advertisement High Efficiency 4-Switch Buck-Boost Controller Provides Accurate Output Current Limit – Design Note 499 Tage Bjorklund Introduction A 4-switch buck-boost converter (Figure 1) is often a better alternative to a transformer-based topology when a converter’s input voltage can be above or below the regulated output voltage and isolation is not required. A buck-boost converter provides a wider input voltage range, better efficiency and has no need of a bulky transformer. A buck-boost converter is much more efficient than a comparable SEPIC converter. The LTC ®3789 is a buck-boost switching regulator controller that operates in current mode at a constant switching frequency. Current mode control simplifies loop compensation and yields excellent load and line transient response with only small output and input capacitance. Furthermore, an accurate inductor current limit allows use of a small size inductor. The LTC3789 includes two internal series regulators that provide 5.5V for gate drivers and control circuitry. During start-up the current is drawn from VIN (40V maximum rating), but switches to EXTVCC (14V maximum rating) as soon as the voltage on EXTVCC exceeds 4.8V, to decrease power loss. This 4-switch topology allows the output to be disconnected from the input during shutdown. LTC3789 features adjustable soft-start, no reverse current during start-up and 1% output voltage accuracy. A SW2 L SW1 D VOUT VIN CIN B COUT C SENSE+ RSENSE SENSE– LTC3789 Features The internal oscillator can be programmed by a resistor, applied voltage, or phase-locked to an external clock within a 200kHz to 600kHz frequency range. The LTC3789’s wide 4V to 38V (40V maximum) input and output range and seamless, low noise transitions between operating regions is ideal for automotive, telecom and battery-powered systems. Higher input voltage is easily enabled by adding a high voltage gate driver for the input side MOSFETs, for example the LTC4444-5. Figure 1 shows a simplified schematic of a buck-boost converter. The LTC3789 controls four external N-channel MOSFETs (A, B, C, D). The power stage uses one inductor (L), and a current sense resistor (RSENSE) for current mode control and inductor current limit. Figures 2 to 4 show the switch waveforms for buck, buck-boost, and boost modes of operation. The LTC3789 is available in low profile 28-pin 4mm × 5mm QFN and narrow SSOP packages. 12V, 5A Output from a 4V to 38V Input Figure 5 shows a buck-boost regulator that takes a 4V to 38V input and converts it to a fixed 12V. 01/12/499 R1 LTC3789 SENSE+ SENSE– R2 DN499 F01 Figure 1. 4-Switch Buck-Boost Converter Using the LTC3789 5V/DIV 1A/DIV 5V/DIV 1μs/DIV DN499 F02 Figure 2. Buck Mode [VIN = 20V, VOUT = 12V] L, LT, LTC, LTM, Linear Technology, the Linear logo are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners. A power good output pin (PGOOD) indicates when the output is within 10% of its set point. 1A/DIV Accurate Output (or Input) Current Limit The optional output current feedback loop shown in Figure 6 provides support for battery charging and other constant current applications, where an accurate output current limit is essential. The output current limit function provides a constant current characteristic—the output current is limited to a constant level even as the output voltage is pulled down by an overcurrent condition. Alternatively the sense resistor can simply be moved to the input side to accurately control the maximum input current. 5V/DIV 5V/DIV 1μs/DIV DN499 F03 Figure 3. Buck-Boost Mode [VIN = 11V, VOUT = 12V] 1A/DIV RSENSE2 FROM CONTROLLER VOUT RF 100Ω TO SYSTEM VOUT + RF 100Ω CF 5V/DIV 2 IOSENSE+ 5V/DIV 1 IOSENSE– LTC3789 DN499 F06 1μs/DIV Figure 6. Optional Output Current Limit DN499 F04 Figure 4. Boost Mode [VIN = 8V, VOUT = 12V] The MODE/PLLIN pin can be used to select between pulse-skipping mode and forced continuous mode operation, or allows the IC to be synchronized to an external clock. Pulse-skipping mode offers the lowest ripple at light loads, while forced continuous mode operates at a constant frequency for noise-sensitive applications. + Conclusion The LTC3789 is a constant frequency current mode buck-boost switching regulator controller that accepts a wide 4V to 38V input voltage range. The single inductor topology yields high power density and high efficiency in a compact footprint. Its optional current-limit function is useful for applications such as battery charging, where accurate current control is necessary. 1μF CER 4.7μF ILIM INTVCC IOSENSE– PGOOD VIN 22μF 50V CER A VINSNS IOSENSE+ 0.010Ω EXTVCC VOUTSNS D TG2 LTC3789 BOOST1 BOOST2 TG1 0.1μF SW1 B BG1 SS RUN 8k 1000pF 0.01μF SGND C BG2 MODE/PLLIN ON/OFF VFB FREQ SENSE+ SENSE– PGND VOUT 12V 5A 330μF 16V 0.1μF SW2 ITH + 121k 105k 1% 7.5k 1% Efficiency and Power Loss 100 12 95 10 90 8 85 6 80 4 75 0.010Ω 2 VOUT = 12V ILOAD = 5A 0 70 4.7μH 0 DN499 F05a POWER LOSS (W) 2200pF 10μF 16V CER EFFICIENCY (%) VIN 4V TO 38V 5 10 15 20 25 VIN (V) 30 35 40 DN499 F05b Figure 5. Regulated 12V, 5A Output from a 4V to 38V Input and Associated Efficiency and Power Loss Curves Data Sheet Download www.linear.com For applications help, call (408) 432-1900, Ext. 3550 Linear Technology Corporation dn499 LT/TP 0112 196K • PRINTED IN THE USA FAX: (408) 434-0507 ● www.linear.com © LINEAR TECHNOLOGY CORPORATION 2012 1630 McCarthy Blvd., Milpitas, CA 95035-7417 (408) 432-1900 ●