answersLogoWhite

0

What else can I help you with?

Related Questions

What are the applications of tristate logic?

The most common application of tri-state logic is in the use of LED circuits. They can also be used on a shared electric bus.


What is the difference between external data bus and internal data bus?

A data bus connects different parts of a circuit and comprises a group of parallel wires, each one carrying a different logic signal.


Difference between synchronous bus and asynchronous bus?

1. Syncrhonous bus includes clock in control lines whereas asynchronous bus is not clocked. 2. the devices which need to be connected by synchronous bus should be at same speed whereas an asynchronous bus may connect many devices with varying speeds. 3. A fixed protocol is defined to communicate using synchronous bus which is relative to the clock. An asynchronous bus uses handshaking protocol.


What do you mean by data bus buffer?

It simply amplifies the current or power. It is used to increase the driving capability of a logic socket.


What are examples of universal term in logic?

all roses are flowers. No bird has four legs.


What is the LSI Logic about in computers?

The LSI Logic in computers refers to the host bus adapter that provides throughput to internal server storage rays in computers. It is available for purchase through several different websites such as Amazon and Yahoo!


Diff by the way unidirectional buffer and bidirectional buffer?

A bi-directional buffer includes first and second unidirectional buffers connected for retransmitting signals in opposite directions between first and second buses. When an external bus driver pulls the first bus low, the first unidirectional buffer pulls the second bus low and generates a signal inhibiting the second unidirectional buffer from actively driving the first bus. When the external bus driver allows the first bus to return to the high logic level, the first unidirectional buffer temporarily supplies a high charging current to the second bus to quickly pull it up. Similarly, when an external bus driver pulls the second bus low, the second unidirectional buffer pulls the first bus low and generates a signal inhibiting the first unidirectional buffer from actively driving the second bus. When the external bus driver allows the second bus to return to the high logic level, the second buffer temporarily supplies a high charging current to the first bus to quickly pull it up. The bi-directional buffer includes a register for storing and reading out data representing successive logic states of a signal on the first bus, thereby providing a history of data appearing on the bus


Why higher order address bus not multiplexed with data bus of 8085?

The higher order address bus is not multiplexed with data bus of 8085 because that is the way Intel designed the processor. Besides, the data bus is only 8 bits and the address bus is 16 bits. If you were to multiplex the whole address bus on the data bus, you would need two T1 (ALE) states, and that would be excess logic. Back to the original answer - that is simply the way Intel designed the processor.


What is a bus specify the function of address bus and direction of information flow on the address bus?

A bus is a collection of conducting wires which connect the processor and other devices in parallel scheme. The function of an address bus is to carry the address of the memory locations from the processor to the memory device, the address bus is unidirectional(only in one direction) in this processor so the flow of information on this bus is from the microprocessor to the attached device(memory module).


What is the difference between unidirectional buffer and bidirectional buffer?

A bi-directional buffer includes first and second unidirectional buffers connected for retransmitting signals in opposite directions between first and second buses. When an external bus driver pulls the first bus low, the first unidirectional buffer pulls the second bus low and generates a signal inhibiting the second unidirectional buffer from actively driving the first bus. When the external bus driver allows the first bus to return to the high logic level, the first unidirectional buffer temporarily supplies a high charging current to the second bus to quickly pull it up. Similarly, when an external bus driver pulls the second bus low, the second unidirectional buffer pulls the first bus low and generates a signal inhibiting the first unidirectional buffer from actively driving the second bus. When the external bus driver allows the second bus to return to the high logic level, the second buffer temporarily supplies a high charging current to the first bus to quickly pull it up. The bi-directional buffer includes a register for storing and reading out data representing successive logic states of a signal on the first bus, thereby providing a history of data appearing on the bus


How do you make bus port connectors in Logic Works?

Press Ctrl+B (or alternative go to "Schematic" --> " New Breakout") Enter the Bus name followed by the number of pins you want and press OK. example for name is D0..2 -> creates Bus D with signals D0, D1 , D2


Is the 8086 and 8088 TTL compatible?

Yes, the 8086 and 8088 microprocessors are TTL (Transistor-Transistor Logic) compatible. Both processors were designed to work with standard TTL logic levels, allowing them to interface with other TTL-compatible components in a system. However, the main difference between the two lies in their data bus width; the 8086 has a 16-bit data bus, while the 8088 has an 8-bit data bus, which affects their performance and system design.