Overview of ADP1763ACPZ-1.0-R7
The ADP1763ACPZ-1.0-R7, produced by Analog Devices Inc., is a superior quality, ultra-low dropout linear regulator. This innovative product is designed to provide extremely low dropout rates while delivering a stable, constant output voltage of 1.0V. It is an exemplary solution for those seeking efficient voltage regulation in their electrical systems and devices.
Technical Features of ADP1763ACPZ-1.0-R7
The ADP1763ACPZ-1.0-R7 stands out with its numerous technical characteristics. The device has an impressive output current of 3A and a typical dropout voltage as low as 85mV. It has a wide input voltage range and a stable output voltage accuracy of ±1.5%. Furthermore, the product features an enable and power good functions along with internal power good logic. It also provides overcurrent and thermal protection, ensuring the safety of your devices.
- Output Current: 3A
- Dropout Voltage: 85mV Typical
- Voltage Range: Up to 5V
- Voltage Accuracy: ±1.5%
- Protection Features: Overcurrent and Thermal Protection
Application Scenarios for ADP1763ACPZ-1.0-R7
Given its technical specifications, the ADP1763ACPZ-1.0-R7 finds usage in a variety of application scenarios. This high-performance linear regulator is a fitting choice for telecommunication and networking equipment, data servers, industrial instrumentation, and medical devices. It also works well for powering FPGAs, DSPs, and microprocessors. The stable voltage output makes it an attractive option for systems requiring reliable performance and voltage stability.
Models of the Same Series
The Analog Devices Inc. offers several other models in the ADP1763 series. These variants, like the ADP1763ACPZ-1.0-R7, share the core properties of low dropout voltage and high output current but come with different output voltage values. The series includes other models like the ADP1763ACPZ-1.2-R7, ADP1763ACPZ-1.8-R7, and ADP1763ACPZ-2.5-R7, providing output voltages of 1.2V, 1.8V, and 2.5V respectively. This range of models allows for flexibility and choice based on individual voltage requirements.