PDF LTC3785 Data sheet ( Hoja de datos )

Número de pieza	LTC3785
Descripción	No RSENSE Buck-Boost Controller
Fabricantes	Linear Technology
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FEATURES ■ Single Inductor Architecture Allows VIN Above, Below or Equal to VOUT ■ 2.7V to 10V Input and Output Range ■ Up to 96% Efﬁciency ■ Up to 10A of Output Current ■ All N-Channel MOSFETs, No RSENSE ■ True Output Disconnect During Shutdown ■ Programmable Current Limit and Soft-Start ■ Optional Short-Circuit Shutdown Timer ■ Output Overvoltage and Undervoltage Protection ■ Programmable Frequency: 100kHz to 1MHz ■ Selectable Burst Mode® Operation ■ Available in 24-Lead (4mm × 4mm) Exposed Pad QFN Package U APPLICATIO S ■ Palmtop Computers ■ Handheld Instruments ■ Wireless Modems ■ Cellular Telephones wwwT.DYataPShIeCetA4UL.comAPPLICATIO VOUT VIN VSENSE VCC ISVIN TG1 VBST1 FB SW1 ISSW1 VDRV BG1 LTC3785 VC RT MODE ISVOUT TG2 4.7µF VIN 2.7V TO 10V 22µF 4.7µH VOUT 3.3V 5A VBST2 RUN/SS ILSET SW2 ISSW2 CCM BG2 GND 100µF 3785 TA01a LTC3785 10V, High Efﬁciency, Synchronous, No RSENSETM Buck-Boost Controller DESCRIPTIO The LTC®3785 is a high power synchronous buck-boost controller that drives all N-channel power MOSFETs from input voltages above, below and equal to the output volt- age. With an input range of 2.7V to 10V, the LTC3785 is well suited for a wide variety of single or dual cell Li-Ion or multi-cell alkaline/NiMH applications. The operating frequency can be programmed from 100kHz to 1MHz. The soft-start time and current limit are also programmable. The soft-start capacitor doubles as the fault timer which can program the IC to latch off or recycle after a determined off time. Burst Mode opera- tion is user controlled and can be enabled by driving the MODE pin high. Protection features include foldback current limit, short- circuit and overvoltage protection. , LT, LTC, LTM and Burst Mode are registered trademarks of Linear Technology Corporation. No RSENSE is a trademark of Linear Technology Corporation. All other trademarks are the property of their respective owners. Efﬁciency vs Input Voltage 100 VOUT = 3.3V FOSC = 500kHz 95 ILOAD = 2A ILOAD = 1A 90 85 2.5 4 5.5 7 8.5 10 VIN (V) 3785 TA01b 3785f 1 1 page LTC3785 TYPICAL PERFOR A CE CHARACTERISTICS (TA = 25°C unless otherwise noted) VIN Start-Up Voltage vs Temperature 2.490 2.485 2.480 2.475 2.470 2.465 –50 –25 0 25 50 TEMPERATURE (°C) 75 100 3785 G10 VIN Burst Quiescent Current vs Temperature 100 95 90 85 80 –50 –25 0 25 50 TEMPERATURE (°C) 75 100 3785 G11 OV and UV Thresholds vs Temperature 12 10 8 OV THRESHOLD 6 4 2 0 –2 –4 UV THRESHOLD –6 –8 –50 –25 0 25 50 TEMPERATURE (°C) 75 100 3785 G12 PI FU CTIO S RUN/SS (Pin 1): Run Control and Soft-Start Input. An internal 1µA charges the soft-start capacitor and will charge to approximately 2.5V. During a current limit fault, the soft-start capacitor will incrementally discharge. Once the pin drops below 1.225V the IC will enter fault mode, turning off the outputs for 32 times the soft-start time. If >5µA (at RUN/SS = 1.225V) is applied externally, the part wwww.DialltalaSthcehet4oUff.caofmter a fault is detected. If >40µA (at RUN/SS = 1.225V) is applied externally, current limit faults will not discharge the SS capacitor. VC (Pin 2): Error Amp Output. A frequency compensation network is connected from this pin to the FB pin to com- pensate the loop. See the section “Closing the Feedback Loop” for guidelines. FB (Pin 3): Feedback Pin. Connect resistor divider tap here. The feedback reference voltage is typically 1.225V The output voltage can be adjusted from 2.7V to 10V ac- cording to the following formula: VOUT = 1.225V • R1+ R2 R2 VSENSE (Pin 4): Overvoltage and Undervoltage Sense. The