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LTC1629 Datasheet

Part Manufacturer Description PDF Type
LTC1629 Linear Technology Original
LTC1629 Linear Technology Low Cost Surface Mount DC-DC Converter Delivers 100A Original
LTC1629 Linear Technology Low Cost, High Efficiency 30A Low Profile PolyPhase Converter Original
LTC1629 Linear Technology PolyPhase, High Efficiency,Synchronous Step-DownSwitching Regulator Original
LTC1629-6 Linear Technology PolyPhase, Synchronous Step-Down Switching Regulator Original
LTC1629C Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulators Original
LTC1629CG Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator Original
LTC1629CG#PBF Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: 0°C to +70°C Original
LTC1629CG#TR Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: 0°C to +70°C Original
LTC1629CG#TRPBF Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: 0°C to +70°C Original
LTC1629CG-PG Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator Original
LTC1629CG-PG#PBF Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: 0°C to +70°C Original
LTC1629CG-PG#TR Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: 0°C to +70°C Original
LTC1629CG-PG#TRPBF Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: 0°C to +70°C Original
LTC1629C-PG Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulators Original
LTC1629EG-6 Linear Technology PolyPhase, Synchronous Step-Down Switching Regulator Original
LTC1629EG-6#PBF Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: -40°C to +125°C Original
LTC1629EG-6#TR Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: -40°C to +125°C Original
LTC1629EG-6#TRPBF Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulator; Package: SSOP; No of Pins: 28; Temperature Range: -40°C to +125°C Original
LTC1629I Linear Technology PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulators Original
Showing first 20 results.

LTC1629

Catalog Datasheet MFG & Type PDF Document Tags

16SV220M

Abstract: Si4420 ()*+,-./'01 !"#$ LTC1629 !"#$%&'( !6 !"#$%&'( )* 12V ! 3.3V !"#$% 100A !" ! 90% !"#$%&'(' , 12VIN SECTION 1 (MASTER UNIT) U1 LTC1629 SGND 3.3VOUT+ CLOCK 1 VSENSE+ 60° 0° BUCK , LTC1629 1 !"#$%&'()*+,-.(/#01 !"#$%&'() *+,&-. /( =LT !"#$%&'( !"#$%& BUCK: 3.3V/17A 300 , !"#$%&' &'
Linear Technology
Original
16SV220M Si4420 T510X477M006AS cytec BAT54A MBRS340T3 DN215

COMPARATOR Hysteresis voltage detector

Abstract: p-channel mosfet m21 LTC1629IG LTC1629CG-PG LTC1629IG-PG 24 VIN PLLIN 6 23 BG1 PHASMD 7 22 EXTVCC ITH , replaces the AMPMD control pin of the LTC1629. APPLICATIO S s The LTC®1629/LTC1629-PG are multiple , LTC1629/LTC1629-PG PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulators U , Phase Step-Down Converter 1 LTC1629/LTC1629-PG W U U W W W AXI U RATI GS U , . 50mA Operating Ambient Temperature Range LTC1629C/LTC1629C-PG . 0°C to
Linear Technology
Original
COMPARATOR Hysteresis voltage detector p-channel mosfet m21 1629 IRF7809 IRF7811 T510E108K004AS LTC1629/LTC1629-PG LTC1530 LTC1628/LTC1628-PG LTC1702/LTC1703 LTC1708-PG LTC1709
Abstract: LTC1629CG LTC1629IG LTC1629CG-PG LTC1629IG-PG 24 VIN PLLIN 6 23 BG1 PHASMD 7 22 , replaces the AMPMD control pin of the LTC1629. APPLICATIO S s The LTC®1629/LTC1629-PG are multiple , LTC1629/LTC1629-PG PolyPhase, High Efficiency, Synchronous Step-Down Switching Regulators U , TA01 Figure 1. High Current Dual Phase Step-Down Converter 1 LTC1629/LTC1629-PG W U U , . 50mA Operating Ambient Temperature Range LTC1629C/LTC1629C-PG . 0°C to Linear Technology
Original
LTC1735 LTC1736 LTC1929

Si4420 siliconix

Abstract: AN-779 current-sharing. When several LTC1629-based regulators are in parallel, the LTC1629 of the master regulator , provides guidelines for selecting the phase number and designing a PolyPhase converter using the LTC1629. , . Table 2 shows the phase function table of the LTC1629. By applying the command signal (INTVCC, open or , -phase configurations using the LTC1629. PHASMD 0V OPEN INTVCC PLLIN 0° 0° 0° CONTROLLER 1 , regulation. This control voltage is then fed to the EAIN pins (error amplifier input) of each LTC1629.
Linear Technology
Original
Si4420 siliconix AN-779 2DLF IC for 2Channel to 5.1 converter circuit diagram Siliconix AN77-3 an77f AN77-15 AN77-16

