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TPD4E004DSFR Texas Instruments UNIDIRECTIONAL, SILICON, TVS DIODE visit Texas Instruments
TPD3E001DRY Texas Instruments UNIDIRECTIONAL, SILICON, TVS DIODE visit Texas Instruments
TPD2E001YFPR Texas Instruments DIODE UNIDIRECTIONAL, SILICON, TVS DIODE, LEAD FREE, DSBGA-4, Transient Suppressor visit Texas Instruments
UC1610J/883B Texas Instruments SILICON, BRIDGE RECTIFIER DIODE visit Texas Instruments
UC3612J Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments
UC1611J/883B Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments

T2D DIODE 46

Catalog Datasheet MFG & Type PDF Document Tags

T2D DIODE

Abstract: T2D DIODE 64 Vcc DC supply voltage -0.5 to +4.6 V l|k DC input diode current V| , performance. 711002t. DDTSñOO T2D May 11, 1994 6-27 This Material Copyrighted By Its Respective
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T2D DIODE 46

Abstract: T2D DIODE 48 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 , conditions are examples of the lec formula. These limits are guaranteed but not tested. y-46 CYPRESS CY54 , inable ("ime 1.5 5.7 1.5 5.0 : :m: â M" ns 1, 7, 8 tpliz ll'l 7 Output Disable Time 1.5 4.6 1.5 4.5 ' ' , ! tpttL Propagation Delay Data to Input 1.5 7.0 1.5 1.5 6.5 1.5 5.1 1.5 4.6 ns 1,3 tpZH f !>/.!. , -Trip 4- tpill 'Pill. Propagation Delay Data to Input 1.5 4.6 1.5 4.1 »"1 'fil! y1 y â -"liPÌifi
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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 , CCLK DIN DOUT 2 4 6 8 10 12 14 16 18 20 48 46 44 42 40 35 33 30 T 2 1 , QXFRMR T2D 25 2 D13 PO300SA 23 22 1 5 D14 PO300SA 21 4 QXFRMR T2C 30 2 , SM02-T301 16 1 AF23 AE21 FB C184 11 0.68uF TRNG18 RTIP18 47 48 46 R61 T2 U1 T1 , 22 24 26 28 30 32 34 36 38 8 9 C83 52 46 45 35 28 21 1 3 5 7 9 11 13
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T2d DIODE T2D DIODE 48 T2D 66 diode T2D DIODE 46 T2D DIODE 49 T2d 86 diode 384MH PTH08080W LED-1206 XCF02S XRT86SH221 T86SH

T2D DIODE 46

Abstract: T2D DIODE 48 Clk19M 2 77 D2 DIODE Vcc3v3 LIUClkIn R13 10 3 M0 M1 M2 19 20 18 AIN0 , + + + + 11 RP17 SEL P0.2 P0.3 2 4 6 8 10 12 14 16 18 20 48 46 44 42 , QXFRMR T1A 40 2 D11 PO300SA 38 37 1 5 D12 PO300SA 36 4 QXFRMR T2D 25 2 , AE23 AC21 SEL R77 TxSTM0Dat TxSTM0Frm TxSTM0Clk GND GND R57 47 48 46 43 13 , 46 45 35 28 21 RxLOS TxSBFP TxA_Clk TxA_C1J1 TxA_AL TxA_PL TxA_DP TxA_D7 TxA_D6
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T2D 82 diode T2D 87 diode T3D 54 DIODE t3d diode T2D DIODE 81 T2D 83 DIODE XRT86SH221ES XRT75VL00

T2D DIODE

Abstract: T3D 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 , ICT Host TxON C196 T 80 46 TxMON 499 47 32 33 52 51 25 21 22 23 24 , GND GND 470 7 19 42 85 52 46 45 35 28 21 RxAGND 44 T30STS TxDGND TxDGND
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T2D DIODE 94 AK9 RJ12 C1959 T2D 79 diode transistor ad149 T8046 PMEAD30 93CS66 T86VSH328 T86VSH328SCH XRT86VSH328

T2D DIODE 94

Abstract: QE R518 .11 4.1 4.2 4.3 4.4 4.5 4.6 5.0 LEDs , reduced power source. 4.6 Alternate MII Speed Configuration In the normal configuration (JP65 open , 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
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LXD9781 QE R518 EPC1PC8 QE r517 SG-8200 crystal j3f qe r524 TP175 208-P B3F-1002 TP12SDH8AQE TG110-S453NX

