Texas Instruments TLC272CDR
- Part Number:
- TLC272CDR
- Manufacturer:
- Texas Instruments
- Ventron No:
- 3688730-TLC272CDR
- Description:
- Dual, 16-V, 2-MHz, In to V- operational amplifier
- Datasheet:
- tlc272
Texas Instruments TLC272CDR technical specifications, attributes, parameters and parts with similar specifications to Texas Instruments TLC272CDR.
- Factory Lead Time8 Weeks
- Lifecycle StatusACTIVE (Last Updated: 5 days ago)
- Mounting TypeSurface Mount
- Package / Case8-SOIC (0.154, 3.90mm Width)
- Surface MountYES
- Number of Pins8
- Operating Temperature0°C~70°C
- PackagingTape & Reel (TR)
- SeriesLinCMOS™
- JESD-609 Codee4
- Pbfree Codeyes
- Part StatusActive
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations8
- ECCN CodeEAR99
- Terminal FinishNickel/Palladium/Gold (Ni/Pd/Au)
- SubcategoryOperational Amplifier
- Packing MethodTR
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)260
- Number of Functions2
- Supply Voltage5V
- Base Part NumberTLC272
- Pin Count8
- Power Supplies3/16V
- Number of Channels2
- Operating Supply Current1.9mA
- Nominal Supply Current4mA
- Power Dissipation725mW
- Slew Rate5.3V/μs
- ArchitectureVOLTAGE-FEEDBACK
- Amplifier TypeGeneral Purpose
- Common Mode Rejection Ratio65 dB
- Current - Input Bias0.7pA
- Voltage - Supply, Single/Dual (±)3V~16V ±1.5V~8V
- Output Current per Channel30mA
- Input Offset Voltage (Vos)10mV
- Bandwidth1.7MHz
- Gain Bandwidth Product2.2MHz
- Unity Gain BW-Nom2000 kHz
- Voltage Gain87.23dB
- Average Bias Current-Max (IIB)0.00006μA
- Low-OffsetNO
- Frequency CompensationYES
- Voltage - Input Offset1.1mV
- Low-BiasYES
- MicropowerNO
- Bias Current-Max (IIB) @25C0.00006μA
- Programmable PowerNO
- Nominal Gain Bandwidth Product1.7MHz
- Max I/O Voltage10mV
- Input Offset Current-Max (IIO)0.00006μA
- Height1.75mm
- Length4.9mm
- Width3.91mm
- Thickness1.58mm
- Radiation HardeningNo
- REACH SVHCNo SVHC
- RoHS StatusROHS3 Compliant
- Lead FreeLead Free
TLC272CDR Overview
In order to protect the op amps, a 8-SOIC (0.154, 3.90mm Width) case is used. Op amps are General Purpose types of amplifier on the chip. As far as the packaging is concerned, buffer op amp is delivered in a Tape & Reel (TR) case. In recent months, the number of terminations has approached 8. In this case, there are 8 pins on the board. I would like to remind you that this buffer op amp should be powered by an 5V battery. A type of Operational Amplifier buffer op amp is what this device is specifically, to be more precise. There are 8 pins on this chip. Op amp rates 10mV as input offset voltage. For this electrical component, Surface Mount is the recommended mounting type. It is important to note that this linear amplifier works well at a temperature of 0°C~70°C when it comes to operating temperatureOperational amplifier can operate supply current at 1.9mA. 87.23dB should be the voltage gain. As far as the device is concerned, buffer amplifier has 2 channels. It is used TR to pack the op amps. The LinCMOS? stands for the buffer op amp's serial number.
TLC272CDR Features
8 Pins
supply voltage of 5V
87.23dB voltage gain
TLC272CDR Applications
There are a lot of Texas Instruments TLC272CDR Instrumentational OP Amps applications.
