2N3904 TRANSISTOR using darlington amplifier
Abstract: crystal 20Mhz of 2n3904 10mhz crystal oscillator 74LS04 as colpitts oscillator 74LS04 LT1034 20MHz quartz crystal crystal oscillator 4049 LT1011
Text: Application Note 12 October 1985 Circuit Techniques for Clock Sources Jim Williams Almost all digital or communication systems require some form of clock source. Generating accurate and stable clock signals is often a difficult design problem. Quartz crystals are the basis for most clock sources. The
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50ppm
an25fa
AN12-8
2N3904 TRANSISTOR using darlington amplifier
crystal 20Mhz
of 2n3904
10mhz crystal oscillator
74LS04 as colpitts oscillator
74LS04
LT1034
20MHz quartz crystal
crystal oscillator 4049
LT1011
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CANON-FN30
Abstract: ROSEMOUNT-118MF-100 PC-SS0-32 PICO-31080 CA3046 pnp array CANON-FN30-R13NIB IC 74C906 canon eos pco 35 Voltage to Current Converter dual 4-20mA scheme
Text: Application Note 11 September 1985 Designing Linear Circuits for 5V Single Supply Operation Jim Williams In predominantly digital systems it is often necessary to include linear circuit functions. Traditionally, separate power supplies have been used to run the linear components see Box, “Linear Power Supplies—Past, Present,
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an11f
AN11-16
CANON-FN30
ROSEMOUNT-118MF-100
PC-SS0-32
PICO-31080
CA3046 pnp array
CANON-FN30-R13NIB
IC 74C906
canon eos
pco 35
Voltage to Current Converter dual 4-20mA scheme
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Snubber circuits theory, design and application
Abstract: CTX08-13916 IRF640 application note SEM-700 Closing The Feedback Loop UNITRODE product and applications handbook telsa power MOSFET IRF640 80 watt power MOSFET IRF640 80 watt as switch philips 3C85 ferrite material PHILIPS toroidal core 3c85
Text: APPLICATION NOTE U-165 - SLUU096 - JUNE 2001 Lisa Dinwoodie Reference Design: Isolated 50 Watt Flyback Converter Using the UCC3809 Primary Side Controller UNITRODE CORPORATION U-165 Reference Design: Isolated 50 Watt Flyback Converter Using the UCC3809 Primary Side Controller
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U-165
SLUU096
UCC3809
U-165
Snubber circuits theory, design and application
CTX08-13916
IRF640 application note
SEM-700 Closing The Feedback Loop
UNITRODE product and applications handbook
telsa
power MOSFET IRF640 80 watt
power MOSFET IRF640 80 watt as switch
philips 3C85 ferrite material
PHILIPS toroidal core 3c85
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power MOSFET IRF640 80 watt
Abstract: OSCON 6SH330M power MOSFET IRF640 80 watt as switch Snubber circuits theory, design and application SEM-700 Closing The Feedback Loop FERRITE TRANSFORMER 20khz toroid unitrode SEM-1100 CTX08-13916 IGBT gate optocoupler driver for a buck converter 3C85 toroid
Text: APPLICATION NOTE U-165 Lisa Dinwoodie Design Review: Isolated 50 Watt Flyback Converter Using the UCC3809 Primary Side Controller and the UC3965 Precision Reference and Error Amplifier U-165 Design Review: Isolated 50 Watt Flyback Converter Using the UCC3809 Primary Side
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U-165
UCC3809
UC3965
power MOSFET IRF640 80 watt
OSCON 6SH330M
power MOSFET IRF640 80 watt as switch
Snubber circuits theory, design and application
SEM-700 Closing The Feedback Loop
FERRITE TRANSFORMER 20khz toroid
unitrode SEM-1100
CTX08-13916
IGBT gate optocoupler driver for a buck converter
3C85 toroid
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uc 3808
Abstract: RELEASE # 3808 release 3808 97009 2N2222A JAN uc+3808+pdf
Text: UCC2808-1, UCC2808-2, UCC3808-1, UCC3808-2 LOW POWER CURRENT MODE PUSH-PULL PWM ą SLUS168D – APRIL 1999 – REVISED AUGUST 2002 D Dual Output Drive Stages in Push-Pull D D D D D D D D OR N PACKAGE TOP VIEW Configuration 130-µA Typical Starting Current
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UCC2808-1,
UCC2808-2,
UCC3808-1,
UCC3808-2
SLUS168D
500-mA
UCC3808
uc 3808
RELEASE # 3808
release 3808
97009
2N2222A JAN
uc+3808+pdf
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Untitled
Abstract: No abstract text available
Text: LM75 www.ti.com SNOS808N – MAY 2004 – REVISED MAY 2012 LM75A Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75 FEATURES DESCRIPTION • • The LM75A is an industry-standard digital temperature sensor with an integrated Sigma-Delta
