The INA163 is a very low-noise, low-distortion, monolithic instrumentation amplifier. Its current-feedback circuitry achieves very wide bandwidth and excellent dynamic response over a wide range of gain. It is ideal for low-level audio signals such as balanced ...
The INA166 is a very low-noise, low-distortion, monolithic instrumentation amplifier. Its current-feedback circuitry achieves very wide bandwidth and excellent dynamic response over a wide range of gain. It is ideal for low-level signals such as microphones or ...
The INA217 is a low-noise, low-distortion, monolithic instrumentation amplifier. Current-feedback circuitry allows the INA217 to achieve wide bandwidth and excellent dynamic response over a wide range of gain. The INA217 is ideal for low-level audio signals ...
The INA101 is a high accuracy instrumentation amplifier designed for low-level signal amplification and general purpose data acquisition. Three precision op amps and laser-trimmed metal film resistors are integrated on a single monolithic integrated ...
The INA122 is a precision instrumentation amplifier for accurate, low noise differential signal acquisition. Its two-op-amp design provides excellent performance with very low quiescent current, and is ideal for portable instrumentation and data acquisition ...
The INA121 is a FET-input, low power instrumentation amplifier offering excellent accuracy. Its versatile three-op amp design and very small size make it ideal for a variety of general purpose applications. Low bias current (4pA) allows use with high impedance ...
The INA118 is a low power, general purpose instrumentation amplifier offering excellent accuracy. Its versatile 3-op amp design and small size make it ideal for a wide range of applications. Current-feedback input circuitry provides wide bandwidth even at high ...
The INA116 is a complete monolithic FET-input instrumentation amplifier with extremely low input bias current. Difet?? inputs and special guarding techniques yield input bias currents of 3fA at 25C, and only 25fA at 85C. Its 3-op amp topology allows gains to ...
The INA115 is a low cost, general purpose instrumentation amplifier offering excellent accuracy. Its versatile three-op amp design and small size make it ideal for a wide range of applications. Similar to the model INA114, the INA115 provides additional ...
The INA114 is a low cost, general purpose instrumentation amplifier offering excellent accuracy. Its versatile 3-op amp design and small size make it ideal for a wide range of applications.
A single external resistor sets any gain from 1 to 10,000. Internal ...
The INA111 is a high speed, FET-input instrumentation amplifier offering excellent performance.
The INA111 uses a current-feedback topology providing extended bandwidth (2MHz at G = 10) and fast settling time (4us to 0.01% at G = 100). A single external ...
The INA110 is a versatile monolithic FET-input instrumentation amplifier. Its current-feedback circuit topology and laser trimmed input stage provide excellent dynamic performance and accuracy. The INA110 settles in 4??s to 0.01%, making it ideal for high ...
The INA126 and INA2126 are precision Instrumentation Amplifiers for accurate, low noise differential signal acquisition. Their two-op-amp design provides excellent performance with very low quiescent current (175??A/channel). This, combined with a wide ...
The INA125 is a low power, high accuracy instrumentation amplifier with a precision voltage reference. It provides complete bridge excitation and precision differential-input amplification on a single integrated circuit.
A single external resistor sets any ...
The INA156 is a low-cost CMOS instrumentation amplifier with rail-to-rail output swing optimized for low-voltage, single-supply operation.
Wide bandwidth (550kHz in G = 10) and high slew rate (6.5V/??s) make the INA156 suitable for driving sampling A/D ...
The INA155 is a low-cost CMOS instrumentation amplifier with rail-to-rail output swing optimized for low voltage, single-supply operation.
Wide bandwidth (550kHz in G = 10) and high slew rate (6.5V/??s) make the INA155 suitable for driving sampling A/D ...
The INA141 is a low power, general purpose instrumentation amplifier offering excellent accuracy. Its versatile 3-op amp design and small size make it ideal for a wide range of applications. Current-feedback input circuitry provides wide bandwidth even at high ...