COMPARATOR Hysteresis voltage detector

Abstract: p-channel mosfet m21 Delay Time CLOAD = 3300pF Each Driver 90 ns BG/TG t2D Bottom Gate Off to Top Gate On , Ramping Positive 0.1 ­6 6 ­ 7.5 7.5 ­ 9.5 9.5 % % 0.995 1 1.005 V/V 46 , 4.70 ­ 50 ­ 25 50 5.0 25 4.6 50 40 30 20 4.5 10 0 4.4 0 20 15 25 10 , 17, 26): Switch Node Connections to Inductors. Voltage swing at these pins is from a Schottky diode , Schottky diode. When VIN decreases to a voltage close to VOUT, however, the loop may enter dropout and
Linear Technology
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LTC1629-PG LTC1629 COMPARATOR Hysteresis voltage detector p-channel mosfet m21 1629 IRF7809 IRF7811 LTC1629/LTC1629-PG LTC1530 LTC1628/LTC1628-PG LTC1702/LTC1703

T2D DIODE 46

Abstract: fet alternator regulator circuit t1D BG/TG t2D tON(MIN) UNITS µA µA Internal VCC Regulator VINTVCC Internal VCC Voltage , . SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS 0.995 1 1.005 V/V 46 55 , 25 4.6 50 40 30 20 4.5 10 0 4.4 0 20 15 25 10 INPUT VOLTAGE (V) 5 30 , ): Switch Node Connections to Inductors. Voltage swing at these pins is from a Schottky diode (external , , which normally is recharged during each off cycle through an external Schottky diode. When VIN
Linear Technology
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LTC1629-6 fet alternator regulator circuit LTC1435/LTC1435 LTC1629EG-6 Si7440DP Si7840DP LTC1708-PG LTC1709 LTC1735 LTC1736 LTC1929

200a lead acid battery charger

Abstract: LTC3729L-6 80 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time CLOAD = , Rejection Ratio 0V < VCM < 5V RIN Input Resistance 1 Measured at VOS + Input 46 Note 1 , 5.1 25 4.6 50 40 30 20 4.5 10 ILOAD = 1mA TA = 25°C 4.4 0 5 20 15 10 , Schottky diode (external) voltage drop below ground to VIN. BG2, BG1 (Pins 18, 22): High Current Gate , normally is recharged during each off cycle through an external Schottky diode. When VIN decreases to a
Linear Technology
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LTC3729L-6 3729L-6 200a lead acid battery charger SBM540 T510E108K004AS diode t2d 77 CEPH149-IROMC-H SSOP-36 TSSOP-20 LTC3832 LTC4008
Abstract: Minimum On-Time Tested with a Square Wave (Note 5) 180 ns TG/BG t1D BG/TG t2D tON(MIN , . SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS 0.995 1 1.005 V/V 46 55 , '" 25 50 5.0 25 4.6 50 40 30 20 4.5 10 0 4.4 0 20 15 25 10 INPUT , ): Switch Node Connections to Inductors. Voltage swing at these pins is from a Schottky diode (external , external Schottky diode. When VIN decreases to a voltage close to VOUT, however, the loop may enter Linear Technology
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Abstract: Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver 90 ns BG/TG t2D Bottom Gate Off to , 0.995 1 1.005 V/V 46 55 dB 80 kâ"¦ Differential Amplifier/Op Amp Gain Block , ) INTVCC VOLTAGE (V) 4.90 4.70 â'" 50 â'" 25 50 5.0 25 4.6 50 40 30 20 4.5 10 , Schottky diode (external) voltage drop below ground to VIN. BOOST2, BOOST1 (Pins 18, 25): Bootstrapped , normally is recharged during each off cycle through an external Schottky diode. When VIN decreases to a Linear Technology
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XRT75VL00

Abstract: tms 374 cd 13 2 4 C17 PAR CON PCIA_0 VCC5V C5 0.1uF IDSEL -CBE0 VCC3V3 DIODE C4 , AD22 AD23 AD24 AD25 AD26 AD27 AD28 AD29 AD30 AD31 -STOP D61 2 50 49 48 47 46 43 , D14 PO300SA 21 19 C131 16 2 D13 PO300SA 23 22 17 20 D21 4 QXFRMR T2D , TxA_D7 52 46 45 35 28 21 J5 Mictor-38 R74 10 4 3 RxDS3Pos RxDS3Neg RxDS3Clk , C206 Vcc3v 3 C186 0.1uF J1Rx1 SMBV 0.1uF 47 32 33 80 46 82 VCC3V3 98 26 81
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XRT86SH328 tms 374 cd 13 RJ19 T3D 81 DIODE RJ23 y2w15 T30L XRT86SH328ES XRT86SH3

