NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: S D1 BG1 3 4 SENSE1 + SENSE1 � TG2 BOOST2 EAIN ATTENOUT 1ç¤- INTVCC D2 BG2 VDIFFOUT VOS � SENSE2 + + SENSE2 � VOUT 0.6V TO 1.75V 40A 1 0.002 2 0.47ç¤" , 4 + 0.1ç¤" VIN 5V TO 28V 10ç¤" 35V � 10ç¤" + COUT 1000ç¤" 4V � 3716 F01 Figure , ) .36V to � 5 V SENSE1+, SENSE2 +, SENSE1�, SENSE2 � Voltages . (1.1)INTVCC to � 0.3V , ORDER PART NUMBER TOP VIEW RUN/SS 1 36 PGOOD SENSE1 + 2 35 TG1 SENSE1 � 3 ... | Original |
28 pages, |
LTC3716 LTC1736 Diode zener T2D BAT85 595D 300V dc to dc boost converter T2D 26 diode T2D 44 diode T2D 48 VN2222LL T2D 74 DIODE T510 T2D DIODE 64 DIODE t2d LTC3716 abstract |
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| Abstract: SW PGOOD VIN SENSE � INTVCC SENSE + BG PGND VOSENSE EXTVCC SGND 10 10 16 CB 0.22ç¤" 15 L1 1.2ç¤- 14 13 D1 CMDSH-3 12 11 + 4.7ç¤" 10 9 Q1 FDS6680A FDS6680A , 0.004 47pF 47pF R2 14.3k 0.5% R1 10k 0.5% VOUT 1.35V TO 1.60V 12A + R3 33.2k , 36V to � 5V INTVCC, EXTVCC (BOOST, SW) Voltages . 7V to � 0.3V SENSE +, SENSE �, PGOOD Voltages . 1.1(INTVCC + 0.3V) to � 0.3V ITH, VOSENSE, COSC Voltages .2.7V to � 0.3V RUN ... | Original |
28 pages, |
2N7002 LTC1735C-1 LTC1735I-1 FDS6680A MBRS340T3 t2d 76 diode value T2D DIODE Circuit Diagram alternator dc 24v LTC1735-1 THCR70E1H226ZT T2D 68 zener diode T2D DIODE panasonic LTC1735IS LTC1735-1 abstract |
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| Abstract: SW PGOOD VIN SENSE � INTVCC SENSE + BG PGND VOSENSE EXTVCC SGND 10 10 16 CB 0.22ç¤" 15 L1 1.2ç¤- 14 13 D1 CMDSH-3 12 11 + 4.7ç¤" 10 9 Q1 FDS6680A FDS6680A , 0.004 47pF 47pF R2 14.3k 0.5% R1 10k 0.5% VOUT 1.35V TO 1.60V 12A + R3 33.2k , 36V to � 5V INTVCC, EXTVCC (BOOST, SW) Voltages . 7V to � 0.3V SENSE +, SENSE �, PGOOD Voltages . 1.1(INTVCC + 0.3V) to � 0.3V ITH, VOSENSE, COSC Voltages .2.7V to � 0.3V RUN ... | Original |
28 pages, |
THCR70E1H226ZT FDS6680A LTC1735-1 LTC1735C-1 LTC1735I-1 LTC1735IS MBRS340T3 T2D DIODE 2N7002 T2D 68 zener diode LTC1735-1 abstract |
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| Abstract: PGND SENSE + + SENSE � PGOOD LTC3734 LTC3734 RBOOT ITH RDPRSLP RUN/SS RDPSLP SGND VOA+ , 22 PVCC 21 BG STP_CPUB 4 33 SGND 5 20 PGND SENSE + 6 19 VID5 SENSE � 7 18 VID4 , Sense Pins Source Current VSENSE � = VSENSE + = 0V � 85 � 60 A DFMAX Maximum Duty , CLOAD = 3300pF (Note 6) Synchronous Switch-On Delay Time 50 ns BG/TG t2D Bottom Gate Off to , following formula: LTC3734EUH LTC3734EUH: TJ = TA + (PD � 34癈/W) V Note 4: The LTC3734 LTC3734 is tested in a feedback ... | Original |
28 pages, |
T510 595D BAT54A LT 3734 LTC3735 T2D DIODE 46 T2D DIODE 48 LTC3734 452v T2D DIODE T2D 68 zener diode LTC3734 abstract |
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| Abstract: BG PGND SENSE + SENSE Â RBOOT M1 M2 0.8uH D1 0.002 CIN 10uF 35V Ã-4 VIN 5V TO 24V + , RDPSLP VOA VOA + 100pF OAOUT Â 4.5V TO 7V Figure 1. High Current Step-Down Converter , 27 26 25 VOA+ 1 VOAÂ 2 OAOUT 3 STP_CPUB 4 SGND 5 SENSE + 6 SENSE Â 7 RDPRSLP 8 UH PACKAGE 32-LEAD 32-LEAD , VRUN/SS VRUN/SSARM VRUN/SSLO ISCL ISDLHO ISENSE DFMAX TG tr TG tf BG tr BG tf TG/BG t1D BG/TG t2D tON , 0.375V, VRUN/SS = 4.5V VSENSE Â=V + SENSE = 0V MIN TYP 2 20 MAX 3 100 4.2 Â0.8 1.9 UNITS mA ... | Original |
28 pages, |
LTC3734 LTC3734 abstract |
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| Abstract: RUN/SS + M3 TG2 1H 0.002 SW2 0.1F SGND VOA+ M1 TG1 SW1 M4 BG2 , Sense Pins Source Current Each Channel: VSENSE1 �, 2 � = VSENSE1+, 2 + = 0V � 85 � 60 A , ) Synchronous Switch-On Delay Time 50 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay CLOAD = , temperature TA and power dissipation PD according to the following formula: LTC3735EG LTC3735EG: TJ = TA + (PD � 85癈/W) LTC3735EUHF LTC3735EUHF: TJ = TA + (PD � 34癈/W) PVCC � 1.2 PVCC � 0.9 V Note 4: The LTC3735 LTC3735 is tested in a ... | Original |
