AD5648BRUZ-1REEL7 - Octal, 14-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD5648BRUZ-2 - Octal, 14-Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5628/AD5648/AD5668 family of devices are low power, octal, 12- 14-16-bit buffered voltage-out DACs. All devices operate fromA single +2.7V to +5.5V, and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of two. The AD56x8-1 hasA 1.25V 10ppm/°C max reference and the AD56x8-2,-3 haveA 2.5V 10ppm/°C max reference. The on-board reference is off at power-up allowing
AD5648BRUZ-2 - Octal, 14-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD5648BRUZ-2REEL7 - Octal, 14-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD565 - High Speed 12-bit Monolithic D/a Converters
AD565-566A - High Speed 12-Bit Monolithic D/A Converters
AD565A - High Speed 12-Bit Monolithic D/A Converters
AD565AJ - High Speed 12-Bit Monolithic D/A Converters
AD565AJD - High Speed 12-Bit Monolithic D/A Converters
AD565AJR - High Speed 12-Bit Monolithic D/A Converters
AD565AK - High Speed 12-Bit Monolithic D/A Converters
AD565AKD - High Speed 12-Bit Monolithic D/A Converters
AD565AS - High Speed 12-Bit Monolithic D/A Converters
AD565ASD - High Speed 12-Bit Monolithic D/A Converters
AD565AT - High Speed 12-Bit Monolithic D/A Converters
AD565ATD - High Speed 12-Bit Monolithic D/A Converters
AD5660 - Single, 12-/14-/16-Bit nanoDAC with 5 ppm/C On-Chip Reference in SOT-23
AD5660 - 3 V/5 V, 16-bit Nanodactm D/a With 10 Ppm/ЎЖc Max On-chip Reference In Sot-23
AD5660ARJ-1 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660ARJ-1500RL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660ARJ-1REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660ARJ-2 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660ARJ-2500RL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660ARJ-2REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660ARJ-2-U1 - 2.7V to 5.5 V, 16-Bit DAC With 10 Ppm/ C Max On-chip Referencethe AD5660 Family of Devices Are Low Power, Single, 16-bit Buffered Voltage-out DACs. All Devices Operate FromA Single +2.7V to +5.5 V, and Are Guaranteed Monotonic BY Design. The AD5660 Family Have an On-chip Reference and Comes With an Internal Gain of Two. The AD5660x-1 HasA 1.25V 10 Ppm/ C Max Reference and The AD5660x-2/3 HaveA 2.5V 10 Ppm/ C Max Reference. The Reference Associated With Each Part is Available at The Refout Pin. The Pa
AD5660ARJ-3 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660ARJ-3500RL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660ARJ-3REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660BRJ-1 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660BRJ-1500RL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660BRJ-1REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660BRJ-2 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660BRJ-2500RL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660BRJ-2REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660BRJ-3 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660BRJ-3500RL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660CRM-1 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660CRM-1REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660CRM-2 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660CRM-2REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5660CRM-3 - 3 V/5 V, 16-Bit nanoDACTM D/A with 10 ppm/ЎЖC Max On-Chip Reference in SOT-23
AD5660CRM-3REEL7 - 3 V/5 V, 16-Bit nanoDAC™ Converter with 5 ppm/°C On-Chip Reference inA Sot-23The AD5660,A member of the nanoDAC family of devices, isA low power, single, 16-bit buffered voltage-out DAC, guaranteed monotonic by design with an integrated on chip max 5 ppm/°C reference. The AD5660 operates either fromA 3V single supply featuring an internal reference of 1.25V and an internal gain of two orA 5V single supply featuring an internal reference of 2.5V also with an internal gain of two. The reference is gu
AD5662 - 2.7V To 5.5 V, 250 Ua, Rail-to-rail Output 16-bit Dac D/a InA Sot-23
AD5662ARJ-1 - 2.7V to 5.5 V, 250 uA, Rail-to-Rail Output 16-Bit DAC D/A inA SOT-23
