FEATURES APPLICATIO S. LT1178/LT µA Max, Dual and Quad, Single Supply, Precision Op Amps DESCRIPTIO TYPICAL APPLICATIO
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1 FEATRES 7µA Max Supply Current per Amplifier 7µV Max Offset Voltage 5pA Max Offset Current 5nA Max Input Bias Current.9µV P-P.Hz to Hz Voltage Noise.5pA P-P.Hz to Hz Current Noise.5µV/ C Offset Voltage Drift 85kHz Gain-Bandwidth Product.4V/µs Slew Rate Single Supply Operation: Input Voltage Range Includes Ground Output Swings to Ground While Sinking Current No Pull Down Resistors are Needed Output Sources and Sinks 5mA Load Current APPLICATIO S Battery or Solar Powered Systems Portable Instrumentation Remote Sensor Amplifier Satellite Circuitry Micropower Sample-and-Hold Thermocouple Amplifier Micropower Filters, LTC and LT are registered trademarks of Linear Technology Corporation. LT78/LT79 7µA Max, Dual and Quad, Single Supply, Precision Op Amps DESCRIPTIO The LT 78 is a micropower dual op amp in the standard 8-pin configuration; the LT79 is a micropower quad op amp offered in the standard 4-pin packages. Both devices are optimized for single supply operation at 5V. Specifications are also provided at ±5V supplies. The extremely low supply current is combined with true precision specifications: offset voltage is µv, offset current is 5pA. Both offset parameters have low drift with temperature. The.5pAp-p current noise and picoampere offset current permit the use of megaohm level source resistors without introducing serious errors. Voltage noise, at.9µvp-p, is remarkably low considering the low supply current. Both the LT78 and LT79 can be operated from a single supply (as low as one lithium cell or two NiCd batteries). The input range goes below ground. The all-npn output stage swings to within a few millivolts of ground while sinking current no power consuming pull down resistors are needed. For applications where three times higher supply current is acceptable, the micropower LT77 single, LT78 dual and LT79 quad are recommended. The LT77/78/79 have significantly higher bandwidth, slew rate, lower voltage noise and better output drive capability. ICAL APPLICATIO Self-Buffered, Dual Output, Micropower Reference Supply Current vs Temperature / LT78 5k*.µF 4 LT / LT78 6.µF M M* M* 4V TO 9V * =.% FILM RESISTORS TOTAL BATTERY CRRENT = 8µA OTPT ACCRACY = ±.4% TEMPERATRE COEFFICIENT = ppm/ C LOAD REGLATION = 5ppm/mA, I L 5mA, V 5V LINE REGLATION = ppm/v.65v OTPT.47V OTPT LT78/LT79 TA SPPLY CRRENT PER AMPLIFIER (µa) V S = ±5V V S = ±.5V TEMPERATRE ( C) LT78/LT79 TA 789fb
