SU604155A1 - Modulo three counter based on nand gates - Google Patents

Description

(54) COUNTER, ON MODULE THREE

Claims (1)

This invention relates to digital computing. A modulo-three counter is known on the NAND elements, containing four set-up triggers of the RS-type and eight control elements for the shoulders of the trigger. Its disadvantage is its complexity and lack of reliability. There is a known modulo-three counter on AND-HE elements, which contains three installation-type flip-flops with control elements in each trigger arm, both of the first-trigger control elements, the second-zero zero-shoulder control element and the third-trigger single-arm control on three-input elements NAND, one input of the control element of the zero shoulder of the second trigger and one input of the control element of the single shoulder of the third trigger with dineney with the first bus counting pulses, a single shoulder of the first th flip-flop is connected with an element of the control unit of the third latch shoulder zero howling shoulder of the first flip-flop is connected to the control element of the second flip-flop nulevpch shoulder single shoulder second-flip-flop is connected with an element of the control unit of the third latch shoulder and the two elements controlling the first flip-flop, a single arm of the third flip-flop connected to the control element of the zero shoulder of the first and second triggers, the zero shoulder of the third trigger is connected to the control element of the single shoulder of the first trigger The disadvantage of this counter is the possibility of randomly installing triggers in an OCNS from two non-cyclic states and the need to use additional elements to pre-install triggers. The purpose of the invention is to provide a launch without first installing the triggers and simplifying the counter. This is achieved by the fact that the proposed mod. Mod. Three on the AND-NE elements, containing three RS-type setting triggers with control elements in each arm of the trigger, both of the control elements of the first trigenera, the control element of the zero-arm of the second trigger and the element control of the third shoulder of the single trigger is made on the three-input AND-NOT elements, one input of the zero shoulder control element of the second trigger and one input of the single shoulder control of the third trigger are connected to the first bus of the counting and pulses, a single arm of the first flip-flop is connected to the control element unit of the third latch shoulder zero shoulder prrvrgo trigger is connected to element of the control zero shoulder second flip-flop, a single arm of the second flip-flop is connected to an element driving audio unit third latch shoulder and the two elements controlling the first flip-flop, the unit shoulder of the third trigger is connected to the control elements of the zero shoulder of the first and second triggers, the zero shoulder of the third trigger is connected to the control element By the unit shoulder of the first trigger, the control unit of the single trigger of the second trigger and the control element of the zero shoulder of the third trigger are made on two-input AND –NES elements, the first inputs of these elements are connected respectively to the first and second buses of the counting pulses, their second inputs are connected respectively to the zero shoulders of the third and second triggers, and both control elements of the first trigger are connected to one of their inputs to the second bus of the counting pulses. Figure 1 presents the functional diagram of the proposed counter modulo three; FIG. 2 shows the patiMH timing diagrams of its operation (each diagram shows the position corresponding to the elements in FIG. 1), the counter contains three adjusting RS-type triggers on the AND-NE elements 1-6, the AND-NOT control elements 7- 12, the first and second tires 13, 14 counting pulses. Elements 1,3,5 are the unit shoulders of the first, second and third triggers, respectively, and elements 2 and 4,6 are the zero arms, elements 7, 9, 11 control the unit shoulders of the first, second and third triggers, respectively, and elements 8, 10, 12 control the zero arms. Bus 14 is supplied with pulses of paraphase counting pulses applied to bus 13. The device operates as follows. When the supply voltage is turned on, the meter triggers are reset to an arbitrary state. This state can be both cyclic and non-cyclic. Consider the operation of the counter when the triggers are installed in a cyclic state. Assume the counter triggers are set to state 000. This state corresponds to the presence of potential on the unit arms of the triggers and the potential on the zero arms. When the first pulse appears on bus 13, the second trigger changes its state, and the appearance of the first pulse on bus 14 changes the state of the first trigger. The appearance of a second pulse on bus 13 leads to a switching of the third trigger. When a second pulse appears on bus 14, the first trigger returns to its original state. The appearance of the third pulse on bus 13 returns the second trigger to its original state, and the appearance of the third pulse on bus 14 returns the third trigger to its original state. Further, the counter operation cycle is repeated. Thus, when the counter is running, its triggers successively assume six cycle states — 000; 010j 110; 111; 011; 001. Consider the operation of the counter when setting the triggers to the off-cycle state. If the counter triggers are set to the off-cycle state 100, the counter transition to one of the cycle states occurs when a pulse arrives on the bus 13.- This pulse acts on one of the inputs of element 9, on the other input of which the resolving potential i comes from the zero arm of the third trigger (item 6). Element 9 opens, and at its output a pulse appears that switches the second trigger into one state. The resolving potential from the output of the unit arm of the second trigger (element 3) opens element 11. The pulse from the output of element 11 switches the third trigger to one state. The inhibitory potential O from the output of the zero arm of the third trigger (element 6) locks the element 9. Thus, the sequential switching of the second and third triggers to one state, i.e. the counter from the off-cycle state 100 enters the cyclic state 111 through the cyclic state 110. When the triggers are installed in the off-cycle state 101 with the pulse appearing on the bus 14, the element 12 is opened, prepared to be triggered by the resolving potential i from the zero arm of the second trigger. The impulse from the output of the element 12 switches the third trigger to the zero state. Thus, the counter transitions from the off-cycle state 101 to the off-cycle state 100. From the off-cycle state 100, the counter goes to the cycle state when a pulse arrives on the bus 13. Invention The modulo three meter contains AND-NOT elements containing three installation triggers - of the type with control elements in each arm of the trigger, with both control elements of the first trigger, the control element of the zero arm of the second trigger and the control element of the single arm of the third trigger performed on the three-input element NAND, one input of the control element of the zero shoulder of the second trigger and one input of the control element of the single shoulder of the third trigger are connected to the first bus of the counting pulses, the single shoulder of the first trigger is connected to the control element of the third shoulder of the third trigger connected to the element control of the zero shoulder of the second trigger, the unit patch of the second trigger is connected to the control element of the single shoulder of the third trigger and with both control elements of the first trigger, one The third arm of the third trigger is connected to the control elements of the zero shoulder of the first and second triggers, the zero shoulder of the third trigger is connected to the control element of the single arm of the first tripleter, so that, in order to ensure launch without prior installation of the trigger and its simplification, the control unit of the single arm of the second trigger and the control element of the zero shoulder of the third trigger are made on two-input AND-NES elements, the first inputs of these elements being connected respectively to the first and the second bus counting pulses, their second inputs are connected respectively to the zero shoulders of the third and second triggers, and both control elements of the first trigger one of their inputs. connected to the second bus counting pulses. -G} -g eleven