AD5662ARJ-2 - 2.7V to 5.5 V, 250 uA, Rail-to-Rail Output 16-Bit DAC D/A inA SOT-23
AD5662ARM - 2.7V to 5.5 V, 250 uA, Rail-to-Rail Output 16-Bit DAC D/A inA SOT-23
AD5662BRJ-1 - 2.7V to 5.5 V, 250 uA, Rail-to-Rail Output 16-Bit DAC D/A inA SOT-23
AD5662BRJ-2 - 2.7V to 5.5 V, 250 uA, Rail-to-Rail Output 16-Bit DAC D/A inA SOT-23
AD5662BRM - 2.7V to 5.5 V, 250 uA, Rail-to-Rail Output 16-Bit DAC D/A inA SOT-23
AD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC™ in 10-Lead MSOPThe AD5663,A member of the nanoDAC family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design. The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circuit that ensures the DAC output powers up to 0V or midscale (AD5663-1) and remains there untilA valid write takes p
AD5663ARMZ - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663ARMZ-REEL7 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663BCPZ-250RL7 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663BCPZ-REEL7 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663BRMZ - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663BRMZ-1 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663BRMZ-1REEL7 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663BRMZ-REEL7 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOPAD5663 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Dual 16-Bit nanoDAC® in 10-Lead MSOP Product Description The AD5663,A member of the nanoDAC® family isA low power, dual, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5663 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circui
AD5663R - Dual, 16-Bit nanoDAC™ with 5ppm/°C On-Chip Reference in MSOPThe AD5643R/AD5663R,A member of the nanoDAC family, isA low power, dual, 14-16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design. The AD5663R has an on-chip reference with an internal gain of two. The AD5643/AD5663-3 hasA 1.25V 5ppm/°C reference givingA fullscale output of 2.5V and the AD5643/AD5663-5 haveA 2.5V 5ppm/°C reference givingA fullscale output of5V. The on-board ref
AD5664 - 2.7V to 5.5 V, 500 µA, Rail-to-Rail Output Quad 16-Bit nanoDAC™ in 10-Lead MSOPThe AD5664,A member of the nanoDAC family isA low power, quad, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design. The AD5664 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circuit that ensures the DAC output powers up to 0V and remains there untilA valid write takes place. The part contains
AD5664R - Quad, 16-Bit nanoDAC™ with 5ppm/°C On-Chip Reference in MSOPThe AD5624R/AD5644R/AD5664R, members of the nanoDAC family, are low power, quad, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design. The AD5624R/AD5644R/AD5664R have an on-chip reference with an internal gain of two. The AD56x4-3 hasA 1.25V 5ppm/°C max reference and the AD56x4-5 haveA 2.5V 5ppm/°C reference. The on-board reference is off at power-up allowing the use of an extern
AD5664RBRMZ-3 - The AD5624R/AD5644R/AD5664R, members of the nanoDAC® family, are low power, quad, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5624R/AD5644R/AD5664R have an on-chip reference with an internal gain of two. The AD56x4-3 hasA 1.25V 5ppm/°C max reference and the AD56x4-5 haveA 2.5V 5ppm/°C reference. The on-board reference is off at power-up allowing the use of an external reference. The internal reference is turned on by writing
AD5664RBRMZ-3REEL7 - The AD5624R/AD5644R/AD5664R, members of the nanoDAC® family, are low power, quad, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5624R/AD5644R/AD5664R have an on-chip reference with an internal gain of two. The AD56x4-3 hasA 1.25V 5ppm/°C max reference and the AD56x4-5 haveA 2.5V 5ppm/°C reference. The on-board reference is off at power-up allowing the use of an external reference. The internal reference is turned on by writing
AD5664RBRMZ-5 - The AD5624R/AD5644R/AD5664R, members of the nanoDAC® family, are low power, quad, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5624R/AD5644R/AD5664R have an on-chip reference with an internal gain of two. The AD56x4-3 hasA 1.25V 5ppm/°C max reference and the AD56x4-5 haveA 2.5V 5ppm/°C reference. The on-board reference is off at power-up allowing the use of an external reference. The internal reference is turned on by writing
