CS246522B1 - Connection of a number-repeat converter - Google Patents

Description

The wiring of the pulse-to-pulse signal converter for cyclic control uses a newly designed wiring that operates at a constant period. A n-bit number and a write pulse are written to the memory input from the digital system by which the number is written to the memory. Furthermore, a comparator, a counter, a gating circuit, and a circuit for indicating the passage of the supply voltage to zero are used. The memory is connected to a comparator to which a counter for indicating zero crossing is connected. A comparator is connected to the gating circuit.

BACKGROUND OF THE INVENTION The present invention relates to the connection of a pulse-to-pulse signal converter for cycle control.

In the circuits used so far, the duration of the pulses and the gap length are determined separately. This leads to a variation in the signal period. Rather, such connections work more like cycle switches. Other principles of the cycle control transducers operate with a signal period which is determined analogously. However, this period may not be the shortest possible.

The above-mentioned disadvantages are substantially eliminated by the invention of a number-to-duty converter, in which the comparator is connected via its inputs to a memory output and a counter output, the counter being connected to the output of a zero-voltage supply circuit by its input. The first input of the gating circuit is connected to the same output, the second input of which is connected to the comparator output.

The advantage of the circuitry is that it operates with a constant period, this period being the shortest possible period for cyclic control.

An exemplary circuit according to the invention is described and its operation is explained by means of Fig. X, where a block diagram is shown.

A n-bit number and a write pulse are written to the memory 1 input from the digital system by which this number is written to the memory 1. The same n-bit number appears on output 1 of memory when it is written, so it enters comparator 2 (the first n-bit input). The second n-bit input of the comparator 2 is connected to the output of the modulo 2 counter 3. The input of this counter 3 is connected to the output of the circuit 4 for indicating the passage of the supply voltage to zero. Simultaneously, one of the inputs of the gating circuit 5 is connected to the output of the circuit 4, the other input of which is connected to the output of the comparator 2.

The write pulse writes to the n-bit memory 1 the n-bit number that is present at its input at the time of writing. The same number will appear on memory 1 output after writing.

The zero-crossing voltage indication circuit 4 generates pulses that are counted in a counter 3 operating a modulo 2 ⁿ . The output of the counter 3 as well as the output of the memory 1 are connected to the inputs of the comparator 2, which compares the contents of the counter 3 and the contents of the memory 1. If the contents of counter 3 are smaller than the contents of memory 1, the output of comparator .2 is at logical level 1 (or logical 0 respectively); if equality and the opposite relation are reached, comparator 2 is at logical level 0 and logical 1 respectively. This logic signal is available as a level signal, but is also applied to one input of the gating circuit 5, which either transmits or blocks ignition pulses that are applied to the other input of the gating circuit 5 from the output of the zero-voltage indication circuit.

SUBJECT

Claims (1)

Connection of the pulse-to-pulse signal converter for cyclic control characterized in that the comparator (2J is connected by its inputs to the memory output (1) and the counter output (3), the counter (3) is connected to RESET the output of the circuit (4j) for indicating the passage of the supply voltage to zero, the same output being connected to the first input of the gating circuit (5), the second input of which is connected to the output of the comparator (2). 1 sheet of drawings