overvoltage threshold is internally set 10% above the regulated FB voltage and the undervoltage threshold is internally set 6.5% below the FB regulated voltage. This pin can be tied to FB but to optimize the response time it is recommended that a voltage divider from VOUT be ap- plied. The divider can be skewed from the feedback value to achieve the desired UV or OV threshold. ILSET (Pin 5): Current Limit Set. A resistor from this pin to ground sets the current limit threshold from the ISVIN and ISSW1 pins. CCM (Pin 6): Continuous Conduction Mode Control Pin. When set low, the inductor current is allowed to go slightly negative (–15mV referenced to the ISVOUT – ISSW2 pins). When driven high, the reverse current limit is set to the simi- lar value of the forward current limit set by the ILSET pin. RT (Pin 7): Oscillator Programming Pin. A resistor from this pin to GND sets the free-running frequency of the IC. fOSC ≅ 2.5e10/RT. 3785f 5 5 Page U OPERATIO the discharge current depends on how much the current exceeds the programmed threshold. Figure 3 is a simpli- ﬁed diagram of the current sense and fault circuitry. If the current limit fault duration is long enough to discharge the RUN/SS capacitor below 1.225V, the fault latch is set and will cycle the RUN/SS capacitor 16 times (1µA charging and 1µA discharging of the RUN/SS capacitor) to create an off time of 32 times the soft-start time before the outputs are allowed to switch to restart the output voltage. If the current limit fault level exceeds 150% of the programmed ILIMIT level at any time, the IMAX comparator is tripped and output switches B and D are turned on to discharge the inductor current for the remainder of the cycle. To have the power converter latch-off on a fault, a pull-up current between 4µA and 7µA on the RUN/SS pin will allow the RUN/SS capacitor to discharge during an extended fault, but will prevent cycling of the fault which will cause the converter to stay off. One method to implement this is by placing a diode (anode tied to VOUT) and a resistor from VOUT to the RUN/SS pin. The current sourced into RUN/SS will be LTC3785 VOUT – 0.7 divided by the resistor value. To ignore all faults source greater than 40µA into the RUN/SS pin (At 1.225V on the RUN/SS pin). Since the maximum fault current is limited, this will prevent any discharging of the RUN/SS capacitor, the soft-start capacitor will need to be sized accordingly to accommodate the extra charging current at start-up. During an output short-circuit or if VOUT is less than 1.8V, the current limit folds back to 50% of the programmed level. REVERSE CURRENT LIMIT The LTC3785 can be programmed to provide full class D operation or allowed to source and sink current equal to the current limit set value. This is achieved by asserting a high level on the CCM pin. To minimize the reverse output current, the CCM pin should be driven low or strapped to ground. During this mode only, –15mV typical is allowed across output switch D and is sensed with the ISVOUT and ISSW2 pins. THERMAL SD 1.225V www.DataSheet4U.com 0.7V + – – + S FAULT S LOGIC RUN ILIMIT COMP gm = 1/20k + gm– V = 60k/RILSET (15k/RILSET WHEN VOUT < 1.8V) ISVIN 22 TG1 20 RUN/SS 1 CSS 2.2V 1µA 2µA 1/3 • ILIM(OUT) 10µA MAX VOUT 1 R1 FB 3 CP1 VC 2 R2 ILIM(OUT) 30µA MAX 1.225V + ERROR AMP – ILSET 6 RILSET ILIMIT SET ILIM COMP IMAX COMP IMAX COMP TURN SWITCHES B AND D ON + – V = 90k/RILSET SW1 19 + X10 – ISSW1 SAMPLED 18 BG1 17 CCM = HIGH = 6k/RILSET CCM = LOW = 15mV CCM 6 SWITCH D OFF REVERSE CURRENT LIMIT –+ ISVOUT 10 TG2 12 SW2 13 SAMPLED ISSW2 14 BG2 15 VIN A B L1 VOUT D COUT C 3785 F03 Figure 3. Block Diagram of Current Limit Fault Circuitry 3785f 11 11 Page

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