The INA131 is a low cost, general purpose G = 100 instrumentation amplifier offering excellent accuracy. Its 3-op amp design and small size make it ideal for a wide range of applications.On-chip laser trimmed resistors accurately set a fixed gain of 100. The ...
The INA128 and INA129 are low power, general purpose Instrumentation Amplifiers offering excellent accuracy. The versatile 3-op amp design and small size make them ideal for a wide range of applications. Current-feedback input circuitry provides wide bandwidth ...
The INA128 and INA129 are low power, general purpose Instrumentation Amplifiers offering excellent accuracy. The versatile 3-op amp design and small size make them ideal for a wide range of applications. Current-feedback input circuitry provides wide bandwidth ...
The INA126 and INA2126 are precision Instrumentation Amplifiers for accurate, low noise differential signal acquisition. Their two-op-amp design provides excellent performance with very low quiescent current (175??A/channel). This, combined with a wide ...
The INA326 and INA327 (with shutdown) are high-performance, low-cost, precision Instrumentation Amplifiers with rail-to-rail input and output. They are true single-supply Instrumentation Amplifiers with very low DC errors and input common-mode ranges that ...
The INA326 and INA327 (with shutdown) are high-performance, low-cost, precision Instrumentation Amplifiers with rail-to-rail input and output. They are true single-supply Instrumentation Amplifiers with very low DC errors and input common-mode ranges that ...
The INA322 family is a series of low cost, rail-to-rail output, micropower CMOS Instrumentation Amplifiers that offer wide-range, single-supply, as well as bipolar-supply operation. The INA322 family provides low-cost, low-noise amplification of differential ...
The INA321 family is a series of rail-to-rail output, micropower CMOS Instrumentation Amplifiers that offer wide-range, single-supply, as well as bipolar-supply operation. The INA321 family provides low-cost, low-noise amplification of differential signals ...
The INA332 and INA2332 are rail-to-rail output, low-power CMOS Instrumentation Amplifiers that offer wide range, single-supply, and bipolar-supply operation. Using a special manufacturing flow, the INA332 family provides the lowest cost available, while still ...
The INA331 and INA2331 are rail-to-rail output, low-power CMOS Instrumentation Amplifiers that offer wide range, single-supply operation as well as bipolar-supply operation. The INA331 family provides low-cost, low-noise amplification of differential signals ...
The INA322 family is a series of low cost, rail-to-rail output, micropower CMOS Instrumentation Amplifiers that offer wide-range, single-supply, as well as bipolar-supply operation. The INA322 family provides low-cost, low-noise amplification of differential ...
The INA2141 is a low power, dual instrumentation amplifier offering excellent accuracy. Its versatile 3-op amp design and small size make it ideal for a wide range of applications. Current-feedback input circuitry provides wide bandwidth even at high gain ...
The INA2128 is a dual, low power, general purpose instrumentation amplifier offering excellent accuracy. Its versatile 3-op amp design and small size make it ideal for a wide range of applications. Current-feedback input circuitry provides wide bandwidth even ...
The INA330 is a precision amplifier designed for thermoelectric cooler (TEC) control in optical networking applications. It is optimized for use in 10k thermistor-based temperature controllers. The INA330 provides thermistor excitation and generates an output ...
The PGA206 and PGA207 are digitally programmable gain Instrumentation Amplifiers that are ideally suited for data acquisition systems.
The PGA206 and PGA207\\\'s fast settling time allows multiplexed input channels for excellent system efficiency. FET ...
The PGA206 and PGA207 are digitally programmable gain Instrumentation Amplifiers that are ideally suited for data acquisition systems.
The PGA206 and PGA207\\\'s fast settling time allows multiplexed input channels for excellent system efficiency. FET ...
The PGA204 and PGA205 are low cost, general purpose programmable-gain Instrumentation Amplifiers offering excellent accuracy. Gains are digitally selected: PGA2041, 10, 100, 1000, and PGA2051, 2, 4, 8V/V. The precision and versatility, and low cost of the ...
