MCP602 Op-amp: Datasheet, Pinout, Equivalent

2 Channels 1pA 75 dB Instrumentational OP Amps 0.005μA 5.5V 2.7V~6V MCP602 8 Pins 8-DIP (0.300, 7.62mm)

Catalog

MCP602 Description

MCP602 Pinout

MCP602 CAD Model

MCP602 Features

MCP602 Applications

MCP602 Alternatives

MCP602 Typical Application Circuit

MCP602 Functional Block Diagram

MCP602 Package

Datasheet PDF

Specifications

Product Comparison: MCP602VS MCP6002

Introduction:

The MCP602 is a versatile operational amplifier that offers high performance and flexibility in various electronic applications. This article provides a comprehensive overview of the MCP602, including its description, pinout, CAD model, features, applications, alternatives, typical application circuit, functional block diagram, package options, datasheet, specifications, and a comparison with the MCP6002.

MCP602 Description:

The MCP602 is a dual operational amplifier with rail-to-rail input and output capabilities. It is designed for low power consumption and operates from a single supply voltage. The device provides high precision and low offset voltage, making it suitable for a wide range of applications.

MCP602 Pinout:

The MCP602 features a standard dual op-amp pinout configuration. It consists of two independent operational amplifiers, each with non-inverting and inverting inputs, as well as a positive and negative power supply pin.

MCP602 CAD Model:

Symbol

Footprint

3D-Model

For circuit design and simulation purposes, a CAD model of the MCP602 is available. This model can be used to accurately represent the physical behavior of the op-amp in various circuit simulations.

MCP602 Features:

The MCP602 offers several notable features, including low offset voltage, high common-mode rejection ratio (CMRR), low input bias current, and wide bandwidth. These features contribute to the device’s high precision and excellent performance.

MCP602 Applications:

The MCP602 finds applications in a wide range of electronic systems. It can be used in sensor interfaces, audio amplifiers, filters, voltage references, and more. The device’s versatility makes it suitable for both low and high voltage applications.

MCP602 Alternatives:

While the MCP602 is a highly capable op-amp, there are alternative operational amplifiers that can be considered for similar applications. Some alternatives include the MCP6002, which we will compare in detail later in this article.

MCP602 Typical Application Circuit:

To illustrate the practical use of the MCP602, a typical application circuit is presented. This circuit showcases how the op-amp can be utilized in a specific application, highlighting its advantages and benefits.

MCP602 Functional Block Diagram:

A functional block diagram of the MCP602 is provided to give an insight into its internal structure and operation. This diagram demonstrates the various stages and components within the op-amp that enable its functionality.

MCP602 Package:

The MCP602 is available in different package options, such as DIP, SOIC, and SOT-23. Each package has its own dimensions and pin configurations, allowing for flexibility in circuit board design.

Datasheet PDF:

Please DOWNLOAD the datasheets and manufacturer documentation for the MCP602.

Specifications:

Key specifications of the MCP602, including input voltage range, output voltage swing, supply voltage range, and operating temperature range, are summarized. These specifications provide crucial information for selecting and implementing the op-amp in various applications.

Product Comparison: MCP602 vs. MCP6002:

In this section, a detailed comparison is made between the MCP602 and the MCP6002. Both op-amps have their unique features, specifications, and performance characteristics. The comparison aims to assist users in selecting the most suitable op-amp for their specific requirements.

Conclusion:

The MCP602 op-amp offers high performance and versatility, making it an excellent choice for a wide range of electronic applications. Its low power consumption, precision, and flexibility make it a valuable component in various circuits. By understanding its features, applications, and alternatives, engineers and designers can leverage the MCP602’s capabilities to enhance their projects.

Related Articles：MCP602 VS MCP6002: Are They The Same

Related Articles

CR123A battery,CR17345,18350,A23,16340:How To Choose a Best One?

Release time:2024-03-29       Page View：443

IntroductionCR123A batteriesare a type of lithium battery commonly used in various electronic devices, including cameras, flashlights, and medical equipment. They are known for their high energy density, long shelf life, and reliable performance. In this comprehensive guide, we will delve into the world of CR123A batteries, exploring their specifica...

