SU556392A1 - Ring meter dynamic parameters of logic elements - Google Patents

Description

one

The invention relates to radio measuring devices, in particular to the measurement of dynamic parameters of circuits.

A device for measuring the dynamic characteristics of AND-OR-NOT 1 logic elements, comprising a ring oscillator made on the same elements as the tested one, a switch for replacing the reference logic elements of the generator with a testable element, the ring oscillator having main and additional circuits feedback covering an odd number of elements included in it and connected to separate inputs of the same logic element.

However, the device does not allow to measure the parameters of the triggers, since the triggers belong to the class of structures triggered from one front of the input pulse, therefore when the opposite front circuit arrives at the input of the circuit under test, the circuit does not operate and the ring generation stops.

It is also known a device for measuring the parameters of the circuits 2, consisting of a matching circuit, a series-connected ring oscillator, an excitation circuit, a test chip and a discriminator, as well as two keys, one key connected to the input of the tested circuit and one of the inputs of the matching circuit, and other

the key is with the discriminator output and the next input of the coincidence circuit, and the discriminator input is connected to the source of the reference voltage.

This device also does not allow measurement of trigger parameters.

The purpose of the invention is to expand the functionality of the ring meter.

This is achieved by the fact that in a ring meter consisting of a matching circuit, a series-connected ring generator, an excitation circuit, a trigger being tested, a discriminator whose output is connected via a key to one input of a matching circuit, while the output of another key is connected to another input of a matching circuit. , another discriminator input is connected to the reference voltage source, entered

a reset pulse generation circuit, a ring polarity switching circuit and an additional discriminator and a reference voltage source, wherein the input of the pulse generation circuit is connected to the output of one

Claims (2)

elements of the ring generator, and its output is connected to the setup input of the test trigger, the output of which is connected to one of the additional discriminator inputs, the discriminator output is connected to the input of the coincidence circuit via one of the keys, and the other input of the additional discriminator is connected to an additional source of reference voltage, the input of the ring polarity switching circuit is connected to the output of the coincidence circuit, and the output is connected to the input of the ring generator. FIG. 1 shows the block diagram of the proposed ring meter dynamic parameters of logic elements; in fig. 2 and 3 diagrams of voltages that show the operation of the meter. The meter contains a series-connected coincidence circuit 1, a ring polarity switching circuit 2, a ring generator 3, an excitation circuit 4 of the test circuit, a test trigger 5 of the circuit, a discriminator 6 and a key 7 connected between the input of the test circuit trigger and one of the inputs of the match circuit 1, the discriminator 8 and the key 9 connected between the output of the tested circuit trigger and the second input of the matching circuit 1. To the output of one of the elements of the ring oscillator 3 is connected the input of the output pulse generation circuit 10, the output to The wiring is connected to one of the installation inputs of the circuit trigger being tested. Consider the operation of the meter when measuring the delay time (/ °) when switching triggers from state "1 to state" O on a clock input for a trigger that is triggered on the trailing edge of a positive input pulse. The pulse from the output of the reset channel is fed to the input of the trigger setup to state "1", the output pulse from the trigger is fed to the input of the discriminator 8 from the output Q. The meter works as follows. When a positive voltage drop circuit (see Fig. 2) arrives at the input T of the tested trigger 5 (see Fig. 2), the trigger state changes, and when a reset pulse arrives from the reset pulse output circuit 10 delayed relative to the leading edge of the clock pulse at time 4, the trigger switches from state "O to state" 1. The rear edge of the pulse entering the input T of the trigger 5, switches the trigger to its original position. When the next positive voltage drop arrives at the T trigger input, the described processes are repeated. The pulses at the outputs of discriminators 6 and 8 repeat the input pulses at levels determined by the value of the reference voltages t / oni and t / on2. If the keys 7 and 9 are simultaneously closed in the meter, the voltage at the output of the coincidence circuit 1 (the coincidence circuit in " O) corresponds to the diagram shown in FIG. 2. As follows from this diagram, the pulse repetition period of a ring oscillator is determined by the expression T -T 4- / 4- t 1–01 T c T T 101 where Go1 is the delay time in the ring generator when a positive voltage drop arrives at its input; TIQ is the delay time in a ring generator when a negative voltage drop arrives at its input. If only the key 7 is closed in the meter, then the repetition period is defined by the formula 7, Г „, + Т,„. (2) From the expressions (1) and (2) follows 42 7 -, - P. (3) Measuring the period T at different values of the reference voltage C / op2 and the operation of subtracting the obtained values of TI, the value of the front of the output pulse (°) can be measured. When measuring the delay time t ° and the front t for the same output Q of the test trigger 5, the reset signal is connected to the installation input at "O test trigger 5, and the signals to the key 9 are fed from the inverting output of the discriminator 8, and measurements are made similar to those described since in this case, the signals at the outputs of discriminators 6 and 8 are similar to those shown in FIG. 2, except that a parameter appears instead of a parameter. The measurement of the parameters l of the second output (Q) of the test trigger 5 is made similarly to that described when the reset channel is connected to the corresponding input of the trigger setup and the 9th signal is fed to the key from the corresponding output of the discriminator 8 (inverting or noninverting). When measuring the parameters of the triggers triggered by the trailing edge of the positive pulse, the inverting output of the discriminator 6 is used, and the number of inversions in the ring is changed to maintain the condition of generating the ring oscillator using the ring 2 polarity switching circuit. The reset pulse is delayed by time 4 relative to the trailing edge of the input pulse. As can be seen from FIG. 3, the voltage diagrams at the outputs of discriminator 6 and 8 and the coincidence circuit 1 are similar to the diagrams shown in FIG. 2, i.e., the process of measuring the parameters proceeds as previously described. From the above description and FIG. 2 and 3 follows: the reset impuls must be fed to the corresponding input of the installation of the test trigger 5 with a delay relative to the front opposite to the front on which the trigger is triggered, and the value of this delay must be determined by the condition +,. Failure to comply with this condition leads to a distortion of the measurement result or to a breakdown of generation. In the scheme of generating a pulse of discharge 10, it is possible to introduce elements for controlling the delay 4, the duration and amilitude of a pulse of discharge. In addition, additional channels can be input to the meter to generate clock pulses applied to the D, Y, K outputs of the flip-flops (and the meter doesn’t violate the principle of operation). The use of the invention makes it possible to create an instrument for measuring the dynamic parameters of trigger schemes, built on the basis of a ring oscillator method that provides high accuracy and stability of measurements while simplifying its implementation. Claims An annular gauge of dynamic parameters of logic elements consisting of a matching circuit, a series-connected ring generator, an excitation circuit, a test trigger and a discriminator whose output is connected via a key to one input of a matching circuit, while the output of another key is connected to another input of a circuit coincidence, another input of the discriminator is connected to a source of the reference voltage, characterized in that, in order to extend the functionality, a circuit is introduced into it reset pulses, a ring polarity circuit and an additional discriminator and a reference voltage source, the input of the output pulse generation circuit is connected to the ring oscillator output, and its output is connected to the test input of the trigger, the output of which is connected to one of the additional discriminator inputs, the output of which is connected to the input of another key, and the other input of the additional discriminator is connected to an additional source of the reference voltage, the input of the circuit circuit polarity rings connected to the output of matching circuit, and an output - to an input of the ring oscillator. Sources of information that are considered in the examination: 1.Avt. St. USSR № 295095, cl. Q 01R 31/28, 10.16.69. 2. Avt. St. USSR № 432431, cl. G 01R 31/28, 07.27.72. Wo / yy .f 1 i 11 - t - - " trigger viscriminatori 8 Off match 1 .