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LT1006S8 Linear Technology LT1006 - Precision, Single Supply Op Amp; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LT1006S8#TRPBF Linear Technology LT1006 - Precision, Single Supply Op Amp; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LT1006CN8 Linear Technology LT1006 - Precision, Single Supply Op Amp; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LT1006S8#PBF Linear Technology LT1006 - Precision, Single Supply Op Amp; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LT1006CN8#PBF Linear Technology LT1006 - Precision, Single Supply Op Amp; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LT1006S8#TR Linear Technology LT1006 - Precision, Single Supply Op Amp; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy

LT1006 equivalent

Catalog Datasheet MFG & Type PDF Document Tags

LT1001

Abstract: Low Noise Op Amps equivalent Total Noise vs Equivalent Source Resistance -LT1028- LT1007/37" h LT1001 LT1006 LT1013/14 - LT 1012 , The table below lists which op amp gives minimum total noise for a specified equivalent source resistance. A two step prcoedure should be followed to optimize noise: (1) Reduce equivalent source , , LT1006/13/14 LT1012, LT1006/13/14 LT1055/56/22, LT1057/58 600k to 2M LT1012 LT1055/56/22, LT1057/58 LT1012, LT1006/13/14 LT1055/56/22, LT1057/58 2M to 10M LT1055/56/22, LT1057/58 LT1012 LT1055/56/22
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OCR Scan
LT1028 Low Noise Op Amps equivalent lt1007 LT1013 equivalent LT1028 equivalent lt1055 LT1007137 LT1Q01 LT1006/13/14 LT1028- LT1007

LT1028

Abstract: LT1001 = equivalent source resistance = R2 + R1//R3 The table below lists which op amp gives minimum total noise for a specified equivalent source resistance. A two step prcoedure should be followed to optimize noise: (1) Reduce equivalent source resistance to a minimum allowed by the specific application. (2 , LT1055/56/22, LT1057/58 150k to 600k LT1012, LT1006/13/14 LT1012, LT1006/13/14 LT1055/56/22, LT1057/58 600k to 2M LT1012 LT1055/56/22, LT1057/58 LT1012, LT1006/13/14 LT1055/56/22, LT1057/58 2Mto10M LT1055
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OCR Scan
LT105 LT1012 equivalent LT1007 equivalent LT1006 equivalent OP AMP LT1Q12

LT1252 equivalent

Abstract: lt1097 equivalent ) , ) LT1126A (D) LT1178A (D ) OP-07E 0P-07 OP-97A OP-97E LT1002 LT1006 LT1008 LT1012S8 LT1013A (D) LT1024 (D , Gain > 200V/mV LT118A LT318A LT1001 LT1002 (D) LT1006 LT1008 LT1077 LT1078(D) LT1079(Q) LT1112(D , Operate Down to Ground with + V , G N D Voltage Supplies) SINGLE LT1006 LT1077 LTC1049 LTC1050 LTC1052
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OCR Scan
LF412A LT1220 LT1252 equivalent lt1097 equivalent LT1256 equivalent OP05 equivalent LM108 EQUIVALENT op05 LT1022 LTC1047 LTC1049ALL LT1114 LT1413

op07 equivalent single supply

Abstract: T1012A ) LT1179 (Q) LT1179A (Q) < 60|iA LT1077 LT1078 (D) L T 1079(Q ) < 1m A LM 210 8A (D) LM 108A LT1006 LT1008 , LT1222 LT1223 LT1224 LT1225 LT1226 LT1227 LT1228 L T 1 2 2 9 (D ) ,i Low Noise Typ Equivalent , ) LT1006A LT1007 LT1012 L T 1012D LT1012S8 < 150u V LT1002 LT1006 LT1008 LT1012S8 L T1013A (D) L T 1 0 2 4 , LT318A L T1001 LT1002 (D) LT1006 LT1008 LT1077 L T 1 0 7 8 (D ) L T 1 0 7 9 (Q ) LT1112 (0) LT1114 (Q) L , ) SINGLE LT1006 LT1077 LTC1049 LTC1050 LTC1052 LTC1150 LTC1152 LTC1250 DUAL LT1013 LT1078 LT1178 LTC1047
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OCR Scan
LT1201 LTC1051 LT1022A LT1012A 1013D op07 equivalent single supply T1012A LT1364 equivalent lt1056c LTC1150 equivalent LM2108A LT1078A LT1079A LT1014 1049ALL 0P-97A/E LT1022ALL

