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LTC1150CN8#PBF Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C
LTC1150CS8#TRPBF Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1150CS8#PBF Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1150CS8#TR Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1150CN8 Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C
LTC1150CS8 Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
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LTC1150 datasheet (22)

Part Manufacturer Description Type PDF
LTC1150 Linear Technology ±15V Zero-Drift Operational Amplifier with Internal Capacitors Original PDF
LTC1150 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan PDF
LTC1150 Linear Technology +15 Chopper Stabilized Operatonal Amp With Internal Capacitors Scan PDF
LTC1150 Others Monolithic Op Amp Data Book Scan PDF
LTC1150C Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan PDF
LTC1150CJ8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original PDF
LTC1150CJ8 Linear Technology Chopper Stabilized Operational Amplifier Scan PDF
LTC1150CJ8 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan PDF
LTC1150CN8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original PDF
LTC1150CN8 Linear Technology Chopper Stabilized Operational Amplifier Scan PDF
LTC1150CN8 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan PDF
LTC1150CN8#PBF Linear Technology ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: PDIP; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1150CS8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original PDF
LTC1150CS8 Linear Technology Chopper Stabilized Operational Amplifier Scan PDF
LTC1150CS8 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan PDF
LTC1150CS8#PBF Linear Technology ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1150CS8#TR Linear Technology ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1150CS8#TRPBF Linear Technology ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1150M Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan PDF
LTC1150MJ8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original PDF

LTC1150 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1991 - Not Available

Abstract: No abstract text available
Text: LTC1150 , can directly drive Pin 5 of the slaves. Note that Pin 8 of the slave LTC1150†™s will be pulled , LTC1150 • AI03 Figure 3. Output Level Shift (Option 2) If all the LTC1150†™s are to be , 8-LEAD PLASTIC SO TJMAX = 110°C, θJA = 200°C/W LTC1150MJ8 LTC1150CJ8 J8 PACKAGE 8 , operating from external supplies be applied prior to power-up of the LTC1150. 300 1 1.5 0.4 300 , OUTPUT – Microvolts Thermocouple effects must be considered if the LTC1150†™s ultralow drift


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PDF LTC1150 LTC1150 135dB 120dB 110dB LT1028 1150fb
1991 - HP 5082-4204

Abstract: 5082-4204 LTC1150M LTC1150CS8 LTC1150CN8 LTC1150CJ8 LTC1150C LTC1150 R2C marking LTC1150MJ8
Text: LTC1150's will be pulled up to VS. 10k 2 ­ 7 8 LTC1150 3 LOGIC CIRCUIT 6 + 4 10k ­15V GND LTC1150 · AI03 Figure 3. Output Level Shift (Option 2) If all the LTC1150's , LTC1150's. 1150fb 10 LTC1150 U TYPICAL APPLICATIO S Low Level Photodetector 15pF 1M , LTC1150M (OBSOLETE).­55°C to 125°C LTC1150C . , LTC1150M TYP MAX LTC1150C TYP MAX ±0.5 ±10 ±0.5 ±10 ±0.01 Long Term Offset


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PDF LTC1150 LTC1150 135dB 120dB 110dB LT1028 1150fb HP 5082-4204 5082-4204 LTC1150M LTC1150CS8 LTC1150CN8 LTC1150CJ8 LTC1150C R2C marking LTC1150MJ8
ltc11s

Abstract: TP-003
Text: LTC1150's. The master clock, coming from pin 8 of the master LTC1150 , can directly drive pin 5 of the slaves , S p a c k r g c /o r d c a TOP VIEW m Fonm nnon ORDER PART NUMBER LTC1150MJ8 LTC1150CJ8 , Temperature Range, unless otherwise specified. PA R A M ETER CONDITIONS MIN LTC1150M T YP M AX MIN LTC1150C , CONDITIONS MIN LTC1150M T YP M AX MIN LTC1150C T YP M AX UNITS Input Offset Voltage Average Input Offset , reduction depends on the guard ring width. Thermocouple effects must be considered if the LTC1150's ultra


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PDF 140dB PSRR120dB MinimumCMRR120dB LTC1150 1800Hz 700nVp-p 200nVp-p 360nVp-p 1Hz-160nVp ltc11s TP-003
HP 5082-4204

