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DC1319B-A Linear Technology BOARD EVAL LED DRIVER LT3756 visit Linear Technology - Now Part of Analog Devices
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DC1160A Linear Technology BOARD EVAL LED DRIVER LT3518 visit Linear Technology - Now Part of Analog Devices
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LTC4358IDE#TRPBF Linear Technology LTC4358 - 5A Ideal Diode; Package: DFN; Pins: 14; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC4358IDE#PBF Linear Technology LTC4358 - 5A Ideal Diode; Package: DFN; Pins: 14; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

T2D DIODE 94

Catalog Datasheet MFG & Type PDF Document Tags

T2D DIODE

Abstract: T2D 83 diode FROM MILLIMETERS. â¡ â¡ G b 4 D ci T2D â  [sO GaAs INFRARED EMITTING DIODE , GaAs INFRARED EMITTING DIODE OPTOELECTRONICS F5F1 PACKAGE DIMENSIONS ES^#RIPTI The F5F1 is a 940nm LED encapsulated in a clear, wide angle, sidelooker package. i t Black Color Code , '" L, 1.40 1.65 ,055 .065 S .83 .94 .033 .037 3 3 PACKAGE OUTLINE , 742 Fui OPTOELECTRONICS GaAs INFRARED EMITTING DIODE F5F1
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marking A4t sot23

Abstract: PH C5V1 Philips Semiconductors Small Signal Transistors and Diodes DIODE TYPE NUMBER TO MARKING CODE TYPE NUMBER MARKING CODE Marking codes TYPE NUMBER PACKAGE MARKING CODE PACKAGE 1N5817 1N5817 SOD81 1N821 1N821 SOD68 (DO34) 1N5818 1N5818 SOD81 1N821A , BZV49-C16 SC-62/SOT89 DIODE MARKING CODE TO TYPE NUMBER MARKING CODE TYPE NUMBER PACKAGE , BZX79-A3V0 SOD27 (DO35) 1999 Jun 11 94 Philips Semiconductors Small Signal Transistors and
Philips Semiconductors
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marking A4t sot23 PH C5V1 T2D 79 diode C18 ph diode T2D DIODE transistor marking codes A4p 1N5819 1N823 1PS59SB10 SC-59/SOT346 1N823A 1PS59SB14

T2D DIODE

Abstract: T2d 86 diode LCLK 71 145 GP0 GP1 GP4 GP5 GP6 GP7 GP8 154 155 137 136 135 134 94 LRST , DIODE + + LEDon# D61 2 2 4 50 49 48 47 46 43 42 41 39 38 37 36 35 34 , RTIP D12 PO300SA 36 4 RJ2 RJ45 RRNG QXFRMR T2D 25 2 TTIP D13 PO300SA 23 , 1 4 5 3 2 TxLev0 TAOS0 REQEN0 LLB0 RLB0 STS1_0 E3_0 DMO0 RLOL0 RLOS0 79 95 94
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T2d 86 diode T3D DIODE T2D 87 diode T2D DIODE 94 T2D DIODE 49 AK9 RJ12 PMEAD30 LED-1206 93CS66 T86VSH328 T86VSH328SCH XRT86VSH328

T2D DIODE 94

Abstract: QE R518 100uF TANT VCCA + C12 GND DIODE D3 VCCD GNDA 1.0uF TANT 100uF TANT 93 94 95 96 97 GND DIODE D5 FB1 167 166 165 164 163 177 176 175 174 173 172 , CIMENA MDC MDIO QCLK QSTAT VCC RED BN1 1 C2 10uF + + BANANA JACK DIODE , % R288 50 1% GND VCC_CT VCC_CT C250 0.01uF GND TG110-S453NX 25 26 23 T2D
Intel
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LXD9781 QE R518 EPC1PC8 T2D DIODE 46 QE r517 SG-8200 crystal j3f TP175 208-P B3F-1002 TP12SDH8AQE IC149-208061-S5