LT1257

Abstract: LT485 ) LTC1329-50, LT1006 LT1006, LT1013, LT1014, LT1077, LT1078, LT1079, LT1178, LT1179, others (see , 2 2 LT1013, LTC1043 LT1006 DS 11 NA LTC1043, LT1006 LTC1051 DS 1 NA , , LT1088 AN47 64 139A LT1006, LT1088, LT1223 AN47 64 139B LT1006, LT1228 AN52 13 19 LT1006, LT1223 LTC1044, LTC1153, LT1004-2.5 Category Subject RF RF Leveling , LTC1049, LTC201 AN23 10 14 LT1006 LT1006 DS 1 NA LT1006 LF198 DS 11 NA
Linear Technology
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LT1257 LT485 AN6752 OP227 "direct replacement" an6266 ltc1097 DN134 LT1070 LT1004 LT1016 LT1097 LT1166

LTC1164-8

Abstract: LTC1164-8CN 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 ­44 ­50 ­56 ­12 40 ­15 30 , FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 TA = 25°C VS = SINGLE 5V fIN = 1kHz fCLK = 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 ­26 10 0 25°C 4.0 70°C 3.0 , 61.9k 12 LTC1164-8 11 5 8 0.1µF 5V ­5V 1N4148* OR EQUIVALENT 9 7 fCLK 10 6 0.1µF 7.80V 13 3 5V *1N4148 OR EQUIVALENT >1.45V Single Supply
Linear Technology
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LTC1164 LTC1164-8CN LTC1164-8CSW log amp SOL16 LTC1064 LTC1264

LTC1164-8

Abstract: 3A2 capacitor GAIN AT 1CENTER = 1 OUTPUT OP AM P IS LT1006 60 f -9 50 / -2 1 -5 1 TA = 25 , LT1006 80 \ THD + Noise vs Input Voltage TA = 25dC ' V S =± 5V 90 -3 â'¢ THD + , FILTER GAIN AT fcENTER = 1 OUTPL T OP AM P IS LT1006 1 INPUT VOLTAGE (VRMS) FREQUENCY (Hz , filter (BW)f = 0.01 x fcENTER = noise equivalent filter band­ width (B W ) in 61.9k 340S2 , Op Amps for LTC1164-8 SINGLE DUAL QUAD LT1006 LT1012 LT1077 LT1013 LT1078 LT1112
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OCR Scan
3A2 capacitor LK/100 CENTER/10 NTER/25 ENTER/10 CENTER/32 001325G

LTC1164-8

Abstract: LT1220 = 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 TA = 25°C VS = SINGLE 5V fIN = 1kHz fCLK = 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 â'"26 â'"74 0 TA = 25°C VS = ±5V fIN = 1kHz fCLK = 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 , EQUIVALENT 0.1μF 2 7 6 *FOR SURFACE MOUNT CIRCUITS USE MOTOROLA DIODE MBR0530 OR EQUIVALENT 3 + 4 0.1μF
Linear Technology
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CLK/100 LTC1040 434-0507G

LTC1164-8

Abstract: LTC1164-8CN OUTPUT OP AMP IS LT1006 TA = 25°C VS = SINGLE 5V fIN = 1kHz fCLK = 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 ­26 ­74 0 TA = 25°C VS = ±5V fIN = 1kHz fCLK = 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 0 25°C 4.0 70°C 3.0 2.0 OUTPUT LEVEL , 1N4148* OR EQUIVALENT 0.1F 2 7 6 *FOR SURFACE MOUNT CIRCUITS USE MOTOROLA DIODE MBR0530 OR EQUIVALENT 3 + 4 0.1F
Linear Technology
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270VRMS

LTC1164-8

Abstract: LTC1164-8CN OUTPUT OP AMP IS LT1006 ­44 ­50 ­56 ­12 40 ­15 30 ­18 20 ­21 10 ­74 0 , OUTPUT OP AMP IS LT1006 TA = 25°C VS = SINGLE 5V fIN = 1kHz fCLK = 100kHz FILTER GAIN AT fCENTER = 1 OUTPUT OP AMP IS LT1006 ­26 10 0 25°C 4.0 70°C 3.0 2.0 OUTPUT LEVEL (dBV , 5V ­5V 1N4148* OR EQUIVALENT 9 7 fCLK 10 6 0.1µF 7.80V 13 3 5V *1N4148 OR EQUIVALENT >1.45V Single Supply = 12V 14 2 LOW LEVEL Single Supply
Linear Technology
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Diode Equivalent 1N458 up to 500khz center frequency bandpass filter

