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RDK-VALUE-SB Texas Instruments Value Sound Bar Reference Design Kit visit Texas Instruments
RA-433 Texas Instruments Low Noise LNA_Saw filter_Safe communication with high blocking value visit Texas Instruments
RA-869 Texas Instruments Low Noise LNA_Saw filter_Safe communication with high blocking value visit Texas Instruments
ISL99125BDRZ-T Intersil Corporation 25A DrMOS Module with Diode Emulation and PS4; QFN24; Temp Range: 0° to 70° visit Intersil
ISL99135BDRZ-T Intersil Corporation 35A DrMOS Module with Diode Emulation and PS4; QFN24; Temp Range: 0° to 70° visit Intersil
TPD4E004DSFR Texas Instruments UNIDIRECTIONAL, SILICON, TVS DIODE visit Texas Instruments

t2d 76 diode value

Catalog Datasheet MFG & Type PDF Document Tags

T2D 96 diode

Abstract: T2D 78 diode 5 15 2 13 NC = No Internal Connection ABSOLUTE MAXIMUM RATINGS Value Parameter , + 0.5 Vo DC Output Voltage -0 .5 to V c c + 0 5 V l|K DC Input Diode Current ± 20 mA â'¢ok DC Output Diode Current ± 20 mA 'o DC Output Source Sink Current , °C. RECOMMENDED OPERATING CONDITIONS Parameter Symbol 2 to 6 Value 0 to Vcc V - 4 0 to 85 - 5 5 , CHARACTERISTICS T2D â  S ^ Parameter Vcc V|H High Level Input Voltage 2.0 4.5 6.0 1.5
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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 , 2.7k 14 28 37 67 76 90 119 128 142 172 186 195 + + 13 26 38 53 66 78 91 105 , Value & Reference definitions for JoTx & JoRx SMB's on page 3 A UPDATES Rev 2 board April 23, 2007 , QXFRMR T2D 25 2 D13 PO300SA 23 22 1 5 D14 PO300SA 21 4 QXFRMR T2C 30 2
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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

ZENER DIODE t2d

Abstract: zener t2d (RMS value) 54% modulation B/G 250 mV L - 500 - mV Vo(rms) nominal output signal voltage (RMS value) 54% modulation - 500 - mV Vo(rms) clipping level of the output signal voltages (RMS value) THD , % modulation is equivalent to Af = ±27 kHz) of 250 mV RMS value (Vn and Vi2) and for a nominal input signal (AM: m = 0.54) of 500 mV RMS value (VM), respectively 250 mV RMS (Vi3 and V|4). A nominal gain of 6 dB , capacitor through a 0 £2 series resistor. THERMAL CHARACTERISTICS SYMBOL PARAMETER VALUE UNIT Rth j-a
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ZENER DIODE t2d zener t2d t2d 76 diode value T2D 40 zener diode T2D 48 T2D zener TDA9847 1993F

T2D DIODE 46

Abstract: T2D DIODE 48 Clk19M 2 77 D2 DIODE Vcc3v3 LIUClkIn R13 10 3 M0 M1 M2 19 20 18 AIN0 , SP0503BAHT C102 0.1uF C17 0.1uF RP36 2.7k 14 28 37 67 76 90 119 128 142 172 186 , QXFRMR T1A 40 2 D11 PO300SA 38 37 1 5 D12 PO300SA 36 4 QXFRMR T2D 25 2 , following command: readhex(0x0005), which is the Revision ID register. You can also see that the value of , value was written if desired. Note: Critical: You must press Ctrl + Enter to execute a command from
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T2D 82 diode T2D 87 diode T3D 54 DIODE t3d diode T2D DIODE 81 T2D 83 DIODE XRT86SH221ES XRT75VL00

