SU542173A1 - Software driver - Google Patents

Description

(54) SOFTWARE TASK DEVICE

The purpose of the invention is to expand the scope of the device.

This goal is achieved by the fact that serially connected memory blocks are entered into the proposed device, the input and output of which are connected to the output of the OR element and the input of the switch, respectively, and a third comparison circuit whose input is connected to the output of the program input block and the output to the third and the fourth element I. The output of the fourth element And is connected to the input of the switch, and the output of the pulse distributor - to the input of the pulse counter.

Functional diagram of the device shown in the drawing.

The device consists of a decadal pulse counter 1, switch 2, program input unit 3, time base 4, first 5 and second 6 comparison circuits, pulse distributor 7, memory 8, third comparison circuit 9, trigger 10, And 11-13 elements , element OR 14 and element AND 15.

The device works as follows.

When coinciding on the comparison circuit 6 of the time coming from the electronic clock of the setting device 4 with the start time of the probing cycle set on the remote control of the unit 3, this scheme impulses the impulse to start the probing. This pulse arrives at switch 2 and trigger 10. At the same time, the initial sounding frequency, previously set on the remote control of unit 3, is recorded into switch 1 through switch 2, and trigger 10 opens the AI element. Pulses that follow with a period of frequency change from unit 4 through element 11 are written down unit to distributor 7. This unit is run through the distributor by clock pulses from unit 4. Pulses from the output of the distributor enter the input of counter 1 and rearrange it with the selected tuning rod . At each frequency, the signal received by the receiver 1 € is estimated by the analyzer 17. The comparison circuit 6 compares the final sound frequency set on the remote control of unit 3 with the frequency coming from counter 1. If these frequencies coincide, the circuit triggers a pulse that triggers trigger 10, element The AI is closed and the frequency tuning by the counter 1 is stopped, and the trigger 10 opens the elements I12, 13 and 15. After that, on the remote control of block 3, the starting and ending frequencies of the analysis range determined from the sounding results are set. These frequencies are compared in the frequency selection comparison chart 9 with the operating frequency recorded in the first address of the memory block 8 (the frequencies in the memory block are recorded in order of increasing their nominal values). If the frequency recorded at the first address of memory block 8 does not fall within the analysis range set on the remote control of block 3, circuit 9 terminates AND 12 and 15 and opens AND 13. In this case, the address input of the memory block through OR 14, item 13 is connected to

setpoint clock circuit 4. The memory unit is polled at a clock rate until the next operating frequency falls within the analysis range.

After this, diagram 9 opens the elements AND 12,

15 and element 13 closes. In this case, the operating frequency through the switch 2 is recorded in counter 1, to the address of the input of memory block 8 is disconnected from the clock circuit of the setting device 4 and connected to

the analyzer 17.

Upon completion of the analysis at this frequency, the analyzer 17 carries a pulse, which, through the element AND 13 and the element OR 14, goes to the address input of the memory block 8, and the next operating frequency is recorded in counter 1 and the analysis is performed.

This process continues until the next operating frequency is out of the analysis range. As soon as this happens, the circuit 9 closes the elements AND 12, 15 and unlocks the element AND 13, and the comparison circuit 6 overturns the trigger 10, which terminates the elements AND 12, 13 and 15. After that, the new analysis range is set on the remote control of the program input unit 3 and the process is repeated.

The proposed device searches for free communication channels directly at the operating frequencies of the communication line, which reduces the search time for a free channel, and, consequently, increases the efficiency of the entire system.

Claims (2)

1. USSR author's certificate No. 429417, M.kl. G 05 B 19/18, 1972 2. USSR author's certificate number 520565, M. class. G05B 19/18, 1974