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DC1319B-A Linear Technology BOARD EVAL LED DRIVER LT3756 visit Linear Technology - Now Part of Analog Devices
DC1205A Linear Technology BOARD EVAL LED DRIVER LT3592 visit Linear Technology - Now Part of Analog Devices
DC1160A Linear Technology BOARD EVAL LED DRIVER LT3518 visit Linear Technology - Now Part of Analog Devices
DC1319A-B Linear Technology BOARD EVAL LED DRIVER LT3756-1 visit Linear Technology - Now Part of Analog Devices
LTC4358CDE#PBF Linear Technology LTC4358 - 5A Ideal Diode; Package: DFN; Pins: 14; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
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

T2D DIODE 41

Catalog Datasheet MFG & Type PDF Document Tags

T2D DIODE 46

Abstract: T2D DIODE 48 drive compatible with FCT and F logic â'¢ FCT-C speed at 4.1 ns max. (Com'l) FCT-A speed at 4.8 ns max , Diode Voltage Vrr=Min. I[N=-1« mA -0.7 -1.2 V Ii Input 1IIOH Current V{ ('=Maxâ'ž V!N=V{'( 5 H-A , -Trip 4- tpill 'Pill. Propagation Delay Data to Input 1.5 4.6 1.5 4.1 »"1 'fil! y1 y â -"liPÌifi , ( â'¢Y74KC,r240TQC; Q5 20-Lead (150-Mil) QSOP Qil ( 'YSdRf T2d(ITn\/TR ni, mi. , -Mil) QSOP Commercial CY74FCT244DTSOC S5 20-Lead (300-Mii) Molded SOIC 4.1 ( Y74FCT244CTPC P5 20-Lead (300
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T2D DIODE 46 T2D DIODE 48 T2D 78 T2D DIODE 41 T2d 43 diode T2D 41 DIODE CY54/74FCT240T CY54/74FCT244T FCT240T FCT244T Y54FC T240ATLMB

T2D 24 DIODE

Abstract: T2d 43 diode A1 DAC Address Bit 1 41 XFER Transfer: Updates all DACâ'™s 42 WR2 Write 2: Gates , utput D Current Output D 31 32 l0U T2D 30 31 CS Chip Select Current Output D , should be protected by Schottky diode clamps (H P5082-2835) from input pin to the supplies. A ll inputs
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T2D 24 DIODE MP7680 P7680 QDQ741Q

T2D 87 diode

Abstract: T2D 49 DIODE ) mJ dv/dt Peak Diode Recovery dv/dt ® 55 (See Fig. 30) V/ns Tj t STG Operating , - pF V q s - OV, VDS - 25V f = 1.0 MHz See Fig. 22 Source-Drain Diode Ratings and Characteristics © Parameter Min. Typ. Max. â s Continuous Source Current (Body Diode) â'" â'" 14 'SM Pulse Source Current (Body Diode) ® â'" â'" 56 Units A Test , f â'"; VSD Diode Forward Voltage â'" â'" 1.8 V â'¢rr Reverse Recovery Time
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T2D 87 diode T2D 49 DIODE Rectifier t2d IRHM7130 IRHM8130 1X106 4A55452 IRHM7130D IRHM7130U

T2d DIODE

Abstract: T2D DIODE 48 85 92 103 117 124 131 137 144 158 170 177 183 190 197 D2 DIODE PWRJACK J17 4 , 34 36 41 43 45 47 49 19 20 18 30 29 VCCi VCCi VCCi VCCi VCCi VCCi VCCi VCCi , QXFRMR T2D 25 2 D13 PO300SA 23 22 1 5 D14 PO300SA 21 4 QXFRMR T2C 30 2 , GND GND GND GND GND GND GND 40 41 3 4 9 14 11 10 17 20 1 39 42 Vcc3v3 , AVdd AVdd 41 42 R51 3 6 12 15 C183 0.1uF 10 45 32 C185 0.1uF T8
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T2d DIODE T2D 66 diode T2d 86 diode T2D DIODE 49 T2D 83 DIODE T2D 84 diode 384MH PTH08080W LED-1206 XCF02S XRT86SH221 T86SH

