The JK Flip Flop

 

The JK Flip Flop

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The JK Flip Flop

The JK Flip Flop


The JK Flip-flop is similar to the SR Flip-flop but there is no change in state when the J and K inputs are both LOW


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The basic S-R NAND flip-flop circuit has many advantages and uses in sequential logic circuits but it suffers from two basic switching problems.

  • 1. the Set = 0 and Reset = 0 condition (S = R = 0) must always be avoided
  • 2. if Set or Reset change state while the enable (EN) input is high the correct latching action may not occur

Then to overcome these two fundamental design problems with the SR flip-flop design, the JK flip Flop was developed.

This simple JK flip Flop is the most widely used of all the flip-flop designs and is considered to be a universal flip-flop circuit. The two inputs labelled “J” and “K” are not shortened abbreviated letters of other words, such as “S” for Set and “R” for Reset, but are themselves autonomous letters chosen by its inventor Jack Kilby to distinguish the flip-flop design from other types.










The sequential operation of the JK flip flop is exactly the same as for the previous SR flip-flop with the same “Set” and “Reset” inputs. The difference this time is that the “JK flip flop” has no invalid or forbidden input states of the SR Latch even when S and R are both at logic “1”. The JK flip flop is basically a gated SR flip-flop with the addition of a clock input circuitry that prevents the illegal or invalid output condition that can occur when both inputs S and R are equal to logic level “1”. Due to this additional clocked input, a JK flip-flop has four possible input combinations, “logic 1”, “logic 0”, “no change” and “toggle”. The symbol for a JK flip flop is similar to that of an SR Bistable Latch as seen in the previous tutorial except for the addition of a clock input. The Basic JK Flip-flop jk flip flop symbol Both the S and the R inputs of the previous SR bistable have now been replaced by two inputs called the J and K inputs, respectively after its inventor Jack Kilby. Then this equates to: J = S and K = R. The two 2-input AND gates of the gated SR bistable have now been replaced by two 3-input NAND gates with the third input of each gate connected to the outputs at Q and Q. This cross coupling of the SR flip-flop allows the previously invalid condition of S = “1” and R = “1” state to be used to produce a “toggle action” as the two inputs are now interlocked. If the circuit is now “SET” the J input is inhibited by the “0” status of Q through the lower NAND gate. If the circuit is “RESET” the K input is inhibited by the “0” status of Q through the upper NAND gate. As Q and Q are always different we can use them to control the input. When both inputs J and K are equal to logic “1”, the JK flip flop toggles as shown in the following truth table.

















The Truth Table for the JK Function

same as
for the
SR Latch
ClockInputOutputDescription
ClkJKQQ
X0010Memory
no change
X0001
‾↓ ̲0110Reset Q » 0
X0101
‾↓ ̲1001Set Q » 1
X1010
toggle
action
‾↓ ̲1101Toggle
‾↓ ̲1110

Then the JK flip-flop is basically an SR flip flop with feedback which enables only one of its two input terminals, either SET or RESET to be active at any one time under normal switching thereby eliminating the invalid condition seen previously in the SR flip flop circuit.

However, if both the J and K inputs are HIGH at logic “1” (J = K = 1), when the clock input goes HIGH, the circuit will “toggle” as its outputs switch and change state complementing each other. This results in the JK flip-flop acting more like a T-type toggle flip-flop when both terminals are “HIGH”. However, as the outputs are fed back to the inputs, this can cause the output at Q to oscillate between SET and RESET continuously after being complemented once.

While this JK flip-flop circuit is an improvement on the clocked SR flip-flop it also suffers from timing problems called “race” if the output Q changes state before the timing pulse of the clock input has time to go “OFF”. To avoid this the timing pulse period ( T ) must be kept as short as possible (high frequency). As this is sometimes not possible with basic JK flip-flops built using basic NAND or NOR gates, far more advanced master-slave (edge-triggered) flip-flops were developed which are more stable.

Master-Slave JK Flip-flop

The master-slave flip-flop eliminates all the timing problems by using two SR flip-flops connected together in a series configuration. One flip-flop acts as the “Master” circuit, which triggers on the leading edge of the clock pulse while the other acts as the “Slave” circuit, which triggers on the falling edge of the clock pulse. This results in the two sections, the master section and the slave section being enabled during opposite half-cycles of the clock signal.

The TTL 74LS73 is a Dual JK flip-flop IC, which contains two individual JK type bistable’s within a single chip enabling single or master-slave toggle flip-flops to be made. Other JK flip flop IC’s include the 74LS107 Dual JK flip-flop with clear, the 74LS109 Dual positive-edge triggered JK flip flop and the 74LS112 Dual negative-edge triggered flip-flop with both preset and clear inputs.

Dual JK Flip-flop 74LS73

74ls73 dual jk flip flop

Other Popular JK Flip-flop ICs

Device NumberSubfamilyDevice Description
74LS73LS TTLDual JK-type Flip Flops with Clear
74LS76LS TTLDual JK-type Flip Flops with Preset and Clear
74LS107LS TTLDual JK-type Flip Flops with Clear
4027BStandard CMOSDual JK-type Flip Flop

The Master-Slave JK Flip-flop

The Master-Slave Flip-Flop is basically two gated SR flip-flops connected together in a series configuration with the slave having an inverted clock pulse. The outputs from Q and Q from the “Slave” flip-flop are fed back to the inputs of the “Master” with the outputs of the “Master” flip flop being connected to the two inputs of the “Slave” flip flop. This feedback configuration from the slave’s output to the master’s input gives the characteristic toggle of the JK flip flop as shown below.

The Master-Slave JK Flip Flop

master slave jk flip flop

The input signals J and K are connected to the gated “master” SR flip flop which “locks” the input condition while the clock (Clk) input is “HIGH” at logic level “1”. As the clock input of the “slave” flip flop is the inverse (complement) of the “master” clock input, the “slave” SR flip flop does not toggle. The outputs from the “master” flip flop are only “seen” by the gated “slave” flip flop when the clock input goes “LOW” to logic level “0”.

When the clock is “LOW”, the outputs from the “master” flip flop are latched and any additional changes to its inputs are ignored. The gated “slave” flip flop now responds to the state of its inputs passed over by the “master” section.

Then on the “Low-to-High” transition of the clock pulse the inputs of the “master” flip flop are fed through to the gated inputs of the “slave” flip flop and on the “High-to-Low” transition the same inputs are reflected on the output of the “slave” making this type of flip flop edge or pulse-triggered.

Then, the circuit accepts input data when the clock signal is “HIGH”, and passes the data to the output on the falling-edge of the clock signal. In other words, the Master-Slave JK Flip flop is a “Synchronous” device as it only passes data with the timing of the clock signal.