The PGA204 and PGA205 are low cost, general purpose programmable-gain Instrumentation Amplifiers offering excellent accuracy. Gains are digitally selected: PGA2041, 10, 100, 1000, and PGA2051, 2, 4, 8V/V. The precision and versatility, and low cost of the ...
The INA331 and INA2331 are rail-to-rail output, low-power CMOS Instrumentation Amplifiers that offer wide range, single-supply operation as well as bipolar-supply operation. The INA331 family provides low-cost, low-noise amplification of differential signals ...
The INA332 and INA2332 are rail-to-rail output, low-power CMOS Instrumentation Amplifiers that offer wide range, single-supply, and bipolar-supply operation. Using a special manufacturing flow, the INA332 family provides the lowest cost available, while still ...
The PGA103 is a programmable-gain amplifier for general purpose applications. Gains of 1, 10, or 100 are digitally selected by two CMOS/TTL-compatible inputs. The PGA103 is ideal for systems that must handle wide dynamic range signals.
The PGA103\\\'s high ...
The INA337 and INA338 (with shutdown) are high temperature, high-performance, low-cost, precision Instrumentation Amplifiers They are true single-supply Instrumentation Amplifiers with very-low DC errors and input common-mode ranges that extends beyond the ...
The INA337 and INA338 (with shutdown) are high temperature, high-performance, low-cost, precision Instrumentation Amplifiers They are true single-supply Instrumentation Amplifiers with very-low DC errors and input common-mode ranges that extends beyond the ...
The PGA202 is a monolithic instrumentation amplifier with digitally controlled gains of 1, 10, 100, and 1000. The PGA203 provides gains of 1, 2, 4, and 8. Both have TTL or CMOS-compatible inputs for easy microprocessor interface. Both have FET inputs and a new ...
The PGA202 is a monolithic instrumentation amplifier with digitally controlled gains of 1, 10, 100, and 1000. The PGA203 provides gains of 1, 2, 4, and 8. Both have TTL or CMOS-compatible inputs for easy microprocessor interface. Both have FET inputs and a new ...
An instrumentation amplifier AD522 is usually employed as a bridge amplifier for resistance transducers (thermistors, strain gages, etc.) found in process control, instrumentation, data processing, and medical testing. The operating environment is frequently ...
The AD524 is a precision monolithic instrumentation amplifier designed for data acquisition applications requiring high accu- racy under worst-case operating conditions. An outstanding combination of high linearity, high common-mode rejection, low offset ...
The AD620, with its high accuracy of 40 ppm maximum nonlinearity, low offset voltage of 50 V max, and offset drift of 0.6 V/C max, is ideal for use in precision data acquisition systems, such as weigh scales and transducer interfaces. Furthermore, the low ...
The AD621 is an easy to use, low cost, low power, high accuracy instrumentation amplifier which is ideally suited for a wide range of applications. Its unique combination of high performance, small size and low power, outperforms discrete in amp ...
The AD622 is a low cost, moderately accurate instrumentation amplifier that requires only one external resistor to set any gain between 2 and 1000. For a gain of 1, no external resistor is required. The AD622 is a complete difference or subtracter amplifier ...
The AD623 is an integrated single supply instrumentation amplifier
that delivers rail-to-rail output swing. The AD623 offers superior user flexibility by allowing single gain set resistor programming, and
conforming to the 8-lead industry standard pinout ...
The AD624 is a high precision, low noise, instrumentation amplifier designed primarily for use with low level transducers, including load cells, strain gauges and pressure transducers. An combination of low noise, high gain accuracy, low gain temperature ...
The AD625 is a precision instrumentation amplifier specifically designed to fulfill two major areas of application: 1) Circuits requiring nonstandard gains (i.e., gains not easily achievable with devices such as the AD524 and AD624). 2) Circuits requiring a ...
