SU561997A1 - Device for frequency-phase control of the average speed of the magnetic tape - Google Patents

Description

switches, and the second input of the phase detector - with the input of the third trigger.

The drawing shows a block diagram of the described device.

The signal reproduced by the magnetic head 1 from the magnetic tape 2 hits the driver of the pilot signal 3, which is connected to the first trigger 4 and the second trigger 5. The magnetic tape is driven by an electric motor 6 and a drive shaft 7, the stability of which is affected reference frequency generator 8 connected to input 9 of phase detector 10, and speed switch 11 connected through a multi-input logic circuit 12, third trigger 13, driver of volt-second pulses 14, driver of sawtooth 15, the comparator 16 and the power amplifier 17 simultaneously with the low-pass filter 18 and with the feedback voltage generator 19 connected via the adder 20 to the time constant generator 21. The speed setting unit 22 and the control slope adjustment unit 23 are connected respectively to the first switch 24 and the second switch 25. To the input of the unit 22 a DC source 26 is connected. The multi-input logic circuit 12 has the first group of inputs 27 and the second group of inputs 28 connected to the groups of outputs of the speed switch 11, It is with the first group of outputs 29, the second - 30 and the third - 31. The output of the phase detector 10 is connected simultaneously to the output of logic circuit 12 and the input of the trigger 13, to the input 33 of the feedback voltage generator the output of the power amplifier 17 and the filter input are simultaneously connected low pass 18.

A change in the speed of movement of the magnetic tape leads to a change in the frequency and the phase of the control frequency signal, and then the duty cycle of the sawtooth voltage falling on the comparator 16 changes in such a way that as the frequency of the control signal decreases, the voltage ratio also decreases. through the filter 18 to the electric motor 6, increases, which leads to an increase in engine speed and an increase in the speed of the belt. If you increase the frequency of the control signal, the process will be the opposite. When the pilot signal phase changes, the duty cycle of the signal produced by the detector 10, and thus the level of the total threshold voltage applied to the comparator 16, changes so that when the phase of the control frequency signal lags relative to the reference frequency signal, the pulse duration at the comparator output will decrease, which will lead to an increase in the speed of the tape, and set. As a result, total control of the pulse duty cycle by signals proportional to the change in both the frequency and the phase of the control signal.

a significant increase in the accuracy of controlling the average velocity of the magnetic tape is achieved and the stability of the operation of the device as a whole is significant. The similarly described high quality device also shows when switching the speed of the magnetic tape. In addition, the electrical circuit of the device described is substantially simpler than the circuits of the known devices,

performing the same function of adjusting the speed of the magnetic tape. This can be seen at least from the fact that when entering, for example, from outputs 30 and 31, speed switches 11 to inputs 28 of circuit 12 and

the inputs 34 and 35 of the switches 24 and 25 of the switching signals of one or another speed of movement of the magnetic tape; the operation of the device proceeds in the same way as it was indicated with respect to lagging or advancing the frequency or phase of the control signal. The only difference is that the output of the circuit 12 is allowed to pass the signal of the control frequency from the outputs of the flip-flops 4 or 5, where this signal receives a division by 2

or 4, which allows the frequency to remain stable to the trigger 13 and the input 32 of the phase detector 10, regardless of the speed of movement of the magnetic tape.

Claims (3)

1. US patent number 3829892, publ. 1974. 2. US patent number 3839729, publ. 1974. 3. US patent number 3356921, publ. 1967 (prototype).