32 pages, |
T510 BAT54A LTC3735 T2D 40 DIODE 595D T2D DIODE T2D DIODE 46 RC 474K LTC3735EG LTC3735 abstract |
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| Abstract: out of phase. TYPICAL APPLICATIO + 4.7uF VIN PGOOD INTVCC M1 TG1 8uH 0.1uF BOOST2 SW1 M2 BG1 LTC3727A-1 LTC3727A-1 SENSE2 + SENSE1 SENSE2  VOSENSE1 + 47uF 6V SP , 220pF 15k 20k 1% M1, M2, M3, M4: FDS6680A FDS6680A VOUT2 12V 4A + 56uF 15V SP 3727 F01 , . 7V to  0.3V SENSE1+, SENSE2 +, SENSE1Â, SENSE2  Voltages , 1 28 PGOOD SENSE1 + 2 27 TG1 SENSE1  3 26 SW1 VOSENSE1 4 25 BOOST1 ... | Original |
32 pages, |
LTC3727AEG-1 LTC3727A-1 LTC3727 FDS6680A alternator dual voltage 12V 24V LTC3727A-1 abstract |
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| Abstract: M1 1uH 0.002 VIN 5V TO 24V SENSE1+ SENSE1 TG2 SW2 BG2 M4 D2 M3 1uH 0.002 + 100pF 232k VOA+ , DFMAX TG1, 2 tr TG1, 2 tf BG1, 2 tr BG1, 2 tf TG/BG t1D BG/TG t2D tON(MIN) RATTEN ATTENERR VIDTHLOW , dissipation PD according to the following formula: LTC3735EG LTC3735EG: TJ = TA + (PD · 85°C/W) LTC3735EUHF LTC3735EUHF: TJ = TA + , 68 64 60 Â30 0 0.5 1 1.5 VITH (V) 2 2.5 3735 G09 3735fa 5 , 78 1.8 1.6 76 RUN/SS CURRENT (uA) 1.4 1.2 1.0 0.8 0.6 0.4 0.2 68 Â50 Â25 50 25 0 75 TEMPERATURE (°C ... | Original |
32 pages, |
T2D DIODE 32 sanyo oscon label flash device MARKing intel LTC3735 LTC3735 abstract |
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| Abstract: is returned to this pin. Voltage swing at this pin is from a diode drop below INTVCC to VIN + , PGOOD VID4 VID3 VID2 VID1 VID0 SGND BOOST + + 4.7ç¤" BG CB 0.22ç¤" M2 FDS6680A FDS6680A � D1 MBRS340T3 MBRS340T3 PGND VOSENSE SENSE � SENSE + COUT 180ç¤"/4V � COUT: PANASONIC , ) Voltages .7V to � 0.3V SENSE +, SENSE � . 1.1(INTVCC) to � 0.3V FCB Voltage .(INTVCC + 0.3V) to � 0.3V ITH, VOSENSE, VFB Voltage .2.7V to � 0.3V RUN ... | Original |
28 pages, |
LTC1736I LTC1736CG LTC1736C LTC1736 LRF2010-01-R004J FDS6680A EEFUEOG181R Diode zener T2D Marcon 450V MBRS340T3 MOTOROLA SELECTION NPN Transistor 700V T2D 1 DIODE t2d 40 zener diode T2D DIODE 64 LTC1736 abstract |
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| Abstract: , 6580258, 6304066, 5705919. TYPICAL APPLICATION + 4.7F VIN PGOOD INTVCC M1 TG1 8H 0.1F BOOST2 SW1 M2 BG1 LTC3727A-1 LTC3727A-1 SENSE2+ SENSE1Â SENSE2Â VOSENSE1 + VOSENSE2 , 220pF 15k 20k 1% M1, M2, M3, M4: FDS6680A FDS6680A VOUT2 12V 4A + 56F 15V SP 3727 F01 , 0.76 Measured at FCB pin UVLO A A 6.8 IFCB VBINHIBIT 35 Â0.30 l Forced , Time 90 ns BG/TG t2D Bottom Gate Off to Top Gate On Delay CLOAD = 3300pF Each Driver Top ... | Original |
32 pages, |
LTC3727AEG-1 LTC3727A-1 LTC3727 FDS6680A 3727A alternator dual voltage 12V 24V zener t2d LTC3727A-1 abstract |
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| NSQA6V8AW5T2/D (53.0kB) 4 100 Low Capacitance Transient Voltage B) 1 100 Quad Array for ESD Protection MSQA6V1W5T2/D (52.0k NUF2221W1T2/D (59.0kB) 2 100 USB Upstream Terminator with ESD 100 SC70 Zener Transient Voltage Suppressor DF3A6.8FUT1/D (46.0k Protection +4 ESD Diodes NUF4105FCT1/D NUF4105FCT1/D NUF4105FCT1/D NUF4105FCT1/D (82.0kB) 1 100 4 Channel www.datasheetarchive.com/files/on-semiconductor/taxonomy/circuitprotection.htm |
On Semiconductor | 28/09/2007 | 28.53 Kb | HTM | circuitprotection.htm |