t2d 76 diode value

Abstract: 2RSTPE330M9 GND DDB PACKAGE 12-LEAD (3mm 2mm) PLASTIC DFN TJMAX = 125°C, JA = 76°C/W, JC = 10°C/W EXPOSED , RUN/SS Pin Must be Taken Below this Value to Reset Part (or Put into Shutdown Mode) 0.4 V , BG/TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time CLOAD = 3300pF Each , formulas: LTC3854DDB: TJ = TA + (PD · 76°C/W) LTC3854MSE: TJ = TA + (PD · 40°C/W) Note 4: The , . A low ESR capacitor is connected between the BOOST and SW pins and an external Schottky diode is
Linear Technology
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LTC3854 2RSTPE330M9 LTC3854E LTC3854EDDB LTC3854I LTC3854IDDB QFN-52 LTC3609 LTC3610 QFN-64 LTC3611

LTC3854DDB

Abstract: LTC3824 GND DDB PACKAGE 12-LEAD (3mm × 2mm) PLASTIC DFN TJMAX = 125°C, JA = 76°C/W, JC = 10°C/W EXPOSED , Below this Value to Reset Part (or Put into Shutdown Mode) 0.4 V VRUN/SS_ON Soft-Start , BG/TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time CLOAD = 3300pF Each , and power dissipation PD according to the following formulas: LTC3854DDB: TJ = TA + (PD · 76°C/W , pins and an external Schottky diode is tied between the BOOST and INTVCC pins. The voltage swing on
Linear Technology
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LTC3824 LTC3878 C3854 T2D DIODE 94 LTC3854EMSE LTC3854IMSE MSOP-10E LTC3834/ LTC3834-1 TSSOP-16

3854

Abstract: sanyo 6TPE220MI DDB PACKAGE 12-LEAD (3mm 2mm) PLASTIC DFN TJMAX = 125°C, JA = 76°C/W, JC = 10°C/W EXPOSED PAD (PIN , RUN/SS Pin Must be Taken Below this Value to Reset Part (or Put into Shutdown Mode) 0.4 V , On Delay Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver 30 ns BG/TG t2D , temperature TA and power dissipation PD according to the following formulas: LTC3854DDB: TJ = TA + (PD · 76 , is connected between the BOOST and SW pins and an external Schottky diode is tied between the BOOST
Linear Technology
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3854 sanyo 6TPE220MI nichicon aluminum capacitor 16E ltc3608 short ldpc MSOP-16E SSOP-16 QFN-16 LTC3853 LTC3857/LTC3857-1 LTC3858/LTC3858-1

ZENER DIODE t2d

Abstract: T2D DIODE output is within 7.5% of its programmed value. Protection features include: internal foldback current , T2D Synchronous Gate Off to Top Gate-On Delay Time CLOAD = 3300pF Each Driver 70 ns ns , resistor attached to the VID inputs also has a series diode to allow input voltages higher than the VIDVCC , ) 0 0 100 1 2 3 4 5 76 72 68 64 60 6 0.5 1 1.5 COMMON , . This pin connects to the source of the bottom N-channel MOSFET, the anode of the Schottky diode and
Linear Technology
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LTC1736 T2D 70 diode T2D DIODE panasonic Diode zener T2D 1736F LTC1736CG EEFUEOG181R LT1375/LT1376 LTC1435A LTC1436A/LTC1436A-PLL LTC1474/LTC1475
Abstract: indicates when the output is within 7.5% of its programmed value. Protection features include: internal , Gate-On Delay Time CLOAD = 3300pF Each Driver 100 ns TG/BG T2D Synchronous Gate Off to Top , pull-up resistor attached to the VID inputs also has a series diode to allow input voltages higher than , THRESHOLD (mV) CURRENT SENSE THRESHOLD (mV) 80 70 0 1 2 3 4 5 76 72 68 , Ground. This pin connects to the source of the bottom N-channel MOSFET, the anode of the Schottky diode Linear Technology
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LTC1625/LTC1775 LTC1628 LTC1703 LTC1735 LTC1735-1
Abstract: its programmed value, conforming to Intel Mobile CPU Specifications. Protection features include , TG/BG T2D Synchronous Gate Off to Top Gate-On Delay Time CLOAD = 3300pF Each Driver 70 , THRESHOLD (mV) MAXIMUM CURRENT SENSE VOLTAGE (V) 90 0.5 76 Maximum Current Sense Threshold , . This pin connects to the source of the bottom N-channel MOSFET, the anode of the Schottky diode and , Capacitor. Voltage swing at this pin is from a Schottky diode (external) voltage drop below ground to VIN Linear Technology
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LTC1702 LTC1709 LTC1772

