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LTC1152IS8#PBF Linear Technology LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LTC1152IS8#TRPBF Linear Technology LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LTC1152CS8 Linear Technology LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1152CS8#TR Linear Technology LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1152CS8#TRPBF Linear Technology LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LTC1152IS8 Linear Technology LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C

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LTC1152CN8#PBF Linear Technology RS Components 18 £5.46 £4.20
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LTC1152CS8#PBF Linear Technology TME Electronic Components 12 $6.93 $4.95
LTC1152CS8#PBF Linear Technology Chip1Stop 40 $7.95 $4.67
LTC1152CS8#PBF Linear Technology element14 Asia-Pacific 0 $8.13 $4.36
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LTC1152 datasheet (15)

Part Manufacturer Description Type PDF
LTC1152 Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Original PDF
LTC1152C Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Original PDF
LTC1152CN8 Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Original PDF
LTC1152CN8#PBF Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: PDIP; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1152CS8 Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Original PDF
LTC1152CS8#PBF Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1152CS8#TR Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1152CS8#TRPBF Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; No of Pins: 8; Temperature Range: 0°C to +70°C Original PDF
LTC1152I Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Original PDF
LTC1152IN8 Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Original PDF
LTC1152IN8#PBF Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: PDIP; No of Pins: 8; Temperature Range: -40°C to +85°C Original PDF
LTC1152IS8 Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp Original PDF
LTC1152IS8#PBF Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; No of Pins: 8; Temperature Range: -40°C to +85°C Original PDF
LTC1152IS8#TR Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; No of Pins: 8; Temperature Range: -40°C to +85°C Original PDF
LTC1152IS8#TRPBF Linear Technology Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp; Package: SO; No of Pins: 8; Temperature Range: -40°C to +85°C Original PDF

LTC1152 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1995 - LT 1152

Abstract:
Text: COMP LTC1152CN8 LTC1152CS8 LTC1152IN8 LTC1152IS8 N8 PACKAGE 8-LEAD PDIP S8 PACKAGE 8 , bandwidth of the LTC1152. With 0.1µF from pin 5 to pin 6, the LTC1152's gain-bandwidth product is reduced , Duration (Pin 6) . Indefinite Operating Temperature Range LTC1152C. 0°C to 70°C LTC1152I. ­ 40°C to 85°C Storage Temperature , residual charge pump switching noise will be present on the output of the LTC1152. This feedthrough is at


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PDF LTC1152 100nV/ 115dB 254mm) LT 1152 LTC1152 LTC1152C LTC1152CN8 LTC1152CS8 LTC1152I LTC1152IN8 LTC1152IS8
Not Available

Abstract:
Text: also be used to limit the bandwidth of the LTC1152. With O.IjjF from pin 5 to pin 6, the LTC1152†™s , - 0.3V Output Short-Circuit Duration (Pin 6 ) Indefinite Operating Temperature Range LTC1152C. 0°C to 70°C LTC1152I. -40°C to 85°C Storage Temperature Range , PART NUMBER T O P V IEW u SHDN E 1 ] CP -IN [ J 2 +IN ¡ T LTC1152CN8 LTC1152CS8 LTC1152IN8 LTC1152IS8 J J OUT \ r(T V+ ? ] CO M P N8 PA C K A G E 8 -LE A D PD IP S8 PART


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PDF LTC1152 LTC1152 10OjoV LTC1051/LTC1053 1152Wh 0D12Sbfl
Not Available

Abstract:
Text: Short-Circuit Duration (Pin 6 ) Indefinite Operating Temperature Range LTC1152C. 0°C to 70°C LTC1152I. -40°C to 85°C Storage Temperature Range , ORDER PART NUMBER VIEW O 8 ] CP 7] v* tIN ¡ J ej V~ (T LTC1152CN8 LTC1152CS8 LTC1152IN8 LTC1152IS8 out 5 ] COMP N8 PACKAGE 8-LEAD PLASTIC DIP S8 PART MARKING S8 PACKAGE , on the output of the LTC1152. This feedthrough is at 4.7MHz, higher than the gain-bandwidth of the


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PDF LTC1152 LTC1152 254mm) S51fl4bfl
LEM LT 100S

Abstract:
Text: (Soldering, 10 s e c ). 300°C O R D ER PA R T N U M BER LTC1152CN8 LTC1152CS8 LTC1152IN8 , charge pump switching noise will be present on the output of the LTC1152. This feedthrough is at 4.7MHz , can be driven by externally com pensating the LTC1152. Adding 10OOpF between C O M P (pin 5) and OUT , com pensation capacitors can also be used to limit the bandwidth of the LTC1152. W ith 0.1 |iF from pin 5 to pin 6, the LTC1152's gain-bandwidth product is reduced from 700kHz to around 200Hz. Note that