Communication device
Band-pass filter
Medical imaging
Power generator
Communication
Blood pressure sensors
Digital cameras
Commercial audio systems
RF cable systems
Mobile phone
In order to protect the op amps, a 8-SOIC (0.154, 3.90mm Width) case is used. Op amps are General Purpose types of amplifier on the chip. As far as the packaging is concerned, buffer op amp is delivered in a Tape & Reel (TR) case. In recent months, the number of terminations has approached 8. In this case, there are 8 pins on the board. I would like to remind you that this buffer op amp should be powered by an 5V battery. A type of Operational Amplifier buffer op amp is what this device is specifically, to be more precise. There are 8 pins on this chip. Op amp rates 10mV as input offset voltage. For this electrical component, Surface Mount is the recommended mounting type. It is important to note that this linear amplifier works well at a temperature of 0°C~70°C when it comes to operating temperatureOperational amplifier can operate supply current at 1.9mA. 87.23dB should be the voltage gain. As far as the device is concerned, buffer amplifier has 2 channels. It is used TR to pack the op amps. The LinCMOS? stands for the buffer op amp's serial number.
TLC272CDR Features
8 Pins
supply voltage of 5V
87.23dB voltage gain
TLC272CDR Applications
There are a lot of Texas Instruments TLC272CDR Instrumentational OP Amps applications.
Communication device
Band-pass filter
Medical imaging
Power generator
Communication
Blood pressure sensors
Digital cameras
Commercial audio systems
RF cable systems
Mobile phone
TLC272CDR More Descriptions
Dual, 16-V, 2-MHz, In to V- operational amplifier 8-SOIC 0 to 70
Op Amp Dual Low Offset Voltage Amplifier 16V 8-Pin SOIC T/R
Operational Amplifier, 2 Func, 10000uV Offset-Max, CMOS, PDSO8
Op-Amp, 1.7Mhz, 3.6V/Us, Soic-8; No. Of Amplifiers:2 Amplifier; Bandwidth:1.7Mhz; Slew Rate:3.6V/Μs; Supply Voltage Range:3V To 16V; Amplifier Case Style:Soic; No. Of Pins:8Pins; Operating Temperature Min:0°C; Operating Temperature Rohs Compliant: Yes |TEXAS INSTRUMENTS TLC272CDR
The TLC272 and TLC277 precision dual operational amplifiers combine a wide range of input offset voltage grades with low offset voltage drift, high input impedance, low noise, and speeds approaching those of general-purpose BiFETdevices. These devices use Texas Instruments silicon-gate Linc Mos (TM) technology, which provides offset voltage stability far exceeding the stability available with conventional metal-gate processes. The extremely high input impedance, low bias currents, and high slew rates make these cost effective devices ideal for applications previously reserved for BiFET and NFET products. Four offset voltage grades are available (C-suffix and I-suffix types), ranging from the low-cost TLC272 (10 mV) to the high-precision TLC277 (500 uV). These advantages, in combination with good common-mode rejection and supply voltage rejection, make these devices a good choice for new state-of-the-art designs as well as for upgrading existing designs. Copyright (C) 2002, Texas Instruments Incorporated Production DATA information is current as of publication date. Products conform to specifications per the terms of Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters.
Op Amp Dual Low Offset Voltage Amplifier 16V 8-Pin SOIC T/R
Operational Amplifier, 2 Func, 10000uV Offset-Max, CMOS, PDSO8
Op-Amp, 1.7Mhz, 3.6V/Us, Soic-8; No. Of Amplifiers:2 Amplifier; Bandwidth:1.7Mhz; Slew Rate:3.6V/Μs; Supply Voltage Range:3V To 16V; Amplifier Case Style:Soic; No. Of Pins:8Pins; Operating Temperature Min:0°C; Operating Temperature Rohs Compliant: Yes |TEXAS INSTRUMENTS TLC272CDR
The TLC272 and TLC277 precision dual operational amplifiers combine a wide range of input offset voltage grades with low offset voltage drift, high input impedance, low noise, and speeds approaching those of general-purpose BiFETdevices. These devices use Texas Instruments silicon-gate Linc Mos (TM) technology, which provides offset voltage stability far exceeding the stability available with conventional metal-gate processes. The extremely high input impedance, low bias currents, and high slew rates make these cost effective devices ideal for applications previously reserved for BiFET and NFET products. Four offset voltage grades are available (C-suffix and I-suffix types), ranging from the low-cost TLC272 (10 mV) to the high-precision TLC277 (500 uV). These advantages, in combination with good common-mode rejection and supply voltage rejection, make these devices a good choice for new state-of-the-art designs as well as for upgrading existing designs. Copyright (C) 2002, Texas Instruments Incorporated Production DATA information is current as of publication date. Products conform to specifications per the terms of Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters.
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