2 - - LT78/LT79 ABSOLTE AXI RATI GS (Note ) W W W Supply Voltage... ±V Differential Input Voltage... ±V Input Voltage... Equal to Positive Supply Voltage Input Voltage...5V Below Negative Supply Voltage Output Short-Circuit Duration... Indefinite W PACKAGE/ORDER I FOR ATIO TOP VIEW V OT A 8 OT B 7 A B IN A IN B IN A 5 4 IN B V (CASE) H PACKAGE 8-LEAD TO-5 METAL CAN OT A IN A IN A V IN B IN B OT B A B - TOP VIEW N PACKAGE 4-LEAD PDIP T J = C, θ JA = C/W J PACKAGE 4-LEAD CERAMIC DIP ORDER PART NMBER 4 OT D IN D D - IN D V IN C C - 9 IN C 8 OT C LT78ACH LT78CH OBSOLETE PACKAGE Consider the N4 Package for Alternate Source OT A IN A IN A V 4 A ORDER PART NMBER LT79ACN LT79CN LT79IN LT79ACJ LT79CJ TOP VIEW 8 V 7 OT B 6 IN B B - 5 IN B N PACKAGE 8-LEAD PDIP T J = C, θ JA = 5 C/W J PACKAGE 8-LEAD CERDIP OBSOLETE PACKAGE Consider the N8 or S8 Package for Alternate Source Operating Temperature Range LT78I/LT79I... 4 C to 85 C LT78C/LT78S/LT79C/LT79S... C to 7 C Storage Temperature Range C to 5 C Lead Temperature (Soldering, sec.)... C ORDER PART NMBER LT78ACN8 LT78CN8 LT78IN8 LT78ACJ8 LT78CJ8 Not Recommended. se LT78S8 for New Designs. TOP VIEW OT A IN A IN A V LT V OT B IN B IN B SW PACKAGE 6-LEAD PLASTIC SO WIDE T J = 5 C, θ JA = 9 C/W IN A V IN B IN B 4 TOP VIEW S8 PACKAGE 8-LEAD PLASTIC SO T J = 5 C, θ JA = C/W ORDER PART NMBER LT78SW LT79SW - - A B 8 IN A 7 OT A 6 V 5 OT B OT A IN A IN A V 4 IN B 5 IN B 6 OT B 7 8 ORDER PART NMBER LT78S8 PART MARKING TOP VIEW LT OT D 5 IN D 4 IN D V IN C IN C OT C 9 SW PACKAGE 6-LEAD PLASTIC SO WIDE T J = 5 C, θ JA = 9 C/W LT778/79 POI Consult LTC Marketing for parts specified with wider operating temperature ranges. Please note that the LT78S8 surface mount pinout differs from that of the LT78 standard plastic or ceramic dual-in-line packages. For similiar performance with standard pinout, see the LT78. ELECTRICAL CHARACTERISTICS ; V CM =.V, V O =.4V,, unless noted. LT78AC/LT79AC LT78I/C/S/LT79I/C/S SYMBOL PARAMETER CONDITIONS (NOTE ) NITS V OS Input Offset Voltage LT µv LT µv LT78SW 8 45 µv LT79SW 9 6 µv LT78S8 6 8 µv V OS Long Term Input Offset.5.6 µv/mo Time Voltage Stability I OS Input Offset Current na 789fb
3 LT78/LT79 ELECTRICAL CHARACTERISTICS ; V CM =.V, V O =.4V,, unless noted. LT78AC/LT79AC LT78I/C/S/LT79I/C/S SYMBOL PARAMETER CONDITIONS (NOTE ) NITS I B Input Bias Current 5 6 na e n Input Noise Voltage.Hz to Hz (Note ).9..9 µv P-P Input Noise Voltage Density f O = Hz (Note ) nv/ Hz f O = Hz (Note ) nv/ Hz i n Input Noise Current.Hz to Hz (Note ) pap-p Input Noise Current Density f O = Hz (Note )..7. pa/ Hz f O = Hz.. pa/ Hz Input Resistance (Note 4) Differential Mode GΩ Common Mode GΩ Input Voltage Range V.. V CMRR Common Mode Rejection Ratio V CM = V to.5v 9 9 db PSRR Power Supply Rejection Ratio V S =.V to V db A VOL Large Signal Voltage Gain V O =.V to 4V, No Load V/mV (Note 4) V O =.V to.5v, R L = 5k 8 7 V/mV Maximum Output Voltage Output Low, No Load mv Swing Output Low, k to GND mv Output Low, I SINK = µa 6 6 mv Output High, No Load V Output High k to GND V SR Slew Rate A V =, C L = pf (Note 4) V/µs GBW Gain Bandwidth Product f O 5kHz 6 6 khz I S Supply Current 8 4 µa per Amplifier V S = ±.5V, V O = V 7 µa Channel Separation V IN = V, R L = k db Minimum Supply Voltage (Note 5).... V 789fb
