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There are several types of shift registers: PISO: parallel-in serial-out shift registers such as the 7495(?), 74HC165, 74HC166 serial parallel counter load a one and shift it out serially bingo sequential pulses SIPO: serial-in parallel-out shift registers such as the 74HC595, 74HC4094, TPIC6595, TLC5925. Typically data is shifted into the register one bit at a time through "the" input pin. Most "POV clocks" and "POV displays" use such chips to drive the spinning LEDs. Most such chips can be wired up to "shift left", or they can be wired up to "shift right", but once wired up can only do one or the other. bidirectional SIPO: bidirectional serial-in parallel-out shift registers. Once wired up, an external control line can dynamically switch it from "shift left" -- feeding in a new bit on the "least significant bit input pin" -- and at some other time it can "shift right" -- feeding in a new bit on the "most significant bit input pin". "universal" shift registers, such as the 74AC299, can do any of the above (at different times): output the current state of the register in parallel, shift left, shift right, and load the new state of the register in parallel.
A binary parallel adder is a digital function that produces arithmetic sum of two binary numbers in parallel. It consists of full-adder combinational arrangement thus, the output carry from one full adder connected to the input carry of next full- adder.
synchronous input means that the flipflop reads input only at posedge or negedge of the clock.
I get in put with input() function like this: x = input("what do you want to ask")
It's a type of function
First Flip-Flop in the register
serial device
One of the most common uses of a shift register is to convert between serial and parallel interfaces. Shift registers can be used also as pulse extenders. For -phase clock generation, a SR also functions as a divide-by- and requires a voltage-controlled oscillator with times higher frequency. shift registers can also be used to handle data processing
There are several types of shift registers: PISO: parallel-in serial-out shift registers such as the 7495(?), 74HC165, 74HC166 serial parallel counter load a one and shift it out serially bingo sequential pulses SIPO: serial-in parallel-out shift registers such as the 74HC595, 74HC4094, TPIC6595, TLC5925. Typically data is shifted into the register one bit at a time through "the" input pin. Most "POV clocks" and "POV displays" use such chips to drive the spinning LEDs. Most such chips can be wired up to "shift left", or they can be wired up to "shift right", but once wired up can only do one or the other. bidirectional SIPO: bidirectional serial-in parallel-out shift registers. Once wired up, an external control line can dynamically switch it from "shift left" -- feeding in a new bit on the "least significant bit input pin" -- and at some other time it can "shift right" -- feeding in a new bit on the "most significant bit input pin". "universal" shift registers, such as the 74AC299, can do any of the above (at different times): output the current state of the register in parallel, shift left, shift right, and load the new state of the register in parallel.
Ans:- Register is synchronous circuit thus all flip-flops are controlled by a common clock line.There is four type of Register:(i) Serial input, serial output (SISO)(ii) Parallel input, serial output(PISO)(iii) Serial input, parallel output(SIPO)(iv) Parallel input, parallel output(PIPO)Answered by HAFIJUR RAHMANNowgong College,KKHSOU(Assam)INDIA
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Ans:- Register is synchronous circuit thus all flip-flops are controlled by a common clock line.There is four type of Register:(i) Serial input, serial output (SISO)(ii) Parallel input, serial output(PISO)(iii) Serial input, parallel output(SIPO)(iv) Parallel input, parallel output(PIPO)Answered by HAFIJUR RAHMANNowgong College,KKHSOU(Assam)India
• Binary Cell: A Device that Possesses Two Stable States • Cell Input: Receives Data and Control Signals that Set it to One of the States • Cell Output: Physical Quantity Indicating Which State the Cell is in • States are Encoded as Binary Digits {0,1} Registers • Group of n Binary Cells: an n-bit Register • Register has 2 n States: All Possible n-bit Strings • Register State (or content) can be INTERPRETED as Value, ASCII, etc. • Registers Classified as to Type of Input and Output - Serial and/or Parallel
the function of input is f(x).
No. VGA port is not either serial or parallel port. It is a different interface. If you need a serial output, you need a VGA to serial converter.
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An input would be a register. Tutors input which students are attending or aren't. Nipples.