Product Overview: AZ431AM-ATR from Diodes Incorporated
The AZ431AM-ATR from Diodes Incorporated is a precision programmable shunt regulator that offers excellent temperature stability and output current handling capability. This versatile component is designed for use in a wide array of applications, including power supplies, battery chargers, and voltage monitoring systems, where it serves as a reference voltage source or voltage regulator.
Key Features and Benefits
- Programmable Output Voltage: The output voltage of the AZ431AM-ATR can be set to any value between Vref (approximately 2.5V) and 36V via two external resistors. This feature allows for high flexibility in application design.
- High Precision: With a typical temperature coefficient of only 50 ppm/°C, this shunt regulator maintains a consistent performance over a wide temperature range, making it reliable for critical applications.
- Low Dynamic Output Impedance: The dynamic output impedance of 0.2 ohms ensures stable voltage regulation, even with varying load conditions.
- Surface Mount Package: The AZ431AM-ATR comes in a small outline transistor (SOT-23) package, which is ideal for space-constrained applications.
- Wide Operating Temperature Range: This device operates effectively across a broad temperature range from -40°C to +85°C, accommodating various environmental conditions.
- Cathode Current Range: It supports a wide current range of 1 mA to 100 mA, providing versatility in application use.
Applications
The AZ431AM-ATR is suitable for a variety of applications, including:
- Adjustable power supplies
- Battery-operated equipment
- Switch-mode power supplies (SMPS)
- Precision voltage regulators
- Window comparators
- Delay circuits
Diodes Incorporated's commitment to quality ensures that the AZ431AM-ATR shunt regulator is a reliable and efficient choice for designers looking to implement precise voltage control in their electronic circuits. With its programmable output and high precision, this component is a versatile solution for maintaining voltage stability in a plethora of electronic systems.