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Part : CL21X106KPCLRNC Supplier : Samsung Electro-Mechanics Manufacturer : New Advantage Stock : 48,000 Best Price : $0.1007 Price Each : $0.1070
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1X106

Catalog Datasheet MFG & Type PDF Document Tags

IS705RH

Abstract: IS-705RH the nominal Vcc reset threshold of 4.65V). Using a fluence of 1x106/cm2 , no upsets or transients , reset threshold of 4.65V). Two runs of fluence 1x106/cm2 each were run and a total of 24 (10 + 14) HLH , HLH Transitions Fluence, /cm2 4.5V Expected WDO State 0 0 N.A. 1x106 Cross , N.A. 9 10 6 N.A. 19 N.A. N.A. N.A. 12 2x106 2x106 2x106 1x106 1x106 9.5x10-6 , . 22 N.A. N.A. N.A. 11 1x106 1x106 1x106 5x106 5x106 2.2x10-5 9x10-6 1.1x10-5 0
Intersil
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IS-705RH IS705RH IS-705 25x10 gold metal detectors Upsets

C1383 transistor

Abstract: C1383 ) 1x10-17 2 C911P 0.1 1x106 1x10-17 10 C921P 1 1x106 1x10-17 10 C922P , 115-320 C1321 1x106 165-320 C1322 1x106 165-650 C1342 185-650 300-650 Dark , Response /nm Model 115-200 C1911 115-320 C1921 1x106 165-320 C1922 1x106 , /Offset Voltage @1x106 Gain & 1 V/20 nA Model Dark Counts per Second (cps) Model Dark , Technical Specification Spectral Response /nm Model ENI (W) Dark Current/Offset Voltage @1x106
PerkinElmer Optoelectronics
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MP1952 C1383 transistor C1383 C1921 transistor c1983 transistor C1973 transistor C1983 16 C1300 C1900 96X-2 97X-2 MD1952

MIC910

Abstract: MIC912 0 10 0 1x107 3 4 5 6 7 8 9 SUPPLY VOLTAGE (±V) 40 1x106 0 2 0 200 400 600 , Rejection Ratio 1x107 1x106 1x105 Negative Power Supply Rejection Ratio 80 ­PSRR (dB) 100 80 60 40 VSUPPLY = ±5V 60 40 VSUPPLY = ±5V FREQUENCY (Hz) 5 1x107 1x106 1x105 1x102 1x107 1x106 1x105 0 1x104 0 1x103 20 1x102 20 1x104 +PSRR (dB) 1x104 FREQUENCY (Hz) 100 June 2000 1x103 1x102 1x107 1x106 1x105
Micrel Semiconductor
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MIC912 MIC912BM5 MIC910 200MH

MIC910

Abstract: MIC912 ) March 2001 FREQUENCY (MHz) 5 1x107 1x106 1x105 RL = 100 30 20 10 0 315 270 , 1x105 1x107 1x106 1x105 1x104 1x102 1x103 -10 GAIN (dB) 10 0 20 50 40 , 40 40 1x106 GAIN (dB) 60 0 CL = 50 Open-Loop Frequency Response PHASE (° , Negative Power Supply Rejection Ratio 100 1x103 1x102 1x107 1x106 1x105 1x104 FREQUENCY (Hz) 1x107 FREQUENCY (Hz) 1x103 1x107 1x102 0 1x106 0 1x105 0
Micrel Semiconductor
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Abstract: CMRR (dB) 80 60 40 20 VSUPPLY = ± 9V 1x102 1x103 1x104 1x105 1x106 1x106 1x106 3 4 , 1x102 1x103 1x104 1x105 1x106 1x107 FREQUENCY (Hz) FREQUENCY (Hz) May 2000 5 1x107 1x107 1x102 1x103 1x104 1x105 1x106 1x107 1x102 1x103 1x104 1x105 1x106 1x107 0 1x107 0 MIC912 MIC912 Micrel Open-Loop Gain 70 60 40 30 20 10 0 , -45 -90 VCC = ± 5V 1x106 1x105 1x106 1x107 1x108 1x105 1x107 1x108 5x108 Micrel Semiconductor
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Abstract: = ±5V 60 FREQUENCY (Hz) March 2001 FREQUENCY (MHz) 5 1x107 1x106 1x105 RL , 1x105 5x108 -20 VCC = ±5V 1x105 1x107 1x106 1x105 1x104 1x102 1x103 -10 , 1000pF 500pF 200pF 100pF 7 1x10 40 40 1x106 GAIN (dB) 60 0 CL = 50 , 1x107 1x106 1x105 1x104 FREQUENCY (Hz) 1x107 FREQUENCY (Hz) 1x103 1x107 1x102 0 1x106 0 1x105 0 1x104 20 1x103 20 1x102 20 1x106 +PSRR (dB Micrel Semiconductor
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sot-23-5 marking code

