A logic gate composed only of diodes and resistors. The only types are AND gates and OR gates. However the number of layers of logic that can be implemented are severely limited due to losses in these gates.
the pullup or pull down resistance in the diode logic gate makes it a high output resistance device.If u try to drive another diode logic gate with it the output voltage of the first gate will be affected by the resistance in the second gate.A diode logic gate should always drive a high input resistance input.
An XNOR gate is a logic gate performing a Boolean logic XNOR operation, also known as an equivalence gate.
AND
INVERTER gate
relatively large propagation delay.
the pullup or pull down resistance in the diode logic gate makes it a high output resistance device.If u try to drive another diode logic gate with it the output voltage of the first gate will be affected by the resistance in the second gate.A diode logic gate should always drive a high input resistance input.
You shouldn't use it because it is not and gate in diode logic.
A: It is and it can be as simple as a diode resistor or as complex as an IC. A gate is also a function and you cannot get one without the other. Logic gates can also be implemented with several nonelectronic technologies, fluidics (a type of hydraulics) is one of these.
An AND gate is a logic gate performing a Boolean logic AND operation.
universal logic gate is a gate using which you can make all the logic gates there are two such gates NOR gate and NAND gate
Diode logic cannot perform a NOT function because diodes only allow current to flow in one direction, which prevents them from creating a true inversion of the input signal. In a NOT gate, the output must be the opposite of the input; for instance, if the input is high (1), the output should be low (0), and vice versa. However, in diode logic, when the input is high, the diode conducts, leading to an output that is also high, failing to achieve the desired inversion. Thus, diode logic is limited to implementing basic AND and OR functions but cannot produce a NOT operation.
ttt
When the two input terminals of a NAND gate are short circuited, it acts as a NOT gate.
An XNOR gate is a logic gate performing a Boolean logic XNOR operation, also known as an equivalence gate.
The switching time (on and off) of the TTL logic gate is very fast in comparison with CMOS logic gate. However, they could not tolerate higher range of power supply.
AND gate is an all or nothing gate because in able to have an output of logic 1,all of the input must be all logic 1 or else the output will be nothing or simply logic 0.
All the inputs of the gate must be set to a logic 1 for the gate to open.