4 LT78/LT79 ELECTRICAL CHARACTERISTICS The denotes specifications which apply over the full operating temperature range of 4 C T A 85 C for I grades, C T A 7 C for SW grades, ; V CM =.V, V O =.4V, unless noted. (Note 7) LT78I/LT79I LT78SW/LT79SW SYMBOL PARAMETER CONDITIONS NITS V OS lnput Offset Voltage LT µv LT µv V OS / T Input Offset Voltage Drift (Note 6) µv/ C I OS Input Offset Current na I B Input Bias Current na CMRR Common Mode Rejection V CM =.5V to.v I grade db Ratio V CM = V to.4v S grade PSRR Power Supply Rejection V S =.V to V I grade db Ratio V S =.5V to V S grade A VOL Large-Signal Voltage Gain V O =.5V to 4V, No Load (Note 4) V/mV V O =.5V to.5v, R L = 5k V/mV Maximum Output Voltage Output Low, No Load 9 8 mv Swing Output Low, I SINK = µa mv Output High, No Load V Output High, k to GND V I S Supply Current per Amplifier µa The denotes specifications which apply over the full operating temperature range of C T A 7 C,, V CM =.V, V O =.4V, unless noted. LT78AC/LT79AC LT78C/S8/LT79C SYMBOL PARAMETER CONDITIONS NITS V OS lnput Offset Voltage LT µv LT78S µv LT µv V OS / T Input Offset Voltage Drift (Note 6) µv/ C LT78S8.6.5 µv/ C I OS Input Offset Current na I B Input Bias Current 6 7 na CMRR Common Mode Rejection Ratio V CM = V to.4v 9 86 db PSRR Power Supply Rejection Ratio V S =.5V to V 9 88 db A VOL Large-Signal Voltage Gain V O =.5V to 4V, No Load (Note 4) V/mV V O =.5V to.5v, R L = 5k V/mV Maximum Output Voltage Output Low, No Load 8 8 mv Swing Output Low, I SINK = µa mv Output High, No Load V Output High, k to GND V I S Supply Current per Amplifier µa 4 789fb
5 LT78/LT79 ELECTRICAL CHARACTERISTICS V S = ±5V,, unless noted. LT78AC/LT79AC LT78I/C/S/LT79I/C/S SYMBOL PARAMETER CONDITIONS NITS V OS Input Offset Voltage µv LT78SW 5 9 µv LT79SW 6 5 µv LT78S8 5 µv I OS lnput Offset Current na I B Input Bias Current 5 6 na Input Voltage Range V V CMRR Common Mode Rejection Ratio V CM =.5V, 5V db PSRR Power Supply Rejection Ratio to ±8V db A VOL Large-Signal Voltage Gain V O = ±V, R L = 5k 5 V/mV V O = ±V, No Load V/mV V OT Maximum Output Voltage Swing R L = 5k ±. ±4. ±. ±4. V R L = k ±. ±.7 ±. ±.7 V SR Slew Rate A V = V/µs GBW Gain Bandwidth Product f O 5kHz khz I S Supply Current per Amplifier µa The denotes specifications which apply over the full operating temperature range of 4 C T A 85 C for I grades, C T A 7 C for SW grades, V S = ±5V, unless noted. LT78I/LT79I LT78SW/LT79SW SYMBOL PARAMETER CONDITIONS NITS V OS lnput Offset Voltage LT µv LT79 74 µv V OS / T Input Offset Voltage Drift (Note 6) µv/ C I OS Input Offset Current na I B Input Bias Current na A VOL Large-Signal Voltage Gain V O = ±V, R L = 5k V/mV CMRR Common Mode Rejection Ratio V CM = V, 4.9V db PSRR Power Supply Rejection Ratio to ±8V db Maximum Output Voltage Swing R L = 5k ±. ±.5 ±. ±.5 V I S Supply Current per Amplifier µa 789fb 5
