SU1649549A1 - Test generator output block - Google Patents

Abstract

The invention relates to automation and computing and can be used in test generators. The aim of the invention is to increase noise immunity in the event of a collision situation at the input-output. For this purpose, in the block containing the protection node and the current key, the information input of which is the information input of the block, and the output of the current key is connected to protection element contains an EXCLUSIVE OR element and a load resistor, the first and second inputs of the EXCLUSIVE OR element are connected respectively to the information input of the block and the output of the current key, and the output of the EXCLUSIVE IL element And it is connected to the control input of the shock switch and through the load resistor to the power supply bus of the unit. 2 Il.

Description

The invention relates to automation and computing and can be used in test generators for monitoring and diagnosing digital objects.

The purpose of the invention is to increase the noise immunity in the event of a conflict situation at the input-output block.

Fig. 1 shows a block diagram of a device for monitoring and diagnosing digital objects; figure 2 - diagram of the output unit of the test generator of this device.

The device for monitoring and diagnosing digital objects (Fig. 1) contains a block 1 of input actions (test generator), output (current-limiting) blocks 2, a reference and diagnosed digital objects 3 and 4, a block 5 of comparison to the block 6 of the display and has outputs 7 for connecting external probes,

The output unit 2 of the test generator (Fig. 2) includes a current switch 8 and a protection node consisting of an EXCLUSIVE OR 9 element and a load resistor 10.

The output unit operates as follows.

The test action is applied to the external outputs 1, 2, ... of the diagnosed and reference objects 3 and 4 through the output blocks 2. The electrical resistance of the block 2 is chosen based on three conditions.

According to the first condition, the electrical resistance of unit 2 should be less than the partial value of dividing the minimum noise immunity value of the TTL microcircuit by the maximum value of the input current of these microcircuits. The worst noise immunity value for TTL microcircuits is 0.3 V, and the maximum input current (current O) is 2 mA. Hence the block resistance should be less

   5 °

According to the second condition, the resistance of block 2 must be greater than the partial potential difference between the potential source between the input source and the external terminals of the digital objects (arising from the conflict of signals, which is equal to the power supply voltage of the digital object 5 V) the output current of the digital object microcircuits (taken equal to 10 mA). Thus, the resistance of block 2 should be more

5V T671A

500 ohms.

In this case, according to the third condition in case of a conflict O and 1, the voltage drop on unit 2 is equal to the product of resistance of unit 2 (according to the second condition) by the amount of current flowing through this unit during a signal conflict. We get 500 Ohm x 10 A - 5 V, which is obviously more than the threshold voltage of the TTL digital logic chips.

Satisfy such contradictory conditions is achieved if you implement

current limiting output unit 2 on the current switch 8, the EXCLUSIVE OR 9 element (with output inversion) and the output resistor 10 (Fig. 2). In the absence of a signal conflict, key 8 is in the open state, since it is controlled by the signal from the output of the EXCLUSIVE OR element 9, and at its inputs in this case the signals are the same.

The key resistance in this case (for a 564KTZ chip) is 150 Ohms with a key supply voltage ip u.

As an element EXCLUSIVE OR chip K531LP5P can be used. A resistor 10 with a resistance of 10 kΩ serves to match the output signal of the EXCLUSIVE OR 9 cell with the control input of the switch 8.

Claims (1)

Invention Formula An output test generator block containing a protection node and a current key whose information input is the information input of the block and the output of the current key is connected to the input-output of the block, characterized in that, in order to increase the noise immunity at the input-output conflict situations, the node protection element contains an EXCLUSIVE OR element and a load resistor, the first and second inputs of the EXCLUSIVE OR element are connected respectively to the information input of the block and the output of the current key, and the output of the EXCLUSIVE element AYUSCHEE OR connected to the control input of the current key and through a load resistor to the power supply bus 1 FIG. 2