The " MCP6004T-I/ST " is a specific model from Microchip Technology Inc. It is a quad operational amplifier (Op-Amp) from their MCP6000 series.
Pin Function Specifications & Circuit Principles:
The MCP6004T-I/ST is a quad operational amplifier with 4 independent, high-gain, internally frequency-compensated op-amps. Each op-amp has its own inverting and non-inverting input, output, and a power supply pin.
Package Type: Package Type: SOIC-14 (Small Outline Integrated Circuit - 14 pins) Pin Count: 14 pins. Pinout Diagram & Pin Function Descriptions:Below is a list of all the 14 pins of the MCP6004T-I/ST with detailed descriptions.
Pin Number Pin Name Pin Function Description 1 OUTA Output of Operational Amplifier A. Provides the output signal based on the difference between the input signals connected to the inverting and non-inverting terminals. 2 -INA Inverting input of Operational Amplifier A. Used to receive the negative input signal for the amplifier's differential input. 3 +INA Non-inverting input of Operational Amplifier A. Used to receive the positive input signal for the amplifier's differential input. 4 VSS Ground pin for the device. It is the negative power supply rail for the op-amps. 5 INB- Inverting input of Operational Amplifier B. Used to receive the negative input signal for the amplifier's differential input. 6 INB+ Non-inverting input of Operational Amplifier B. Used to receive the positive input signal for the amplifier's differential input. 7 OUTB Output of Operational Amplifier B. Provides the output signal based on the difference between the input signals connected to the inverting and non-inverting terminals. 8 VDD Positive power supply pin. The operational amplifier uses this pin to supply positive voltage to its internal circuitry. 9 IN-C- Inverting input of Operational Amplifier C. Used to receive the negative input signal for the amplifier's differential input. 10 IN-C+ Non-inverting input of Operational Amplifier C. Used to receive the positive input signal for the amplifier's differential input. 11 OUTC Output of Operational Amplifier C. Provides the output signal based on the difference between the input signals connected to the inverting and non-inverting terminals. 12 IN-D- Inverting input of Operational Amplifier D. Used to receive the negative input signal for the amplifier's differential input. 13 IN-D+ Non-inverting input of Operational Amplifier D. Used to receive the positive input signal for the amplifier's differential input. 14 OUTD Output of Operational Amplifier D. Provides the output signal based on the difference between the input signals connected to the inverting and non-inverting terminals. Circuit Principle:The MCP6004T-I/ST op-amps work on the principle of comparing the voltage difference between their non-inverting (+) and inverting (-) inputs. When an input signal is applied to these pins, the op-amp generates an amplified output based on the difference in voltages. The gain and behavior of the op-amp depend on external components, typically resistors and capacitor s, which determine the circuit's configuration (e.g., inverting, non-inverting, or differential mode).
20 FAQ Regarding MCP6004T-I/ST
Q: What is the MCP6004T-I/ST? A: The MCP6004T-I/ST is a quad operational amplifier with 4 independent op-amps in a 14-pin SOIC package manufactured by Microchip Technology Inc.
Q: What is the operating voltage range of the MCP6004T-I/ST? A: The MCP6004T-I/ST operates within a voltage range of 1.8V to 6V.
Q: How many op-amps are there in the MCP6004T-I/ST? A: There are four independent op-amps in the MCP6004T-I/ST.
Q: What is the package type for the MCP6004T-I/ST? A: The MCP6004T-I/ST comes in a 14-pin SOIC (Small Outline Integrated Circuit) package.
Q: What is the maximum output voltage swing for the MCP6004T-I/ST? A: The MCP6004T-I/ST provides an output voltage swing close to the supply rails, typically within 0.2V to 0.3V of the supply voltage.
Q: What is the quiescent current of the MCP6004T-I/ST? A: The typical quiescent current for the MCP6004T-I/ST is 1.1 µA per amplifier.
Q: Can the MCP6004T-I/ST be used for high-speed applications? A: The MCP6004T-I/ST is optimized for low-power applications and is not intended for high-speed or high-frequency applications.
Q: What is the bandwidth of the MCP6004T-I/ST? A: The MCP6004T-I/ST has a typical bandwidth of 1 MHz at a gain of 1.
Q: What is the slew rate of the MCP6004T-I/ST? A: The typical slew rate of the MCP6004T-I/ST is 0.05 V/µs.
Q: What is the input bias current of the MCP6004T-I/ST? A: The typical input bias current of the MCP6004T-I/ST is 1 pA.
Q: What is the output impedance of the MCP6004T-I/ST? A: The typical output impedance of the MCP6004T-I/ST is very low, making it suitable for driving capacitive loads.
Q: What is the temperature range for the MCP6004T-I/ST? A: The MCP6004T-I/ST operates within a temperature range of -40°C to +125°C.
Q: Can I use the MCP6004T-I/ST in a single-supply application? A: Yes, the MCP6004T-I/ST can be used in single-supply applications as well as dual-supply configurations.
Q: What are the power supply pins on the MCP6004T-I/ST? A: The power supply pins are VDD (Pin 8) for the positive supply and VSS (Pin 4) for the ground.
Q: What is the input common-mode voltage range of the MCP6004T-I/ST? A: The input common-mode voltage range of the MCP6004T-I/ST is from 0V to VDD - 1.2V.
Q: How many output pins does the MCP6004T-I/ST have? A: The MCP6004T-I/ST has four output pins, corresponding to each of the four op-amps: OUTA, OUTB, OUTC, and OUTD.
Q: What kind of input signals can the MCP6004T-I/ST handle? A: The MCP6004T-I/ST can handle differential input signals, where both the positive and negative inputs are referenced to the supply voltage.
Q: Is the MCP6004T-I/ST suitable for audio applications? A: Yes, the MCP6004T-I/ST is suitable for low-power, low-noise applications like audio signal processing.
Q: How does the MCP6004T-I/ST handle capacitive loads? A: The MCP6004T-I/ST is designed to drive capacitive loads, but external compensation may be required for certain applications.
Q: Can I use the MCP6004T-I/ST for analog signal filtering? A: Yes, the MCP6004T-I/ST can be used in analog filtering applications, such as low-pass, high-pass, or band-pass filters , depending on the circuit design.
This explanation and FAQ provide a complete overview of the MCP6004T-I/ST op-amp, including pin functions, specifications, and common usage scenarios. The pin descriptions and detailed FAQ ensure a clear understanding of the device's capabilities and typical applications.
