SU318931A1 - JET TRIGGER COUNTER11 ^ ltshi1} t ^: mtI Bi'iBJ'iHOTESiA - Google Patents

Description

The proposed device is intended for use in automatic control systems built on the basis of pneumatic automation tools.

Inkjet trigger meters containing series-connected triggers, each of which consists of a control circuit and a trigger with separate inputs, are known. Their disadvantage is low functionality, expressed in the impossibility of recording "O and" 1 at this bit, when the signal "1" is on its counting input, and in the impossibility of recording "O at the right bit without transferring the transfer signal to the next bit This leads to a complication of the schemes, especially when constructing accumulating adders and other schemes where it is necessary to record a given number in the course of operation (installation of shapers on the transfer, etc.).

The proposed jet trigger meter contains sequentially connected jet triggers by the number of meter bits, of which contains a trigger with separate inputs and a control circuit, the outputs of the control circuit are connected to the inputs of this trigger, the outputs of the latter are connected to the inputs of the control circuit and differs in that in order to simplify the counter circuit and expand its functional

capabilities, in it the counting input of each trigger is connected to one of the outputs of the control circuit of the previous trigger.

This embodiment of the counter allows to simplify its scheme, since when one of the outputs of the control circuit is connected to the input of the subsequent trigger, there is no need for additional elements between the triggers required for independent recording.

numbers in the counter bits.

FIG. Figure 1 shows a trigger diagram representing a one bit counter; in fig. 2 is a four-bit counter circuit. There are also cyclograms.

The trigger (Fig. 1) consists of a control circuit formed by the logical elements L and L2, the blocking logical element L3 and the memory element Tj. Each logic element has two control inputs /, 2, one

inhibit input 3 and two outputs - inverse 4 and direct 5. At output 5, a single level signal appears when there is a high level signal at least at one control input (/ and 2) and there is no high level signal at the inhibit input . With other combinations of signals at the inputs there is a high level signal at the inverse output 4. Elements L and Lg may not have an inverse output. Ti memory element

reset 3 and one output 4, inverse with respect to the installation inputs.

The trigger has feedback lines 6, counting input 7, outputs S and 9. Inputs 10 and 11 are used to record "O and" 1, respectively, and output 12 is a transfer signal. 13 - internal channel in the trigger. FIG. 2 these numbers are assigned additional indices corresponding to the sequence number of the trigger T, etc.

First, consider the work of the trigger with the counting input. Suppose that when the power is turned on, a signal appears at the output 4 of the element Gb. This signal switches the element Lz, and a high level signal appears at the output 5 of the element Lz and pa prohibit ing input 3 of the element Db. input 7, the element L1 will retain its original state due to the presence of pressure at its input 5, and the element Lz switches, i.e., a high level signal appears at its direct output 5 and, therefore, at the input / element TI and input 2 elements Lz. In this case, the element T switches, a low level signal is set at its output 4, however, the state of the output element Lz does not change due to the presence of a signal at its input 2. After the signal is removed, a low level signal is set at the counting input at input 2 of the element Lz the element Lz returns to its original position, i.e., at its outlet 4 and at the inlet 3 connected to it of the element L a high level pressure is established.

When the second signal is applied to the counting input 7, the element L retains its original state due to the presence of pressure at its inhibiting input 3, and the element L switches, therefore, a high level signal appears at its direct output, at input 3 of the element TI and the input of 3 elements Lz. As a result, the TI element is switched, a high level signal is set at its output 4, however, the state of the output element L3 does not change due to the presence of a signal at its input.

After the signal is removed at the counting output 8 at the input 3 of the element Lz, a low level signal is set, the element Lz switches, i.e. a high level signal is set at its output 5.

As can be seen, the pulse frequency at the outputs 8 or 9 is two times less than the frequency of the counting pulses. Moreover, the trigger functions normally for any increase in the pulse duration at the counting input 7.

As follows from the description and sequence diagram, at output 5, pulses are formed, the duration of which is equal to the duration of the pulses at the counting input, and the frequency is two times less, i.e., the same output can be used as a transfer output. For the entry "1, the input 2 of the element L. (input I) is used, and for the recording" O-input 2 of the element TI (input 10). Obviously, when recording, "O transfer pulse is not generated. The counter works as follows /

For example, at the outputs of 8i. 82, 83 ... of all bits there is a zero level signal. Then, when the first signal is applied to the counting input 7i, the first trigger T switches. When the second signal is applied, the first trigger returns to the outgoing state and a transfer signal is generated at the output of the transfer 12, which will cause the trigger switch Gg. When the third pulse is applied to the counting input 7), the trigger TI switches to state "1, transfer pulses

will not be formed. When iodine the fourth pulse, the trigger TI switches to the "O" state, at the output of the transfer 12i, the transfer pulse is turned on. This will cause the trigger T to switch to the “O” state and a transfer signal 12 formed at its transfer output, which will cause the Gz trigger to switch to the “1” state. When applying the following pulses, switching occurs in the same way.

The entry "O and" 1 at any bit is produced by applying signals to the inputs 10 or 11 of the corresponding bits in the absence of a signal at the counting input of the counter and regardless of the state of the remaining bits.

Such a circuit for constructing counters is particularly advantageous in the case of pulsed triggers that do not have Lz blocking elements. In this case, it is possible to get by with one pulsator, set on the input to the first trigger, in order to generate a pulsed transfer signal in all bits.

PRE THERE OF THE INVENTION

An inkjet trigger counter containing successively connected inkjet triggers according to the number of counter bits, each of which contains a trigger with separate inputs and a steering circuit, the outputs of which are connected to the inputs of this trigger, and the outputs of the latter are connected to the inputs of the control circuit, characterized in that There is no way to simplify the circuit of the counter and to expand its functionality;

the input of each trigger is connected to one of the outputs of the control circuit of the previous trigger.

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