500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Search Stock

Shift+Click on the column header for multi-column sorting 
Part
Manufacturer
Supplier
Stock
Best Price
Price Each
Ordering
Part : LT1022CN8#PBF Supplier : Linear Technology Manufacturer : Newark element14 Stock : 137 Best Price : $2.95 Price Each : $5.05
Part : LT1022CN8 Supplier : Linear Technology Manufacturer : Bristol Electronics Stock : 4 Best Price : - Price Each : -
Shipping cost not included. Currency conversions are estimated. 

LT1022 Datasheet

Part Manufacturer Description PDF Type
LT1022 Linear Technology High Speed, Precision JFET Input Operational Amplifier Original
LT1022 Linear Technology High Speed, Precision JFET Input Operational Amplifier Scan
LT1022ACH Linear Technology High Speed, Precision JFET Input Operational Amplifier Original
LT1022ACH Linear Technology High Speed, Precision JFET Input Operational Amplifier Scan
LT1022AMH Linear Technology High Speed, Precision JFET Input Operational Amplifier Original
LT1022AMH Linear Technology High Speed, Precision JFET Input Operational Amplifier Scan
LT1022AMH/883 Linear Technology LT1022 - LT1022 - High Speed, Precision JFET Input Operational Amplifier; Package: METAL CAN; Pins: 8; Temperature: Military Original
LT1022CH Linear Technology High Speed, Precision JFET Input Operational Amplifier Original
LT1022CH Linear Technology High Speed, Precision JFET Input Operational Amplifier Scan
LT1022CN8 Linear Technology High Speed, Precision JFET Input Operational Amplifier Original
LT1022CN8 Linear Technology High Speed, Precision JFET Input Operational Amplifier Scan
LT1022CN8#PBF Linear Technology High Speed, Precision JFET Input Operational Amplifier; Package: PDIP; No of Pins: 8; Temperature Range: 0°C to +70°C Original
LT1022MH Linear Technology High Speed, Precision JFET Input Operational Amplifier Original
LT1022MH Linear Technology High Speed, Precision JFET Input Operational Amplifier Scan

LT1022

Catalog Datasheet MFG & Type PDF Document Tags

Endevco 2215

Abstract: 2n2222 h parameter values LT1022MH LT1022ACH LT1022CH ORDER PART NUMBER LT1022CN8 TOP VIEW BAL 1 8 N/C ­IN , °C, VCM = 0V unless otherwise noted. LT1022M, LT1022CH LT1022CN8 MIN TYP MAX SYMBOL PARAMETER , Settling Time Offset Voltage Adjustment Range MIN LT1022AM LT1022AC TYP MAX LT1022M , Range LT1022AM/1022M (OBSOLETE).­55°C to 125°C LT1022AC/1022C , 1012 1011 Input Resistance-Differential -Common Mode MIN LT1022AM LT1022AC TYP MAX 80
Linear Technology
Original
Endevco 2215 2n2222 h parameter values HP5082-4204 LT1010 TO-5 hp5082-2810 HP5082-4204 photodiode LT1022A OP-16A OP-16E LT1055

2N2222 chip

Abstract: HP5082-4204 Adjustment Range MIN LT1022AM LT1022AC TYP MAX LT1022M, LT1022CH LT1022CN8 MIN TYP MAX 8.5 , LT1022AMH LT1022MH LT1022ACH LT1022CH ORDER PART NUMBER TOP VIEW BAL 1 8 N/C â'"IN , CHARACTERISTICS VS = ± 15V, TA = 25°C, VCM = 0V unless otherwise noted. LT1022M, LT1022CH LT1022CN8 MIN , ± 15V, unless otherwise noted. LT1022AC MIN TYP MAX MIN LT1022CH LT1022CN8 TYP MAX , Temperature Range LT1022AM/1022M (OBSOLETE).â'"55°C to 125°C LT1022AC/1022C
Linear Technology
Original
2N2222 chip HP-5082-4204

HP5082-4204

Abstract: HP5082-4204 photodiode PART NUMBER y ) OUT j _ V- + IN (7> ( 5) BALANCE 1T1022AMH LT1022MH LT1022ACH LT1022CH , noted LT1022AC LT1022C H ) LT1022CN8 TYP M AX 180 300 1.8 3.0 18 ±60 250 91 101 ±13.1 1000 1700 9.0 , Operating Temperature Range LT1022AM /1022M. LT1022AC/1022C. Storage , otherwise noted LT1022AM LT1022AC SYMBOL Vos o s · b PARAMETER Input Offset Voltage (Note 1) Input , cc CM MIN - - - - - TYP 80 - MAX 250 - MIN - - LT1022M LT1022CH
-
OCR Scan
250/A/ 750/A/ 0P-16A 0P-16E