Abstract: LTC115Q LTC1150MJ8 LTC1150M LTC1150CS8 LTC1150CN8 LTC1150CJ8 LTC1150C LTC1150 R2C marking
Text: .36V Operating Temperature Range to125°C , LTC1150MJ8 LTC1150CJ8 LTC1150CN8 top view 'supply q -in ql + in [3 v-rr j] clock out 3 V+ t] out 11 , "slave" LTC1150's. The master clock, coming from pin 8 of the master LTC1150 , can directly drive pin 5 of , . PARAMETER CONDITIONS LTC1150M MIN TYP MAX LTC1150C MIN TYP MAX UNITS Input Offset Voltage TA = 25°C (Note , CONDITIONS LTC1150M MIN TYP MAX LTC1150C MIN TYP MAX UNITS Input Offset Voltage TA = 25°C(Note 3) ±0.5 Â


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PDF 140dB PSRR120dB CMRR120dB LTC115Q LTC1150- LTC1150 700nVp-p 200nVp-p 1800Hz HP 5082-4204 LTC115Q LTC1150MJ8 LTC1150M LTC1150CS8 LTC1150CN8 LTC1150CJ8 LTC1150C LTC1150 R2C marking
TPC28

Abstract: RS1002
Text: Operating Temperature Range to125°C to 85°C Storage Temperature Range , 7]v* J] out H ext clock in ackage lastic dip ORDER PART NUMBER LTC1150MJ8 LTC1150CJ8 LTC1150CN8 , master LTC1150 , can directly drive pin 5 of the slaves. Note that pin 8 of the slave LTC1150's will be , clock should drive pin 5 of all the LTC1150's. rrmwi TECHNOLOGY 2-329 LTC1150 nppucnnons inFonmnTion


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PDF 140dB PSRR120dB CMRR120dB LTC1150 Ipx109Q LTC1150 700nVp-p 200nVp-p 1800Hz 360nVp-p TPC28 RS1002
Not Available

Abstract: No abstract text available
Text: LTC1150M. -55°C to125°C , sec.). 300°C ORDER PART NUMBER 7 ] CLO CK O UT 7 ]v* LTC1150MJ8 LTC1150CJ8 , calculated from the formula: lN = \ r(2q - lb) where q = 1.6 x 1 (T 19 Coulomb. LTC1150. T€ST , (V) A M B IENT TE M P ER A TU R E (°C) LTC1150-TPC01 Output Short Circuit Current vs Supply Voltage FR EQ U EN C Y (Hz) LTC1’50-TPC03 Supply Current vs R$et LTC1150-TPC13


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PDF LTC1150
Not Available

Abstract: No abstract text available
Text: ±10 ±12.5 ±15 SUPPLY VOLTAGE (V) LTC1150 •TPC31 LTC1150-TPC07 Offset Voltage vs , OUT Z ] v* J] OUT H J8 PACKAGE 8-LEAD CERAMIC DIP LTC 1150M J8 LTC1150CJ8 LTC1150CN8 , applied prior to power-up of the LTC1150. Note 4: Current Noise is calculated from the formula: In , potential close fo u rtim e s the m axim um drift specification of the LTC1150. to that of the inputs: in , axim um drift printed circuit board is required. Bulk leakage reduction specification of the LTC1150.


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PDF LTC115Q LTC1150to
HBT 05-001

Abstract: LTC1150 R2C marking LTC1150C LTC1150CJ8 LTC1150CN8 LTC1150CS8 LTC1150M LTC1150MJ8
Text: Range to125°C , LASTIC DIP ORDER PART NUMBER LTC1150MJ8 LTC1150CJ8 LTC1150CN8 'supply IT -IN [F + IN IT — , [T 8 , Temperature Range, unless otherwise specified. PARAMETER CONDITIONS LTC1150M MIN TYP MAX LTC1150C MIN TYP , CONDITIONS LTC1150M MIN TYP MAX LTC1150C MIN TYP MAX UNITS Input Offset Voltage Ta = 25°C (Note 3)  , applied prior to power-up of the LTC1150. Note 3: These parameters are guaranteed by design. Thermocouple