T2D 96 diode

Abstract: SAA7350GP 40 test 2; this pin should be left open-circuit TEST3 41 test 3; this pin should be left , input diode current - +20 mA V0 DC output voltage -0.5 +6.5 V lo DC output source or sink current - , . November 1991 672 â  711Dfl2b DDfiOfilB T2D This Material Copyrighted By Its Respective Manufacturer
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SAA7350 TDA1547 SAA7350GP T2D 96 diode philips saa7350gp T2D 98 DIODE T2D 65 DIODE SQT205AG D0007T 2896MH

T2D 44 diode

Abstract: T2D DIODE 42 bunc lOUT2C !o UT2D !o u t i d r fbd v refd NC !0U T2D !o u t i d r fbd V refd AGND DGND , Supply Digital Power Supply Select Input Format (8/4 or 12 bits in) DAC Address Bit 0 37 38 39 40 41 42 , Schottky diode clamps (HP5082-2835) from input pin to the supplies. A ll inputs have protection diodes
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T2D 44 diode T2D DIODE 42 T2D DIODE 44 T2D 37 DIODE T2d 03 diode T2D DIODE 43 TTL75 MP7680JN MP7680KN MP7680JE MP7680KE 3422L

T2D DIODE 46

Abstract: T2D DIODE 48 Clk19M 2 77 D2 DIODE Vcc3v3 LIUClkIn R13 10 3 M0 M1 M2 19 20 18 AIN0 AIN1 31 34 36 41 43 45 47 49 VCC VCC VCC R9 2 1 RP6 10 P0.6 P0.7 VCCi , QXFRMR T1A 40 2 D11 PO300SA 38 37 1 5 D12 PO300SA 36 4 QXFRMR T2D 25 2 , Def0 13 14 GND GND GND GND GND GND GND 40 41 39 42 3 4 Vcc3v3 RP9 3 4 , T 11 RRNG18 AVdd DVdd DVdd AVdd AVdd AVdd 41 42 R51 11 C183 0.1uF 10
Exar
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T2D 82 diode T3D 54 DIODE t3d diode T2D DIODE 81 T2D 79 diode T3D 98 diode XRT86SH221ES XRT75VL00

T2D DIODE

Abstract: T2d 86 diode 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 , TxDS3Clk RxIP RxIN GND GND GND GND GND GND GND TxPClk C209 0.47uF 3 4 40 41 , JAAVdd JAAVdd Vcc3v3 C186 0.1uF 0.1uF 6 20 86 41 C202 Vcc3v3 C185 A A
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T2D DIODE 94 AK9 RJ12 C1959 transistor ad149 T8046 T30L PMEAD30 93CS66 T86VSH328 T86VSH328SCH XRT86VSH328

MMBD2103

Abstract: ZENER DIODE t2d coloured letter (usually on extremely small diode packages). Colour, if significant, is shown in small type , from the type of device. For example, a voltage specified for a rectifier diode is usually the maximum PIV (peak inverse voltage) of the diode, but for a zener diode the operating (zener voltage) will be , output p-channel fet (any type) pin diode package pnp bipolar transistor protection, protected (as in , SOT323 Leaded Equivalent/Data Npn RF fT 7GHz PAD-5 5pA leakage diode pnp dtr 4k7+4k7 pnp dtr 4k7+4k7 DC
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MMBD2103 ZENER DIODE t2d MMBD2101 MMBD2102 MMBD2104 SMD codes BC846A FMMT3904 BZV49 BZV55 BAS32 BAS45

SMD Codes

Abstract: TRANSISTOR SMD T1P coloured letter (usually on extremely small diode packages). Colour, if significant, is shown in small type , from the type of device. For example, a voltage specified for a rectifier diode is usually the maximum PIV (peak inverse voltage) of the diode, but for a zener diode the operating (zener voltage) will be , output p-channel fet (any type) pin diode package pnp bipolar transistor protection, protected (as in , SC70 SC59 SOT89 EMT3 SC70 SC59 Leaded Equivalent/Data Npn RF fT 7GHz PAD-5 5pA leakage diode pnp dtr
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TRANSISTOR SMD T1P BAW92 schottky diode s6 81A smd transistor A6a a4s smd transistor Transistor SMD a7s BAV105 LL4148 LL4448 BB241 BB249 LL914

