LTC1876EG,LTC1876EG#PBF,LTC1876EG#TRPBF,LTC1876EG#TR, 规格书,Datasheet 资料

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0.1µF
6.3µH M4
BG2
0.01Ω VOUT2 3.3+ SENSE2– VOSENSE2 ITH2 220pF 15k
1000pF
+
56µF 4V SP
63.4k 1% 20k 1%
RUN/SS2 SGND RUN/SS1 0.1µF 0.1µF
10.2k 1%
ELECTRICAL CHARACTERISTICS
SYMBOL VOSENSE1, 2 IVOSENSE1, 2 VREFLNREG VLOADREG PARAMETER Regulated Feedback Voltage Feedback Current Reference Voltage Line Regulation Output Voltage Load Regulation Main Control Loops
3.3V Input Step-Down Converter Notebook and Palmtop Computers, PDAs Battery-Operated Digital Devices
TYPICAL APPLICATIO
VIN 5.2V TO 28V 33µF 35V ALUM
+
10µF 35V CER M3
Figure 1. High Efficiency Triple 5V/3.3V/12V Power Supply
芯天下--/
U
U
10µH VOUT3 12V 200mA
+
6.8µH M2
86.6k, 1% 0.01Ω VOUT1 5V 4A
105k 1% 20k 1% M1, M2, M3, M4: FDS6680A
The q denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TA = 25°C. VIN = 15V, VRUN/SS1, 2 = 5V, AUXVIN = 3V unless otherwise noted.
Input Supply Voltage (VIN)......................... 36V to –0.3V Topside Driver Voltages (BOOST1, BOOST2) ................................... 42V to –0.3V Switch Voltage (SW1, SW2) ......................... 36V to –5V INTVCC, EXTVCC, RUN/SS1, RUN/SS2, PGOOD, (BOOST1-SW1), (BOOST2-SW2), ...............7V to – 0.3V SENSE1+, SENSE2+, SENSE1–, SENSE2 – Voltages ................................... (1.1)INTVCC to – 0.3V FREQSET, STBYMD, FCB, PGOOD Voltages ..................................................7V to – 0.3V ITH1, ITH2, VOSENSE1, VOSENSE2 Voltages ... 2.7V to –0.3V Peak Output Current <10µs (TG1, TG2, BG1, BG2) ... 3A INTVCC Peak Output Current ................................ 50mA AUXVIN .................................................................. 16V to –0.3V AUXSD ..................................................................... 10V AUXSW ..................................................... 36V to –0.3V AUXVFB Voltage ....................................... 2.5V to –0.3V Current into AUXVFB ....................................................... ±1mA Operating Temperature Range (Note 2) ...–40°C to 85°C Junction Temperature (Note 3) ............................. 125°C Storage Temperature Range ..................–65°C to 150°C Lead Temperature (Soldering, 10 sec).................. 300°C
, LTC and LT are registered trademarks of Linear Technology Corporation. Burst Mode and OPTI-LOOP are trademarks of Linear Technology Corporation.
FEATURES
1µF CER 0.1µF
+
INTVCC AUXVIN TG2 BOOST2 SW2 LTC1876 VIN TG1 BOOST1 SW1 BG1 AUXSW PGND PGOOD AUXVFB AUXSD SENSE1+ SENSE1– VOSENSE1 ITH1 220pF 15k
4.7µF 10V M1 10µF 20V
+
47µF 6.3V SP
1876 TA01
1876fa
1
LTC1876
ABSOLUTE
(Note 1)
AXI U RATI GS
U W U PACKAGE/ORDER I FOR ATIO
TOP VIEW RUN/SS1 SENSE1+ SENSE1– VOSENSE1 FREQSET STBYMD FCB ITH1 SGND 1 2 3 4 5 6 7 8 9 36 PGOOD 35 TG1 34 SW1 33 BOOST1 32 VIN 31 BG1 30 EXTVCC 29 INTVCC 28 PGND 27 BG2 26 BOOST2 25 SW2 24 TG2 23 RUN/SS2 22 AUXSD 21 AUXVIN 20 AUXPGND 19 AUXPGND G PACKAGE 36-LEAD PLASTIC SSOP TJMAX = 125°C, θJA = 95°C/W
LTC1876 High Efficiency, 2-Phase, Dual Synchronous Step-Down Switching Controller and Step-Up Regulator DESCRIPTIO
The LTC®1876 is a high performance triple output switching regulator. It incorporates a dual step-down switching controller that drives all N-channel synchronous power MOSFET stages. A step-up regulator with an internal 1A, 36V switch provides the third output. The step-down controllers minimize power loss and noise by operating the output stage of each controller out of phase. OPTI-LOOP compensation allows the transient response to be optimized over a wide range of output capacitance and ESR values. A RUN/SS pin for each controller provides both soft-start and an optional timed, short-circuit shutdown that can be configured to latch off one or both controllers. Current foldback provides additional short-circuit protection. In an overvoltage condition, the bottom MOSFET is latched on until VOUT returns to normal. The FCB pin can be used to inhibit Burst Mode operation or to enable regulation of a secondary output voltage. The step-up regulator operates at 1.2MHz, allowing the use of tiny low cost capacitors and inductors. In addition, its internal 1A switch allows high current outputs to be generated. Its current mode control scheme provides excellent line and load regulation.