9435

Abstract: 9418 transistor RELIABILITY DATA LT1006 12/8/2000 · OPERATING LIFE TEST PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE CERDIP HERMETIC PLASTIC DIP SOIC/SOT/MSOP 289 8701 45 9115 438 8701 350 8815 1,122 · HIGHLY ACCELERATED STRESS TEST AT +131°C/85%RH PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE PLASTIC DIP SOIC/SOT/MSOP 287 9207 250 9945 537 · PRESSURE COOKER TEST AT 15 PSIG , Equivalent to +55°C, 60% Confidence Level = 0.81 FITS (3) Mean Time Between Failures in Years = 140,836 (4
Linear Technology
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9435 9418 transistor 9435 sot 98923 8815 k 9435 transistor 00-03-6209B

LTC1164-8

Abstract: AGND = 2 .5V I I S -56 20 \ ° 30 -21 1 CU 1rp JTC P A M P IS LT1006 CJ , GAIN AT fcENTER = 1 OUTPUT OP AM P IS LT1006 I 60 -9 3S -6 o Iâ'" 5 f|N = 1kHz , 1kHz '- 5 0 fa K = 100kHz FILTER GAIN ATfcEM ER = 1 OUTPL T OP AM P IS LT1006 -60 AGNt AT , equivalent filter bandwidth 1000 340ÌÌ 61.9k 50 1.07k 61.9k Table 3. LTC1164-8 Noise , Feedthrough Table 4. Recommended Op Amps for LTC1164-8 S IN G LE DUAL QUAD LT1006 LT1012 LT1077
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OCR Scan
CA95035-7417

LT1006

Abstract: R002 RELIABILITY DATA LT1006 8/21/2006 · OPERATING LIFE TEST PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE CERDIP HERMETIC PLASTIC DIP SOIC/SOT/MSOP NEWEST DATE CODE 289 8701 45 9115 438 8701 350 8815 1,122 · HIGHLY ACCELERATED STRESS TEST AT +131°C/85%RH PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE PLASTIC DIP SOIC/SOT/MSOP 287 9207 746 9945 1,033 · PRESSURE , ) Assumes Activation Energy = 1.0 Electron Volts (2) Failure Rate Equivalent to +55°C, 60% Confidence Level
Linear Technology
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R002

604 LMC

Abstract: accuracy of K type thermocouple LT1012 LT1001 SUPPLY VOLTAGE ±5V SINGLE SUPPLY LTKAOx LT1012 LT1001 LTC1050 LTC1052 LT1006 LTC1050 LTC1052 LTKAOx LTC1050 LTC1052 LT1006 Figure 4. Thermocouple Nonlinearity, 0°C-400°C R, S LTKAOx LT1012 LTC1050 LTC1052 LT1006 Thermocouple Nonlinearities Thermocouples are linear over relatively , LT1025 TEMPERATURES aO °C WHEN SOURCING CURRENT ONLY. ttO R EQUIVALENT. SEE "AMPLIFIER CONSIDERATIONS" v~ t t OR EQUIVALENT. SEE -AMPLIFIER CONSIDERATIONS' 1 Differential Thermocouple Amplifier
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OCR Scan
604 LMC accuracy of K type thermocouple LTK001 C-1200

ERF 2030

Abstract: LT1025AC REQUIRED (OPEN) FOR LT1025 TEMPERATURES £0"C "SELECTED FOR 0°C-100°C RANGE. ttOR EQUIVALENT. SEE , LTC1052 LT1001 LT1001 LT1006 LTC1050 LTC1052 LT1006 R,s LTKAOx LTC1050 LTC1050 LT1012 LTC1052 LTC1052 LTKAOx LT1006 Thermocouple Nonlinearities Thermocouples are linear over relatively , 15V R3 OR EQUIVALENT. SEE "AMPLIFIER CONSIDERATIONS" MUST BE DECREASED APPROPRIATELY. R4 IS NOT REQUIRED (OPEN) FOR LT1025 TEMPERATURES >0°C WHEN SOURCING CURRENT ONLY. ttoR EQUIVALENT. SEE "AMPLIFIER
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OCR Scan
ERF 2030 LT1025AC LTKA PL II thermocouple LT1025ACN8 LT1025AM