HP5082-4204

Abstract: HP5082-4204 photodiode balance LT1022AMH LT1022MH LT1022ACH LT1022CH LT1022AC/1022C. . 0°Cto70°C v , 0V unless otherwise noted SYMBOL PARAMETER CONDITIONS MIN LT1022AM LT1022AC TYP MAX MIN LT1022M LT1022CH LT1022CN8 TYP MAX UNITS Vos Input Offset Voltage (Note 1) H Package N8 Package _ 80 250 _ 100 , °C unless otherwise noted SYMBOL PARAMETER CONDITIONS MIN LT1022AC TYP MAX MIN LT1022CH LT1022CN8 TYP , otherwise noted SYMBOL PARAMETER CONDITIONS MIN LT1022AM TYP 4 MAX MIN LT1022M TYP MAX UNITS Vos Input
-
OCR Scan
327 LAMP 2N4393 20nW sine wave Oscillator jfet circuit HIGH OUTPUT CURRENT OP AMP Absolute Value Circuit 12-BI 45-C/W

HP-5082-4204

Abstract: HP5082-4204 ® LT1022AMH LT1022MH LT1022ACH LT1022CH © OUT +INO X ^ - y à ) v- PLA NC E METAL CAN H , TYP MAX LT1022M LT1022CH LT1022CN8 MIN MAX TYP Input Offset Voltage (Note 1) H , '" â'" â'" 10 12 1012 10 " - 4 - - 4 - LT1022AM LT1022AC Input , LT1056 applications information Is directly applicable to the LT1022. Please consult the LT1055/1056 ,   LT1022 High Speed, Precision JFET Input Operational Amplifier . T - 7 7 - l s - Fâ'¬fiTURâ'¬S â
-
OCR Scan
00G3Q27 1N4148 QG03D33 QQ030-34

LT1022CH

Abstract: SiC JFET ) OUT B ALAN C E B ALAN C E -IN Q + !N v - LT1022AMH LT1022MH LT1022ACH LT1022CH M ETA L CAN H , LT1022AC LT1022CH LT1022CN8 TYP 180 300 1.8 3.0 18 ±60 250 91 101 ± 1 3 .1 CONDITIONS H Package N8 , unless otherwise noted LT1022AM LT1022AC SYM BOL Vos ·os 'b PARAM ETER Input Offset Voltage (Note 1 , 4 - - 7.0 - - MIN - - - - - - - 120 100 ± 1 0 .5 82 86 ±12 18 - - LT1022M LT1022CH , APPUCflTIOnS M F O R m A T IO n The LT1056 applications information is directly applicable to the LT1022.
-
OCR Scan
SiC JFET

lt1334

Abstract: LT1028 to 100k LT1001/02 LT1055/56/57/58, LT1113, LT1169 LT1351 100k to 1M LT1022, LT1055/56/57/58, LT1113, LT1122, LT1169 LT1022, LT1055/56/57/58, LT1113 LT1122, LT1169, LT1457 LT1351 1M to 10M LT1022, LT1055/56/57/58, LT1113, LT1122, LT1169 LT1022, LT1055/56/57/58, LT1113
Linear Technology
Original
LT1028 LT1128 LT1007 LT1037 lt1334 LT1037 equivalent LT1124 DN140 1000H LT1115 LT1220/21/22/24/25/26

LT1334

Abstract: LT1220 , LT1113, LT1169 LT1351 100k to 1M LT1022, LT1055/56/57/58, LT1113, LT1122, LT1169 LT1022, LT1055/56/57/58, LT1113 LT1122, LT1169, LT1457 LT1351 1M to 10M LT1022, LT1055/56/57/58, LT1113, LT1122, LT1169 LT1022, LT1055/56/57/58, LT1113 LT1122, LT1169, LT1457 For literature on
Linear Technology
Original
LT1220 LT1028 equivalent LT133 George Erdi LT1122 LTC 1028 VTR1 LT1124/25/26/27 LT1354/57/60/63 1-800-4-LINEAR

lt1334

Abstract: LT1028 to 100k LT1001/02 LT1055/56/57/58, LT1113, LT1169 LT1351 100k to 1M LT1022, LT1055/56/57/58, LT1113, LT1122, LT1169 LT1022, LT1055/56/57/58, LT1113 LT1122, LT1169, LT1457 LT1351 1M to 10M LT1022, LT1055/56/57/58, LT1113, LT1122, LT1169 LT1022, LT1055/56/57/58, LT1113
Linear Technology
Original
LTC1454 LTC1454L LT1037 "pin compatible" LT1001 BD02 LTC1456 1454/LTC1454L LTC1454/LTC1454L LT1307B