Abstract: lk50 Micrel 100 December 1998 60 Awaiting Further Characterization Data 40 0 1x106 , IL = 50mA CL = 1µF VIN = VOUT + 1 FREQUENCY (Hz) 1x106 40 100x103 RIPPLE VOLTAGE (dB) FREQUENCY (Hz) 1x106 100x103 10x103 IL = 1mA CL = 1µF VIN = VOUT + 1 1x103 0 Ripple , Characterization Data 80 10x100 RIPPLE VOLTAGE (dB) FREQUENCY (Hz) 1x106 100x103 10x103 , Transient 1 INPUT (V) 4 0 1x106 100x103 10x103 IL = 100µA CL = 0.1µF VIN = VOUT +
Micrel Semiconductor
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MIC5203 sot-23-5 marking code lk50 LA30 LA36 LA38 LA40

esd anti

Abstract: -1001 YY-1001 N/A N/A Unit: mm o o Value: 1x106 < R < 1x109 1x103 < R < 1x106 1x105 < R < 1x108 , point. The guideline in ESD STM-4.1 for RTG is 1x106 to 1x109 ohms. ANSI/ESD S-20.20 has an upper limit , >1x106 ohms. Important Notice: This data sheet and its contents (the "Information") belong to the
Multicomp
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esd anti

LU-24

Abstract: LU18 0.01µF 1µF 60 50 0.01µF 40 30 20 10 CBYP = 0 60 50 40 30 20 10 1x101 1x102 1x103 1x104 1x105 1x106 40 30 20 10 CBYP = 0 C BYP =0 1x101 1x102 1x103 1x104 1x105 1x106 1x101 , Performance 1x10-5 CBYP = 0 1x10-6 Ground Current vs. Output Current 75 GROUND CURRENT (µA) 0.01µF 74 73 72 71 70 40 30 20 10 1x101 1x102 1x103 1x104 1x105 1x106 CBYP = 0 1x10 -7 CBYP , 1x106 0 1x10-8 OUTPUT CURRENT (mA) FREQUENCY (Hz) FREQUENCY (Hz) Ground Pin Current
Micrel Semiconductor
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LU-24 LU18 MIC5247 MIC5247-

mathcad

Abstract: mathcad calculates output capacitors -20 -30 -40 1E+2 1x103 1x104 1E+55 1x106 1E+3 1E+4 1x10 1E+6 100 FREQUENCY Mag := G(fc) Mag , (dB) 40 30 20 10 0 1E+2 1x103 1x104 1x105 1x106 1x107 100 1E+3 1E+4 1E+5 1E+6 1E+7 FREQUENCY , Amplifier Phase -100 0 100 1E+1 1E+2 1x103 1x104 1x105 1x106 10 100 1E+3 1E+4 1E+5 1E+6 , Gain 50 0 -50 1E+2 1x103 1x104 1E+55 1x106 1E+3 1E+4 1x10 1E+6 100 FREQUENCY -50 Total Open Loop Phase PHASE (Deg) -100 -150 -200 -250 1E+1 1E+2 1x103 1x104 1x105 1x106 10
Micrel Semiconductor
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MIC2169 mathcad mathcad calculates output capacitors dean venable MIC2168/69

MIC860

Abstract: MIC860BC5 ) 5 0 1x100 0 1x106 20 10 VCC = 2.7V 1x105 20 1x104 -60 -40 -20 0 20 40 , CURRENT (mA) Short Circuit Current (sink) vs. Temperature 10 1x106 27 -5 15 1x105 , Gain Frequency Response 0 -45 -180 -225 1x107 2x107 1x106 -90 -135 VCC = 2.7V , 1x107 2x107 1x106 1x105 3.5 VCC = 5.0V 3 2.5 2 VCC = 2.7V 1.5 Note: To drive , -10 R = 5k L -15 C = 2pF L -20 A = 1 V -25 -90 -135 1x106 1x104 1x107 2x107
Micrel Semiconductor
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MIC860 MIC860BC5 SC70-5 SC-70