T2D DIODE panasonic

Abstract: t2d 04 panasonic power good window comparator that indicates when the output is within 7.5% of its programmed value , TG/BG T2D Synchronous Gate Off to Top Gate-On Delay Time CLOAD = 3300pF Each Driver 70 , CURRENT SENSE THRESHOLD (mV) MAXIMUM CURRENT SENSE VOLTAGE (V) 90 0.5 76 Maximum Current , . This pin connects to the source of the bottom N-channel MOSFET, the anode of the Schottky diode and , Capacitor. Voltage swing at this pin is from a Schottky diode (external) voltage drop below ground to VIN
Linear Technology
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t2d 04 panasonic T2D 68 zener diode LTC1735IS ltc351 2N7002 FDS6680A 1375/LT1376

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 , VID inputs also has a series diode to allow input voltages higher than the VIDVCC supply without , VSENSE(CM) = 1.6V 80 70 76 40 60 VSENSE (mV) VSENSE (mV) 60 VSENSE (mV) Current , Current Sense Threshold vs Temperature 76 74 72 VITH 1V/DIV 1.4 1.2 VOUT 1V/DIV , 25, 34): Switch Node Connections to Inductors. Voltage swing at these pins is from a Schottky diode
Linear Technology
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LTC3716 IN T2D DIODE DIODE t2d T2D 06 DIODE diode t2d 77 1N4148 595D LTC1929/LTC1929-PG LTC1702/LTC1703 LTC1708-PG LTC1709-7 LTC1709-8/LTC1709-9

LTC1435

Abstract: T2D DIODE 3300pF Each Driver 100 ns TG/BG t2D Synchronous Gate Off to Top Gate On Delay Time CLOAD , VITH (V) 70 60 6 76 Maximum Current Sense Threshold vs Temperature MAXIMUM CURRENT SENSE , the Schottky diode, and the (­) terminal of CIN. BG: High Current Gate Drive for Bottom N-Channel , Driver. The bootstrap capacitor is returned to this pin. Voltage swing at this pin is from a diode drop , . Voltage swing at this pin is from a Schottky diode (external) voltage drop below ground to VIN. TG
Linear Technology
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LTC1435 LRF2010-01-R005J LTC1735CGN MBRS340T3 THCR70E1H226ZT R005J LTC1735F SSOP-36 TSSOP-20 LTC3832 LTC4008

