Overview of MC74VHC1G08DTT1G

The MC74VHC1G08DTT1G is a high-performance, single-gate CMOS logic product from ON Semiconductor, designed to operate at 2V to 5.5V. This integrated circuit features a 2-input AND gate that combines advanced silicon-gate CMOS technology with TTL-compatible inputs to deliver a versatile logic element that is both fast and power-efficient.

Key Features

• Operating Voltage Range: The device is designed to accommodate a broad range of power supplies, with an operational voltage ranging from 2V to 5.5V, which makes it suitable for battery-operated and low-power applications.
• High Speed: With a typical propagation delay of only 3.9ns at 5V, the MC74VHC1G08DTT1G ensures rapid signal processing, making it ideal for high-speed systems.
• Low Power Consumption: The low power dissipation is a hallmark of this device, with a quiescent current specification of only 1µA maximum at 25°C, which is significantly lower than comparable TTL devices.
• High Noise Immunity: Characterized by a noise immunity consistent with the standard CMOS logic ICs, this device is highly reliable in noisy environments.
• Compatibility: TTL-compatible inputs make this device suitable for interfacing with TTL logic levels, allowing for seamless integration in mixed-technology environments.
• Lead-Free and RoHS Compliant: The MC74VHC1G08DTT1G is environmentally friendly, meeting the requirements for lead-free and RoHS-compliant manufacturing processes.

Applications

The versatility of the MC74VHC1G08DTT1G makes it suitable for a wide range of applications, including:

• Logic level translation
• Power management
• Data processing
• Function generation
• Embedded systems
• Portable devices

Package and Quality Assurance

ON Semiconductor's MC74VHC1G08DTT1G comes in a compact 5-lead SOT-23 package, which is ideal for space-constrained applications. The device is thoroughly tested and ensured to meet the high-quality standards expected from ON Semiconductor, providing designers with a reliable and efficient solution for their digital logic needs.