The TC7S04FU E5 is a high-speed CMOS single inverter from Toshiba Semiconductor and Storage. It is designed for applications that require signal inversion, buffering, and level translation while maintaining low power consumption and high-speed operation. The E5 suffix likely indicates specific packaging or environmental compliance characteristics.

Applications

• Logic Inversion
• Signal Buffering
• Level Translation
• Oscillator Circuits
• General Purpose Logic

Features

• High-speed operation: tpd = 4.0 ns (typ.) at VCC = 5 V
• Low power dissipation: ICC = 1 μA (max) at VCC = 5.5 V
• Wide operating voltage range: VCC = 2 V to 5.5 V
• Input voltage Level: Compatible with 1.8V to 5V CMOS Level
• Output current: ±8mA (min) at VCC = 3.0 V, ±16mA (min) at VCC = 5.0 V
• Operating temperature range: -40°C to 85°C
• Package: SOT-25 (similar footprint to SC-70)
• ESD protection: Machine Model = 200V, Human Body Model = 2000V

Benefits

• Improved system performance due to high-speed operation.
• Reduced power consumption contributes to energy efficiency.
• Versatile application due to wide operating voltage range.
• Enhanced reliability through robust ESD protection.
• Small footprint allows for high-density board designs.

Additional Details

The TC7S04FU E5 comes in a small SOT-25 package, which is suitable for space-constrained applications. It is designed for compatibility with a wide range of CMOS logic families. The device’s output drive capability allows it to drive moderate loads without significant signal degradation. The input structures provide protection against electrostatic discharge (ESD), enhancing the device's robustness and reliability.

This single inverter is particularly well-suited for portable electronics, battery-powered devices, and other applications where size and power consumption are critical. The TC7S04FU E5’s specifications ensure reliable performance in demanding environments. Its propagation delay characteristics make it a suitable choice for medium-speed data processing. The device’s input and output voltage characteristics make it easier to interface with various digital logic circuits.