ir2910

Abstract: NPN RF Amplifier Gate On Delay Time CLOAD = 3300pF Each Driver 100 ns TG/BG t2D Synchronous Gate Off to , VOSENSE = 0.7V VSENSE(CM) = 1.6V 2.0 75 VITH (V) 70 60 6 76 Maximum Current Sense , N-channel MOSFET, the anode of the Schottky diode, and the (­) terminal of CIN. BG: High Current Gate , this pin is from a diode drop below INTVCC to (VIN + INTVCC). SW: Switch Node Connection to Inductor and Bootstrap Capacitor. Voltage swing at this pin is from a Schottky diode (external) voltage
Linear Technology
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ir2910 NPN RF Amplifier Marcon electrolytic Marcon DF LTC1771 LTC1773 LTC1778 LTC1876 LTC1878
Abstract: Synchronous Gate On Delay Time CLOAD = 3300pF Each Driver 100 ns TG/BG t2D Synchronous Gate , VOSENSE = 0.7V VSENSE(CM) = 1.6V 2.0 75 VITH (V) 70 60 6 76 Maximum Current Sense , bottom N-channel MOSFET, the anode of the Schottky diode, and the (â'") terminal of CIN. INTVCC , Capacitor. Voltage swing at this pin is from a Schottky diode (external) voltage drop below ground to VIN , swing at this pin is from a diode drop below INTVCC to (VIN + INTVCC). TG: High Current Gate Drive for Linear Technology
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Abstract: /TG t2D Bottom Gate Off to Top Gate On Delay Top Switch-On Delay Time CLOAD = 3300pF Each , inputs also has a series diode to allow input voltages higher than the VIDVCC supply without damage or , Sense Threshold vs VRUN/SS (Soft-Start) 80 90 80 VSENSE(CM) = 1.55V 80 70 76 40 , VRUN/SS (V) 3719 G13 76 74 72 VITH 1V/DIV 1.4 1.2 VOUT 1V/DIV 1.0 VRUN/SS , . 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 GN-24 LTC3717/LTC3831 LTC3728 LTC3729 LTC3732

ir2910

Abstract: Marcon capacitor Co Gate On Delay Time CLOAD = 3300pF Each Driver 100 ns TG/BG t2D Synchronous Gate Off to , Temperature MAXIMUM CURRENT SENSE THRESHOLD (mV) MAXIMUM CURRENT SENSE THRESHOLD (mV) 90 0.5 76 , anode of the Schottky diode, and the (­) terminal of CIN. BG (Pin 11): High Current Gate Drive for , Bootstrap Capacitor. Voltage swing at this pin is from a Schottky diode (external) voltage drop below , to this pin. Voltage swing at this pin is from a diode drop below INTVCC to (VIN + INTVCC). TG
Linear Technology
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Marcon capacitor Co ZENER DIODE t2d 79 LTC1735C LTC1735I T2D 79 diode LTC1436/LTC1436-PLL LTC1624 LTC1627

T2D 65 DIODE panasonic

Abstract: marcon 10v 47uf Gate On Delay Time CLOAD = 3300pF Each Driver 100 ns TG/BG t2D Synchronous Gate Off to , ) = 1.6V 2.0 75 VITH (V) 70 60 6 76 Maximum Current Sense Threshold vs , the Schottky diode, and the (­) terminal of CIN. BG: High Current Gate Drive for Bottom N-Channel , Driver. The bootstrap capacitor is returned to this pin. Voltage swing at this pin is from a diode drop , . Voltage swing at this pin is from a Schottky diode (external) voltage drop below ground to VIN. TG
Linear Technology
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T2D 65 DIODE panasonic marcon 10v 47uf

T2D 68 zener diode

Abstract: T2D DIODE Delay CLOAD = 3300pF (Note 6) Synchronous Switch-On Delay Time 50 ns BG/TG t2D Bottom Gate , Sense Threshold vs Sense Common Mode Voltage 90 76 VSENSE(CM) = 1.25V 80 70 70 60 , Current vs Temperature 78 1.8 76 1.4 RUN/SS CURRENT (A) VSENSE (mV) 1.6 74 72 , (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
Linear Technology
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LTC3734 LTC3735 452v BAT54A T510 T2D 1 zener diode

T2D DIODE

Abstract: T2D DIODE 46 Synchronous Switch-On Delay Time CLOAD = 3300pF Each Driver (Note 6) 90 ns BG/TG t2D Bottom , built-in pull-up resistor attached to the VID inputs also has a series diode to allow input voltages , Threshold vs Sense Common Mode Voltage 90 80 VSENSE(CM) = 1.6V 80 70 76 40 60 VSENSE , ) 78 76 74 72 VITH 1V/DIV 1.4 1.2 VOUT 2V/DIV 1.0 VRUN/SS 2V/DIV 0.8 , 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 VN2222LL T2D 75 diode 20a power supply LTC1628/LTC1628-PG LTC1629/LTC1629-PG
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