eprom 92112

Abstract: SPRAGUE 11Z-2003 A1 LT1006 + * = ±15 GROUND = +5 GROUND = 1N4934 = 1N4148 *1% METAL FILM , 8 A3 LT1006 + 1k 430 220 + 0.33µF ­ A4 1/2 LT1013 Q6 Q3 2N2905 , 1k FB VC VIN R6 1k ­ GND C3 0.01µF R1 1k · VOUT LT1006 C2 1µF + R3 , (MOTOROLA) "M" PREFIXED DIODES = MOTOROLA PNP = 2N3906 NPN = 2N3904 A1 LT1006 4N28 ­ 2k 10k , VSW + A1 LT1006 3.6k ­ 4 GND 200k* 7 8 FB LT1072 VC 10M* 1% D
Linear Technology
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CM55-T13 eprom 92112 SPRAGUE 11Z-2003 AN3030 MALLORY CAPACITOR CATALOG hp5082-2810 STANCOR 11Z-2003 PE-52645 AN30-43 AN30-44 2N2222 LT1072CN8

lt1052

Abstract: LTKA0x ­ EQUIVALENT. SEE "AMPLIFIER CONSIDERATIONS" LT1025 · TA01 1025fb 1 LT1025 U U RATI GS , ±15V ±5V LTKA0x LT1012 LT1001 LTC1050 LTC1052 LT1006 LTC1050 LTC1052 LT1006 LTC1050 LTC1052 LTKA0x LTC1050 LTC1052 LT1006 ERROR TYPE E AND T (°C) 1 5 2 JSCALE 7.5 , TYPE K OR EQUIVALENT. SEE "AMPLIFIER CONSIDERATIONS" Type K Thermometer with Grounded Thermocouple , TEMPERATURES 0°C WHEN SOURCING CURRENT ONLY OR EQUIVALENT. SEE "AMPLIFIER CONSIDERATIONS" *R4 + V
Linear Technology
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lt1052 LTKA0x MARKING AG03 ltc 1025 BD01 LT1025C LTC2050

LTC1164-8

Abstract: LTC1154 -FILTER GAIN AT IcENTER = 1 OUTPUT OP AMP IS LT1006 -26 -32 Ta = 25°C V s = ±5V 1i n = 1kHz 1 CLK= 100kHz FILTER GAIN AT IcENTER = 1 OUTPUT OP AMP IS LT1006 3 "3 2 1 £ -38 -44 -50 -56 -62 -68 0 = , LT1006 Power Supply Current vs Power Supply Voltage Output vs Input -50 -60 AGNI5 AT 2.5V , bandwidth atth e input of the filter (BW)f = 0.01 * fcENTER = noise equivalent filter bandwidth Table 3 , LT1006 LT1012 LT1077 DUAL LT1013 LT1078 LT1112 LT1413 QUAD LT1014 LT1079 LT1114 Clock Feedthrough
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OCR Scan
LTC1154

LTC1164-8

Abstract: - FILTER GAIN AT fcENTER =1 OUTPUT OP AMP IS LT1006 § -5 6 1 â'" g -6 2 40 992 THD + , fcLK = 100kHz FILTER GAIN AT fcENTER = 1 OUTPUT OP AMP IS LT1006 0.5 1.0 1.5 2.0 2.5 , bandwidth at the input of the filter (BW)f = 0.01 x fcENTER = noise equivalent filter band­ width , LT1006 LT1012 LT1077 LT1013 LT1078 LT1112 LT1413 LT1014 LT1079 LT1114 A lia s in g At , /(6AIN x V(BW fi] WHERE: (BW )f * 0.01 x fCENTER AND IS THE NOISE EQUIVALENT BANDWIDTH OF THE FILTER
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OCR Scan
1LTC164-8

LT1025 equivalent

Abstract: FOR 0°C TO 100°C RANGE â' â'  OR LT1025 â'¢ BD01 Vâ'" EQUIVALENT. SEE â'AMPLIFIER , LT1001 LTC1050 LTC1052 LT1006 LTC1050 LTC1052 LT1006 LTC1050 LTC1052 LTKA0x LTC1050 LTC1052 LT1006 ERROR TYPE E AND T (°C) 1 5 2 Jâ'SCALE 7.5 LTKA0x LT1012 3 10 , â'"15V TYPE K â' â'  OR EQUIVALENT. SEE â'AMPLIFIER CONSIDERATIONSâ' Type K Thermometer , EQUIVALENT. SEE â'AMPLIFIER CONSIDERATIONSâ' *R4 ≤ + Vâ'" TYPE K 1025fb 7 LT1025 U
Linear Technology
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LT1025 equivalent
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