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Buck-Boost Converter with MIPI® RFFE Interface for 3G and 4G RF Power Amplifiers


Package | PIN: YZR | 16
Temp: S (-30 to 85)
Carrier: Cut Tape
Qty Price
1-9 $2.32
10-24 $2.08
25-99 $1.93
100-249 $1.68
250-499 $1.55
500-749 $1.30
750-999 $1.07
1000+ $0.98


  • MIPI RFFE Digital Control Interface
  • High-Efficiency PFM and PWM Modes
    with Internal Seamless Transition
  • Operates from a Single Li-Ion Cell: 2.7 V
    to 5.5 V
  • Adjustable Output Voltage:
    • RFFE Digital Control: 0.4 V
      to 4.2 V
    • Analog Control: 0.5 V to 4.2 V
  • 1-A Maximum Load Capability for VBATT
    ≥ 3.2 V, VOUT = 3.6 V
  • 2.4-MHz (typ.) Switching Frequency
  • Seamless Buck-Boost Mode Transition
  • Fast Output Voltage Transition: 0.8 V to 4 V
    in 20 µs
  • High-Efficiency: 95% typ. at VBATT = 3.7 V,
    VOUT = 3.3 V, at 300 mA
  • Input Overcurrent Limit
  • Output Overvoltage Clamp
  • Internal Compensation

Texas Instruments  LM3279TLE/NOPB

The LM3279 is a buck-boost DC/DC converter designed to generate output voltages above or below a given input voltage and is particularly suitable for Power Amplifiers operating from single-cell Li-Ion batteries in portable applications.

The LM3279 has four modes of operation: Pulse Width Modulation (PWM), Pulse Frequency Modulation (PFM), standby, and shutdown. During normal conditions, the LM3279 operates in full synchronous PWM mode at 2.4-MHz typical switching frequency, providing seamless transitions between buck and boost operating regimes. Energy-saving PFM mode increases efficiencies and current savings during low-power RF transmission modes. For high-transmit power, the device operates in PWM buck or boost mode, whereas the device can transition between PWM and PFM modes during low-power transmit. The LM3279 can be controlled either via an included MIPI RFFE Digital Control Interface or by using an analog control from an external MCU, offering design flexibility.

The power converter topology enables minimum total solution size by using one small footprint and case size inductor and two surface mount capacitors.

The LM3279 is internally compensated for buck and boost modes of operation thus providing an optimal transient response.