AD5664RBRMZ-5REEL7 - The AD5624R/AD5644R/AD5664R, members of the nanoDAC® family, are low power, quad, 16-bit buffered voltage-out DAC that operates fromA single 2.7V to 5.5V supply and is guaranteed monotonic by design.The AD5624R/AD5644R/AD5664R have an on-chip reference with an internal gain of two. The AD56x4-3 hasA 1.25V 5ppm/°C max reference and the AD56x4-5 haveA 2.5V 5ppm/°C reference. The on-board reference is off at power-up allowing the use of an external reference. The internal reference is turned on by writing
AD5666 - Quad, 16 Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5666 DAC isA low power, quad, 16-bit buffered voltage-out DAC. The part operates fromA single +2.7V to +5.5 V, and is guaranteed monotonic by design. The AD5666 has an on-chip reference with an internal gain of two. The AD5666-1 hasA 1.25V 10 ppm/°C max reference and the AD5666-2 hasA 2.5V 10ppm/°C max reference. The onboard reference is off at power-up allowing the use of an external reference. The internal referenc
AD5666ARUZ-2 - Quad, 16 Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5666 DAC isA low power, quad, 16-bit buffered voltage-out DAC. The part operates fromA single +2.7V to +5.5 V, and is guaranteed monotonic by design. The AD5666 has an on-chip reference with an internal gain of two. The AD5666-1 hasA 1.25V 10 ppm/°C max reference and the AD5666-2 hasA 2.5V 10ppm/°C max reference. The onboard reference is off at power-up allowing the use of an external reference. The internal referenc
AD5666ARUZ-2REEL7 - Quad, 16 Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5666 DAC isA low power, quad, 16-bit buffered voltage-out DAC. The part operates fromA single +2.7V to +5.5 V, and is guaranteed monotonic by design. The AD5666 has an on-chip reference with an internal gain of two. The AD5666-1 hasA 1.25V 10 ppm/°C max reference and the AD5666-2 hasA 2.5V 10ppm/°C max reference. The onboard reference is off at power-up allowing the use of an external reference. The internal referenc
AD5666BRUZ-1 - Quad, 16 Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5666 DAC isA low power, quad, 16-bit buffered voltage-out DAC. The part operates fromA single +2.7V to +5.5 V, and is guaranteed monotonic by design. The AD5666 has an on-chip reference with an internal gain of two. The AD5666-1 hasA 1.25V 10 ppm/°C max reference and the AD5666-2 hasA 2.5V 10ppm/°C max reference. The onboard reference is off at power-up allowing the use of an external reference. The internal referenc
AD5666BRUZ-1REEL7 - Quad, 16 Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5666 DAC isA low power, quad, 16-bit buffered voltage-out DAC. The part operates fromA single +2.7V to +5.5 V, and is guaranteed monotonic by design. The AD5666 has an on-chip reference with an internal gain of two. The AD5666-1 hasA 1.25V 10 ppm/°C max reference and the AD5666-2 hasA 2.5V 10ppm/°C max reference. The onboard reference is off at power-up allowing the use of an external reference. The internal referenc
AD5666BRUZ-2 - Quad, 16 Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5666 DAC isA low power, quad, 16-bit buffered voltage-out DAC. The part operates fromA single +2.7V to +5.5 V, and is guaranteed monotonic by design. The AD5666 has an on-chip reference with an internal gain of two. The AD5666-1 hasA 1.25V 10 ppm/°C max reference and the AD5666-2 hasA 2.5V 10ppm/°C max reference. The onboard reference is off at power-up allowing the use of an external reference. The internal referenc
AD5666BRUZ-2REEL7 - Quad, 16 Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5666 DAC isA low power, quad, 16-bit buffered voltage-out DAC. The part operates fromA single +2.7V to +5.5 V, and is guaranteed monotonic by design. The AD5666 has an on-chip reference with an internal gain of two. The AD5666-1 hasA 1.25V 10 ppm/°C max reference and the AD5666-2 hasA 2.5V 10ppm/°C max reference. The onboard reference is off at power-up allowing the use of an external reference. The internal referenc
