Do you want to buy the MICROCHIP MCP6022T-I/SN? The amp can help you get the most out of your electronic devices. Considering how risky it can be to design the device without effective voltage management, you need this amp to set things straight.
So, in this article, we are going to discuss MICROCHIP MCP6022T-I/SN as an Operational Amplifier (Op-Amp) and every other relevant property inside.
What is an Operational Amplifier?
An Operational Amplifier (Op-Amp) is a type of building block in analog circuits. It is primarily used for producing a single-ended voltage input from a derived value in a differential voltage input.
Digital designers use this to produce an output potential that is usually higher than what is obtainable when compared to the difference between its input terminals.
MICROCHIP MCP6022T-I/SN as a General Purpose Operational Amplifier
MICROCHIP MCP6022T-I/SN is a General Purpose Operational Amplifier used for a wide range of applications and electronic device production.
According to Microchip, the manufacturer of MICROCHIP MCP6022T-I/SN, the Op-Amp is used in the following applications:
- Medical instrumentation
- Automotive
- Test equipment
- Multi-Pole Active Filters
- DAC Buffer
- Audio processing
Technical Specifications of MICROCHIP MCP6022T-I/SN’s Operating Amplifier
Below is a tabular representation of the technical properties and attributes of the MICROCHIP MCP6022T-I/SN Op-Amp:
Technical Properties | Description |
Mounting Type/Style | Surface Mount Technology (SMT) |
Channel Design | 2-Channel Op-Amp |
Operating Temperature (min-max) | – 40˚C ~ +85˚C |
Type of Amplifier | General Purpose |
Supply Voltage (min-max) | 2.5 volts – 5.5 volts |
Output Current (per Channel) | 22 mA |
Type of Output | Rail-to-Rail |
Gain Bandwidth Product | 10 MHz |
Slew Rate | 7 V/us |
Current Input Bias | 150 pA |
Product Status | Active |
Common Mode Rejection Ratio (CMRR) | 70 dB |
Voltage Gain | 110 dB |
Length | 4.9mm |
Height | 1.42mm |
Technology | CMOS |
Width | 3.9mm |
Type of Package | SOIC |
Innovative Features of the MICROCHIP MCP6022T-I/SN General Purpose Amplifier
In addition to the technical specifications, MICROCHIP MCP6022T-I/SN has a lot of other innovative features.
In this section, we talk about some of them.
1. Input Offset Voltage
The Input Offset Voltage of the MICROCHIP MCP6022T-I/SN is 500 uV. According to Wikipedia, an Input Offset Voltage “is a parameter defining the differential DC voltage required between the inputs of an amplifier, especially an Operational Amplifier (Op-Amp).
Through that parameter, it is simpler to make a zero output, especially because the application of the voltage to the input causes the output to be zero.
2. Slew Rate
Slew Rate in an Operating Amplifier (Op-Amp) is the rate of change(s) in the amp’s output voltage, which would most-likely cause a change in its output.
According to Wikipedia, the importance of a Slew Rate in an Op-Amp is that it helps in the identification of the maximum amplitude and input frequency of a circuit. That way, the Operational Amplifier (Op-Amp) would be able to cut down on the possibilities of distortions in the circuit’s operations.
Conclusion
Rayming Technology (RayPCB) is an experienced digital designer of MICROCHIP MCP6022T-I/SN. We offer fast lead time and pay attention to details. That way, you can be sure your MICROCHIP MCP6022T-I/SN single supply Op-Amp would be optimized for the best results.