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PDF 140dB PSRR120dB CMRR120dB LTC1150 Ipx109Q 700nVp-p 200nVp-p 1800Hz 360nVp-p HBT 05-001 LTC1150 R2C marking LTC1150C LTC1150CJ8 LTC1150CN8 LTC1150CS8 LTC1150M LTC1150MJ8
LT1252 equivalent

Abstract: LT1256 equivalent lt1097 equivalent op05 OP05 equivalent LM108 EQUIVALENT LT318A Maxim 97E 346op LT1012A
Text: LT1413iD) OP-05 0P-05E OP-15A, E OP-15B.F OP-16A, E OP-16B, F 0P-215A, E (D) LTC1053 0P-37A LTC1150 , LTC1150 LTC1152 LTC1250 DUAL LT1013 LT1078 LT1178 LTC1047 LTC1051 LTC1151 LT1211 LT1213 LT1215 LT1413 QUAD , N D ) SINGLE LTC1152 DUAL LT1366 LT1368 QUAD LT1367 LT1369 LT1128ALL LTC1049 ALL LTC1150 LTC1050 , LT1113 ALL (D) LT1122ALL LTC1047(D) < 0.2nA LTC1049 ALL LTC1050 LTC1051 (D) LTC1052 LTC1053(Q) LTC1150 , LTC1047 (D) LTC1050 LTC1050A LTC1051 (D) LTC1052 LTC1053(Q) LTC1150 LTC1151 (D) LTC1250 <0.6nV/°C LT1001A


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PDF LF412A LT1022 LT1079 LTC1047 LTC1049ALL LT1112 LT1114 LT1413 OP-97A/E LT1028 LT1252 equivalent LT1256 equivalent lt1097 equivalent op05 OP05 equivalent LM108 EQUIVALENT LT318A Maxim 97E 346op LT1012A
1994 - LTC1049 equivalent

Abstract: LTC1150 equivalent LTC1049 LT1211 LT1178 LT1078 LT1077 LT1006 LT1012A LTC1152
Text: LTC1150 LTC1151 LTC1152 LTC1250 LT1211/12 25µV LT1001A LT1007A LT1012A LT1037A Max Input Offset Voltage (TA = 25°C) 15µV LT1001AM LTC1047 LTC1049 LTC1050 LTC1051 LTC1052 LTC1053 LTC1150 , Operation Single LT1006 LT1077 LTC1049 LTC1050 LTC1150 LTC1152 LTC1250 Dual LT1078 LT1178 , LT1001A LTC1047 LT1007A LTC1050 LT1012A LTC1051 LT1037A LTC1053 LTC1049 LTC1150 LTC1151 LTC1152 LTC1250 100pA LT1008 LT1012A LT1057 LT1058 LT1122 LT1457 LTC1050 LTC1051 LTC1053 LTC1150


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PDF LT1006A LT1012 LT1024A LT1028A LT1077A 17nV/Hz LT1001 LT1002 LT1008 LTC1049 equivalent LTC1150 equivalent LTC1049 LT1211 LT1178 LT1078 LT1077 LT1006 LT1012A LTC1152
1994 - LTC1049 equivalent

Abstract: V49R LTC1150 equivalent LTC1150 LTC1051 equivalent LTC1051 lt1078 lt1028 LT1496 LT1001A
Text: ) LTC®1050 LT1413 (All) LTC1051 LT1464/5 LTC1052 LTC1053 LT1113 LT1124 LT1125 LTC1150 LTC1151 , LTC1050 LTC1051 LTC1052 LTC1053 LTC1150 LTC1151 LTC1152 LTC1250 5nV/Hz LT1007 LT1037 LT1124 , Operation Single LT1006 LTC1049 LTC1050 LT1077 LTC1150 LTC1152 LT1218 LT1219 LTC1250 Dual , LT1012A LTC1051 LT1037A LTC1053 LTC1049 LTC1150 LTC1151 LTC1152 LTC1250 50pA LT1022 LTC1047 LTC1049 LTC1050A LTC1052 LT1055 LT1056 LT1057A LT1058A LTC1150M LT1457A LT1464 100pA LT1008


