D Type Flip-flops
The major drawback of the SR flip-flop (i.e. its indeterminate output and non-allowed logic states) described in Digital Electronics Module 5.2 is overcome by the D type flip-flop. This flip-flop, shown in Fig. 5.3.1 together with its truth table and a typical schematic circuit symbol, may be called a Data flip-flop because of its ability to ‘latch’ and remember data, or a Delay flip-flop because latching and remembering data can be used to create a delay in the progress of that data through a circuit. To avoid the ambiguity in the title therefore, it is usually known simply as the D Type. The simplest form of D Type flip-flop is basically a high activated SR type with an additional inverter to ensure that the S and R inputs cannot both be high or both low at the same time. This simple modification prevents both the indeterminate and non-allowed states of the SR flip-flop. The S and R inputs are now replaced by a single D input, and all D type flip-flops have a clock input.
Edge Triggered D Type Flip-flop
The clock pulse applied to the flip-flop is reduced to a very narrow positive going clock pulse of only about 45ns duration, by using an AND gate and applying the clock pulse directly to input ‘a’ but delaying its arrival at input ‘b’ by passing it through 3 inverters. This inverts the pulse and also delays it by three propagation delays, (about 15ns per inverter gate for 74HC series gates). The AND gate therefore produces logic 1 at its output only for the 45ns when both ‘a’ and ‘b’ are at logic 1 after the rising edge of the clock pulse.
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