Description
Specifications Table
Product Material – Plastic-encapsulated ICs
Grade – Standard (TTL 74LS series)
Application – Digital logic experiments, circuit prototyping, educational labs
Product Overview
The Logic Gates using TTL IC’s (6 in 1) kit provides essential building blocks for digital electronics projects, combining six fundamental logic functions in a single package. Built using standard 74LS series TTL ICs, this kit ensures reliable performance with fast switching speeds (typical propagation delay <10ns) and noise immunity (0.4V for low, 2.4V for high). Each gate operates at 5V DC with fan-out capability of up to 10 standard loads, making it ideal for cascading multiple stages. The ICs feature standard 14-pin DIP packaging for easy breadboard integration, with operating temperature range of 0°C to 70°C. The kit includes AND, OR, NOT, NAND, NOR, and XOR gates – covering all basic Boolean operations required for combinational logic design. Components are RoHS compliant and manufactured under ISO 9001 standards, ensuring consistent quality for repeated use in laboratory environments. The low power consumption (typical 2mA per gate) allows for battery-powered applications while maintaining stable operation.
FAQs
1. What is the input voltage range for these TTL logic gates?
The standard operating voltage is 5V DC with a recommended range of 4.75V to 5.25V for reliable operation.
2. Can these ICs be used with CMOS logic circuits?
Direct interfacing requires level conversion as TTL outputs (0.4V low, 2.4V high) differ from CMOS levels (0V low, 3.3V/5V high).
3. What’s the maximum clock frequency these gates can handle?
Typical maximum frequency is 30-40MHz depending on specific gate type and load conditions.
4. Are these ICs suitable for industrial applications?
While functional for prototyping, industrial applications typically require extended temperature range (-40°C to +85°C) components.
5. How should these ICs be stored when not in use?
Store in anti-static bags at room temperature (15-30°C) with humidity below 60% to prevent corrosion and static damage.
