Original A6271KLPTR-1 LED Driver IC 1 Output DC DC Controller SEPIC, Step-Down (Buck), Step-Up (Boost) Analog, PWM Dimming - 16-eTSSOP-EP
SKU: 637731261307116674
The A6271-1 is a DC-DC converter controller, providing a programmable constant-current output for driving high-power LEDs in series. The controller is based on a programmable fixed-frequency, peak current-mode control architecture. The DC-DC converter can be configured in a myriad of different switching configurations including boost, buck-boost, buck (ground-referenced switch), and SEPIC.
The A6271-1 provides a cost-effective solution using an external logic-level MOSFET and minimum additional external components. The maximum LED current is set with a single external sense resistor and can be accurately modulated using a current reference input (analog control). External PWM dimming is possible via the PWMIN input, which also provides a shutdown mode. As an alternative, an internal PWM dimming circuit can be used by programming the PWMIN and DR pins. Either PWM scheme controls the PWMOUT output which drives an external p-channel MOSFET connected in series with the LED string. This MOSFET is also used to isolate the load during certain fault conditions, including output shorts to ground.
The A6271-1 has been carefully designed to minimize electromagnetic emissions through distributed decoupling and an externally programmable frequency dither circuit configured for the EMI specification CISPR 25. It is also possible to program the fundamental switching frequency below 150 kHz where most EMI standards begin. The A6271-1 has a comprehensive set of integrated protection
FEATURES AND BENEFITS;
- Automotive AEC-Q100 qualified
- • Constant-current LED drive
- • 4.2 to 50 V supply
- • 53.3 V maximum LED string voltage
- • Boost, buck-boost, buck, and SEPIC switching converters
- • Programmable switching frequency 70 to 700 kHz
- • PWM-controlled PMOS driver allows accurate LED
- current control at low duty cycles
- • Dimming via external PWM, internal PWM and/or
- analog dimming
- • Frequency dither scheme for effective spread spectrum to
- reduce EMI
- • Comprehensive fault protection and fault flag