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PDF LTC1152 100nV/ 115dB LEM LT 100S c1152
Not Available

Abstract:
Text: Range LTC1152C. 0°C to 70°C LTC1152I. , ).300°C (T -IN [T +IN U \r (T H cp Dv* J] OUT T] COMP ORDER PART NUMBER LTC1152CN8 LTC1152CS8 LTC1152IN8 LTC1152IS8 S8 PART MARKING 1152 11521 N8 PACKAGE 8-LEAD PLASTIC DIP S8 PACKAGE 8-LEAD PLASTIC , noise will be present on the output of the LTC1152. This feedthrough is at 4.7MHz, higher than the , flowthrough the diode, destroying the LTC1152. Don't do it. Output Drive and Compensation The LTC1152 features


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PDF LTC1152 130dB 120dB LTC1051/LTC1053
1995 - Not Available

Abstract:
Text: V– 4 5 U ABSOLUTE COMP LTC1152CN8 LTC1152CS8 LTC1152IN8 LTC1152IS8 N8 PACKAGE , Duration (Pin 6) . Indefinite Operating Temperature Range LTC1152C. 0°C to 70°C LTC1152I. – 40°C to 85°C Storage , charge pump switching noise will be present on the output of the LTC1152. This feedthrough is at 4.7MHz , ground or V – will cause large amounts of current to flow through the diode, destroying the LTC1152.


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PDF LTC1152 100nV/Â 115dB 254mm)
LT1189

Abstract:
Text: Low Ib Zero Drift LTC1047 LTC1049 LTC1050 LTC1051 LTC1052 LTC1053 LTC1150 LTC1151 LTC1152 LTC1250 , , 7M) LTC1152 (S, 3M) LT1169 (D, 1.2M) LT 1413 (D, 1.5M) - Zero DriftLTC1047 (D. LTC1049 (S, LTC1050 (S, LTC1051 (D. LTC1052(S, LTC1053(Q, LTC1150(S. LTC1151 (D, LTC1152 (S, 50pA) 50pA) 30pA) 50pA , V, 800 m A) LT1114 (Q. 60 m V, 1.6mA) LTC1152 (S. 10 m V. 2.2mA) LT 1413 (D, 280 m V, 0.9 m A , /Out, Precision LTC1152 LT1366/7 LT1368/9 - Low Power - t- Wide Bandwidth Video L T1187(S


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PDF LTC1047 LTC1049 LTC1050 LTC1051 LTC1052 LTC1053 LTC1150 LTC1151 LTC1152 LTC1250 LT1189 LT/SG3527A lt1001s LT1126 LT1208 LT1220 LT1225 LT1364
LT1252 equivalent

Abstract:
Text: 0P-37E LTC1151 (D) LTC1152 LTC1250 LTC7652 3-46 Op Amp Selection Guide High Gain Typ Open-Loop , 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 , ) LTC1151 (D) LTC1152 LT1169(D) LT1413 (D) LTC7652 OP-27 OP-37 OP-09 A/E OP-227 (D) OP-237 (D) Low Bias , LTC1151 (D) LTC1152 LTC1250 LTC7652 0P-15 ALL OP-16 ALL 0P-97A/E OP-215 ALL (D) <3nA LM108 LM108A 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 - CK722

Abstract:
Text: or up to 1 amp from a 3.3 volt supply. Also featured in this issue is the LTC1152. Designed in , , rail-to-rail output-swing op amp that works over a wide range of supply voltages-like the LTC1152. The , product, without ever noticing that it is an autozeroed amplifier. Rail-to-Rail Output The LTC1152's , behavior as two active channels fight with each other; the LTC1152's current-limited output will protect , much as ten times greater than the 10nV/°C due to the LTC1152. Leakages from leftover solder flux or


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PDF LT1251/LT1256 LT1302 LTC1066-1: 12-Bit, 1-800-4-LINEAR CK722 irf9610 spice LTC1152 LT1256 equivalent 12v hid ballast ic apple ccfl inverter dc 12v IC 75176 circuit details small signal transistor MOTOROLA DATABOOK DIODE E91 Royer oscillator circuit diagram
1996 - MTD20N03HL

Abstract:
Text: , 3V Op Amp Operates Rail-to-Rail The LTC1152 op amp features an input and output voltage range that , LTC1152 is chopper stabilized to achieve accurate DC performance and requires no external components for normal operation. Figure 1 illustrates the use of the LTC1152 as a railto-rail buffer amplifier. The LTC1152 also features other impressive DC specifications. Input bias LTC1438 contains the two main , -P. The LTC1152 has a gain bandwidth product of 1MHz and slew rate of 1V/µs while consuming only 2.2mA