AD5668 - Octal, 16-Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5628/AD5648/AD5668 family of devices are low power, octal, 12- 14-16-bit buffered voltage-out DACs. All devices operate fromA single +2.7V to +5.5V, and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of two. The AD56x8-1 hasA 1.25V 10ppm/°C max reference and the AD56x8-2,-3 haveA 2.5V 10ppm/°C max reference. The on-board reference is off at power-up allowing
AD5668ARUZ-2 - Octal, 16-Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5628/AD5648/AD5668 family of devices are low power, octal, 12- 14-16-bit buffered voltage-out DACs. All devices operate fromA single +2.7V to +5.5V, and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of two. The AD56x8-1 hasA 1.25V 10ppm/°C max reference and the AD56x8-2,-3 haveA 2.5V 10ppm/°C max reference. The on-board reference is off at power-up allowing
AD5668ARUZ-2REEL7 - Octal, 16-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD5668ARUZ-3 - Octal, 16-Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5628/AD5648/AD5668 family of devices are low power, octal, 12- 14-16-bit buffered voltage-out DACs. All devices operate fromA single +2.7V to +5.5V, and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of two. The AD56x8-1 hasA 1.25V 10ppm/°C max reference and the AD56x8-2,-3 haveA 2.5V 10ppm/°C max reference. The on-board reference is off at power-up allowing
AD5668ARUZ-3REEL7 - Octal, 16-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD5668BRUZ-1 - Octal, 16-Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5628/AD5648/AD5668 family of devices are low power, octal, 12- 14-16-bit buffered voltage-out DACs. All devices operate fromA single +2.7V to +5.5V, and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of two. The AD56x8-1 hasA 1.25V 10ppm/°C max reference and the AD56x8-2,-3 haveA 2.5V 10ppm/°C max reference. The on-board reference is off at power-up allowing
AD5668BRUZ-1REEL7 - Octal, 16-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD5668BRUZ-2 - Octal, 16-Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5628/AD5648/AD5668 family of devices are low power, octal, 12- 14-16-bit buffered voltage-out DACs. All devices operate fromA single +2.7V to +5.5V, and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of two. The AD56x8-1 hasA 1.25V 10ppm/°C max reference and the AD56x8-2,-3 haveA 2.5V 10ppm/°C max reference. The on-board reference is off at power-up allowing
AD5668BRUZ-2REEL7 - Octal, 16-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD5668BRUZ-3 - Octal, 16-Bit D/A Converter with 10ppm/°C Max On-Chip Reference in 14-Lead TSSOPThe AD5628/AD5648/AD5668 family of devices are low power, octal, 12- 14-16-bit buffered voltage-out DACs. All devices operate fromA single +2.7V to +5.5V, and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of two. The AD56x8-1 hasA 1.25V 10ppm/°C max reference and the AD56x8-2,-3 haveA 2.5V 10ppm/°C max reference. The on-board reference is off at power-up allowing
AD5668BRUZ-3REEL7 - Octal, 16-Bit D/A Converter with 5 ppm/°C On-Chip Reference in 14-Lead TSSOPAD5628/AD5648/AD5668 devices are low power, octal, 12-/14-/16-bit, buffered voltage-output DACs. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5628/AD5648/AD5668 have an on-chip reference with an internal gain of 2. The AD5628/AD5648/AD5668-1 haveA 1.25V 5 ppm/°C reference, givingA full-scale output range of 2.5 V; the AD5628/AD5648/AD5668-2, -3 haveA 2.5V 5 ppm/°C referen
AD566A - High Speed 12-Bit Monolithic D/A Converters
AD566ATD - High Speed 12-Bit Monolithic D/A Converters
AD5678 - 4 x12-Bit and 4 x16-Bit Octal D/A Converter with On-Chip Reference in 14 Lead TSSOPThe AD5678 isA low power, octal buffered voltage-out DAC; 4 DACs with 12-bits of resolution and 4 DACs with16-bits of resolution, inA single package. All devices operate fromA single +2.7V to +5.5 V, and are guaranteed monotonic by design. The AD5678 has an on-chip reference with an internal gain of two. The AD5678-1 hasA 1.25V 10 ppm/°C max reference and the AD5678-2 hasA 2.5V 10ppm/°C max reference. The onboard refe
