TLC2652AIP

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Mfr.Part #
TLC2652AIP
Manufacturer
Texas Instruments
Package / Case
8-DIP (0.300, 7.62mm)
Datasheet
Download
Description
IC OPAMP ZERO-DRIFT 1 CIRC 8DIP
Stock
2,828
In Stock :
2,828

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Manufacturer :
Texas Instruments
Product Category :
Instrumentation, OP Amps, Buffer Amps
Input Offset Voltage (Vos) :
1μV
Packaging :
Tube
Nominal Gain Bandwidth Product :
1.9MHz
Terminal Position :
Dual
Micropower :
No
Supply Voltage :
5V
Lead Free :
Lead Free
Average Bias Current-Max (IIB) :
0.00006μA
Nominal Supply Current :
2.4mA
Bias Current-Max (IIB) @25C :
0.00006μA
Frequency Compensation :
yes
Height :
5.08mm
Factory Lead Time :
6 Weeks
Width :
6.35mm
Supply Voltage Limit-Max :
8V
Thickness :
3.9mm
Operating Supply Current :
1.5mA
Lifecycle Status :
ACTIVE (Last Updated: 5 days ago)
Output Current per Channel :
50mA
Series :
LinCMOS™
Number of Circuits :
1
Common Mode Rejection Ratio :
120 dB
Number of Functions :
1
Surface Mount :
No
Pin Count :
8
Operating Supply Voltage :
8V
Voltage Gain :
150dB
Length :
9.81mm
Input Offset Current-Max (IIO) :
0.00006μA
RoHS Status :
ROHS3 Compliant
Max I/O Voltage :
1μV
Number of Elements :
2
Peak Reflow Temperature (Cel) :
NOT SPECIFIED
Voltage - Supply, Single/Dual (±) :
3.8V~16V ±1.9V~8V
Low-Bias :
yes
Programmable Power :
No
Moisture Sensitivity Level (MSL) :
1 (Unlimited)
Power Supplies :
+-5V
JESD-609 Code :
e4
Package / Case :
8-DIP (0.300, 7.62mm)
Operating Temperature :
-40°C~85°C
Architecture :
CHOPPER-STAB
Slew Rate :
3.1V/μs
Low-Offset :
yes
Pbfree Code :
yes
Amplifier Type :
Zero-Drift
Bandwidth :
1.9MHz
Power Dissipation :
1W
ECCN Code :
EAR99
Qualification Status :
Not Qualified
Unity Gain BW-Nom :
1900 kHz
Neg Supply Voltage-Nom (Vsup) :
-5V
Voltage - Input Offset :
0.5µV
Base Part Number :
TLC2652
Mounting Type :
Through Hole
Current - Input Bias :
4pA
Number of Pins :
8
Terminal Finish :
Nickel/Palladium/Gold (Ni/Pd/Au)
Time@Peak Reflow Temperature-Max (s) :
NOT SPECIFIED
Number of Terminations :
8
Introducing Instrumentation, OP Amps, Buffer Amps Texas Instruments TLC2652AIP from Chip IC,where excellence meets affordability. This product stands out with its Package / Case:8-DIP (0.300, 7.62mm), Operating Temperature:-40°C~85°C, Bandwidth:1.9MHz, Base Part Number:TLC2652, Mounting Type:Through Hole, Number of Pins:8, Number of Terminations:8, TLC2652AIP pinout, TLC2652AIP datasheet PDF, TLC2652AIP amp .Beyond Instrumentation, OP Amps, Buffer Amps Texas Instruments TLC2652AIP ,we also offer OP07CDR, TS321CX5 RFG, NE5532ADR, Our vast inventory has you covered. Contact us now for immediate solutions.

Texas Instruments TLC2652AIP


50mA per Channel 4pA 120 dB Instrumentational OP Amps 0.00006μA 8V 3.8V~16V ±1.9V~8V TLC2652 8 Pins 8-DIP (0.300, 7.62mm)

TLC2652AIP Overview


Packaged in a 8-DIP (0.300, 7.62mm) case, the buffer op amp is ready to use. An op amp ic of the Zero-Drift type. The op amp is delivered to you in a Tube case. There is a growing number of terminations approaching the number of 8. The pins on this board total to 8 in total. I would like to remind you that this buffer op amp should be powered by an 5V battery. A total of 8 pins are present on the instrumentation amplifier. There is an input offset voltage of 1μV for this buffer op amp. The mounting type that is recommended for this electrical part is Through Hole. In relation to the operating temperature of this buffer op amp, it works well at an average of -40°C~85°C . As long as the supply current of the chip does not exceed 1.5mA, this op amp ic can operate. 150dB should remain the voltage gain. During the manufacturing process, this buffer amplifier is divided into 1 circuits. The linear amplifier consists of 2 different elements in total. The operating supply voltage of the buffer op amp is rated at 8V. As the name implies, LinCMOS™ refers to the series of the buffer op amp.

TLC2652AIP Features


8 Pins
supply voltage of 5V
150dB voltage gain


TLC2652AIP Applications


There are a lot of Texas Instruments
TLC2652AIP Instrumentational OP Amps applications.


  • Integrator circuits
  • Differentiator circuits
  • Logarithmic operation circuits
  • Exponential operation circuits
  • Multiplication circuits
  • Division circuits
  • Precision measurement
  • Power control
  • Information processing
  • Weak signal detection
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