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SNOS808N
LM75A
LM75As
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LM75A
Abstract: No abstract text available
Text: LM75A www.ti.com SNOS808O – JANUARY 2000 – REVISED MAY 2013 LM75A Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75A FEATURES DESCRIPTION • • The LM75A is an industry-standard digital temperature sensor with an integrated Sigma-Delta
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LM75A
SNOS808O
LM75A
LM75As
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LM75A
Abstract: No abstract text available
Text: LM75 www.ti.com SNOS808N – MAY 2004 – REVISED MAY 2012 LM75A Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75 FEATURES DESCRIPTION • • The LM75A is an industry-standard digital temperature sensor with an integrated Sigma-Delta
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SNOS808N
LM75A
LM75As
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Untitled
Abstract: No abstract text available
Text: LM75A www.ti.com SNOS808O – JANUARY 2000 – REVISED MAY 2013 LM75A Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75A FEATURES DESCRIPTION • • The LM75A is an industry-standard digital temperature sensor with an integrated Sigma-Delta
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LM75A
SNOS808O
LM75A
LM75As
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LM75A
Abstract: No abstract text available
Text: LM75 www.ti.com SNOS808N – MAY 2004 – REVISED MAY 2012 LM75A Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75 FEATURES operation as thermostat 1 • • 23 • • No external components required Shutdown mode to minimize power
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SNOS808N
LM75A
LM75As
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Untitled
Abstract: No abstract text available
Text: LM75B, LM75C www.ti.com SNIS153B – JULY 2009 – REVISED MARCH 2013 LM75B LM75C Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75B, LM75C FEATURES DESCRIPTION • • The LM75B and LM75C are industy-standard digital
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LM75B,
LM75C
SNIS153B
LM75B
LM75C
LM75s
LM75C)
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Untitled
Abstract: No abstract text available
Text: LM75B, LM75C www.ti.com SNIS153B – JULY 2009 – REVISED MARCH 2013 LM75B LM75C Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75B, LM75C FEATURES DESCRIPTION • • The LM75B and LM75C are industy-standard digital
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LM75B,
LM75C
SNIS153B
LM75B
LM75C
LM75B
LM75s
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T01B
Abstract: 2N2222A metal package
Text: LM75B, LM75C www.ti.com SNIS153B – JULY 2009 – REVISED MARCH 2013 LM75B LM75C Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75B, LM75C FEATURES DESCRIPTION • • The LM75B and LM75C are industy-standard digital
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LM75B,
LM75C
SNIS153B
LM75B
LM75C
LM75s
LM75C)
T01B
2N2222A metal package
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Untitled
Abstract: No abstract text available
Text: LM75B, LM75C www.ti.com SNIS153B – JULY 2009 – REVISED MARCH 2013 LM75B LM75C Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75B, LM75C FEATURES DESCRIPTION • • The LM75B and LM75C are industy-standard digital
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LM75B,
LM75C
SNIS153B
LM75B
LM75C
LM75B
LM75s
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Untitled
Abstract: No abstract text available
Text: LM75B, LM75C www.ti.com SNIS153A – JULY 2009 – REVISED NOVEMBER 2010 LM75B LM75C Digital Temperature Sensor and Thermal Watchdog with Two-Wire Interface Check for Samples: LM75B, LM75C FEATURES 1 • • 2 • • • No External Components Required Shutdown Mode to Minimize Power
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LM75B,
LM75C
SNIS153A
LM75B
LM75C
LM75s
LM75C)
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BC237
Abstract: MARKING CODE diode sod123 W1 K 2056 transistor
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MGSF3455XT1 Preliminary Information Motorola Preferred Device Low rDS on Small-Signal MOSFETs TMOS Single P-Channel Field Effect Transistors Part of the GreenLine Portfolio of devices with energy– conserving traits.