AD5678ARUZ-2 - 4 x12-Bit and 4 x16-Bit Octal D/A Converter with On-Chip Reference in 14 Lead TSSOPThe AD5678 isA low power, octal buffered voltage-out DAC; 4 DACs with 12-bits of resolution and 4 DACs with16-bits of resolution, inA single package. All devices operate fromA single +2.7V to +5.5 V, and are guaranteed monotonic by design. The AD5678 has an on-chip reference with an internal gain of two. The AD5678-1 hasA 1.25V 10 ppm/°C max reference and the AD5678-2 hasA 2.5V 10ppm/°C max reference. The onboard refe
AD5678ARUZ-2REEL7 - 4 x 12-Bit and 4 Ч 16-Bit Octal D/A Converter with On-Chip Reference in 14-Lead TSSOP AD5678 isA low power, octal, buffered voltage-output DAC with four 12-bit DACs and four 16-bit DACs inA single package. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5678 has an on-chip reference with an internal gain of 2. The AD5678-1 hasA 1.25V 5 ppm/°C reference, givingA full-scale output of 2.5 V; the AD5678-2 hasA 2.5V 5 ppm/°C reference, givingA full-sc
AD5678BRUZ-1 - 4 x12-Bit and 4 x16-Bit Octal D/A Converter with On-Chip Reference in 14 Lead TSSOPThe AD5678 isA low power, octal buffered voltage-out DAC; 4 DACs with 12-bits of resolution and 4 DACs with16-bits of resolution, inA single package. All devices operate fromA single +2.7V to +5.5 V, and are guaranteed monotonic by design. The AD5678 has an on-chip reference with an internal gain of two. The AD5678-1 hasA 1.25V 10 ppm/°C max reference and the AD5678-2 hasA 2.5V 10ppm/°C max reference. The onboard refe
AD5678BRUZ-1REEL7 - 4 x 12-Bit and 4 Ч 16-Bit Octal D/A Converter with On-Chip Reference in 14-Lead TSSOP AD5678 isA low power, octal, buffered voltage-output DAC with four 12-bit DACs and four 16-bit DACs inA single package. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5678 has an on-chip reference with an internal gain of 2. The AD5678-1 hasA 1.25V 5 ppm/°C reference, givingA full-scale output of 2.5 V; the AD5678-2 hasA 2.5V 5 ppm/°C reference, givingA full-sc
AD5678BRUZ-2 - 4 x12-Bit and 4 x16-Bit Octal D/A Converter with On-Chip Reference in 14 Lead TSSOPThe AD5678 isA low power, octal buffered voltage-out DAC; 4 DACs with 12-bits of resolution and 4 DACs with16-bits of resolution, inA single package. All devices operate fromA single +2.7V to +5.5 V, and are guaranteed monotonic by design. The AD5678 has an on-chip reference with an internal gain of two. The AD5678-1 hasA 1.25V 10 ppm/°C max reference and the AD5678-2 hasA 2.5V 10ppm/°C max reference. The onboard refe
AD5678BRUZ-2REEL7 - 4 x 12-Bit and 4 Ч 16-Bit Octal D/A Converter with On-Chip Reference in 14-Lead TSSOP AD5678 isA low power, octal, buffered voltage-output DAC with four 12-bit DACs and four 16-bit DACs inA single package. All devices operate fromA single 2.7V to 5.5V supply and are guaranteed monotonic by design. The AD5678 has an on-chip reference with an internal gain of 2. The AD5678-1 hasA 1.25V 5 ppm/°C reference, givingA full-scale output of 2.5 V; the AD5678-2 hasA 2.5V 5 ppm/°C reference, givingA full-sc
AD568 - Analog Devices: Data Converters: DAC 12-Bit, 10 ns to 100 ns Converters Selection Table
AD5680 - The AD5680,A member of the nanoDAC family, isA single, 18-bit buffered voltage-out DAC...
AD5680BRJZ-1500RL7 - The AD5680,A member of the nanoDAC family, isA single, 18-bit buffered voltage-out DAC that operates fromA single 4.5V to 5.5V supply and is 18 bit monotonic.The AD5680 requires an external reference voltage to set the output range of the DAC. The part incorporatesA power-on reset circuit that ensures the DAC output powers up to 0V (AD5680-1) or to midscale (AD5680-2), and remains there untilA valid write takes place. The low power consumption of this part in normal operation makes it ideally suite
AD5680BRJZ-1500RL71 - The AD5680,A member of the nanoDAC family, isA single, 18-bit buffered voltage-out DAC...
AD5680BRJZ-1REEL71 - The AD5680,A member of the nanoDAC family, isA single, 18-bit buffered voltage-out DAC...
AD5680BRJZ-2500RL71 - The AD5680,A member of the nanoDAC family, isA single, 18-bit buffered voltage-out DAC...