74HC595 SMD

Abstract: smd transistor w18 .10 4.1 4.2 4.3 4.4 4.5 4.6 5.0 LEDs , the center-tap of the transmit magnetic. Open = provides path for reduced power source. 4.6 , 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 MM74HC14M 20SOP SN74LVTH244ADWR EPF10K10ATC144-1 U27-34 MM74HC595MX
Abstract: Delay Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver 80 ns BG/TG t2D Bottom , < 5V RIN Input Resistance 1 Measured at VOS + Input 46 Note 1: Absolute Maximum , 5.1 25 4.6 50 40 30 20 4.5 10 ILOAD = 1mA TA = 25°C 4.4 0 5 20 15 , pins is from a Schottky diode (external) voltage drop below ground to VIN. BG2, BG1 (Pins 18, 22 , an external Schottky diode. When VIN decreases to a voltage close to VOUT, however, the loop may Linear Technology
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T2D DIODE 46

Abstract: ZENER DIODE t2d CLOAD = 3300pF Each Driver 80 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay Top , 46 Note 1: Absolute Maximum Ratings are those values beyond which the life of a device may be , (V) 4.95 3729L-6 G05 5.1 25 4.6 50 40 30 20 4.5 10 ILOAD = 1mA TA = 25 , Inductors. Voltage swing at these pins is from a Schottky diode (external) voltage drop below ground to VIN , an external Schottky diode. When VIN decreases to a voltage close to VOUT, however, the loop may
Linear Technology
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ZENER DIODE t2d 12v 60A diagram

T2D DIODE 46

Abstract: T2D DIODE 3300pF Each Driver (Note 6) 90 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay Top , specified voltage and measures the resultant VEAIN. 4 46 55 dB 80 k 6 30 mV 200 , VID inputs also has a series diode to allow input voltages higher than the VIDVCC supply without , (Figure 13) 25 4.6 50 40 30 20 4.5 10 0 4.4 0 5 20 15 25 10 INPUT , 25, 34): Switch Node Connections to Inductors. Voltage swing at these pins is from a Schottky diode
Linear Technology
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LTC3716 T2D 68 zener diode IN T2D DIODE DIODE t2d T2D 06 DIODE 1N4148 595D LTC1929/LTC1929-PG LTC1709-7 LTC1709-8/LTC1709-9 GN-24 LTC1778
Abstract: /TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time CLOAD = 3300pF Each , that servos VITH to a specified voltage and measures the resultant VEAIN. 46 55 dB 80 , inputs also has a series diode to allow input voltages higher than the VIDVCC supply without damage or , (Figure 12) Efficiency vs Load Current (Figure 12) 25 4.6 50 40 30 20 4.5 10 0 , . Voltage swing at these pins is from a Schottky diode (external) voltage drop below ground to VIN. BOOST2 Linear Technology
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LTC3719 SSOP-16 LTC3717/LTC3831 LTC3728 LTC3729 LTC3732

T2D DIODE

Abstract: T2D DIODE 46 Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver (Note 6) 90 ns BG/TG t2D Bottom , measures the resultant VEAIN. 46 55 dB 80 k Note 5: Dynamic supply current is higher due , built-in pull-up resistor attached to the VID inputs also has a series diode to allow input voltages , ) 17097 G06 5.0 25 4.6 50 40 30 20 4.5 10 0 4.4 0 5 20 15 25 10 INPUT , Connections to Inductors. Voltage swing at these pins is from a Schottky diode (external) voltage drop below
Linear Technology
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BAT85 LTC1709EG-7 T510 VN2222LL T2D 75 diode 20a power supply

T2D DIODE 46

Abstract: T2D DIODE Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver (Note 6) 90 ns BG/TG t2D Bottom , feedback loop that servos VITH to a specified voltage and measures the resultant VEAIN. 4 46 55 , Note 8: Each built-in pull-up resistor attached to the VID inputs also has a series diode to allow , ) Efficiency vs Input Voltage (Figure 13) Efficiency vs Load Current (Figure 13) 25 4.6 50 40 , Connections to Inductors. Voltage swing at these pins is from a Schottky diode (external) voltage drop below
Linear Technology
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Power MOSFET P-Channel 250V 50A 800V 40A mosfet Alternator regulator MOSFET N-CH 200V T2D DIODE 60 fast recovery diode 600v 120a double

T2D 68 zener diode

Abstract: T2D DIODE Delay CLOAD = 3300pF (Note 6) Synchronous Switch-On Delay Time 50 ns BG/TG t2D Bottom Gate , Voltage Range CMRR Common Mode Rejection Ratio 0.8 0 IOUT = 1mA PVCC ­ 1.4 46 70 , (Pin 23): Switch Node Connection to Inductor. Voltage swing at this pin is from a Schottky diode , capacitor is connected between the BOOST and SW pins, and a Schottky diode is connected between the BOOST , bootstrap capacitor CB, which normally is recharged during each off cycle through an external diode when
Linear Technology
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LTC3734 LTC3735 452v BAT54A T2D 1 zener diode LT 3734
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