74HC595 SMD

Abstract: smd transistor w18 TANT VCCA + C12 GND DIODE D3 VCCD GNDA D 1.0uF TANT 100uF TANT 93 94 95 96 97 GND DIODE D5 FB1 167 166 165 164 163 177 176 175 174 173 172 , BANANA JACK DIODE D4 GND + GND BANANA JACK 92 RESET MDINT R10 100uF TANT
Intel
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74HC595 SMD smd transistor w18 8 pin SMD ic 2068 QE R519 QE r525 smd 1a2 MM74HC14M 20SOP SN74LVTH244ADWR EPF10K10ATC144-1 U27-34 MM74HC595MX

T2D diode 89

Abstract: T2D 87 diode (Note 6) CLOAD = 3300pF Each Driver 30 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay , 9 POWER LOSS (W) EFFICIENCY (%) 80 94 DCM CCM EFFICIENCY (%) 100 Full Load , Inductors. Voltage swings at the pins are from a Schottky diode (external) voltage drop below ground to VIN , capacitors connect to these pins. These pins swing from a diode voltage drop below INTVCC up to VIN + INTVCC , , which normally recharges during each off cycle through an external diode when the top MOSFET turns off
Linear Technology
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T2D diode 89 diode t2d 88 LTC3870 LTC3880/LTC3883 LTC3880 LTC3883 LTC3880/LTC3880-1 LTC3883/LTC3883-1

T2D diode 89

Abstract: Time (Note 6) CLOAD = 3300pF Each Driver 30 ns BG/TG t2D Bottom Gate Off to Top Gate On , 7 9 POWER LOSS (W) EFFICIENCY (%) 80 94 DCM CCM EFFICIENCY (%) 100 Full , Node Connections to Inductors. Voltage swings at the pins are from a Schottky diode (external , (+) terminal of the bootstrap capacitors connect to these pins. These pins swing from a diode voltage , during each off cycle through an external diode when the top MOSFET turns off. If the input voltage VIN
Linear Technology
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TC3880/LTC3880-1 LTC3882 LTC2974 LTC2977 LTM4676

LTM4609

Abstract: 20SVP150MX 97 4 96 95 3 94 2 93 1 92 EFFICIENCY POWER LOSS VFB 91 2.74k 4609 , to Source Voltage VDS = 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to M1 On Delay , DCM CCM 4609 G01 96 95 94 93 0 1 2 3 4 5 6 7 LOAD CURRENT (A) 8 9 , LOAD CURRENT (A) 7 30VIN to 30VOUT 32VIN to 30VOUT 36VIN to 30VOUT 94 8 93 0 1 , current is required through the EXTVCC switch than is specified, an external Schottky diode can be
Linear Technology
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LTM4609 20SVP150MX diode t3d panasonic 16VOUT T2D 65 DIODE LTM4609V 34VOUT LTC3780 LTC3785 LTM4600 LTM4601/LTM4601A

LTM4607

Abstract: T3D 97 ZENER DIODE + 0.1µF SS SGND SENSEâ'" PGND R2 7mΩ 99 5 98 97 4 96 3 95 94 2 93 , Voltage VDS = 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to M1 On Delay Drain to Source , 0 2 4 6 8 LOAD CURRENT (A) 10 97 EFFICIENCY (%) 98 97 96 95 94 93 92 , ) 95 100 99 80 90 0 2 95 94 93 28VIN to 24VOUT 32VIN to 24VOUT 36VIN to , switch than is specified, an external Schottky diode can be interposed between the EXTVCC and INTVCC
Linear Technology
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LTM4607 T3D 97 ZENER DIODE diode marking code t2d 63 T3D zener DIODE T3D 23 panasonic T2D 98 DIODE LT3825/LT3837 LTM4601/ LTM4601A LTM4601-1 LTM4600HVMP

T3D 97 ZENER DIODE

Abstract: LTM4607 95 94 2 93 92 1 91 VFB 4607 TA01 + VOUT 20V 2.5A POWER LOSS (W) 10µF , Voltage VDS = 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to M1 On Delay Drain to Source , ) EFFICIENCY (%) EFFICIENCY (%) 98 97 96 95 94 93 0 2 4 6 8 LOAD CURRENT (A) 10 90 95 94 92 28VIN to 20VOUT 32VIN to 20VOUT 36VIN to 20VOUT 91 12 97 96 93 , is specified, an external Schottky diode can be interposed between the EXTVCC and INTVCC pins
Linear Technology
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T3D zener panasonic DIODE LTM4602 LTM4603 LTM4603-1 LTM4601 LTM4604A LTM4605

