Introducing the TC962COE from Microchip Technology

The TC962COE is a versatile and robust voltage converter integrated circuit (IC) produced by Microchip Technology, a leading provider of microcontroller, mixed-signal, analog, and Flash-IP solutions. This IC is a part of the TC962 series and is designed to provide reliable performance in a wide range of applications.

At the heart of the TC962COE is its ability to convert a positive voltage into the corresponding negative voltage with a high level of efficiency. This feature is particularly useful in applications that require a dual power supply from a single voltage source. The TC962COE operates over a range of input voltages from 1.5V to 12V, making it a flexible choice for various low-power applications.

This IC stands out due to its low power consumption and its ability to deliver a quiescent current of only 50µA, which is significantly lower than that of many competing charge pump inverters. This makes the TC962COE an excellent choice for battery-powered devices where power efficiency is critical.

The TC962COE comes in a compact 8-pin SOIC package, which is not only space-saving but also easy to integrate into a variety of circuit designs. Its temperature range of -40°C to +85°C ensures reliable operation even under harsh environmental conditions.

Key features of the TC962COE include:

• High Voltage Conversion Efficiency
• Low Power Consumption
• Wide Input Voltage Range
• Low Quiescent Current
• Operational Temperature Range Suitable for Industrial Applications
• SOIC-8 Packaging for Compact Design

Applications for the TC962COE are diverse and include portable electronics, medical devices, industrial controls, and any other systems that require an efficient negative voltage rail. Designers and engineers can rely on the TC962COE for its performance, durability, and Microchip's commitment to quality.

Overall, the TC962COE from Microchip Technology represents a reliable and efficient solution for voltage conversion needs in a variety of electronic applications. Its combination of features makes it a valuable component in the design of power-efficient and space-conscious electronic systems.