Xor Circuit Transistor. That is a true output results if one and only one of the inputs to the gate is true. The xor gate we just built is a neat application of this idea.
We can then take that signal invert it then tie that and the output of the or gate to another and gate. If we tie an and gate to the inputs we can get a signal when that case shows up. Additionaly in digital logic design minimizing the number of transistors to perform a certain function is always top priority.
Using dtl diode transistor logic we can implement xor and xnor logic functions with a minimum number of discrete components.
When we need to design logic circuits operating for higher than standard supply voltages such as 30 and 24v we can implement it by using regulators with standard logic family and interfacing it through level shifters. The xor gate has a much wider range of implementations in mos and cmos. When we need to design logic circuits operating for higher than standard supply voltages such as 30 and 24v we can implement it by using regulators with standard logic family and interfacing it through level shifters. Additionaly in digital logic design minimizing the number of transistors to perform a certain function is always top priority.