What is the major difference between 7400 and 5400 series of integrated circuits?
Table of Contents
What is the major difference between 7400 and 5400 series of integrated circuits?
9. What are the major differences between the 5400 and 7400 series of ICs? A. The 5400 series are military grade and require tighter supply voltages and temperatures.
What is TTL in logic circuits?
Transistor-transistor logic (TTL) is a digital logic design in which bipolar transistor s act on direct-current pulses. Many TTL logic gate s are typically fabricated onto a single integrated circuit (IC). TTL ICs usually have four-digit numbers beginning with 74 or 54.
What is a function of IC 7400?
Using a 7400 family IC, an engineer can design logic gates, flip-flops, counters, and buffers in individual packages and wire them together as desired to solve a specific problem.
How does IC 7400 work?
The IC 7400 is a 14-pin chip and it includes four 2-input NAND gates. Every gate utilizes 2-input pins & 1-output pin, by the remaining 2-pins being power & ground. This chip was made with different packages like surface mount and through-hole which includes ceramic (or) plastic dual-in-line and flat pack.
What is the difference between the 54XX and 74XX series of TTL logic gates *?
What is the difference between the 54XX and 74XX series of TTL logic gates? A. 54XX is faster.
Why is IC 7400 used as NAND gate?
IC 7400 Circuit Diagram using NAND Gate The 7400 IC using NAND gate is most generally used transistor-transistor-logic (TTL) device. It can be built with 4-independent 2-input NAND gates. The main feature of this is that any type of logic gate can be designed with the help of only NAND gates.
What is temperature range of 74 series of TTL families?
74 Series Device Identification (Also 54 Military/Aerospace grade, IC ceramic package with temperature range of −55°C to +125°C).
What is unique about TTL devices such as the 74SXX?
What is unique about TTL devices such as the 74SXX? A. These devices use Schottky transistors and diodes to prevent them from going into saturation; this results in faster turn-on and turn-off times, which translates into higher frequency operation.