6 LT78/LT79 ELECTRICAL CHARACTERISTICS The denotes specifications which apply over the full operating temperature range of C T A 7 C, V S = ±5V, unless noted. LT78AC/LT79AC LT78C/S8/LT79C SYMBOL PARAMETER CONDITIONS NITS V OS lnput Offset Voltage µv LT78S µv V OS / T Input Offset Voltage Drift (Note 6) µv/ C LT78S8.7.8 µv/ C I OS Input Offset Current na I B Input Bias Current 6 7 na A VOL Large-Signal Voltage Gain V O = ±V, R L = 5k V/mV CMRR Common Mode Rejection Ratio V CM = V, 5V db PSRR Power Supply Rejection Ratio to ±8V 9 9 db Maximum Output Voltage Swing R L = 5k ±. ±.6 ±. ±.6 V I S Supply Current per Amplifier µa Note : Absolute Maximum Ratings are those values beyond which the life of a device may be impaired. Note : Typical parameters are defined as the 6% yield of parameter distributions of individual amplifiers; (i.e., out of LT79s, or LT78s, typically 4 op amps, or, will be better than the indicated specification). Note : This parameter is tested on a sample basis only. All noise parameters are tested with V S = ±.5, V O = V. Note 4: This parameter is guaranteed by design and is not tested. Note 5: Power supply rejection ratio is measured at the minimum supply voltage. The op amps actually work at.7v supply but with a typical offset skew of µv. Note 6: This parameter is not % tested. Note 7: During testing at 4 C, the 5V power supply turn on-time is less than.5 seconds. ICAL PERFOR A CE CHARACTERISTICS W NMBER OF OP AMPS 5 5 Input Offset Voltage Distribution N, J, H Package 98 LT78N8 9 LT78J8 9 LT78H8 7 LT79N 44 LT79J 64 OP AMPS TESTED NMBER OF OP AMPS Input Offset Voltage Distribution Surface Mount Package 6 LT78SW 4 LT79SW 89 OP AMPS TESTED OFFSET VOLTAGE SHIFT (µv) 4 Minimum Supply Voltage V = V 85 C 5 C 4 C NON-FTIONAL OFFSET VOLTAGE (µv) OFFSET VOLTAGE (µv) POSITIVE SPPLY VOLTAGE (V) LT78/LT79 TPC LT78/LT79 TPC LT78/LT79 TPC 6 789fb
7 LT78/LT79 ICAL PERFOR A CE CHARACTERISTICS W INPT OFFSET CRRENT (pa) INPT BIAS CRRENT (na) Input Bias and Offset Currents vs Temperature I OS I B SATRATION VOLTAGE (mv) Output Saturation vs Temperature vs Sink Current I SINK = ma I SINK = µa I SINK = µa NO LOAD k TO GROND k TO GROND SHORT-CIRCIT CRRENT (ma) SINKING SORCING Short-Circuit Current V S = ±5V V S = ±.5V V S = ±.5V V S = ±5V TEMPERATRE ( C) LT78/LT79 TPC TEMPERATRE ( C) LT78/LT79 TPC5 TIME FROM OTPT SHORT TO GROND (TES) LT78/LT79 TPC6 NOISE VOLTAGE (.4µV/DIV).Hz to Hz Noise V S = ±.5V, CHANNEL A CHANNEL B TIME (SECONDS) LT78/LT79 TPC7 NOISE VOLTAGE (.4µV/DIV).Hz to Hz Noise V S = ±.5V, CHANNEL A CHANNEL B TIME (SECONDS) LT78/LT79 TPC8 VOLTAGE NOISE DENSITY (nv/ Hz) CRRENT NOISE DENSITY (fa/ Hz) Noise Spectrum V S = ±.5V CRRENT NOISE /f CORNER.5Hz VOLTAGE NOISE. k FREQEY (Hz) LT78/LT79 TPC9 VOLTAGE GAIN (db) Voltage Gain vs Frequency... k k k M FREQEY (Hz) V S = ±5V LT78/LT79 TPC VOLTAGE GAIN (db) Gain, Phase vs Frequency GAIN 5V, V PHASE ±5V NO LOAD PHASE 5V, V GAIN ±5V 4 k k M FREQEY (Hz) LT78/LT79 TPC PHASE SHIFT (DEGREES) VOLTAGE GAIN (V/V) M M k Voltage Gain vs Load Resistance V S = ±5V,,, T A = 85 C k k k M M LOAD RESISTAE TO GROND (Ω) LT78/LT79 TPC 789fb 7