2N3866 application note

Abstract: 2n3866 it to ground and drives the LT1022's positive input, completing a DC stabilizing loop around the LT1022. The 10k-300pF time constant at the LT1012 limits its response to low frequency signals. The LT1022 handles high frequency inputs while the LT1012 stabilizes the DC operating point. The 4.7k-220 , LT1012's 35V offset and 1.5V/°C drift with the LT1022's 23V/s slew rate and 300kHz full-power bandwidth , and an LT1022 high speed amplifier. The overall circuit is a unity-gain inverter, with the summing
Linear Technology
Original
LT1010 2N3866 application note 2n3866 Ferronics 21-110J 2n3906 npn 2N5638 AN21-12

LT1028

Abstract: 1M resistor datasheet LT6010 LT1880 LT1494 LT1490 LTC1992 LT1122 LT1022, LT1055 LT1012 LT1169 LT1113 LT1793 , LT6230 LT1028 LT1567 LT6200 LT1226 LT1881 LT1490 LT1097 LT1112 LTC1992 LT1012 LT1122 LT1022
Linear Technology
Original
LT1468 LT1213 LT6233 1M resistor datasheet lt1211 Low Noise Op Amps linear op data Op amp circuit applications Low Noise Op Amps equivalent LT1363 LT1360 LT6220 LT1215 LT1812 LT1800

LTC1049 equivalent

Abstract: LTC1150 equivalent 50µV LT1006A LT1012 LT1024A LT1028A LT1077A 100V/µs See High Speed Amplifier Selection Card RS = 100 17nV/Hz LT1001 (All) LT1002 (All) LT1008 LT1012 (All) LT1113* LT1211/12 LT1213/14 LT1215/16 10V/µs 50V/µs LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 LT1057 LT1058 LT1115 LT1126 LT1127 LT1213/14 Typical Slew Rate 0.2V/µs 1V/µs LT®1006 (All , Supply Current Lower Offset Voltage Drift Lower Bias Current 5pA LT1169 50pA LT1022
Linear Technology
Original
LTC1051 LTC1150 LTC1152 LTC1250 LTC1049 LTC1050 LTC1049 equivalent LTC1150 equivalent LT06 LT1014 LT1413 LT1464/5 LT1125 LTC1052

LTC1049 equivalent

Abstract: V49R 10V/µs 50V/µs LT1022 LT1010 LT1028 LT1122 LT1037 LT1215/16 LT1055 LT1056 LT1057 LT1058 LT1115 LT1126 LT1127 LT1213/14 Typical Slew Rate 1V/µs 0.2V/µs LT®1006 (All) LT1007 LT1014 (All) LTC®1050 LT1413 (All) LTC1051 LT1464/5 LTC1052 LTC1053 LT1113 LT1124 LT1125 LTC1150 LTC1151 LTC1152 LT1211/12 LTC1250 25µV LT1001A LT1007A LT1012A LT1037A RS = 100 17nV/Hz LT1001 (All , LT1012A LTC1051 LT1037A LTC1053 LTC1049 LTC1150 LTC1151 LTC1152 LTC1250 50pA LT1022 LTC1047
Linear Technology
Original
LT1006 LT1077 V49R LTC1051 equivalent LT1496 LT1101A LT1058A lt1078 LT1001AM LT1078 LT1178 LT1211/13/15 LT1352 LT1079

LT1022

Abstract: OP16 RELIABILITY DATA LT1022 / OP16 8/21/2006 · OPERATING LIFE TEST PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE HERMETIC PLASTIC DIP SOIC/SOT/MSOP NEWEST DATE CODE 80 9143 1,140 9144 50 9327 1,270 · HIGHLY ACCELERATED STRESS TEST AT +131°C/85%RH PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE PLASTIC DIP 202 9144 202 · PRESSURE COOKER TEST AT 15 PSIG, +121°C PACKAGE TYPE SAMPLE SIZE PLASTIC DIP SOIC/SOT/MSOP 1,235 100 1,335 · TEMP CYCLE FROM -65°C to
Linear Technology
Original
OP16 9327 00-03-6209B

LT1252 equivalent

Abstract: lt1097 equivalent Op Amp Selection Guide Selection by Design Parameter Low Power Maximum Supply Current (per Amplifier) High Slew Rate Typ Slew Rate >10V/nS LF412A (D) LT1022 ALL LT1079 LTC1047 LTC1049ALL LT1112 , ) LT1014A (Q) LT1022 ALL LT1055M LT1055C LT1056AM LT1056AC LT1056M LT1056C LT1057 ALL (D) LT1078(D) LT1079 , LT1008 LT1012 ALL LT1022ALL LT1024 ALL (D) LT1055ALL LT1056 ALL LT1057 ALL (D) LT1058 ALL (Q) LT1097 , LT1213 LT1215A LT1413C LT1006S8 LT1013D (D) LT1014D (Q) LT1022A LT1055A LT1056A LT1215 0P-05C 0P-15A/E
-
OCR Scan
LT1006CN8 LT1252 equivalent lt1097 equivalent LT1256 equivalent OP05 equivalent LM108 EQUIVALENT op05 LT1114 OP-97A/E LT1057A LT1214 OP-37 OP-215A