MPXHZ6400AC6T1 Datasheet, Diagram, Applications

Release time:2024-03-29       Page View：308

MPXHZ6400AC6T1 MPXH6400A, 20 to 400 kPa, Absolute,Integrated Pressure SensorMPXHZ6400AC6T1DescriptionThe NXP MPXxx6400A series sensor integrates on-chip, bipolar op amp circuitryand thin film resistor networks to provide a high output signal and temperaturecompensation. The small form factor and high reliability of on-chip...

ATMEGA8A-AU Datahseet, Pinout, Specs, Price, Programming

Release time:2024-03-18       Page View：379

ATMEGA8A-AU 8-bit Microcontrollers - MCU AVR 8KB, 512B EE 16MHz 1KB SRAMLow-Power AVR 8-bit Microcontroller Data SheetIntroductionThe ATmega8A is a low-power CMOS 8-bit microcontroller based on the AVR®enhanced RISCarchitecture. By executing powerful instructions in a single clock cycle, the ATmega8A ...

2N4401 vs PN2222 Transistor|PDF, Pinout, Equivalent, Pros & Cons

Release time:2024-03-12       Page View：269

This article will compare the 2N4401and PN2222 transistors for datasheet, pinout, CAD-Model, equivalents, pros & cons

TSOP1738 Datasheet,Working Principle,Specs:TSOP1738 Vs TSOP1838

Release time:2024-03-11       Page View：537

Introduction:The TSOP1738 is an infrared (IR) receiver module widely used in remote control applications. It is designed to detect and demodulate infrared signals, allowing devices to receive commands or data wirelessly. In this article, we will explore the TSOP1738's datasheet, working principle, specifications, and compare it with the TSOP...

DLW5BTM142TQ2L Datasheet,Pinout,Applications

Release time:2024-03-06       Page View：247

Choke, Common Mode, DLW5B Series, 1.4 kohm, 2 A, 5mm x 5mm x 2.35mm DLW5BTM142TQ2L

DLW5BTM101SQ2L:ChokesDatasheet,Pinout,Features

Release time:2024-03-06       Page View：252

This post will introduce the details ofDLW5BTM101SQ2L for you, includingDLW5BTM101SQ2L data sheet, DLW5BTM101SQ2L pinout, DLW5BTM101SQ2L PDFDLW5BTM101SQ2LDescriptionDLW5BTM101SQ2LEquivalent CircuitDLW5BTM101SQ2LPackageDLW5BTM101SQ2LCAD-ModelDLW5BTM101SQ2LAlternative...

STM32F051C8T6TR MCU Datasheet, Pinout, Price

Release time:2024-03-04       Page View：472

ARM®-based 32-bit MCU, 16 to 64 KB Flash, 11 timers, ADC, DAC and communication interfaces, 2.0-3.6 VSTM32F051C8T6TR OverviewSTM32F051C8T6TR AlternativesSTM32F051C8T6TR CAD-Model SymbolFootprint3D-ModelSTM32F051C8T6TR PinoutSTM32F051C8T6TR Diagramclock treeSTM32F051C8T6TR Applicati...

PCF8563T/5 RTCs Datasheet, Pinout, Specification

Release time:2024-03-01       Page View：352

What is rtc PCF8563T/5,518? RTCs, or Real-Time Clocks, are electronic devices that are used to keep track of the current time and date. They have their own power source, usually a small battery, to maintain the timekeeping function even when the main power source is turned off.

MCIMX283DVM4B Processors: Datasheet, Pinout, Diagram

Release time:2024-02-29       Page View：347

This post will tell you what is MCIMX283DVM4B

BC548 vs BC337 NPN Transistor: Datasheet, Pinout, Circuit

Release time:2024-02-23       Page View：1059

BC548 and BC337 NPN transistors are two commonly used models that find applications in various circuits due to their reliable performance and ease of use.

BC547 vs S8050 vs S9014 Transistors Differences

Release time:2024-02-21       Page View：641

​Understanding the Differences Between BC547, S8050, and S9014 Transistors