8 LT78/LT79 ICAL PERFOR A CE CHARACTERISTICS W OVERSHOOT (%) Capacitive Load Handling A V = Large-Signal Transient Response V S = ±5V V/DIV Large-Signal Transient Response A V = 5 A V = A V = C L = pf 5µs/DIV A V = µs/div C L = pf INPT PLSE = V TO.8V, CAPACITIVE LOAD (pf) LT78/LT79 TPC Small-Signal Transient Response V S = ±.5V Small-Signal Transient Response V S = ±5V Small-Signal Transient Response mv/div mv/div mv/div mv A V = C L = pf µs/div A V = C L = pf µs/div A V = µs/div C L = pf INPT 5 TO 5mV COMMON MODE REJECTION RATIO (db) Common Mode Rejection Ratio vs Frequency V S = ±5V k k FREQEY (Hz) LT78/LT79 TPC9 k POWER SPPLY REJECTION RATIO (db) Power Supply Rejection Ratio vs Frequency. NEGATIVE SPPLY V S = ±.5V Vp-p SINE WAVE k FREQEY (Hz) POSITIVE SPPLY k LT88/LT89 TPC k OTPT IMPEDAE (Ω) k k Closed Loop Output Impedance A CL = A CL = A CL = k k FREQEY (Hz) I L = LT78/79 TPC k 8 789fb
9 APPLICATIO S I FOR ATIO W Please see the LT78/LT79 data sheet for applications information. All comments relating to specifications, single V IN V TO 5V 5k MHz TRIM k* Hz TRIM 4k ICAL k A / LT78.5M 47k.µF Micropower Hz to MHz V-to-F Converter k Q8 N96 µf Q7 N94 CLK LT78/LT79 supply operation and phase reversal protection are directly applicable to the LT78/LT79. V DD CD44 N448 Q7 Ω µf A / LT78 k 7V TO V k LT4.5.µF pf M 74C4 RESET V SS F OT µf S D LTC 5pF POLYSTYRENE S D IN V IN LINEARITY IS.% QIESCENT CRRENT IS 9µA SPPLY CRRENT IS 6µA AT MHz DRIFT 5ppm/ C *TRW MTR/5 ppm/ C.µF D S D4 S4 IN4 IN V GND LT78/LT79 AI SI PLIFIED SCHE ATIC W W / LT78 /4 LT79 V k k.k 5.6k.k 6.4k k.5k.5k Q5 Q6 Q6 Q4 Q5 Q Q54 Q5 Q47 Q5 IN IN 6Ω 6Ω Q Q Q Q Q Q Q 4 Q7 Q8 V Q9 Q4 Q4 8.6k Q9 C 5pF C5.5pF Q8 C 4pF Q9 Q7 Q C4 4pF Q5 Q.9k k Q6 Q5 Ω OT Q6 Q 5k Q5 Q46 V Q4 V Q44 Q48 Q4 Q4 Q49 J Q9 C 75pF Q7 Q8 6.k 6.k Q Q7 Q A k Q Q4 k Ω V Q8 Q45 A Q5 Q55 5.5k 9.k Q4 A 7k 7k V 789fb 9
10 LT78/LT79 PACKAGE DESCRIPTIO H Package 8-Lead TO-5 Metal Can (. Inch PCD) (Reference LTC DWG # 5-8-).6.** (.46.5) SEATING PLANE..45* (.54.4).5.7 ( ) DIA.5.5 ( ).4 (.6).5 (.7) ( ) GAGE PLANE REFEREE PLANE.5.75 (.7 9.5) (.7.864)..6 ( ) INSLATING STANDOFF.7.45 (.686.4) PIN. (5.84) * LEAD DIAMETER IS ONTROLLED BETWEEN THE REFEREE PLANE AND THE SEATING PLANE.6.4 ** FOR SOLDER DIP LEAD FINISH, LEAD DIAMETER IS (.46.6) H8 (TO-5). PCD 8 J8 Package 8-Lead CERDIP (Narrow. Inch, Hermetic) (Reference LTC DWG # 5-8-). BSC (7.6 BSC) CORNER LEADS OPTION (4 PLCS). (5.8).5 (.7).45 (.87) (..457) 5 NOTE: LEAD DIMENSIONS APPLY TO SOLDER DIP/PLATE OR TIN PLATE LEADS (.4.65) FLL LEAD OPTION..45 (.584.4) HALF LEAD OPTION (.4.65).4.6 (.6.66).5.6 (.8.54). (.54) BSC (.65) RAD 4.. ( ) J8 8 J Package 4-Lead CERDIP (Narrow. Inch, Hermetic) (Reference LTC DWG # 5-8-). BSC (7.6 BSC).5.6 (.8.54). (5.8).5 (.7).785 (9.99) (..457) NOTE: LEAD DIMENSIONS APPLY TO SOLDER DIP/PLATE OR TIN PLATE LEADS (.4.65).4.6 (.6.66). (.54) BSC.5 (.65).5 RAD (.75) J ( ) OBSOLETE PACKAGES 789fb