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PDF LTC1439 MBRS140 F0N03HL LTC1430 220pF 1N4148 1-800-4-LINEAR MTD20N03HL ctx10-4 voltage transducer 8798 2907A similar fzt849 HL-8798 LT1371 LTC1152
1999 - KELVIN-VARLEY DIVIDER

Abstract:
Text: LTC1152 The KVD shown has a 100k input impedance. A consequence of this is that wiper output resistance , LTC1152 is with respect to drift, offset, bias current and CMRR, selection is required if we seek , zeros. ­ 6 LTC1152 KVD = 100k 50k WORST-CASE RESISTANCE 3 0V TO 5V OUT + , OUT LT1010 0.1µF A + 2 ­ LTC1152 +V 3 MAIN KVD 6 IN LT1010 + , MAIN KVD 10k 3 ­ LTC1152 6 IN LT1010 + OUT OUTPUT 0.000000V TO


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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
1994 - LTC1049 equivalent

Abstract:
Text: LTC1152 LT1211/12 LTC1250 25µV LT1001A LT1007A LT1012A LT1037A RS = 100 17nV/Hz LT1001 (All , 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 , LT1012A LTC1050 LTC1051 LTC1053 LT1057 LT1058 LT1122 LTC1150 LTC1151 LTC1152 LT1457 Rev H


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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
1994 - LTC1049 equivalent

Abstract:
Text: LTC1150 LTC1151 LTC1152 LTC1250 LT1211/12 25µV LT1001A LT1007A LT1012A LT1037A Max Input , LTC1151 LTC1152 LTC1250 5nV/Hz LT1007 LT1037 LT1124 LT1125 LT1126 LT1127 Typical Equivalent , Operation Single LT1006 LT1077 LTC1049 LTC1050 LTC1150 LTC1152 LTC1250 Dual LT1078 LT1178 , LT1001A LTC1047 LT1007A LTC1050 LT1012A LTC1051 LT1037A LTC1053 LTC1049 LTC1150 LTC1151 LTC1152 , LTC1151 LTC1152 Rev G 0197 150pA 250pA LT1012 LT1024 LT1024A LTC1250 LTC1250M Max Input


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PDF LT1006A LT1012 LT1024A LT1028A LT1077A 17nV/Hz LT1001 LT1002 LT1008 LTC1049 equivalent LTC1150 equivalent LT1006 LT1012A lt1028 LTC1250 LT1078 LT1178 LT1211 LTC1049
op07 equivalent single supply

Abstract:
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 , Rail-to-Rail (Inputs and Outputs Swing To V+and GND) DUAL LTC1152 LT1366 LT1368 QUAD LT1367 LT1369 , LTC1051 (D) LTC1052 L TC 1053(Q ) LTC1150 LTC1151 (D) LTC1152 LTC1250 LTC7652 OP-15 A LL 0P-16 A L L OP


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PDF LT1078A LT1079A LT1178A LT1179 LT1179A LT1077 LT1078 LT1006 LT1008 LT1012 op07 equivalent single supply T1012A LT1364 equivalent LT1256 equivalent LT318A LTC1150 equivalent lt1056c LT1022A LT1012A LT/SG3527A
1998 - LT 1152

Abstract:
Text: SPECIFICATION NOTICE LTC1152 March 1998 The LTC®1152 data sheet has been modified. Under Internal Charge Pump discussion on page 6, it's suggested to connect a capacitor from the CP (charge pump) pin to V+ to reduce charge pump feedthrough noise. Figure 1 Block Diagram, however, shows this capacitor connected to GND. Both methods are equally effective in reducing the feedthrough. · The text on , , please see the LTC1152 data sheet. , LTC and LT are registered trademarks of Linear Technology


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PDF LTC1152 LTC1152 LT 1152
1999 - EXT-10

Abstract:
Text: voltage on CH1 with an LTC1152 operating at unity gain. If a 10V supply is available, the LTC1050 can be used instead of the LTC1152. As stated above, the LTC1043 has the highest transfer accuracy when , 2 + CS2 1µF (EXT) 3 CH2 1µF + 7 LTC1152 * 2 ­ 4 6 3 CS VREF


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PDF LTC2400 LTC2400 LTC1152* LTC1043 LTC1050 EXT-10 ltc1043 LTC1152
LT/SG3527A

Abstract:
Text: (0, 10OpA) LTC1152 (S, 10OpA) 1.1nVA/Hz) 4.2nV/v'Hz) LT1125 (Q, 4.2nV/%Hz) LT1126 (D, 4 .2nV/\'Hz , ) LT 1128 ( S ,7 M ) LTC1152 (S, 3M ) LT1169 (D, 1.2M) LT1413 LTC1151 (D, 5 m V) L T C 1 1 , z) 14M H z) 28M H z) 28M Hz) Rall-to-Rail In/Out, Precision LTC1152 LT1 366/7 LT1 368/9 LT1