The AD627 is an integrated, micropower instrumentation amplifier that delivers rail-to-rail output swing on single and dual (+2.2 V to 18 V) supplies. The AD627 provides excellent ac and dc specifications while operating at only 85 A maximum.
The AD627 ...
The AD8220 is the first single-supply, JFET input instrumentation amplifier available in an MSOP package. Designed to meet the needs of high performance, portable instrumentation, the AD8220 has a minimum common-mode rejection ratio (CMRR) of 86 dB at dc and a ...
The AD8221 is a gain programmable, high performance instrumentation amplifier that delivers the industrys highest CMRR over frequency in its class. The CMRR of Instrumentation Amplifiers on the market today falls off at 200 Hz. In contrast, the AD8221 ...
The AD8222 is the first dual instrumentation amplifier in the small 4 mm 4 mm LFCSP. It requires the same board area as a typical single instrumentation amplifier. The smaller package allows a 2 increase in channel density and a lower cost per channel, all ...
The AD8224 is the first single-supply, JFET input instrumentation amplifier available in the space-saving 16-lead, 4 mm 4 mm LFCSP. It requires the same board area as a typical single instrumentation amplifier yet doubles the channel density and offers a ...
The AD8225 is an instrumentation amplifier with a fixed gain
of 5, which sets new standards of performance. The superior
CMRR of the AD8225 enables rejection of high frequency
common-mode voltage (80 dB Min @ 10 kHz). As a result,
higher ambient levels of ...
The AD8230 is a low drift, differential sampling, precision instrumentation amplifier. Auto-zeroing reduces offset voltage drift to less than 50 nV/C. The AD8230 is well-suited for thermocouple and bridge transducer applications. The AD8230 s high CMR of 110 ...
The AD8231 is a low drift, rail-to-rail, instrumentation amplifier with software-programmable gains of 1, 2, 4, 8, 16, 32, 64, or 128. The gains are programmed via digital logic or pin strapping.
The AD8231 is ideal for applications that require ...
The AD8250 is an instrumentation amplifier with digitally programmable gains that has G input impedance, low output noise, and low distortion making it suitable for interfacing with sensors and driving high sample rate analog-to-digital converters (ADCs). It ...
The AD8251 is an instrumentation amplifier with digitally programmable gains that has G input impedance, low output noise, and low distortion, making it suitable for interfacing with sensors and driving high sample rate analog-to-digital converters (ADCs). It ...
The AD8253 is an instrumentation amplifier with digitally programmable gains that has G input impedance, low output noise, and low distortion making it suitable for interfacing with sensors and driving high sample rate analog-to-digital converters (ADCs). It ...
The AD8553 is a precision instrumentation amplifier
featuring low noise, rail-to-rail output and a power-saving
shutdown mode. The AD8553 also features low offset and
drift coupled with high common mode rejection. In
shutdown mode, the total supply current ...
The AD521 is a second generation, low cost monolithic IC instrumentation amplifier developed by Analog Devices. As a true instrumentation amplifier, the AD521 is a gain block with differential inputs and an accurately programmable input/output gain ...
The AMP01 is a monolithic instrumentation amplifier designed for high-precision data acquisition and instrumentation applications. The design combines the conventional features of an instrumentation amplifier with a high current output stage. The output ...
The ISL28270 and ISL28273 are dual channel micropower Instrumentation Amplifiers (in-amps) and the ISL28470 is a quad channel in-amp optimized for single supply operation over the +2.4V to +5.5V range. All three devices feature an Input Range Enhancement ...
The ISL28270 and ISL28273 are dual channel micropower Instrumentation Amplifiers (in-amps) and the ISL28470 is a quad channel in-amp optimized for single supply operation over the +2.4V to +5.5V range. All three devices feature an Input Range Enhancement ...
The ISL28270 and ISL28273 are dual channel micropower Instrumentation Amplifiers (in-amps) and the ISL28470 is a quad channel in-amp optimized for single supply operation over the +2.4V to +5.5V range. All three devices feature an Input Range Enhancement ...