MMBD2104

Abstract: Transistor NEC 05F have a single coloured letter (usually on extremely small diode packages). Colour, if significant, is , for a rectifier diode is usually the maximum PIV (peak inverse voltage) of the diode, but for a zener diode the operating (zener voltage) will be given. Normally, where a voltage, current or power is , pinouts, abbreviations, diode colour codes, resistor and capacitor codes are also available from the main , leakage diode pnp 4k7+4k7 bias res pnp 4k7+4k7 bias res DC-8GHz MMIC amp 12dB gain PAD-10 10pA leakage
SMD Code Book
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Transistor NEC 05F hp2835 diode what is the equivalent of ZTX 458 transistor T2D DIODE 3w NDS358N mmbf4932 LL4150 BB219 LL300 BA682 BA683 BA423L

T2D DIODE 94

Abstract: QE R518 .11 4.1 4.2 4.3 4.4 4.5 4.6 5.0 LEDs , LXD9781 PQFP Demo Board 4.0 Optional Configurations 4.1 Global Operating Configurations , CIMENA MDC MDIO QCLK QSTAT VCC RED BN1 1 C2 10uF + + BANANA JACK DIODE , 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
Intel
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QE R518 EPC1PC8 QE r517 SG-8200 crystal j3f qe r524 TP175 208-P B3F-1002 TP12SDH8AQE TG110-S453NX IC149-208061-S5

zener diode T2D 74

Abstract: ZENER DIODE t2d 70 VRUN/SS1, VRUN/SS2 Rising 1.0 1.5 1.9 4.1 4.5 V 2 4 µA VRUN/SS1, 2 ON RUN , ns q 62 BG/TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time CLOAD , 25°C 25 TA = 100°C 20 15 10 0 ­50 4.4 4.3 4.2 4.1 VIN = 3.3V 4.0 ­25 0 , these pins are from ground to (VOUT + voltage across Shottky diode). Minimize trace area at these pins , diode (external) voltage drop below ground to VIN. BOOST1, BOOST2 (Pins 33, 26): Bootstrapped Supplies
Linear Technology
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LTC1876 zener diode T2D 74 ZENER DIODE t2d 70 a1876 FDS6680A LTC1876EG LT1511 LTC1538-AUX LTC1625/LTC1775 GN-16 LTC1628/LTC1628-PG

DIODE C136

Abstract: smd diode R616 .12 4.1 4.2 4.3 4.4 4.5 4.6 5.0 Global Operating Configurations , Conversion 4.0 Optional Configurations 4.1 Global Operating Configurations Switches S5 and S8 , 100uF GND VCCA LXT9785_SS_SMII_DEMO B VCC 1.0uF + C10 1.0uF 100uF DIODE , D4 DIODE GND DIODE D3 VCC_EXT VCC + .001uF C17 Ferrite Bead FB1 C , 34 35 36 37 38 40 41 42 50 1% 44 45 46 47 48 49 50 1% 50 50 1% 51 50 1% 50 1% 50
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DIODE C136 smd diode R616 smd diode R622 smd diode R648 smd diode d136 T2D 21 LXD9785 1/10W ERJ-6ENF30R1V TP12SH8AQE H1164 TP62-71

smd diode OE R612

Abstract: smd diode u1j .12 4.1 4.2 4.3 4.4 4.5 5.0 Global Operating Configurations , LXD9785 - PQFP Demo Board with FPGA for SMII-to-MII Conversion 4.0 Optional Configurations 4.1 , D94 VCCA VCC + C10 1.0uF + C9 C8 GND 1.0uF 100uF DIODE + C137 + C138 , 127 134 148 GND DIODE D3 DIODE D4 VCC_EXT VCC FB1 + .001uF C17 Ferrite , TXEN_P0 TXD0_P0 TXD1_P0 TXD2_P0 TXD3_P0 COL_P0 CRS_P0 U30A 34 35 36 37 38 40 41 42 50
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smd diode OE R612 smd diode u1j R645 ss smii CAP 103 2KV diode U1J ERJ6GEY0R00V IC149-208-061S5 MM74HC14M U14-29 SN74LVC244AD EP20K100QC20