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PDF LTC1Q47 LTC1049 LTC1050 LTC1051 LTC1052 LTC1051 LTC1052 LT1037 LT1115 LT1124 LT/SG3527A LT1202 LT1220
Not Available

Abstract:
Text: Lirm Final Electrical Specifications LTC1152 TECHNOLOGY R ail-to-R ail In p u t R ail-to-R ail O u tp u t Z e ro -D rift O p A m p M a rc h 1994 F€OTUR€S DCSCRlPTIOn â , 213 LTC1152 A B s o iu T c m n x im u m n n n n G s P flC K A G € /O ß D € R in F O à , LTC1152 €L€CTRICni CHARACTERISTICS V s = 3 V , T a = operating tem perature ran g e , unless , Obb LTC1152 nppucmions mfORmnnon p o w e rs u p p ly rails; in put signal sw ing is limited o


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PDF LTC1152
2001 - KELVIN-VARLEY DIVIDER

Abstract:
Text: . AN86-8 10k 0.1µF EINPUT ­ LTC1152 KVD LT1010 OUTPUT + KVD = ELECTRO SCIENTIFIC , performance.1 In fact, as good as the chopper-stabilized LTC1152 is with respect to drift, offset, bias , WORST-CASE OUTPUT RESISTANCE LTC1152 OUTPUT LT1010 + ERROR SOURCE WORST-CASE SPEC , 10k ­ 5V KVD LTC1152 0.1µF LT1010 OUTPUT + FLOATING, BATTERY-POWERED µV NULL , LTC1150 KVD 0.1µF A + ­ LTC1152 +V MAIN KVD LT1010 + OUTPUT 0.000000V TO


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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
1999 - AN-786

Abstract:
Text: CH1 with an LTC1152 operating at unity gain. If a 10V supply is available, the LTC1050 can be used instead of the LTC1152. As stated above, the LTC1043 has the highest transfer accuracy when using 1µF , VCC 2 3 2 + CS2 1µF (EXT) 3 CH2 1µF + 7 LTC1152 * 2 ­ 4 6 3 , differential input voltage. The higher supply voltage is not necessary if the railto-rail LTC1152 is used


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PDF LTC2400, 24-Bit LTC2400 AN78-16 an78LT/TP AN-786 LTC2400 rtd LTC2400 mA AN78-16 differential to single-ended conversion 2n5210 equivalent LTC1051 equivalent LT1025 LTC2400 10V
1999 - LTC2400 rtd

Abstract:
Text: linearity by buffering the voltage on CH1 with an LTC1152 operating at unity gain. If a 10V supply is available, the LTC1050 can be used instead of the LTC1152. As stated above, the LTC1043 has the highest , 1µF + 7 LTC1152 * 2 ­ 4 6 3 CS VREF VIN LTC2400 SCK GND 4 16 , if the railto-rail LTC1152 is used. Lower reference voltage provides an additional benefit of


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PDF LTC2400, 24-Bit LTC2400 an78fs AN78-16 LTC2400 rtd AN-786 LTC2400-Based AN7811 AN7813 an7814 ltc1043 ltc1043 datasheet LTC2400 10V
1999 - differential to single-ended conversion

Abstract:
Text: not necessary if the railto-rail LTC1152 is used. Lower reference voltage provides an additional


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PDF 24-Bit LTC2400 125mV; LTC2400 LTC1043 differential to single-ended conversion LTC1051 LTC1043 LTC1152
1998 - LTC1152

Abstract:
Text: the LTC1152's shutdown pin to keep the op amp off between conversions. The LTC1197 automatically , Semiconductor Corporation. 500pF + 2.7V TO 4V 56k LTC1197L 0.005 2A FULL SCALE SHDN LTC1152


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PDF 10-Bit 500ksps 1197/LTC1199 LTC1197/LTC1199 500pF LTC1197L LTC1152 LTC1152 LTC1199 LTC1197 LTC1197L LTC1199L
1999 - LT2050

Abstract:
Text: High Voltage Operation ±18V LTC1152 Rail-to-Rail Input and Output Zero-Drift Op Amp Single


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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
1993 - LTC1046

Abstract:
Text: (7MHz to 28MHz). Fully tested at VS = 3.3V. LTC1152 Rail-to-Rail Input/Output Zero Drift Amp


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PDF LT1110/1111 LT1107/1108 LT1070/71 LT1170/71 LT1270 LT1271 40kHz 100kHz 60kHz 60kHz/100kHz LTC1046 LT1271 LT1270 LT1172 LT1109 LT1101 LT1083 LT1034 LOGIC DUAL Regulator 5V 10V comparator 12v
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