1 digitally-controlled ac-dc constant current LED driver reference design from STMicroelectronics features a PFC stage and two dc-dc converters designed to work in transition mode for optimal efficiency.

The LED driver can deliver 75W output power and implements both analog and digital techniques for flicker free dimming down to 0.5% of the maximum brightness level. The board features high efficiency, a very high power factor above 0.97, and a low THD across wide input voltage and load conditions.

Summary of Specifications and Features

  • Wide input voltage range 85- to 265-Vac
  • Transition mode PFC
  • Two constant current outputs working in transition mode based on different topologies:
    • Buck topology
    • Inverse buck topology
  • Output current: 500mA ±2.5%
    • Number of LEDs connected at output: 16 to 24 white LEDs (3.3V each)
  • PFC >0.97 and THD <20% at full load with input voltage 85- to 265-Vac
  • Peak Efficiency at maximum load ≅ 90%
  • Comprehensive safety protections:
    • Open/no-load circuit protection
    • Short-/overload circuit protection
  • Soft start implementation
  • LED dimming range: 0.5% to 100%
    • Analog dimming
    • Digital dimming
  • Dimming control options:
    • Push button
    • 0- to 10-V input
  • Meets EN55022 Class B
  • WEEE and RoHS compliant
Reference Design Overview

The principal design objectives of this LED driver board are to deliver considerable performance in terms of efficiency (90%), power factor (>0.97), THD (<20%), wide dimming range (down to 0.5%) and EN55022 EMC pre-compliance, as well as facilitate design optimization over a wide range of operating points with little or no hardware configuration. According to the company, a reference design based on digital algorithms supported by a programmable STM32 microcontroller therefore seemed to be the ideal solution.

The implementation of digital control as opposed to analog is gaining popularity in power conversion circles for its superior flexibility regarding control loop parameter and on-the-fly operating point adjustment for any given condition, without needing to modify the hardware. Additionally, digital control ensures greater stability under noisy conditions and tends to be less sensitive to component tolerances, temperature variations and voltage drift.

An appropriate programmable digital controller can also simplify the implementation and customization of advanced lighting solution features like flicker-free, high-resolution dimming, connectivity for remote control and dimming, diagnostic protection and monitoring.

STEVAL-LLL004V1 block diagram (click on image to enlarge)

The digital controller chosen for the STEVAL-LLL004V1 LED driver reference design is the STM32F071CB microcontroller featuring a generous set of hardware peripherals. The MCU controls the PFC, the buck and inverse-buck dc-dc power conversion stages in transition mode (TM), which maximizes efficiency by turning the power MOSFET switch ON as the current in the inductor reaches zero, and implements both analog and digital dimming. The advanced control timer (TIMER1) in STM32F071CB can work together with the other timers via the Timer Link feature for synchronization or event chaining, simplifying the task of the designer.

The PFC provides a regulated high-voltage dc rail and ensures that the current drawn from the mains is highly sinusoidal and in phase with mains voltage. A proportional-integral (PI) control loop is included in the PFC stage to improve control loop stability, line transition and dimming step behavior, while reducing current and voltage overshoot at start-up.

The board is designed to allow evaluation of the advantages and disadvantages of buck and modified buck (Inverse buck) dc-dc conversion topologies by implementing both converters in parallel: the modified buck topology has the power switch connected to ground, rendering it is easier to control the switch, while the buck converter has the LEDs connected to the ground.

The N-Channel 600V MDmesh™ M2 STD11N60M2-EP MOSFET is also a key design choice as it is tailored for optimal performance under light load conditions, which is desirable in dimming applications, while its DPAK package helps maintain a slim profile in commercial solutions.

The HV converter VIPer01 is selected for the auxiliary SMPS thanks to its low VCC supply voltage to minimize power consumption, especially at light load. It is used in a non-isolated flyback topology with direct output feedback thanks to the embedded error amplifier in order to save BOM components without affecting regulation performance.

STMicroelectronics NV
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