T2D DIODE 46

Abstract: fet alternator regulator circuit LTC1629-6 PolyPhase, Synchronous Step-Down Switching Regulator DESCRIPTIO U FEATURES s , values. The LTC1629-6 includes a power good output pin that indicates when the output voltage is inside , TYPICAL APPLICATIO 10 10µF ×6 35V CERAMIC 0.1µF S LTC1629-6 VIN TG1 0.1µF PGND , 16296f 1 LTC1629-6 W U U W W W AXI U RATI GS U ABSOLUTE PACKAGE/ORDER I , . 50mA Operating Ambient Temperature Range LTC1629EG-6 (Note 6) . ­ 40
Linear Technology
Original
T2D DIODE 46 fet alternator regulator circuit LTC1435/LTC1435 T2D DIODE Si7440DP Si7840DP

LTC1629

Abstract: LTC1629C BOOST1 PLLFLTR 5 LTC1629CG LTC1629IG 24 VIN PLLIN 6 23 BG1 PHASMD 7 22 , following formulas: LTC1629CG: TJ = TA + (PD · 95°C/W) Note 3: The LTC1629 is tested in a feedback loop , supply pin. The INTVCC regulator powers the drivers and internal circuitry of the LTC1629. The INTVCC , VIN supply is not present, a diode can be placed in series with the LTC1629's VIN pin and a Schottky , Final Electrical Specifications LTC1629 PolyPhase, High Efficiency, Synchronous Step-Down
Linear Technology
Original
LTC1538-AUX LTC1539 LTC1435/LTC1435A LTC1436A-PLL LTC1430 LTC1628
Abstract: LTC1629-6 PolyPhase, Synchronous Step-Down Switching Regulator DESCRIPTIO U FEATURES s , capacitance and ESR values. The LTC1629-6 includes a power good output pin that indicates when the output , TYPICAL APPLICATIO 10â"¦ 10µF ×6 35V CERAMIC 0.1µF S LTC1629-6 VIN TG1 0.1µF , 1629 TA01 16296f 1 LTC1629-6 W U U W W W AXI U RATI GS U ABSOLUTE , Current . 50mA Operating Ambient Temperature Range LTC1629EG-6 (Note 6 Linear Technology
Original

dc to dc buck converter 200A

Abstract: 16SV220M circuit power loss) at close to 90% throughout most of the load range. Conclusion The LTC1629-based , implement because of complex timing and current sharing requirements. The introduction of the LTC1629 solves all of these problems. The advanced features of the LTC1629 include a differential 12VIN SECTION 1 (MASTER UNIT) U1 LTC1629 SGND 3.3VOUT­ PHASMD TG1 VSENSE 60° + TG2 0° BUCK: 3.3V/17A VSENSE­ EAIN CLKOUT BUCK: 3.3V/17A 180° ITH Design Details Each LTC1629 is capable of
Linear Technology
Original
dc to dc buck converter 200A LTC1629- 1-800-4-LINEAR

schematic diagram PWM 12V 30a

Abstract: schematic diagram PWM 30a Technology Corporation. PolyPhase is a trademark of Linear Technology Corporation. Each LTC1629-based , current sharing among the paralleled power stages. When multiple LTC1629-based regulators are used in , voltage to the other slave LTC1629s for voltage regulation. The gm error amplifier inside each LTC1629 , LTC1629-based PolyPhase high current converter can achieve high efficiency, small size and low profile , buck sections work in parallel to deliver a single high current output. Overview of the LTC1629 The
Linear Technology
Original
DN211 schematic diagram PWM 12V 30a schematic diagram PWM 30a circuit diagram single phase voltage regulator power supply 12v 30a schematic 12v 30a pwm diagram high current mosfet

amd athlon PIN LAYOUT

Abstract: amd athlon PIN LAYOUT voltage ground LTC1629 TG1 SW1 BG1 PGND VIN SGND EAIN TG2 SW2 UP TO SIX LTC1629s CAN BE PARALLELED , , respectively, with the EAIN, VDIFFOUT, INTVCC, and SGND pins of the LTC1629. The result of this application is , -82 programs the following Linear Technology DC/DC converter products: LTC1622, LTC1628, LTC1629, LTC1702 , INTVCC VID0 VCC VID1 FROM µP LTC1629 SENSE VID2 LTC1706-82 VID3 VID4 L1 RSENSE1 , directly to regulator output sense node or VDIFFOUT when used with the LTC1629 and LTC1929. VID1 (Pin 2
Linear Technology
Original
MSOP-10 LTC1735-1 LTC1772 amd athlon PIN LAYOUT amd athlon PIN LAYOUT voltage ground marking ms10 LTC1706-81 GN-24