| Low Capacitance TVS Quad Array for ESD Protection NSQA6V8AW5T2/D (53.0kB) 4 MSQA6V1W5T2/D (52.0kB) 4 100 Quad TVS Array for ESD Protection B) 0 100 3 Watt Plastic Surface Mount Silicon Zener Diodes 1SMB5913BT3 1SMB5913BT3 1SMB5913BT3 1SMB5913BT3 B) 5 100 5 Watt Surmeticâ„¢ 40 Silicon Zener Diodes 1N5333B/D 1N5333B/D 1N5333B/D 1N5333B/D (106.0k Zener Transient Voltage Suppressors P6KE6.8A/D (95.0kB) 9 100 www.datasheetarchive.com/files/on-semiconductor/taxonomy/diodes.htm |
On Semiconductor | 28/09/2007 | 80.98 Kb | HTM | diodes.htm |
| period, is D I L /4, which is supplied for a time T/2. It follows therefore that : D V C = D I L 4C T 2 is ON and -V F ( with V F the forward voltage across the D diode as indicated) when Q1 is OFF. During practically the volt - age across the recirculation diode), where the power saturation and the forward V F drop across the diode era taken into account. The ON and OFF times are established by the fol - lowing phenomena due to the catch diode, that we consider as dynamically ideal, are neglected. Fig. 4c shows the www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711-v1.htm |
STMicroelectronics | 02/04/1999 | 77.25 Kb | HTM | 1711-v1.htm |
| period, is D I L /4, which is supplied for a time T/2. It follows therefore that : D V C = D I L 4C T 2 is ON and -V F ( with V F the forward voltage across the D diode as indicated) when Q1 is OFF. During practically the volt - age across the recirculation diode), where the power saturation and the forward V F drop across the diode era taken into account. The ON and OFF times are established by the fol - lowing phenomena due to the catch diode, that we consider as dynamically ideal, are neglected. Fig. 4c shows the www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711-v2.htm |
STMicroelectronics | 14/06/1999 | 77.21 Kb | HTM | 1711-v2.htm |
| follows therefore that : D V C = D I L 4C T 2 = D I L T 8C = D I L 8fc (19) but diode as indicated) when Q1 is OFF. During this second phase the current cir - culates again through L diode), where the power saturation and the forward V F drop across the diode era taken into account catch diode, that we consider as dynamically ideal, are neglected. Fig. 4c shows the current circulating in the recircula - tion diode. The sum of the currents circulating in the power and in the diode www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711.htm |
STMicroelectronics | 20/10/2000 | 83.97 Kb | HTM | 1711.htm |
| time T/2. It follows therefore that : D V C = D I L 4C T 2 = D I L T is ON and -V F ( with V F the forward voltage across the D diode as indicated) when Q1 is recirculation diode), where the power saturation and the forward V F drop across the diode era taken stage, the phenomena due to the catch diode, that we consider as dynamically ideal, are neglected. Fig. 4c shows the current circulating in the recircula - tion diode. The sum of the currents www.datasheetarchive.com/files/stmicroelectronics/stonline/books/ascii/docs/1711-v3.htm |
STMicroelectronics | 25/05/2000 | 79.09 Kb | HTM | 1711-v3.htm |
| zener diode * MV2201 MV2201 MV2201 MV2201 voltage variable capacitance diode * D1N4002 D1N4002 D1N4002 D1N4002 power diode * D1N4148 D1N4148 D1N4148 D1N4148 switching diode * MBD101 MBD101 MBD101 MBD101 switching * RS for zener diodes: nominal small-signal impedance * at specified operating current * IB for zener diodes: set to nominal leakage current * IBV for zener diodes: at specified operating current * IBV is adjusted to give the rated zener voltage * * * Zener Diodes * * * "A" suffix zeners www.datasheetarchive.com/files/spicemodels/misc/eval.lib |
Spice Models | 20/12/2001 | 295.35 Kb | LIB | eval.lib |