CS236557B1 - Timing generator - Google Patents

Abstract

The problem of generating pulses is solved with adjustable width and delay. The essence of the invention is that it uses the choice of each other for its function shifted waveforms of the voltage time converter. The invention can be utilized in testing integrated circuit systems and everywhere where periots need to be numerically controlled repetitive operations.

Description

The present invention relates to a timing generator which utilizes a selection of mutually offset waveforms of a voltage / time converter.

The prior art adjustable impulse generators use digital frequency division or delay lines for their function. These methods either do not allow the necessary subdivision for a given component base or impose space and material requirements. The implemented principles using voltage-time converters do not respect inaccuracies at the beginning and end of the generation.

These disadvantages are overcome by the timing generator according to the invention, characterized in that the first output of the pulse generator is connected to a first flip-flop input, a second input of which is connected to a first gate output, a first sawtooth input circuit and a pulse counter setting input. wherein the flip-flop output is coupled to a first input of a second gate whose second input is coupled to a first input of the first gate and to a logic switch output whose first input is coupled to a second pulse generator output, the second logic switch input is coupled to a third generator output the pulse selection control input is connected to the third input of the logic switch, the output of the second gate being connected to the clock input of the pulse counter, whose setting inputs are connected to the outputs of the first setting circuits, the pulse counter output is interconnected connected to the second input of the first gate, where the output of the sawing circuit is connected to the first input of the comparator, the second input is connected to the output of the converter whose inputs are connected to the outputs of the second setting circuits, and is also the output of the time generator.

The timing generator according to the invention uses pulses generated to start the saw waveform generator so that the saw waveform is started even in the delay time interface, defining non-linearities in its pick and end. In the linear part of the waveform is then divided in the required step using a digital-to-analog converter.

The attached figure shows the block wiring of the timing generator.

The timing generator according to the invention is formed such that the first output 11 of the pulse generator 2 is connected to the first input 21 of the flip-flop 2, the second input 22 of which is connected to the output 53 of the first gate 5, to the first input 81 and to the pulse counter setting input 63, the output 2 of flip-flop 2 is connected to the first input 31 of the second gate 3, the second input 32 of which is connected to the first input 51 of the first gate 5 and to the output 44 of the logic switch 21 connected to the 'second output 12 of the generator 2 pulses, the second input 42 of the logic switch 2 3 ^e is connected to the third output 13 of the generator 2 pulses and the third input 43 of the logic switch 2 is connected to a control input of the selection pulse, the output 33 of the second gate 2 3 ^e connected to the clock input 62 of the pulse counter 2, whose setting inputs 61 are connected to the outputs 71 of the first circuits set 1, wherein the output 64 of the pulse counter 6 is connected to the second input 2 of the first gate 5, the output 83 of the saw forming circuit 2 being connected to the first input 91 of the comparator 9, the second input 92 of which is connected to the output 102 of the converter 10; they are connected to the outputs 111 of the second setting circuits 11, wherein the output 93 of the comparator 2 is coupled to the second input 82 of the saw forming circuit 2 and is simultaneously the output of the time generator.

The timing generator according to the invention makes it possible to generate pulses with adjustable width and delay. A pulse generator 2 is used, from whose first output 11 the base frequency of the system in which the timer generator is used is taken.

From the second and third outputs 12, 13 of the pulse generator 2 are mutually shifted pulses to a switch 2 which, by means of the control input 43, selects the desired pulses, which are then applied from the output 44 to the second input 32 of the second gate 2 ^and u. The base frequency pulse puts the flip-flop circuit into working state and allows clock pulses to pass through the second gate 3 to the pulse counter input 62. After the pulse counter 6 has been read to the value entered from the first setting circuits 7, a transmission pulse is given. from output 64 to second input 52 of first gate 5 ,.

This allows a single pulse to be transmitted to the input 81 of the saw generator and at the same time the pulse counter 6 is reset by means of the setting input 16.

The comparator outputs a pulse at its output 93 if the reference voltage at the second input 92 of the comparator 9 set by the transducer 10 with the adjusting circuits 11 coincides with the saw voltage. This pulse simultaneously terminates the start of the saw run by means of the second input 82 of the saw generator 8.

The timing generator according to the invention can be used in integrated circuit test systems, but also wherever periodically repeated operations need to be digitally controlled.

Claims (1)

SUBJECT OF THE INVENTION A timing generator, characterized in that the first output (11) of the pulse generator (1) is connected to a first input (21) of the flip-flop (2), the second input (22) of which is connected to the output (53) of the first gate (5). to a pulse counter setting input (63), wherein the flip-flop output (23) is coupled to a first input (31) of the second gate (3) whose second input (32) is coupled to the first input (51) the first gate (5) and the output (44) of the logic switch (4), whose first input (41) is connected to the second output (12) of the pulse generator, the second input (42) of the logic switch (4) is connected a pulse selection control input is connected to the third pulse generator output (13) and the third input (43) of the logic switch (4), the output (33) of the second gate (3) being connected to the clock input (62) of the counter 6 / pulses, whose setting inputs (61) are connected to outputs (71) of the first circuits (7) wherein the pulse counter output (64) is coupled to a second input (5) of the first gate (5), wherein the output of the sawtooth circuit (8) is coupled to a first input (91) of the comparator (9), the second input (92) is connected to the output (102) of the converter (10), whose inputs (101) are connected to the outputs (111) of the second setting circuits (11), the output (93) of the comparator (9) being connected to the second input (82) circuit / 8 / creating a sawtooth and is simultaneously the output of the time generator. *