MIC860

Abstract: MIC860BC5 ) 1x101 1x100 0 1x106 1x105 1x104 1x103 10 VCC = 5V 0 1x102 -60 -40 -20 0 , CIRCUIT CURRENT (mA) 2.7V 5V 20 1x106 31 -4 25 1x105 5V 33 5V -3.5 , Gain Frequency Response 0 -45 -180 -225 1x107 2x107 1x106 -90 -135 VCC = 2.7V , 1x107 2x107 1x106 1x105 3.5 VCC = 5.0V 3 2.5 2 VCC = 2.7V 1.5 Note: To drive , L -15 C = 2pF L -20 A = 1 V -25 -90 -135 1x106 1x104 1x107 2x107 -180 -225
Micrel Semiconductor
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LU18

Abstract: LU20 CURRENT (µA) GROUND CURRENT (µA) PSRR (dB) 1x10-6 74 Ground Pin Current ILOAD = 100µA GROUND CURRENT (µA) GROUND CURRENT (µA) CBYP = 0 100 MIC5247 1x106 75 1x10-5 , Ground Current vs. Output Current 1x106 1x106 1x104 1x103 1x102 1x105 CBYP = 0 0 , Ratio 60 1x105 1x101 1x106 1x105 1x102 1x101 1x104 OUT 0 1x104 10 , 50 0.01µF 1x102 PSRR (dB) 60 C =0 BYP 50 1x103 PSRR (dB) 70 0.01µF 1x106
Micrel Semiconductor
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LU20

LU18

Abstract: LU20 VOLTAGE (V) 73 1x10-1 1x10-8 VIN = 2.8V VOUT = 1.8V COUT = 4.7µF 1x106 1x10 CBYP = 0.01µF 1x105 -7 GROUND CURRENT (µA) GROUND CURRENT (µA) GROUND CURRENT (µA) 1x10-6 74 Ground Pin Current ILOAD = 100µA GROUND CURRENT (µA) 1x106 CBYP = 0 100 , 2.4V COUT = 10µF Ceramic 0 Ground Current vs. Output Current 1x104 1x106 1x104 1x103 , Ceramic 0 1x102 1x102 1x101 0 CBYP = 0 30 1x101 10 1x106 20 1x105 30
Micrel Semiconductor
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Abstract: 0 -10 0 -45 0 -5 0 -45 0 -5 0 -45 3.5 1x107 2x107 1x106 60 50 40 30 20 10 VCC = 2.7V 0 1x106 1x107 2x107 -180 -225 2 VCC = 2.7V 1.5 Note: To drive , CAPACITIVE LOAD (pF) PSRR (dB) -90 -135 1x106 1x105 1x104 VCC = 2.7V -10 R = 5k L -15 C , -15 C = 2pF L -20 A = 1 V -25 1x101 Unity Gain Frequency Response -90 -135 1x106 , 1x105 -90 -135 1x106 1x105 1x104 VCC = 5V -20 A = 10 V -30 R = 1M L -40 C = 2pF L Micrel Semiconductor
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ic 725 op amp

Abstract: INA116 +25°C 44 1x106 -40°C -2.5 CMRR (dB) +85°C 1.0 -2.0 PHASE MARGIN (°) 1.5 , Rejection Ratio 80 1x107 1x102 1x107 1x106 1x105 1x104 1x102 FREQUENCY (Hz) VSUPPLY = ±9V 0 1x103 1x107 1x106 1x105 1x104 0 40 20 20 1x103 1x102 0 VSUPPLY = ±9V 1x106 20 40 60 1x105 VSUPPLY = ±5V 60 1x104 60 80 1x103 , ) 100 VSUPPLY = ±5V 20 40 VSUPPLY = ±5V -50 -60 -70 -80 -90 7 1x107 1x106
Micrel Semiconductor
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MIC916 MIC916BQS ic 725 op amp INA116 op amp CLOSED-LOOP GAIN MHZ 135MH QSOP-16

ic 725 op amp

Abstract: 100 VSUPPLY = ±9V 1x107 SOURCING CURRENT +25°C 44 1x106 -40°C -2.5 CMRR , 1x107 1x106 1x105 1x104 1x102 FREQUENCY (Hz) VSUPPLY = ±9V 0 1x103 1x107 1x106 1x105 1x104 0 40 20 20 1x103 1x102 0 VSUPPLY = ±9V 1x106 20 40 , VSUPPLY = ±5V -50 -60 -70 -80 -90 7 1x107 1x106 1x105 1x104 FREQUENCY (Hz) September 2000 -40 -100 1x103 0 1x102 FREQUENCY (Hz) 1x107 1x106 1x105 1x104
Micrel Semiconductor
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MIC916