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MGSF3455XT1
T218A
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
MV1636
MV1640
MV1642
BC237
MARKING CODE diode sod123 W1
K 2056 transistor
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BC237
Abstract: No abstract text available
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA JFET Chopper P–Channel — Depletion 2 SOURCE MMBFJ177LT1 3 GATE 1 DRAIN 3 1 MAXIMUM RATINGS Rating Drain–Gate Voltage Reverse Gate–Source Voltage Symbol Value Unit VDG 25 Vdc VGS r – 25 Vdc 2 CASE 318 – 08, STYLE 10
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MMBFJ177LT1
236AB)
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
MV1636
MV1640
BC237
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BC237
Abstract: MPSA06 346
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MMBD1000LT1 MMBD2000T1 MMBD3000T1 MMSD1000T1 Switching Diode Part of the GreenLine Portfolio of devices with energy–conserving traits. This switching diode has the following features: • Very Low Leakage ≤ 500 pA promotes extended battery life by decreasing energy waste
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MMBD1000LT1
MMBD2000T1
MMBD3000T1
MMSD1000T1
MMBD1000LT1
OT-23
O-236AB)
V218A
MSC1621T1
MSC2404
BC237
MPSA06 346
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BC237
Abstract: No abstract text available
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA JFET Chopper MMBFJ175LT1 P–Channel — Depletion Motorola Preferred Device 2 SOURCE 3 GATE 3 1 DRAIN 1 2 MAXIMUM RATINGS Rating Drain – Gate Voltage Reverse Gate – Source Voltage Symbol Value Unit VDG 25 V VGS r
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MMBFJ175LT1
236AB)
Ga218A
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
MV1636
BC237
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2n2222 h 331 transistors
Abstract: 2n2222 -331 transistors 2n2222 331 transistors BC237 2n2222 h 331 MARKING CODE diode sod123 W1
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MGSF3442XT1 Preliminary Information Motorola Preferred Device Low rDS on Small-Signal MOSFETs TMOS Single N-Channel Field Effect Transistors Part of the GreenLine Portfolio of devices with energy– conserving traits.
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MGSF3442XT1
T218A
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
MV1636
MV1640
MV1642
2n2222 h 331 transistors
2n2222 -331 transistors
2n2222 331 transistors
BC237
2n2222 h 331
MARKING CODE diode sod123 W1
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2N16
Abstract: BC237 BCY72
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MGSF1P02ELT1 Preliminary Information Motorola Preferred Device Low rDS on Small-Signal MOSFETs TMOS Single P-Channel Field Effect Transistors Part of the GreenLine Portfolio of devices with energy– conserving traits.
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MGSF1P02ELT1
L218A
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
MV1636
MV1640
MV1642
2N16
BC237
BCY72
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BC237
Abstract: MARKING CODE diode sod123 W1
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MGSF3441XT1 Preliminary Information Motorola Preferred Device Low rDS on Small-Signal MOSFETs TMOS Single P-Channel Field Effect Transistors Part of the GreenLine Portfolio of devices with energy– conserving traits.
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MGSF3441XT1
T218A
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
MV1636
MV1640
MV1642
BC237
MARKING CODE diode sod123 W1
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2N643
Abstract: BC237 MARKING DP SOT-363 DO204AA
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MMBD1010LT1 MMBD2010T1 MMBD3010T1 Switching Diode Part of the GreenLine Portfolio of devices with energy–conserving traits. This switching diode has the following features: • Very Low Leakage ≤ 500 pA promotes extended battery life by decreasing energy waste. Guaranteed leakage limit is for each diode in the pair
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MMBD1010LT1
MMBD2010T1
MMBD3010T1
MMBD1010LT1
S218A
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
2N643
BC237
MARKING DP SOT-363
DO204AA
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BC237
Abstract: MMBD2005T1
Text: MOTOROLA SEMICONDUCTOR TECHNICAL DATA MMBD1005LT1 MMBD2005T1 MMBD3005T1 Switching Diode Part of the GreenLine Portfolio of devices with energy–conserving traits. This switching diode has the following features: • Very Low Leakage ≤ 500 pA promotes extended battery life by decreasing energy waste. Guaranteed leakage limit is for each diode in the pair
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MMBD1005LT1
MMBD2005T1
MMBD3005T1
MMBD1005LT1
MSC1621T1
MSC2404
MSD1819A
MV1620
MV1624
MV1636
BC237
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