LTM4607V

Abstract: diode t3d panasonic ­ SS SGND PGND + 330F 25V 99 VOUT 20V 2.5A 5 98 97 4 96 3 95 94 , (Note 4) Drain to Source Voltage VDS = 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to , CURRENT (A) 10 EFFICIENCY (%) EFFICIENCY (%) EFFICIENCY (%) 70 98 97 96 95 94 93 , 90 0 2 94 93 28VIN to 24VOUT 32VIN to 24VOUT 36VIN to 24VOUT 90 0 3 2 4 5 , external Schottky diode can be interposed between the EXTVCC and INTVCC pins. Ensure that EXTVCC VIN
Linear Technology
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LTM4607V LTN20069 metal film fused resistor 47 schematic diagram 12v 48v dc buck boost convert LTM4604 LTM4608

diode t3d panasonic

Abstract: LTM4609IV 3 94 2 93 92 91 2.74k 5 97 POWER LOSS (W) 10F 50V FCB ON/OFF 6 99 , to Source Voltage VDS = 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to M1 On Delay , LOAD CURRENT (A) 8 9 96 95 94 93 28VIN to 20VOUT 32VIN to 20VOUT 36VIN to 20VOUT 91 , /DIV 95 30VIN to 30VOUT 32VIN to 30VOUT 36VIN to 30VOUT 94 4609 G05 4609 G04 , the EXTVCC switch than is specified, an external Schottky diode can be interposed between the EXTVCC
Linear Technology
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LTM4609IV 4609 4609BD LTM4609EV LTM4609E LTM4609I LTM4605/LTM4607 LTM4606/LTM4612 LTM4606 CISPR22 LTM4608A

LTM4607V

Abstract: diode t3d panasonic SENSE+ SENSE­ SS SGND PGND 330F 25V 5 98 97 4 96 3 95 94 2 93 R2 , 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to M1 On Delay Drain to Source Voltage , ) EFFICIENCY (%) EFFICIENCY (%) 98 97 96 95 94 93 0 2 4 6 8 LOAD CURRENT (A) 10 95 94 92 28VIN to 20VOUT 32VIN to 20VOUT 36VIN to 20VOUT 91 90 0 12 97 96 93 , the EXTVCC switch than is specified, an external Schottky diode can be interposed between the EXTVCC
Linear Technology
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T2D 37 DIODE LTM4607 part marking Wakefield Engineering LTN20069 141-LEAD VISHAY marking m11 schematic diagram 57v dc regulator

T3D 97 ZENER DIODE

Abstract: diode zener t3d panasonic 25V VOUT = 20V, 2.5A = 200kHz 99 5 98 97 4 96 3 95 94 2 93 92 1 , 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to M1 On Delay Drain to Source Voltage , 95 94 93 0 2 4 6 8 LOAD CURRENT (A) 10 95 94 92 28VIN to 20VOUT 32VIN to , , an external Schottky diode can be interposed between the EXTVCC and INTVCC pins. Ensure that EXTVCC
Linear Technology
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diode zener t3d panasonic T3D 63 ZENER DIODE ZENER DIODE t2d 79 ZENER DIODE T3D 97 diode zener t3d 23 ZENER DIODE t2d 93
Abstract: On-Resistance 1.5 Ω BG, TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time CL , 100 SWITCHING FREQUENCY (kHz) 540 100 98 100 98 30 96 96 20 94 94 , '"1.0 â'"1.2 9.6 â'"1.4 9.4 â'"1.8 20 15 â'"1.6 9.2 25 9.0 â'"50 â , ceramic capacitor. An external Schottky diode from INTVCC to BOOST creates a ï¬'oating charge-pump Linear Technology
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LTC3775 QFN-12 LTC3851A/ LTC3851A-1 MSOP-16E QFN-16