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PDF LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 LT1057 LT1058 LTC1049 equivalent V49R LTC1150 equivalent LTC1150 LTC1051 equivalent LTC1051 lt1078 LT1496 LT1001A
op07 equivalent single supply

Abstract: T1012A LT1364 equivalent LT318A LT1256 equivalent LTC1150 equivalent lt1056c OP227 LT1201 LT1022A
Text: LTC1047 LTC1049 LTC1050 LTC1050A LTC1051 LTC1052 LTC1053 LTC1150 LTC1151 (D) LTC1152 LTC1250 LTC7652 < 25 , ) LT1128ALL LTC1150 LTC1151 (D) LTC1152 L T 1 1 6 9 (D ) LT1413 (D) LTC7652 OP-27 OP-37 OP-09A/E OP-227 (D) OP , ) SINGLE LT1006 LT1077 LTC1049 LTC1050 LTC1052 LTC1150 LTC1152 LTC1250 DUAL LT1013 LT1078 LT1178 LTC1047 , LTC1051 (D) LTC1052 L TC 1053(Q ) LTC1150 LTC1151 (D) LTC1152 LTC1250 LTC7652 OP-15 A LL 0P-16 A L L OP , /°C LTC 1047(D ) LTC1050 LTC1050A LTC1051 (D) LTC1052 LTC10 5 3 ( 0 ) LTC1150 LTC1151 (D) LTC1250


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PDF LT1078A LT1079A LT1178A LT1179 LT1179A LT1077 LT1078 LT1006 LT1008 LT1012 op07 equivalent single supply T1012A LT1364 equivalent LT318A LT1256 equivalent LTC1150 equivalent lt1056c OP227 LT1201 LT1022A
1996 - LTC1150

Abstract: LTC1150C LTC1150M
Text: SPECIFICATION NOTICE LTC1150 August 1996 The LTC®1150 data sheet has been modified from Rev A , circuits, please refer to the LTC1150 data sheet. , LTC and LT are registered trademarks of Linear , °C No Load MIN LTC1150M TYP ±0.5 ±10 q q 135 180 0.8 0.2 MAX ±10 ±50 ±2.5 135 1.5 2 q LTC1150C TYP MAX ±0.5 ±10 ±10 ±100 ±1.0 180 0.8 1.5 0.2 2 UNITS µV pA nA dB mA mA mA LTC1150C TYP ±0.05 ±10 MAX ±10 ±60 UNITS µV pA ±5 MIN


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PDF LTC1150 LTC1150 LTC1150M LTC1150C LTC1150M
LT1189

Abstract: LTC1051 lt1001s LT1126 LT1208 LT1225 LT1364 LT/SG3527A LT1220
Text: Low Ib Zero Drift LTC1047 LTC1049 LTC1050 LTC1051 LTC1052 LTC1053 LTC1150 LTC1151 LTC1152 LTC1250 (D, 10nV) (S, (S, (D. (S. 10 m V) 5|iV ) 5 m V) 5 m V) Low Noise LT1007 (S. 3.8nV/VHz) LT1028 (S. 1.1 nV/VH z ) LT1037 (S, 3.8nVN Hz) LT1113 (D, 6nV/VHz}_ LT1115 (S, 1.1nV/vHz) LT1124 (D, 4.2nV/\'Hz) LT1125 LT 1126 LT 1127 LT1128 (Q, 4.2nV/\'Hz) (D. 4.2nV/\'Hz) (Q, 4.2nV/VHz) (S ,1.1 nW vH z) Large , , LTC1050 (S, LTC1051 (D. LTC1052(S, LTC1053(Q, LTC1150 (S. LTC1151 (D, LTC1152(S, 50pA) 50pA) 30pA) 50pA


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PDF LTC1047 LTC1049 LTC1050 LTC1051 LTC1052 LTC1053 LTC1150 LTC1151 LTC1152 LTC1250 LT1189 lt1001s LT1126 LT1208 LT1225 LT1364 LT/SG3527A LT1220
1999 - KELVIN-VARLEY DIVIDER