The EL8170 and EL8173 are micropower Instrumentation Amplifiers optimized for single supply operation over the +2.4V to +5.5V range. Inputs and outputs can operate rail-to-rail. As with all Instrumentation Amplifiers a pair of inputs provide very high ...
The EL8171 and EL8172 are micropower Instrumentation Amplifiers optimized for single supply operation over the +2.4V to +5.5V range. Inputs and outputs can operate rail-torail. As with all Instrumentation Amplifiers a pair of inputs provide very high ...
The EL8171 and EL8172 are micropower Instrumentation Amplifiers optimized for single supply operation over the +2.4V to +5.5V range. Inputs and outputs can operate rail-torail. As with all Instrumentation Amplifiers a pair of inputs provide very high ...
The EL8170 and EL8173 are micropower Instrumentation Amplifiers optimized for single supply operation over the +2.4V to +5.5V range. Inputs and outputs can operate rail-to-rail. As with all Instrumentation Amplifiers a pair of inputs provide very high ...
The ISL28271 and ISL28272 are dual micropower Instrumentation Amplifiers (in-amps) optimized for single supply operation over the +2.4V to +5.5V range. Both devices feature an Input Range Enhancement Circuit (IREC) which maintains CMRR performance for ...
The ISL28271 and ISL28272 are dual micropower Instrumentation Amplifiers (in-amps) optimized for single supply operation over the +2.4V to +5.5V range. Both devices feature an Input Range Enhancement Circuit (IREC) which maintains CMRR performance for ...
The ISL28274 is a combination of a micropower instrumentation amplifier (Amp A) with a low power precision amplifier (Amp B) in a single package. The ISL28474 consists of two micropower Instrumentation Amplifiers (Amp A) and two low power precision amplifiers ...
The ISL28274 is a combination of a micropower instrumentation amplifier (Amp A) with a low power precision amplifier (Amp B) in a single package. The ISL28474 consists of two micropower Instrumentation Amplifiers (Amp A) and two low power precision amplifiers ...
The LT1024 dual, matched internally compensated universal precision operational amplifier can be used inpractically all precision applications requiring multiple op amps. The LT1024 combines picoampere bias currents(which are maintained over the full ,55C to ...
The LT1101 establishes the following milestones: (1) It is the first micropower instrumentation amplifier, (2) It is the first single supply instrumentation amplifier, (3) It is the first instrumentation amplifier to feature fixed gains of 10 and/or 100 in low ...
The LT1102 is the first fast FET input instrumentation amplifier offered in the low cost, space saving 8-pin packages. Fixed gains of 10 and 100 are provided with excellent gain accuracy (0.01%) and non-linearity (3ppm). No external gain setting resistor is ...
The LT1167 is a low power, precision instrumentation amplifier that requires only one external resistor to set gains of 1 to 10,000.The low voltage noise of 7.5nV/rtHz (at 1kHz) is not compromised by low power dissipation (0.9mA typical for 2.3V to 15V ...
The LT1168 is a micropower, precision instrumentation amplifier that requires only one external resistor to set gains of 1 to 10,000. The low voltage noise of 10nV/rtHz (at 1kHz) is not compromised by low power dissipation (350A typical for 15V supplies). The ...
The LT1351 is a low power, high speed, high slew rate operational amplifier with outstanding AC and DC performance. The LT1351 features lower supply current, lower input offset voltage, lower input bias current and higher DC gain than devices with comparable ...
The LT1352/LT1353 are dual and quad, very low power, high speed operational amplifiers with outstanding AC and DC performance. The amplifiers feature much lower supply current and higher slew rate than devices with comparable bandwidth. The circuit combines ...
The LT1352/LT1353 are dual and quad, very low power, high speed operational amplifiers with outstanding AC and DC performance. The amplifiers feature much lower supply current and higher slew rate than devices with comparable bandwidth. The circuit combines ...