LTM4609V

Abstract: T3D zener DIODE VOUT 30V 2A 98 R2 15m 2 5 97 4 96 95 3 94 2 93 1 92 EFFICIENCY , 12V, Bias Current ISW = 10mA 50 ns t2d M2 Off to M1 On Delay Drain to Source Voltage , 94 93 0 1 2 3 4 5 6 7 LOAD CURRENT (A) 8 9 28VIN to 20VOUT 32VIN to 20VOUT , 30VOUT 32VIN to 30VOUT 36VIN to 30VOUT 94 8 93 0 1 3 2 4 LOAD CURRENT (A) 4609 , , an external Schottky diode can be interposed between the EXTVCC and INTVCC pins. Ensure that EXTVCC
Linear Technology
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ZENER DIODE t2d LTM4609MPV zener t2d T2D zener ZENER DIODE T3D T3D 79 diode

T2D DIODE 94

Abstract: T2D DIODE ) Pull-Down On-Resistance 1.5 BG, TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On , TEMPERATURE (°C) ­25 100 98 100 98 30 96 96 20 94 94 10 92 92 90 ­50 , Temperature ILIMB vs Temperature 36 ­1.0 ­1.2 9.6 ­1.4 9.4 ­1.8 20 15 ­1.6 9.2 , decoupled to SW with a 0.1F low ESR ceramic capacitor. An external Schottky diode from INTVCC to BOOST , through an external diode
Linear Technology
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LTC3850-2 LTC3775E LTC3775EUD LTC3775I LTC3775IUD LTC3775IUD#PBF QFN-52 LTC3610 QFN-64 LTC3611 LTC3824 MSOP-10E

philips diode PH 33D

Abstract: philips diode PH 33J Philips Semiconductors Small Signal Transistors and Diodes DIODE TYPE NUMBER TO MARKING CODE TYPE NUMBER MARKING CODE Marking codes TYPE NUMBER PACKAGE MARKING CODE PACKAGE 1N5817 1N5817 SOD81 1N821 1N821 SOD68 (DO34) 1N5818 1N5818 SOD81 1N821A 1N821A SOD68 (DO34) 1N5819 1N5819 SOD81 1N823 1N823 SOD68 (DO34) 1PS59SB10 10 , BZV49-C16 SC-62/SOT89 DIODE MARKING CODE TO TYPE NUMBER MARKING CODE TYPE NUMBER PACKAGE
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philips diode PH 33D philips diode PH 33J philips diode PH 33m DIODE C18 ph 33G PH DIODE C18 ph 1N825 1PS59SB15 1N825A 1PS59SB16 1N827 1PS59SB20

RJK0301

Abstract: T2D DIODE 94 ) Pull-Down On-Resistance 1.5 BG, TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On , (°C) ­25 100 98 100 98 30 96 96 20 94 94 10 92 92 90 ­50 , Temperature ILIMB vs Temperature 36 ­1.0 ­1.2 9.6 ­1.4 9.4 ­1.8 20 15 ­1.6 9.2 , should be decoupled to SW with a 0.1F low ESR ceramic capacitor. An external Schottky diode from INTVCC
Linear Technology
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RJK0301 DC-1290 sense opt LTC3775EMSE LTC3775IMSE TC3854 SSOP-16 LTC3878/ LTC3879 LTC3850/ LTC3850-1/

T2D 98 DIODE

Abstract: T2D 97 diode 1.2 94 0.8 POWER LOSS 0.4 93 4.99k SENSEâ'" SENSE+ 95 150µF 4.7µF 8.06k , On Delay Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver 30 ns BG/TG t2D , Output Current 100 VOUT = 5V VIN = 6V 98 EFFICIENCY (%) VIN = 24V 94 VIN = 32V 92 90 97 IOUT = 5A 96 95 IOUT = 10A 94 88 86 VOUT = 5V 98 VIN = 12V 96 EFFICIENCY , capacitor is connected between the BOOST and SW pins and an external Schottky diode is tied between the
Linear Technology
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T2D 97 diode LTC3854 LTC3609 LTC3834/ LTC3834-1 TSSOP-16
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