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LTC1150CS8#TRPBF Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1150CS8#PBF Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1150CN8#PBF Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1150CN8 Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: PDIP; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1150CS8 Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1150CS8#TR Linear Technology LTC1150 - ±15V Zero-Drift Operational Amplifier with Internal Capacitors; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy

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LTC1150 Datasheet

Part Manufacturer Description PDF Type
LTC1150 Linear Technology ±15V Zero-Drift Operational Amplifier with Internal Capacitors Original
LTC1150 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan
LTC1150 Linear Technology +15 Chopper Stabilized Operatonal Amp With Internal Capacitors Scan
LTC1150 N/A Monolithic Op Amp Data Book Scan
LTC1150C Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan
LTC1150CJ8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original
LTC1150CJ8 Linear Technology Chopper Stabilized Operational Amplifier Scan
LTC1150CJ8 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan
LTC1150CN8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original
LTC1150CN8 Linear Technology Chopper Stabilized Operational Amplifier Scan
LTC1150CN8 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan
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
LTC1150CS8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original
LTC1150CS8 Linear Technology Chopper Stabilized Operational Amplifier Scan
LTC1150CS8 Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan
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
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
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
LTC1150M Linear Technology ±15V Chopper Stabilized Operational Amplifier with Internal Capacitors Scan
LTC1150MJ8 Linear Technology ±15 V Zero-Drift Operational Amplifier with Internal Capacitors Original
Showing first 20 results.

LTC1150

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: LTC1150, can directly drive Pin 5 of the slaves. Note that Pin 8 of the slave LTC1150â'™s will be pulled , LTC1150 â'¢ AI03 Figure 3. Output Level Shift (Option 2) If all the LTC1150â'™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 â'" Microvolts Thermocouple effects must be considered if the LTC1150â'™s ultralow drift Linear Technology
Original
LT1028

HP 5082-4204

Abstract: 5082-4204 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
Linear Technology
Original
HP 5082-4204 5082-4204 R2C marking

TP-003

Abstract: ltc11s 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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OCR Scan
TP-003 ltc11s PSRR120 CMRR120 1800H LTC11S0

HP 5082-4204

Abstract: TPC28 .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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OCR Scan
LTC115Q TPC28 LTCT MARKING LTCL MANGANIN ltc1150is LTC1150-

TPC28

Abstract: RS1002 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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OCR Scan
RS1002
Abstract: -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. Tâ'¬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) LTC1â'™50-TPC03 Supply Current vs R$et LTC1150-TPC13 -
OCR Scan
Abstract: ±10 ±12.5 ±15 SUPPLY VOLTAGE (V) LTC1150 â'¢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. -
OCR Scan

HBT 05-001

Abstract: LTC1150 Range to125°C , LASTIC DIP ORDER PART NUMBER LTC1150MJ8 LTC1150CJ8 LTC1150CN8 'supply IT -IN [F + IN IT â'" , [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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OCR Scan
HBT 05-001 C1150

LT1252 equivalent

Abstract: lt1097 equivalent 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
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OCR Scan
LF412A LT1001 LT1002 LT1006CN8 LT1252 equivalent lt1097 equivalent LT1256 equivalent OP05 equivalent LM108 EQUIVALENT op05 LT1022 LT1079 LTC1049ALL LT1112 LT1114

LTC1049 equivalent

Abstract: LTC1150 equivalent 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
Linear Technology
Original
LTC1049 equivalent LTC1150 equivalent LT06 LT1006A LT1012 LT1024A LT1028A LT1077A LT1213/14

LTC1049 equivalent

Abstract: V49R ) 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
Linear Technology
Original
LT1126 V49R LTC1051 equivalent LT1496 LT1101A lt1115 LT1010 LT1215/16 LT1115 LT1127 LT1014

op07 equivalent single supply

Abstract: T1012A 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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OCR Scan
LT1201 LT1022A 1013D op07 equivalent single supply T1012A LT1364 equivalent lt1056c LM2108A OP AMP LT1078A LT1079A LT1178A LT1179 LT1179A 1049ALL

LTC1150

Abstract: LTC1150C 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
Linear Technology
Original

LT1189

Abstract: LT1126 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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OCR Scan
LT1189 LT1208 LT1225 LT1364 lt1001s LT1097 LT1169 LT1024 LT1187 LT1190

KELVIN-VARLEY DIVIDER

Abstract: hp3458a 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
Linear Technology
Original
LTC2400 KELVIN-VARLEY DIVIDER hp3458a VDR-307 VARLEY Julie Research Labs jim Williams DSOL11

AAII

Abstract: LTC1150 179 LTC1150 f- H »/J* â  Xft'yJZSL nâ'"JV7â'", LINEAR TECHNOLOGY â'¢ fi * £ « LTC1150M LTC1150C » e Vs=±15V « s m s 36 36 V PIN1-0PEN AAII -Vs-O. 3-~+ Vs+0. 3 -Vs-0. 3â'"» Vs+0. 3 V Ta-25°C / / V «>«2 a « -55â'"+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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OCR Scan
AAII RL-10

LTC1150

Abstract: LTC1150 equivalent 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
Linear Technology
Original
00-03-6209B

9819

Abstract: 9051 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
Linear Technology
Original
9819 9051

coiltronics ctx02-13664

Abstract: CTX02-13664 + 5V + A1 LTC1150 ­ A 5V/DIV 1k 10µF ­3.5V HERE Q1 2N3904 10µF + V
Linear Technology
Original
LT3439 LT1964-BYP LT1761BYP coiltronics ctx02-13664 CTX02-13664 LTC3439 center tapped transformer

LT1257

Abstract: LT485 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
Linear Technology
Original
LT1088 LT1257 LT485 AN6752 OP227 "direct replacement" an6266 ltc1097 DN134 LT1070 LT1004 LT1016 LT1222 LT1166
Abstract: 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 , above 8V, use an LT1010 buffer to boost the load current capability of the LTC1150. The settling of , % Maximum Tolerance, 1ppm 0.1Hz to 10Hz Noise LTC1150 ±15V Zero-Drift Op Amp 10μV Maximum Offset Linear Technology
Original
LTC2641/ LTC2642 12-/14-/16-B MSOP-10 DFN-10 LTC2704
Abstract: 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 , capability of the LTC1150. The settling of auto-zero amps is a special case; see Application Note 120, 1ppm , -5 Precision Reference 0.05% Maximum Tolerance, 1ppm 0.1Hz to 10Hz Noise LTC1150 ±15V Zero-Drift Op Linear Technology
Original
LTC1821 LTC2751 QFN-38 LTC2753 QFN-48 LTC2754

LTC1360

Abstract: LTC2757 DISSIPATION mW LTC1150 10 0.05 5600 90 0.0018 3 2.5 10ms 24 LT1001 25 , potentiometer. For DC or low-frequency applications, the LTC1150 is the simplest 18-bit accurate output , capability of the LTC1150. The settling of auto-zero amps is a special case; see Application Note 120, 1ppm , -5 Precision Reference 0.05% Maximum Tolerance, 1ppm 0.1Hz to 10Hz Noise LTC1150 ±15V Zero-Drift Op
Linear Technology
Original
LT1468 LTC1360 LT1460A1 LTC2757BCLX LTC2757C LTC2757I 12-/16-B QFN-52 LTC2755 QFN-64 LT1027 LT1236A-5

KELVIN-VARLEY DIVIDER

Abstract: VDR-307 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
Linear Technology
Original
HP-419A RV-722 LM199A Digital Weighing Scale PIC LTC2400-Based LTC1595 AN86-50 AN86-51 AN86-52
Showing first 20 results.