5V-20A

Abstract: example schematic diagram power supply 12v addition, the LTC1629's differential amplifier enables true remote sensing to ensure accurate voltage , . By combining the LTC1628-SYNC with the LTC1629, a true 3-phase circuit can be achieved for the 60A , 7 PolyPhase (LTC1629 + LTC1628-SYNC) 10.2 3 Phases , LTC and LT are registered , 240° BUCK: 1.5V/20A I2 VOUT1 1.5V/60A I1 LTC1629 I2 I3 U2 TG1 PLLIN TG2 120 , 1µF 10 1µF LTC1629 0.1µF 1 RUN/SS CLKOUT 2 3 10k 0.01µF SENSE1+ ­
Linear Technology
Original
5V-20A example schematic diagram power supply 12v 16SP270M FDS7760A SSOP-28 1628-SYNC LTC1628-S EP125-1R5-MC-H DN249 5/15A

power supply 12v 30a schematic

Abstract: 74HC125 outputs, multiphase operation is usually preferred. The LTC1629 should then be used because its PHASMD , output design can be found in the LTC1629 data sheet and Design Note 215. Figure 4 shows an example of a 2-output power supply using LTC1629 and LTC1929. While each output sees a 2-phase ripple current , LTC1629 VIN OPEN TG2 180° PHASMD BG2 TG1 90° 0° 2-CHANNEL BUCK 2.5VOUT /30A 2 , multiple LTC1929s or LTC1629s, multiphase operation can be configured for either single output high
Linear Technology
Original
LTC1929-PG 74HC125 25Q2 ic 74hc125 information FDS6670A MBRS320T3 1929/LTC1929-PG DN234

LTC1628

Abstract: LTC1706 Controller Constant Freq, Standby, 5V and 3.3V LDOs, 3.5V VIN 36V LTC1629/LTC1629-PG PolyPhase® High , SGND pins of the LTC1629. The result of this application is a precisely controlled, multiphase , DC/DC converters: LTC1628, LTC1629, LTC1702, LTC1735, LTC1735-1, LTC1929 and LTC3729. U , (Simplified Block Diagram) VIN 4.5V TO 22V VIN TG1 INTVCC VID0 VCC VID1 FROM µP LTC1629 , RSENSE4 SW2 GND BG2 VIN 4.5V TO 22V VIN LTC1629 TG1 SW1 BG1 PGND VIN SGND EAIN
Linear Technology
Original
LTC3732 LTC1706 m9 6pin LTC1709/LTC1709-8 LTC1929/LTC1929-PG

LTC1706

Abstract: LT1709 NUMBER LTC1622 LTC1628/LTC1628-PG LTC1629/LTC1629-PG LTC1702/LTC1703 LTC1706-81/LTC1706-82 LTC1709 , VDIFFOUT when used with the LTC1929 or LTC1629. VID0 (Pin 2): Programming Input. GND = LOW, VCC or , compatible regulator or the EAIN pin of the LTC1929 or LTC1629. VCC (Pin 5): Power Supply Voltage. May , converter products: LTC1622, LTC1628, LTC1629, LTC1702, LTC1735, LTC1735-1, LTC1772, LTC1773, LTC1778 , Block Diagram) VIN 4.5V TO 22V VOS+ VOS­ INTVCC VID25 FROM µP LTC1629 SENSE VID1
Linear Technology
Original
LTC1706-85 LT1709 CMDSH-3TR LTC3728

amd athlon II PIN LAYOUT voltage ground

Abstract: amd athlon PIN LAYOUT voltage ground 1999 following Linear Technology DC/DC converter products: LTC1622, LTC1628, LTC1629, LTC1702, LTC1735, LTC1735 , Current 4-Phase Application (Simplified Block Diagram) VIN 4.5V TO 22V VIN LTC1629 VID0 FROM µP , RSENSE2 L3 RSENSE3 L4 RSENSE4 SW2 GND BG2 VIN 4.5V TO 22V VIN LTC1629 TG1 SW1 , ): Regulator Output Voltage. Connect directly to regulator output sense node or, when used with the LTC1629 , compatible regulator or the EAIN pin of the LTC1629 and LTC1929. ABSOLUTE MAX (V) MIN MAX NAME
Linear Technology
Original
amd athlon II PIN LAYOUT voltage ground amd athlon PIN LAYOUT voltage ground 1999