Abstract: MIC916BQS 0 0 -3.5 -4.0 20 40 60 80 OUTPUT CURRENT (mA) 75 -3.0 VSUPPLY = ±5V 1x106 , FREQUENCY (Hz) VSUPPLY = ±9V VSUPPLY = ±9V 1x107 1x106 1x102 1x107 1x106 FREQUENCY (Hz) 1x105 1x102 0 1x104 0 1x107 1x106 1x105 1x104 40 20 20 1x103 , FREQUENCY (Hz) FREQUENCY (Hz) VSUPPLY = ±5V -60 -70 -80 7 1x107 1x106 1x105 FREQUENCY (Hz) 1x108 -90 1x104 0 -50 -100 1x103 FREQUENCY (Hz) 1x107 1x106
Micrel Semiconductor
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MIC916YQS M9999-042205
Abstract: 1X10'6 A 1X106 min. EMW-6081B EMS -6081B EMT-6081B EME-2061B EMF-2061B Max. Output -
OCR Scan
PKE04A1

transistor 1x100

Abstract: LU18 C = 10µF Ceramic OUT 1x104 1x105 1x106 1x101 1x102 1x103 1x104 1x105 1x102 1x103 1x104 1x105 FREQUENCY (Hz) 1x106 FREQUENCY (Hz) FREQUENCY (Hz) Power Supply , GROUND CURRENT (µA) Ground Current vs. Output Current 0.01µF 1µF 1x10-5 CBYP = 0 1x10-6 74 73 72 71 70 40 30 CBYP = 0 1x100 1x10-1 1x101 1x102 1x103 1x104 1x105 1x106 1x101 1x102 1x103 1x104 1x105 1x106 1x10-8 OUTPUT CURRENT (mA) FREQUENCY (Hz
Micrel Semiconductor
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transistor 1x100 90BSC 60BSC TSOT-23-5

Rope Pull Switch

Abstract: 611.1431.060 the nominal Vcc reset threshold of 4.65V). Using a fluence of 1x106/cm2 , no upsets or transients , reset threshold of 4.65V). Two runs of fluence 1x106/cm2 each were run and a total of 24 (10 + 14) HLH , HLH Transitions Fluence, /cm2 4.5V Expected WDO State 0 0 N.A. 1x106 Cross , N.A. 9 10 6 N.A. 19 N.A. N.A. N.A. 12 2x106 2x106 2x106 1x106 1x106 9.5x10-6 , . 22 N.A. N.A. N.A. 11 1x106 1x106 1x106 5x106 5x106 2.2x10-5 9x10-6 1.1x10-5 0
Altech
Original
Rope Pull Switch 611.1431.060

zettler az830-2c

Abstract: AZ830 ) March 2001 FREQUENCY (MHz) 5 1x107 1x106 1x105 RL = 100 30 20 10 0 315 270 , 1x105 1x107 1x106 1x105 1x104 1x102 1x103 -10 GAIN (dB) 10 0 20 50 40 , 40 40 1x106 GAIN (dB) 60 0 CL = 50 Open-Loop Frequency Response PHASE (° , Negative Power Supply Rejection Ratio 100 1x103 1x102 1x107 1x106 1x105 1x104 FREQUENCY (Hz) 1x107 FREQUENCY (Hz) 1x103 1x107 1x102 0 1x106 0 1x105 0
Zettler Electronics
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AZ830 D-82178 zettler az830-2c magnetic pickup E43203 UL1950

AZ822

Abstract: AZ822-2C-12DSE 0 10 0 1x107 3 4 5 6 7 8 9 SUPPLY VOLTAGE (±V) 40 1x106 0 2 0 200 400 600 , Rejection Ratio 1x107 1x106 1x105 Negative Power Supply Rejection Ratio 80 ­PSRR (dB) 100 80 60 40 VSUPPLY = ±5V 60 40 VSUPPLY = ±5V FREQUENCY (Hz) 5 1x107 1x106 1x105 1x102 1x107 1x106 1x105 0 1x104 0 1x103 20 1x102 20 1x104 +PSRR (dB) 1x104 FREQUENCY (Hz) 100 June 2000 1x103 1x102 1x107 1x106 1x105
Relpol
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AZ822 AZ822-2C-12DSE AZ822-2C-24DSE AZ822-2C-48DSE AZ822-2C-5DSE AZ822-2C-6DSE CUR-E43203
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