AD7874BNZ

Product Overview

Category

AD7874BNZ belongs to the category of analog-to-digital converters (ADCs).

Use

The AD7874BNZ is used for converting analog signals into digital data. It is commonly employed in various applications that require precise and accurate conversion of analog signals.

Characteristics

• High-resolution: The AD7874BNZ offers high-resolution conversion, ensuring accurate representation of analog signals.
• Low power consumption: This ADC is designed to operate with low power consumption, making it suitable for battery-powered devices.
• Fast conversion speed: The AD7874BNZ provides fast conversion speeds, enabling real-time data acquisition.
• Wide input voltage range: It can handle a wide range of input voltages, allowing flexibility in signal processing.

Package

The AD7874BNZ comes in a standard 24-pin plastic dual in-line package (PDIP), which ensures easy integration into electronic circuits.

Essence

The essence of the AD7874BNZ lies in its ability to convert analog signals into digital data accurately and efficiently.

Packaging/Quantity

The AD7874BNZ is typically packaged in reels or tubes, with a quantity of 50 units per reel/tube.

Specifications

• Resolution: 12 bits
• Input Voltage Range: ±10V
• Conversion Time: 1.25 µs
• Operating Temperature Range: -40°C to +85°C
• Supply Voltage: +5V

Detailed Pin Configuration

The AD7874BNZ has a total of 24 pins, each serving a specific purpose. Here is a detailed pin configuration:

1. VREF-
2. VREF+
3. AGND
4. REFOUT
5. REFIN
6. IN1
7. IN2
8. IN3
9. IN4
10. IN5
11. IN6
12. IN7
13. IN8
14. IN9
15. IN10
16. IN11
17. IN12
18. CS
19. RD
20. WR
21. ALE
22. RESET
23. VDD
24. DGND

Functional Features

• Simultaneous Sampling: The AD7874BNZ can simultaneously sample multiple analog input channels, allowing for efficient data acquisition.
• Serial Interface: It features a serial interface that enables easy communication with microcontrollers or other digital devices.
• Internal Reference: The ADC incorporates an internal reference voltage, eliminating the need for an external reference source.
• Programmable Gain Amplifier: The AD7874BNZ includes a programmable gain amplifier, providing flexibility in signal amplification.

Advantages and Disadvantages

Advantages

• High-resolution conversion ensures accurate representation of analog signals.
• Low power consumption makes it suitable for battery-powered applications.
• Fast conversion speed enables real-time data acquisition.
• Wide input voltage range allows flexibility in signal processing.

Disadvantages

• Limited number of input channels compared to some other ADCs.
• Requires an external microcontroller or digital device for data processing.

Working Principles

The AD7874BNZ operates on the principle of successive approximation. It samples the analog input voltage, compares it to an internal reference voltage, and iteratively adjusts the digital output until the conversion is complete. This process ensures accurate digitization of the analog signal.

Detailed Application Field Plans

The AD7874BNZ finds applications in various fields, including: 1. Industrial automation: Used for monitoring and control systems in manufacturing processes. 2. Medical equipment: Enables precise measurement and analysis of biological signals. 3. Data acquisition systems: Provides accurate conversion of sensor signals into digital data. 4. Instrumentation: Used in scientific instruments for precise data acquisition.

Detailed and Complete Alternative Models

1. AD7874ARZ: Similar to AD7874BNZ, but in a different package (SOIC).
2. AD7874BRZ: Higher temperature range (-40°C to +125°C) version of AD7874BNZ.
3. AD7874SQ: Surface-mount version of AD7874BNZ with improved thermal performance.

These alternative models offer similar functionality to the AD7874BNZ but may differ in package type, temperature range, or other specifications.

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