LT1677 equivalent

Abstract: input resistance op amp LT1001 LT1881 LT1884 LT6013 10 LTC6078 LT1022, LT1055 LT1169 LTC6241 LT1793 LT1012 , LT1112 LT1012 LT1881 LT1363 LT1360 LT6220 Hz ) LT1490 LTC1992 LT1122 LT1022,55
Linear Technology
Original
LT1677 LT1677 equivalent input resistance op amp 13nV OP AMP design ideas LT1678 LT1815 LT1806 LT1722 LT1222

LT7232

Abstract: LT7732 1.8 0.6 0.9 1.5 1.4 1.8 52 ii LT1011 LT1011G LT1021 LT1031 LT1041 LT1041R LT1012 LT1012G LT1022
-
OCR Scan
LT2232 LT2242 LT6732 LT6742 LT7732 LT7742 LT7232 LT7211 LT7242 LT7222 3537S LT2211 LT2211G LT2221 LT2231 LT2241

2N5160

Abstract: "FET based feedback" gain control amplifier LT1022's positive input, completing a DC stabilizing loop around the LT1022. The 10k-300pF time constant at the LT1012 limits its response to low frequency signals. The LT1022 handles high frequency inputs while the LT1012 stabilizes the DC operating point. The 4.7k-220Q divider at the LT1022 prevents , with the LT1022's 23V//*s slew rate and 300kHz full power bandwidth. Bias current, dominated by the , employed. Figure 1 shows a composite made up of an LT1012 low drift device and an LT1022 high speed
-
OCR Scan
2N5160 Application Note 21 Godzilla AN214 amplifier

LT1257

Abstract: LT485 LT1002 LT1022 DS 6 NA LT1022 LT1122 DS Absolute Value Publication OP05 DS , Output Stage (100mA) AN18 5 7 LT1022 LT1022 DS 7 NA LT1022, LT1010 LTC1052DS , Output Stage (±120V Swing) Precision Amplifier Drives 300 Load to ±10V LT1022, LT1010, LT1012 , , LT1022 DC Stabilized, Full Differential, Parallel Path AN47 35 74 LT1102, LT1191, LT1193 , Block AN67 64 95 LT1230, LT1007 LTM IV:3 15 6 LT1366 LT1022 DS 1 NA
Linear Technology
Original
LT1088 LT1257 LT485 AN6752 OP227 "direct replacement" an6266 ltc1097 DN134 LT1070 LT1004 LT1016 LT1166 LT1431

9327

Abstract: LT1022 RELIABILITY DATA LT1022 / OP16 12/8/2000 · OPERATING LIFE TEST PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE HERMETIC PLASTIC DIP SOIC/SOT/MSOP 80 9143 1,140 9144 50 9327 1,270 · HIGHLY ACCELERATED STRESS TEST AT +131°C/85%RH PACKAGE TYPE SAMPLE SIZE OLDEST DATE CODE PLASTIC DIP 202 9144 202 · PRESSURE COOKER TEST AT 15 PSIG, +121°C PACKAGE TYPE SAMPLE SIZE PLASTIC DIP SOIC/SOT/MSOP 1,235 100 1,335 · TEMP CYCLE FROM -65°C to +150°C PACKAGE TYPE
Linear Technology
Original
9424

reticon photodiode RL0256

Abstract: reticon photodiode array is converted to an output voltage by U5, an LT1056 JFET input operational amplifier. U6, an LT1022 , ILLUSTRATING PROPER DIGITIZATION ® BOTTOM-INPUT TO LTC1099 A/D FROM PHOTODIODE ARRAY THRU LT1022 BUFFER  , on the video line contain switching transients plus the video signal. The LT1022 FET input
-
OCR Scan
reticon photodiode RL0256 reticon photodiode array RL0256 Photodiode Array linear reticon rl0256 RETICON

pe-6197

Abstract: 74C04 A1 LT118A A2 LT1010 + ­ A1 LT1022 VOUT CL (1a) (1b) 10k ­ LOAD LT1012 , 2N3904 10k INPUT ­ 1N4148 2k 390 1N4148 200 390 OUTPUT LT1022 + 2k , to control the stage. Using the LT1022, full-power bandwidth is 600kHz and slew rate exceeds 23V/s
Linear Technology
Original
pe-6197 74C04 op amp transistor current booster circuit MJE305 linear an18 12BH7A AN18-15 AN18-16
Showing first 20 results.