11 LT78/LT79 PACKAGE DESCRIPTIO N8 Package 8-Lead PDIP (Narrow. Inch) (Reference LTC DWG # 5-8-5).4* (.6) ±.5* (6.477 ±.8) 4..5 ( ) (.4.65). ±.5 (. ±.7).8.5 (..8) ( ).65 (.65). (.54) BSC NOTE: IHES. DIMENSIONS ARE MILLIMETERS *THESE DIMENSIONS DO NOT ILDE MOLD FLASH OR PROTRSIONS. MOLD FLASH OR PROTRSIONS SHALL NOT EXCEED. IH (.54mm). (.48).8 ±. (.457 ±.76). (.58) N8 N Package 4-Lead PDIP (Narrow. Inch) (Reference LTC DWG # 5-8-5).77* (9.558) ±.5* (6.477 ±.8) ( ). ±.5 (. ±.7) (.4.65).8.5 (..8) ( ). (.58). (.48).5 (.5) NOTE: IHES. DIMENSIONS ARE MILLIMETERS *THESE DIMENSIONS DO NOT ILDE MOLD FLASH OR PROTRSIONS. MOLD FLASH OR PROTRSIONS SHALL NOT EXCEED. IH (.54mm). (.54) BSC Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of its circuits as described herein will not infringe on existing patent rights..65 (.65).8 ±. (.457 ±.76) N4 789fb
12 LT78/LT79 PACKAGE DESCRIPTIO S8 Package 8-Lead Plastic Small Outline (Narrow.5 Inch) (Reference LTC DWG # 5-8-6) N.5 BSC.45 ± ( ) NOTE N/.6 ± ( ) N N/.5.57 (.8.988) NOTE. ±.5 RECOMMENDED SOLDER PAD LAYOT 4.8. (..54).. (.54.58) (.46.75).4. (..54) (.46.7) (.55.48) NOTE: IHES. DIMENSIONS IN (MILLIMETERS). DRAWING NOT TO SCALE. THESE DIMENSIONS DO NOT ILDE MOLD FLASH OR PROTRSIONS. MOLD FLASH OR PROTRSIONS SHALL NOT EXCEED.6" (.5mm).5 (.7) BSC SO8 5 SW Package 6-Lead Plastic Small Outline (Wide. Inch) (Reference LTC DWG # 5-8-6). ±.5 N.5 BSC.45 ± (.9.49) NOTE N.4.5 ±.5 NOTE (.7.64) N/ N/ RECOMMENDED SOLDER PAD LAYOT (.7) RAD.9.99 ( ) NOTE (.54.77) (.6.64).7.45 (.94.4).5.9. (.7) (.9.) NOTE BSC (.56.48) (.46.7) NOTE: IHES. DIMENSIONS IN (MILLIMETERS). DRAWING NOT TO SCALE. PIN IDENT, NOTCH ON TOP AND CAVITIES ON THE BOTTOM OF PACKAGES ARE THE MANFACTRING OPTIONS. THE PART MAY BE SPPLIED WITH OR WITHOT ANY OF THE OPTIONS 4. THESE DIMENSIONS DO NOT ILDE MOLD FLASH OR PROTRSIONS. MOLD FLASH OR PROTRSIONS SHALL NOT EXCEED.6" (.5mm) Linear Technology Corporation 6 McCarthy Blvd., Milpitas, CA (48) 4-9 FAX: (48) (..5) S6 (WIDE) 5 789fb LW/TP K REV B PRINTED IN SA LINEAR TECHNOLOGY CORPORATION 99
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LTC V Low Power RS Transceiver FEATRES Operates from a Single V Supply Low Supply Current: I CC = µa ESD Protection Over ±kv Available in -Pin SOIC Narrow Package ses Small Capacitors: Operates to kbaud
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FEATURES Guaranteed Offset Voltage: 5µV Max Guaranteed Bias Current: 5 C: pa Max 55 C to 5 C: 7pA Max Guaranteed Drift:.5µV/ C Max Low Noise,.Hz to Hz:.5µV P-P Guaranteed Supply Current: 6µA Max Guaranteed
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LTC Very Low Noise Zero-Drift Bridge Amplifier FEATRES Very Low Noise:.µV P-P Typ,.Hz to Hz DC to Hz Noise Lower Than OP- Full Output Swing into k Load Offset Voltage: µv Max Offset Voltage Drift: nv/
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FEATRES On-Chip ESD Protection: ±15kV Human Body Model ±15kV IEC-00-4-2 Air Gap Test** ±8kV IEC-00-4-2 Contact Test 125kBd Operation with 3kΩ/2500pF Load 250kBd Operation with 3kΩ/00pF Load Operates from
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NOT RECOMMENDED FOR NEW DESIGNS Contact Linear Technology for Potential Replacement FEATRES Guaranteed 1% Initial Voltage Tolerance Guaranteed.15%/V Line Regulation Guaranteed.2%/ W Thermal Regulation