The LT1360 is a high speed, very high slew rate operational amplifier with excellent DC performance. The LT1360 features reduced supply current, lower input offset voltage, lower input bias current and higher DC gain than devices with comparable bandwidth. The ...
The LT1361/LT1362 are dual and quad low power high speed operational amplifiers with outstanding AC and DC performance. The amplifiers feature much lower supply current and higher slew rate than devices with comparable bandwidth. The circuit topology is a ...
The LT1361/LT1362 are dual and quad low power high speed operational amplifiers with outstanding AC and DC performance. The amplifiers feature much lower supply current and higher slew rate than devices with comparable bandwidth. The circuit topology is a ...
The LT1789-1/LT1789-10 are micropower, precision Instrumentation Amplifiers that are optimized for single supply operation from 2.2V to 36V. The quiescent current is 95A max, the inputs common mode to ground and the output swings within 110mV of ground. The ...
The LT1789-1/LT1789-10 are micropower, precision Instrumentation Amplifiers that are optimized for single supply operation from 2.2V to 36V. The quiescent current is 95A max, the inputs common mode to ground and the output swings within 110mV of ground. The ...
The LT1920 is a low power, precision instrumentation amplifier that requires only one external resistor to set gains of 1 to 10,000. The low voltage noise of 7.5nV/rtHz (at 1kHz) is not compromised by low power dissipation (0.9mA typical for 2.3V to 15V ...
The LTC1100 is a high precision instrumentation amplifier using zero-drift techniques to achieve outstanding DC performance. The input DC offset is typically 1V while the DC offset drift is typically 5nV/C; a very low bias current of 65pA is also achieved.
The LTC1150 is a high-voltage, high-performance zero-drift operational amplifier. The two sample-and-hold capacitors usually required externally by other chopper amplifiers are integrated on-chip. Further, LTCs proprietary high-voltage CMOS structures allow ...
The LTC2053 is a high precision instrumentation amplifier. The CMRR is typically 116dB with a single or dual 5V supply and is independent of gain. The input offset voltage is guaranteed below 10V with a temperature drift of less than 50nV/C. The LTC2053 is ...
The LTC2053 is a high precision instrumentation amplifier. The CMRR is typically 116dB with a single or dual 5V supply and is independent of gain. The input offset voltage is guaranteed below 10V with a temperature drift of less than 50nV/C. The LTC2053 is ...
The LTC6800 is a precision instrumentation amplifier. The CMRR is typically 116dB with a single 5V supply and is independent of gain. The input offset voltage is guaranteed below 100V with a temperature drift of less than 250nV/C. The LTC6800 is easy to use; ...
,
The LTC 6915 is a precision programmable gain instru-
mentation amplifier. The gain can be programmed to 0, 1,
2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, or 4096
through a parallel or serial interface. The CMRR is typically
125dB with a single 5V ...
The MAX4444/MAX4445 differential line receivers offer unparalleled high-speed, low-distortion performance. Using a three op amp instrumentation amplifier architecture, these ICs have symmetrical differential inputs and a single-ended output. They operate from ...
The MAX4444/MAX4445 differential line receivers offer unparalleled high-speed, low-distortion performance. Using a three op amp instrumentation amplifier architecture, these ICs have symmetrical differential inputs and a single-ended output. They operate from ...
The single MAX9910/MAX9911 and dual MAX9912/
MAX9913 operational amplifiers (op amps) feature a
maximized ratio of gain bandwidth (GBW) to supply
current and are ideal for battery-powered applications
such as portable instrumentation, portable ...
The single MAX9910/MAX9911 and dual MAX9912/
MAX9913 operational amplifiers (op amps) feature a
maximized ratio of gain bandwidth (GBW) to supply
current and are ideal for battery-powered applications
such as portable instrumentation, portable ...
The single MAX9910/MAX9911 and dual MAX9912/
MAX9913 operational amplifiers (op amps) feature a
maximized ratio of gain bandwidth (GBW) to supply
current and are ideal for battery-powered applications
such as portable instrumentation, portable ...