AD5680BRJZ-2REEL71 - Complete, Quad, 16-Bit, High Accuracy, Serial Input, Bipolar Voltage Output D/A Converte...
AD5744 - Complete, Quad, 14/16-Bit, High Accuracy, Serial Input, Bipolar Voltage Output DAC
AD5744ASU - Complete, Quad, 14-Bit, High Accuracy, Serial Input, Bipolar Voltage Output D/A ConverterThe AD5744/AD5764 isA quad, 14/16-bit serial input, voltage output digital-to analog converter that operates from supply voltages of ±12V up to ±15 V. Nominal full-scale output range is ±10 V, provided are integrated output amplifiers, reference buffers, internal reference, and proprietary power-up/power-down control circuitry. It also featuresA digital I/O port that may be programmed via the serial interface, and an
AD5744BSU - Complete, Quad, 14-Bit, High Accuracy, Serial Input, Bipolar Voltage Output D/A ConverterThe AD5744/AD5764 isA quad, 14/16-bit serial input, voltage output digital-to analog converter that operates from supply voltages of ±12V up to ±15 V. Nominal full-scale output range is ±10 V, provided are integrated output amplifiers, reference buffers, internal reference, and proprietary power-up/power-down control circuitry. It also featuresA digital I/O port that may be programmed via the serial interface, and an
AD5744CSU - Complete, Quad, 14-Bit, High Accuracy, Serial Input, Bipolar Voltage Output D/A ConverterThe AD5744/AD5764 isA quad, 14/16-bit serial input, voltage output digital-to analog converter that operates from supply voltages of ±12V up to ±15 V. Nominal full-scale output range is ±10 V, provided are integrated output amplifiers, reference buffers, internal reference, and proprietary power-up/power-down control circuitry. It also featuresA digital I/O port that may be programmed via the serial interface, and an
AD5764 - Complete, Quad, 14/16-Bit, High Accuracy, Serial Input, Bipolar Voltage Output DAC
AD5764ASU - Complete, Quad, 16-Bit, High Accuracy, Serial Input, Bipolar Voltage Output D/A ConverterThe AD5744/AD5764 isA quad, 14/16-bit serial input, voltage output digital-to analog converter that operates from supply voltages of ±12V up to ±15 V. Nominal full-scale output range is ±10 V, provided are integrated output amplifiers, reference buffers, internal reference, and proprietary power-up/power-down control circuitry. It also featuresA digital I/O port that may be programmed via the serial interface, and an
AD5764BSU - Complete, Quad, 14/16-Bit, High Accuracy, Serial Input, Bipolar Voltage Output DAC
AD5764CSU - Complete, Quad, 14/16-Bit, High Accuracy, Serial Input, Bipolar Voltage Output DAC
AD578 - Very Fast, Complete 10- Or 12-bit A/d Converters
AD592CN - Low Cost, Precision IC Temperature Transducer
AD592s - Low Cost, Precision ic Temperature Transducer
AD5930 - Programmable Frequency Sweep and Output Burst Waveform GeneratorThe AD5930 isA waveform generator with programmable frequency sweep and output burst capability. Utilizing embedded digital processing allowing enhanced frequency control the device generates synthesized analog or digital frequency-stepped waveforms. Because frequency profiles are preprogrammed continuous write cycles are eliminated, thereby freeing up valuable DSP/µController resources. Waveforms start fromA known phase and are incremented p
AD5930YRUZ - Programmable Frequency Sweep and Output Burst Waveform GeneratorThe AD5930 isA waveform generator with programmable frequency sweep and output burst capability. Utilizing embedded digital processing allowing enhanced frequency control the device generates synthesized analog or digital frequency-stepped waveforms. Because frequency profiles are preprogrammed continuous write cycles are eliminated, thereby freeing up valuable DSP/µController resources. Waveforms start fromA known phase and are incremented p
AD5930YRUZ-REEL7 - Programmable Frequency Sweep and Output Burst Waveform GeneratorThe AD5930 isA waveform generator with programmable frequency sweep and output burst capability. Utilizing embedded digital processing allowing enhanced frequency control the device generates synthesized analog or digital frequency-stepped waveforms. Because frequency profiles are preprogrammed continuous write cycles are eliminated, thereby freeing up valuable DSP/µController resources. Waveforms start fromA known phase and are incremented p
AD5932 - Programmable Single-Scan Waveform GeneratorThe AD5932 isA waveform generator providingA programmable frequency scan. Utilizing embedded digital processing allowing enhanced frequency control the device generates synthesized analog or digital frequency-stepped waveforms. Because frequency profiles are preprogrammed continuous write cycles are eliminated, thereby freeing up valuable DSP/µController resources. Waveforms start fromA known phase and are incremented phase continuously allowing phase shifts to