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LT Dual Low Noise, Precision, JFET Input Op Amp FEATRES % Tested Low Voltage Noise: nv/ Hz Max SO- Package Standard Pinout Voltage Gain:. Million Min Offset Voltage:.mV Max Offset Voltage Drift: µv/ C
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Not Recommended for New Designs This product was manufactured for Maxim by an outside wafer foundry using a process that is no longer available. It is not recommended for new designs. The data sheet remains
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Precision 5V Reference FEATRES Very Low Drift: 2ppm/ C Max TC Pin Compatible with LT121-5, REF-2, (PDIP Package) Output Sources 15mA, Sinks 1mA Excellent Transient Response Suitable for A-to-D Reference
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FEATRES Differential or Single-Ended Gain Block Wide Supply Range V to.v Output Swings Rail-to-Rail Input Common Mode Range Includes Ground V/µs Slew Rate db Bandwidth = 7MHz, A V = ± CMRR at MHz: >db
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RH498M MHz, 6V/µs, Dual Rail-to-Rail Input and Output Precision C-Load Op Amp DESCRIPTIO U The RH498 is a dual, rail-to-rail input and output precision C-Load TM op amp with a MHz gain-bandwidth product
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/ LT8 FEATRES MHz Gain Bandwidth Product 75V/µs Slew Rate 3.6mA Maximum Supply Current per Amplifier Tiny 3mm x 3mm x.8mm DFN Package 8nV/ Hz Input Noise Voltage nity-gain Stable.5mV Maximum Input Offset
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FEATRES Pin Selectable Butterworth or Bessel Response ma Supply Current with ±V Supplies f CTOFF up to khz µv RMS Wideband Noise THD
More informationDistributed by: www.jameco.com --- The content and copyrights of the attached material are the property of its owner. Precision, Rail-to-Rail, Zero-Drift, Resistor-Programmable Instrumentation Amplifier
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FEATURES Guaranteed low offset voltage LT2A µv max LT2 µv max Guaranteed offset voltage match LT2A µv max LT2 8µV max Guaranteed low drift LT2A.9µV/ C max LT2.µV/ C max Guaranteed CMRR LT2A db min LT2
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FEATURES 9MHz Gain Bandwidth, f = khz Maximum Input Offset Voltage: 5µV Settling Time: 9ns (A V =, 5µV, V Step) V/µs Slew Rate Low Distortion: 96.5dB for khz, V P-P Maximum Input Offset Voltage Drift:
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FEATRES Single Supply Operation from V to.v Small (mm mm) MSOP -Lead Package Internal Resistors for a Gain of Two V/µs Slew Rate MHz db Bandwidth MHz Flat to.db % Settling Time: ns Input Common Mode Range
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LT27 Dual 25mA/6MHz Current Feedback Amplifier FEATRES 25mA Minimum Output Drive Current 6MHz Bandwidth, A V = 2, R L = Ω 9V/µs Slew Rate, A V = 2, R L = 5Ω.2% Differential Gain, A V = 2, R L = 3Ω.7 Differential
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