Abstract: hp3458a VDR-307 VARLEY Julie Research Labs jim Williams FLUKE 720A linear jim williams HP11053 seven wonders
Text: STABLE VOLTAGE SOURCE (LTZ1000A BASED) 10k 0.1µF 2 LTC1150 KVD 3 10k ­ 6 IN , 2 10k KVD 10k ­ LTC1150 3 6 IN OUT LT1010 0.1µF A + 2 +V


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PDF LTC2400 24-Bit DSOL11 KELVIN-VARLEY DIVIDER hp3458a VDR-307 VARLEY Julie Research Labs jim Williams FLUKE 720A linear jim williams HP11053 seven wonders
LTC1150

Abstract: LTC1150C LTC1150M AAII
Text: 179 LTC1150 f- H »/J* ■Xft'yJZSL n—JV7—, LINEAR TECHNOLOGY • fi * £ « LTC1150M LTC1150C » e Vs=±15V « s m s 36 36 V PIN1-0PEN AAII -Vs-O. 3-~+ Vs+0. 3 -Vs-0. 3—» Vs+0. 3 V Ta-25°C / / V «>«2 a « -55—+125 -40-+85 *C lis »ite / / nV m « ia ^ m- ««« Hi ft as (a * a Vos 0.0005 0.005 0. 0005 0.005 nV vcxoiaSEhw TC/Vos 0.01 0.05 0.01 0.05 Mire Vocrymsstt Vos/time ® 0.05 / 0.05 / uVH lb 0.01 0.05 0.01 0.1 nA M07M93S. I OS 0. 02 0.06 0.02 0.2 [lA


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PDF LTC1150 LTC1150M LTC1150C Ta-25Â M07M93S. 550Hztyp RL-10k, LTC1150 LTC1150C LTC1150M AAII
2006 - LTC1150

Abstract: LTC1150 equivalent
Text: RELIABILITY DATA LTC1150 / 1151 / 1152 8/21/2006 · OPERATING LIFE TEST PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE CERDIP PLASTIC DIP NEWEST DATE CODE 333 9051 398 9131 731 · HIGHLY ACCELERATED STRESS TEST AT +131°C/85%RH PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE PLASTIC DIP SOIC/SOT/MSOP 140 9131 285 9201 425 · PRESSURE COOKER TEST AT 15 PSIG, +121°C PACKAGE TYPE SAMPLE SIZE PLASTIC DIP SOIC/SOT/MSOP 1,184 1,836 3,020 · TEMP CYCLE FROM


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PDF LTC1150 00-03-6209B. LTC1150 equivalent
9819

Abstract: 9051 LTC1150
Text: RELIABILITY DATA LTC1150 / 1151 / 1152 12/8/2000 · OPERATING LIFE TEST PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE NEWEST DATE CODE CERDIP PLASTIC DIP 287 9051 398 9131 685 · HIGHLY ACCELERATED STRESS TEST AT +131°C/85%RH PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE 9918 9439 140 9131 185 9201 325 · PRESSURE COOKER TEST AT 15 PSIG, +121°C SAMPLE SIZE PLASTIC DIP SOIC/SOT/MSOP 1,084 1,591 2,675 · TEMP CYCLE FROM -65°C to +150°C PACKAGE TYPE


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PDF LTC1150 00-03-6209B. 9819 9051
2003 - coiltronics ctx02-13664

Abstract: CTX02-13664 LTC3439 center tapped transformer LT1964-BYP CTX02 LT1761BYP LT3439 LT1964BYP LT1964
Text: + 5V + A1 LTC1150 ­ A 5V/DIV 1k 10µF ­3.5V HERE Q1 2N3904 10µF + V


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PDF 20kHz 250kHz LT3439 coiltronics ctx02-13664 CTX02-13664 LTC3439 center tapped transformer LT1964-BYP CTX02 LT1761BYP LT1964BYP LT1964
1997 - LT1257

Abstract: LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 AN6677 AN1523 LTC201 spice
Text: Stabilized Instrumentation Amplifier LTC1050 DS 1 NA LTC1150 , LTC1043 LT1215/16 DS 1 , AN45 2 2 LT1028, LT1097 LTM I:2 17 1 LTC1150 , LT1097 Subject Category , 10 14 LTC1052 LT1028 DS 16 14 LT1028, LTC1052 LTC1150 DS 11 NA LTC1150 , 14 18 LTC1150 , LT1097 3V Operation of Linear Technology Op Amps DN56 1 High Gain , LT1010 Stabilized, Wideband Cable-Driving Amplifier AN45 4 6 LTC1150 , LT1010