B340A

Abstract: EEFUEOD271R supply applications. In high current DDR supply applications, two of the versatile LTC1629 PolyPhase , EXTVCC ITH INTVCC LTC1629 SGND PGND VDIFFOUT BG2 VOS ­ BOOST2 + SW2 , IRF7811W ×2 L1, L2: SUMIDA CEP125-1R0MC-H (847) 956-0667 Figure 5. 2-Phase 30A LTC1629 VTT power supply with 5V­14V input example using LTC1629, a PolyPhase current mode synchronous buck controller. By tying AMPMD pin of the LTC1629 to INTVCC, we can convert the internal differential amplifier
Linear Technology
Original
LTC3718 LTC3717 LTC3831 B340A EEFUEOD271R schematic diagram converter 12v to 24v 30a 5V24V sanyo 2.5V 270uF 16SP270M T 250KH

LTC1706

Abstract: LTYQ NUMBER LTC1622 LTC1628/LTC1628-PG LTC1629/LTC1629-PG LTC1702/LTC1703 LTC1706-81/LTC1706-82 LTC1709 , . Connect directly to regulator output sense node or VDIFFOUT when used with the LTC1929 or LTC1629. , LTC1629. VCC (Pin 5): Power Supply Voltage. May range from 2.7V to 5.5V. W BLOCK DIAGRA VCC , -85 programs the following Linear Technology DC/DC converter products: LTC1622, LTC1628, LTC1629, LTC1702 , Block Diagram) VIN 4.5V TO 22V VOS+ VOS­ INTVCC VID25 FROM µP LTC1629 SENSE VID1
Linear Technology
Original
LTYQ

2N3904 C28

Abstract: 74HC125 ) !"#$%&'() !"#$ !" #$% &'()*+,-. / LTC1629 !" PHASMD CLKOUT !"#$%&'()*+,-./0123 !"# LTC1629 ! (data sheet) 215 (Design Note 215) 4 !"=LTC1629 LTC1929 !"#$%& '()*+,!"#$%&'()*+, -./!" 4 !"#$%& !'()*" 12VIN LTC1629 ! VIN OPEN LTC1929 !"#$%& (foldback current limit) !"# $%&'()*+,"# -. , LTC1929-PG !"#$%&'()* +,! !"#$%&'()*+=LTC1929 =LTC1629 !"#$ (>40A) !" #$%&!' !"#$%&'()*+,-./012 2 1 5
Linear Technology
Original
16SP27OM 2N3904 C28 1112R6 CEPH149-IR6MC 2N3904
Abstract: converter products: LTC1622, LTC1628, LTC1629, LTC1702, LTC1735, LTC1735-1, LTC1772 and LTC1929. (Consult , (Simplified Block Diagram) VIN 4.5V TO 22V VIN LTC1629 VID0 FROM µP INTVCC SENSE VID2 LTC1706 , RSENSE4 SW2 GND BG2 VIN 4.5V TO 22V VIN LTC1629 TG1 SW1 BG1 PGND VIN SGND EAIN , regulator output sense node or, when used with the LTC1629 and LTC1929 to VDIFFOUT. VID4 (Pin 7): High-Low , ): Feedback Input. Connect to the 0.8V feedback pin of a compatible regulator or the EAIN pin of the LTC1629 Linear Technology
Original

T2D 77 zener diode

Abstract: Ambient Temperature Range to 85°C , P LLIN | j[ PHASM D \ T m E X T V cc DC E LTC1629CG LTC1629IG 23] BG1 , in supply pin. The INTVqq regulator powers the drivers and internal circuitry of the LTC1629. The , the EXTVcc Pin when the Vin supply is not present, a diode can be placed in series with the LTC1629â' , 40k resistors around the op amp to create a LTC1629CG: Tj = TA + (PD â'¢ 95°C/W) Note 3: The
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OCR Scan
T2D 77 zener diode 0PTI-L00P L17TP

ALT1118

Abstract: 5248B S VIN LTC1629 TG1 ITH S SGND M3 TG2 S BOOST2 SW2 16k VDIFFOUT S , CERAMIC 0.1µF S + The LTC1629 and LTC1929 are high power true current mode DC/DC controllers , , the LTC1629 can be configured to supply load currents up to 200A with inherent current sharing , designs that require very little PC board space. Unlike traditional switching regulators, the LTC1629 , LTC1629/LTC1929 from page 3 improving transient response while operating each channel at an optimum
Linear Technology
Original
LT1641 LT1763 LT1762 ALT1118 5248B LT1762-5 TAJC476M016 LT1762-3 LTC1663 10-BIT
Showing first 20 results.