LTC3853UJ

Abstract: C3853 SNSN1 4 27 SW2 SNSP2 5 26 TG2 41 SNSN2 6 25 BOOST2 SNSP3 7 24 VIN SNSN3 8 , °C, JA = 33°C/W EXPOSED PAD (PIN 41) IS PGND, MUST BE SOLDERED TO PCB ORDER INFORMATION LEAD FREE , Shutdown (Note 5) VIN = 15V VRUN1,2,3 = 0V 4.1 42 UVLO Undervoltage Lockout on INTVCC , 30 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time (Note 6 , Schottky diode (external) voltage drop below ground to VIN. 3853fa 8 LTC3853 PIN FUNCTIONS TG1
Linear Technology
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LTC3853UJ C3853 SS2130 LTC3853EUJ LTC3860 LTC3855 LTC3829 LTC3851A/LTC3851A-1 LTC3856 MSOP-16E

IHLP2525CZER3R3M01

Abstract: LTC3853 28 BG2 SNSN1 4 27 SW2 SNSP2 5 26 TG2 41 SNSN2 6 25 BOOST2 SNSP3 7 24 VIN , °C UJ PACKAGE 40-LEAD (6mm × 6mm) PLASTIC QFN TJMAX = 125°C, JA = 33°C/W EXPOSED PAD (PIN 41) IS PGND , IQ Input DC Supply Current Normal Mode Shutdown (Note 5) VIN = 15V VRUN1,2,3 = 0V 4.1 , 3300pF Each Driver 30 ns Minimum On-Time (Note 7) 90 ns TG/BG t1D BG/TG t2D tON , Schottky diode (external) voltage drop below ground to VIN. 3853f 8 LTC3853 PIN FUNCTIONS TG1
Linear Technology
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IHLP2525CZER3R3M01 IHLP2525CZER1R5M01 100v 23A P-Channel MOSFET 078h diode LTC3810 LTC3811 LTC3826 LTC3828 LTC3834/ LTC3834-1

74HC595 SMD

Abstract: smd transistor w18 .10 4.1 4.2 4.3 4.4 4.5 4.6 5.0 LEDs , Optional Configurations 4.1 Global Operating Configurations Switch S1 configures operating , BANANA JACK DIODE D4 GND + GND BANANA JACK 92 RESET MDINT R10 100uF TANT , 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
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74HC595 SMD smd transistor w18 8 pin SMD ic 2068 QE R519 QE r525 smd 1a2 20SOP SN74LVTH244ADWR EPF10K10ATC144-1 U27-34 MM74HC595MX CY2309SC-1

LTC3727

Abstract: zener diode T2D 74 , VRUN/SS2 Rising 1.0 1.5 1.9 4.1 4.5 V 2 4 µA 1.6 5 µA VRUN/SS1 , Each Driver 90 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time , ): Switch Node Connections to Inductors. Voltage swing at these pins is from a Schottky diode (external , diode when the top MOSFET turns off. As VIN decreases to a voltage close to VOUT, the loop may enter , equation. The Schottky diode D1 shown in Figure 2 conducts during the dead-time between the conduction of
Linear Technology
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LTC3727 LTC3727-1 Nippon capacitors Circuit Diagram alternator dc 24 v t2d 40 zener diode LTC3727A-1 LTC3727/LTC3727-1 LTC3727GN LTC1735 LTC1736

FDS6680A

Abstract: LTC1628CG-SYNC /SS1, 2 LT RUN/SS Pin Latchoff Arming Threshold VRUN/SS1, VRUN/SS2 Rising from 3V 4.1 4.5 , On Delay Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver 90 ns BG/TG t2D , Schottky diode (external) voltage drop below ground to VIN. ITH1, ITH2 (Pins 8, 11): Error Amplifier , each off cycle through an external diode when the top MOSFET turns off. As VIN decreases to a voltage , the two terms in the main switch dissipation equation. The Schottky diode D1 shown in Figure 1
Linear Technology
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LTC1628-SYNC LTC1628CG-SYNC LTC1628IG-SYNC fet alternator regulator circuit LTC1628 duel line 15v power regulator 1628-SYNC LTC1778/LTC1778-1 LT1976 LTC3708 LTC3727/LTC3727A-1
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