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PDF DN134) LT1016, LT1097, LT1222 LT1166, LT1431 LT1172, LT1006 LT1013, LT1088, LT1257 LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 AN6677 AN1523 LTC201 spice
2001 - KELVIN-VARLEY DIVIDER

Abstract: VDR-307 HP-419A Julie Research Labs RV-722 AN86 Digital Weighing Scale PIC LM199A LTC1152 LTC2400-Based
Text: LTC1150 KVD 0.1µF A + ­ LTC1152 +V MAIN KVD LT1010 + OUTPUT 0.000000V TO , VOLTAGE SOURCE (LTZ1000A BASED) 10k 0.1µF 10k ­ 10k KVD LT1010 LTC1150 0.1µF A


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PDF 20-Bit 12-bit 16-bit LTC1150 AN86-50 AN86-51 AN86-52 an86f KELVIN-VARLEY DIVIDER VDR-307 HP-419A Julie Research Labs RV-722 AN86 Digital Weighing Scale PIC LM199A LTC1152 LTC2400-Based
2009 - Not Available

Abstract: No abstract text available
Text: above 8V, use an LT1010 buffer to boost the load current capability of the LTC1150. The settling of , BANDWIDTH PRODUCT MHz tSETTLING with LTC2757 μs POWER DISSIPATION mW LTC1150 10 0.05 , applications, the LTC1150 is the simplest 18-bit accurate output amplifier. An auto-zero amp, its , % Maximum Tolerance, 1ppm 0.1Hz to 10Hz Noise LTC1150 ±15V Zero-Drift Op Amp 10μV Maximum Offset


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PDF LTC2757 18-Bit 18bit QFN-64 LT1027 LT1236A-5 LTC1150
1999 - LT2050

Abstract: LT 485 SO8 S8 MARKING ON SOT23 PACKAGE MARKING S6 LTC1049 equivalent LTC2050IS8 LTC2050CS8 LTC2050CS6 LTC2050CS5 LTC2050
Text: Guaranteed LTC1051/LTC1053 Precision Zero-Drift Op Amp Dual/Quad LTC1150 ±15V Zero-Drift Op Amp


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PDF LTC2050 OT-23 OT-23 140dB 130dB LTC1049 LTC1050 LT2050 LT 485 SO8 S8 MARKING ON SOT23 PACKAGE MARKING S6 LTC1049 equivalent LTC2050IS8 LTC2050CS8 LTC2050CS6 LTC2050CS5 LTC2050
2011 - LTC6692

Abstract: LTC2997 B6015L12F LTC2997C LTC2997CDCB ZXM64PO35 LTC2997HDCB LTC2997I LTC2997IDCB MMBT3904
Text: ­ VPTAT 4mV/K 100k 1k ­ 62k GND 143k 7 LTC1150 1 + 4 10mV/°C 0V AT 0 , 1.8V LTC2997 D­ 5V 270k VCC VPTAT 4mV/K 100k ­ 7 LTC1150 1 + 4 62k


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PDF LTC2997 LTC2997 LTC6078 LTC6078 LTC6079 2997fa LTC6692 B6015L12F LTC2997C LTC2997CDCB ZXM64PO35 LTC2997HDCB LTC2997I LTC2997IDCB MMBT3904
2010 - Not Available

Abstract: No abstract text available
Text: capability of the LTC1150. The settling of auto-zero amps is a special case; see Application Note 120, 1ppm , mW LTC1150 10 0.05 5600 90 0.0018 3 2.5 10ms 24 LT1001 25 2 , potentiometer. For DC or low-frequency applications, the LTC1150 is the simplest 18-bit accurate output , -5 Precision Reference 0.05% Maximum Tolerance, 1ppm 0.1Hz to 10Hz Noise LTC1150 ±15V Zero-Drift Op


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PDF LTC2757 18-Bit 48-Pin QFN-52 LTC2755 12-/14-/16-Bit QFN-64 LT1027
Supplyframe Tracking Pixel