AD5932YRUZ - Programmable Single-Scan Waveform GeneratorThe AD5932 isA waveform generator providingA programmable frequency scan. Utilizing embedded digital processing allowing enhanced frequency control the device generates synthesized analog or digital frequency-stepped waveforms. Because frequency profiles are preprogrammed continuous write cycles are eliminated, thereby freeing up valuable DSP/µController resources. Waveforms start fromA known phase and are incremented phase continuously allowing phase shifts to
AD5932YRUZ-REEL7 - Programmable Single-Scan Waveform GeneratorThe AD5932 isA waveform generator providingA programmable frequency scan. Utilizing embedded digital processing allowing enhanced frequency control the device generates synthesized analog or digital frequency-stepped waveforms. Because frequency profiles are preprogrammed continuous write cycles are eliminated, thereby freeing up valuable DSP/µController resources. Waveforms start fromA known phase and are incremented phase continuously allowing phase shifts to
AD5933YRSZ - 1 MSPS 12 Bit Impedance Converter, Network AnalyzerThe AD5933 isA high precision impedance converter system solution which combines an on board frequency generator withA 12-Bit 1 MSPS ADC. The frequency generator allows an external complex impedance to be excited withA known frequency. The response signal from the impedance is sampled by the on board ADC and FFT processed by an onboard DSP engine. The FFT algorithm returnsA Real (R) and Imaginary (I) data word, allowing impedance to be conveniently calc
AD5933YRSZ-REEL7 - 1 MSPS 12 Bit Impedance Converter, Network AnalyzerThe AD5933 isA high precision impedance converter system solution which combines an on board frequency generator withA 12-Bit 1 MSPS ADC. The frequency generator allows an external complex impedance to be excited withA known frequency. The response signal from the impedance is sampled by the on board ADC and FFT processed by an onboard DSP engine. The FFT algorithm returnsA Real (R) and Imaginary (I) data word, allowing impedance to be conveniently calc
AD5934 - 250 kSPS 12-Bit Impedance Converter Network AnalyzerThe AD5934 isA high precision impedance converter system solution which combines an on board frequency generator withA 12-bit, 250 kSPS ADC. The frequency generator allows an external complex impedance to be excited withA known frequency. The response signal from the impedance is sampled by the on board ADC and FFT processed by an onboard DSP engine. The FFT algorithm returnsA Real (R) and Imaginary (I) data word, allowing impedance to be conveniently
AD5934YRSZ - 250 kSPS 12-Bit Impedance Converter Network AnalyzerThe AD5934 isA high precision impedance converter system solution which combines an on board frequency generator withA 12-bit, 250 kSPS ADC. The frequency generator allows an external complex impedance to be excited withA known frequency. The response signal from the impedance is sampled by the on board ADC and FFT processed by an onboard DSP engine. The FFT algorithm returnsA Real (R) and Imaginary (I) data word, allowing impedance to be conveniently
AD5934YRSZ-REEL7 - 250 kSPS 12-Bit Impedance Converter Network AnalyzerThe AD5934 isA high precision impedance converter system solution which combines an on board frequency generator withA 12-bit, 250 kSPS ADC. The frequency generator allows an external complex impedance to be excited withA known frequency. The response signal from the impedance is sampled by the on board ADC and FFT processed by an onboard DSP engine. The FFT algorithm returnsA Real (R) and Imaginary (I) data word, allowing impedance to be conveniently
AD594 - Monolithic Thermocouple Amplifiers With Cold Junction Compensation
AD594A - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD594AD - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD594AQ - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD594C - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD594CD - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD594CQ - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD595 - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD595A - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD595AD - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD595AQ - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD595C - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD595CD - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD595CQ - Monolithic Thermocouple Amplifiers with Cold Junction Compensation
AD596 - Thermocouple Conditioner and Setpoint Controller
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