TL081 Op-Amp Datasheet, Pinout, Feature & Applications
Hi Guys! Hope you’re well today. I welcome you on board. Happy to see you around. In this post today, I’ll detail the Introduction to TL081.
TL081 is a high-speed general-purpose JFET input single operational amplifier that comes with high noise immunity and better offset characteristics. It carries high input impedance and low offset current. The offset voltage of this device makes it an ideal match for amplifier applications. It incorporates well-matched bipolar transistors and high-voltage JFET in a compact IC.
Read this post till the end as I’ll detail the complete Introduction to TL081 covering datasheet, pinout, features, and applications. Let’s jump right in.
Introduction to TL081
- TL081 is a high-speed JFET input single operational amplifier that comes with high slew rates, and low offset and input bias currents.
- It features a low offset voltage temperature coefficient with a supply voltage of around +-18V and an input voltage of around +-15V.
- Plus, it incorporates internally trimmed offset voltage and needs low supply current
- It has the ability to maintain a fast slew rate and a large gain bandwidth.
TL081 Datasheet
Before you incorporate this device into your electrical project, it is wise to have a look at the datasheet of the device that features the main characteristics of the component. Click the link below and download the datasheet of TL081.
TL081 Pinout
There are a total of 8 pins incorporated in this op-amp as described below.
Absolute Maximum Ratings TL081 |
Pin No. |
Description |
Pin Name |
1,5 |
Used to set the offset voltage |
|
2 |
Inverting Input |
IN - |
3 |
Non-inverting Input |
IN + |
4 |
Ground |
GND |
6 |
Output |
Output |
|
7 |
Voltage Supply |
Vcc |
8 |
Not connected |
NC |
The following figure shows the pinout diagram of TL081.
Out of 8 pins on the integrated circuit, 7 are associated with particular functions while one pin (pin no. 8) is not connected.
TL081 Features
The following are the main features of TL081.
- Wide differential and common-mode voltage range
- Low input bias and offset current
- Input Bias Current = 200pA
- GBP - Gain Bandwidth Product = 3 MHz
- Latch-up free operation
- High slew rate = 16 V/us
- Supply Voltage: 7V to 36 V
- Power Dissipation = 670mW
- Available with internal frequency compensation
- CMRR - Common Mode Rejection Ratio = 70 dB to 86 dB
- Output short-circuit protection
- High input impedance
- Operating Supply Current = 1.4 mA
- Comes in 8-pin PDIP, SOIC Packages
TL081 Absolute Maximum Ratings
The following table shows the absolute maximum ratings of TL081.
Absolute Maximum Ratings TL081 |
No. |
Rating |
Symbol |
Value |
Unit |
1 |
Supply Voltage |
Vcc |
+-18 |
V |
2 |
Input Voltage |
Vin |
+-15 |
V |
3 |
Differential Input Voltage |
Vid |
+-30 |
V |
4 |
Power Dissipation |
Ptot |
680 |
mW |
5 |
Output short-circuit duration |
|
Infinite |
|
6 |
Available Package |
|
PDIP, SOIC Packages |
|
7 |
Storage Temperature Range |
Tstg |
-65 to 150 |
C |
- The values of all voltages, excluding differential voltage, are measured with respect to the ground of the supply voltages where the midpoint between VCC+ and VCC- is a zero reference level.
- It is important to note that the input voltage magnitude should never cross the supply voltage magnitude. The supply voltage here, in this case, is +-18V while the magnitude of the input voltage is +-15V.
- Power dissipation is 680mW and the storage temperature range is -65 to 150C.
- Differential voltages are considered as the non-inverting input terminal with respect to the inverting input terminal.
- Moreover, the output is shorted to ground or to either supply. Temperature and/or supply voltages must be in control so the dissipation rating is not exceeded.
- Short-circuits can cause destructive dissipation and excessive heating.
TL081 Applications
- Incorporated in audio pre-amplification.
- Used in amplifier circuits.
- Used in circuit requiring high input impedance.
- Sample and Hold Amplifiers
- Peak Detectors
- Active Filters
- Comparators
- Function Generators
That’s all about the Introduction to TL081. I hope you find this article helpful. If you’re unsure or have any questions, you can approach me in the section below, I’d love to help you the best way I can. Share your valuable suggestions and feedback around the content we share, they help us generate quality content customized to your exact needs and requirements. Thank you for reading the post.
Introduction to TL081
Hello everyone! I hope you all will be absolutely fine and having fun. Today, I am going to elaborate you about
Introduction to TL081. TL 081 is basically a high speed Junction Field Effect Transistor (JFET) input Operational Amplifier (Op-amp). This Integrated Circuit consists of a JFET with a high voltage and bipolar transistor.
TL-081 provides low input voltage, high slew rates, low input offset current and low Offset Voltage Temperature Coefficient (OVTC). TL 081 has different features e.g. low power consumption, high input impedance, latch-up free operation, short circuit protection, wide common mode input voltage ranges, wide differential input voltage ranges etc. TL-081 can be used in white good, tablets, computers, personal electronics etc. The further detail about TL 081 will be given later in this tutorial.
Introduction to TL081
TL081 is basically a high speed Junction Field Effect Transistor consisting of bipolar transistor and a high voltage JFET. It provides higher slew rates. TL-081 also provides low input offset current and offset voltage temperature coefficient. There are a lot of features associated with TL 081 including wide common mode input voltage ranges, low power consumption short circuit protection etc. TL-081 can be used in personal computers and personal electronics etc. TL 081 is shown in the figure given below.
1. TL081 Pins
- TL-081 has eight (8) pins in total, each of them has different functions.
- All the pins are listed in the table shown in the figure below.
2. TL081 Pins Description
- Each pin has different purpose of operation e.g. offset null, inverting, non inverting tasks etc.
- All the functions are separately given in the table show in the figure below.
3. TL081 Pinout
- Pins configurations are more easy to understand with the help of pinout diagram of a device.
- TL-081 pinout diagram is shown in the figure given below.
4. TL081 Packages
- TL 081 has five different packages, they show its different model number.
- All the five (5) packages are shown in the figure below.
5. TL081 Packages Dimensions
- Each of the 5 packages has its own different dimension.
- Every package with its dimension and SI units are given in the table shown below.
6. TL081 Symbolic Diagram
- Schematic diagram presents the internal structure of any device.
- The schematic diagram of TL-081 is shown in the figure below.
- You can see that TL 081 consists of an amplifier.
- Inverting terminal of the amplifier is connected to the pin number 2.
- Its non inverting terminal is connected to pin number 3.
- The output of this amplifier is connected to the pin number 6.
7. TL081 Shematic Diagram
- The schematic diagram to TL-081 Junction Field Effect Transistor (JFET) is shown in the figure below.
8. TL081 Ratings
- Ratings of an equipment helps us to know about the current, voltage and power requirements of that equipment.
- TL-081 ratings are listed in the table shown in the figure below.
9. TL081 Features
- Any of the devices specially the electron devices can be recognized on the basis of their amazing features.
- TL 081 major features are listed in the figure shown below.
10. TL081 Applications
- Applications of a device make it more effective and popular in the market.
- Some the most common applications associated with TL-081 are listed in the table shown in the figure below.
This is the entire detailed discussed tutorial on
Introduction to TL081. It was tried to cover all the necessary info about the use of Integrated Circuit (IC) TL-081 which is a JFET. The entire discussion consist of IC's pins, pin description, pinout diagram, features, applications and a lot other things as well. If something is missing in this article, please let us know so that future inconvenience for the readers can be avoided. Other IC's will be discussed in detail in later tutorials. Till then take care :)