ADR530BRTZ-REEL7

Product Overview

Category

The ADR530BRTZ-REEL7 belongs to the category of voltage references.

Use

This product is primarily used in electronic circuits to provide a stable and accurate reference voltage.

Characteristics

• High precision: The ADR530BRTZ-REEL7 offers exceptional accuracy in generating a stable reference voltage.
• Low temperature coefficient: It exhibits minimal variation in output voltage with changes in temperature.
• Low noise: This voltage reference produces minimal electrical noise, ensuring reliable performance in sensitive applications.
• Low power consumption: The ADR530BRTZ-REEL7 operates efficiently, consuming minimal power while delivering consistent results.

Package

The ADR530BRTZ-REEL7 is available in a small surface-mount package, making it suitable for compact circuit designs.

Essence

The essence of the ADR530BRTZ-REEL7 lies in its ability to provide a precise and stable reference voltage, which is crucial for accurate operation of various electronic systems.

Packaging/Quantity

This product is typically packaged in reels containing a specific quantity of units, such as 250 or 500 pieces per reel.

Specifications

• Output Voltage Range: 2.5V ± 0.1%
• Temperature Coefficient: 3 ppm/°C (maximum)
• Supply Voltage Range: 4.5V to 18V
• Quiescent Current: 950 µA (maximum)
• Output Noise Voltage: 2.8 µVp-p (typical)

Detailed Pin Configuration

The ADR530BRTZ-REEL7 features a standard three-pin configuration:

1. VOUT: Output pin providing the stable reference voltage.
2. GND: Ground pin for electrical connection.
3. VIN: Input pin for supply voltage.

Functional Features

• High precision voltage reference: The ADR530BRTZ-REEL7 ensures accurate and stable voltage output, enabling precise circuit operation.
• Low temperature coefficient: It maintains consistent performance across a wide range of temperatures, minimizing errors caused by temperature variations.
• Low noise: The low noise characteristics of this voltage reference make it suitable for applications requiring high signal integrity.
• Wide supply voltage range: The ADR530BRTZ-REEL7 can operate within a broad range of supply voltages, enhancing its versatility in different electronic systems.

Advantages and Disadvantages

Advantages

• Excellent precision and stability
• Low temperature coefficient
• Low noise output
• Wide supply voltage range

Disadvantages

• Relatively higher quiescent current compared to some other voltage references
• Limited output voltage range

Working Principles

The ADR530BRTZ-REEL7 utilizes advanced semiconductor technology to generate a stable reference voltage. It employs a combination of precision components and circuitry to achieve high accuracy and low temperature coefficient characteristics. By carefully controlling the internal voltage reference, the device ensures that the output voltage remains constant even under varying conditions.

Detailed Application Field Plans

The ADR530BRTZ-REEL7 finds application in various fields where precise and stable voltage references are required. Some notable areas of use include:

1. Analog-to-Digital Converters (ADCs): The ADR530BRTZ-REEL7 provides a reliable reference voltage for accurate conversion of analog signals into digital data.
2. Precision Instrumentation: This voltage reference is suitable for precision measurement instruments, ensuring accurate readings and calibration.
3. Communication Systems: The ADR530BRTZ-REEL7 plays a vital role in maintaining stable voltage levels in communication equipment, improving signal quality and reliability.
4. Industrial Control Systems: It is used in industrial control systems to provide a stable reference voltage for precise control and monitoring of various processes.

Detailed and Complete Alternative Models

1. ADR431BRZ: This voltage reference offers similar precision and stability with a lower quiescent current.
2. ADR4525BRZ: Provides a higher output voltage range while maintaining excellent accuracy and low noise characteristics.
3. ADR5045BRZ: Offers a wider temperature range and lower temperature coefficient, suitable for extreme operating conditions.

These alternative models can be considered based on specific requirements and trade-offs between different parameters.

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