SU918860A1 - Electron beam oscilloscope - Google Patents

Description

The invention relates to electrical measuring technology and can be used in the development of oscilloscope time interval meters.

Closest to the invention, according to the technical essence, ⁵ is an electron beam oscilloscope containing a clock source, the output of which is connected to the first input of the control trigger, the first output of which is connected to the input of the beam brightness control unit, and the second input to the output of the comparison unit, the first input of which is connected to the output of the blocker is ₁₅ , and the second input is with the input of the blocker, the output of the sawtooth voltage generator and the input of the horizontal deviation amplifier, the output connected to a horizontally deflecting and plates of a cathode ray tube, the vertically deflecting plates of which are connected to the output of the vertical deflection amplifier, and the modulator to the output of the beam brightness control unit [1].

Disadvantages of a known oscilloscope are a change in the length of the line of the beam and loss of information about the signal under study, due to a shift in the visible beginning of the line of the beam due to the delay of the edge of the brightness control pulse.

The purpose of the invention is the reduction of changes in the length of the line of the beam and the loss of information about the investigated signal.

The goal is achieved by the fact that an electron beam oscilloscope containing a clock source, the output of which is connected to the first input of the control trigger, the first output of which is connected to the input of the beam brightness control unit, and the second input to the output of the comparison unit, the first input of which is connected to the output of the blocker, and the second input - with the input of the blocker, the output of the sawtooth voltage generator and the input of the horizontal deviation amplifier, the output connected to the horizontally deflecting plates of the cathode ray tube, whose 5 deflecting plates are connected 5 to the output of the vertical deflection amplifier, and the modulator to the output of the beam brightness control unit, is equipped with a delay line and a logical multiplication unit And, whose output is connected to the input of the sawtooth voltage generator, the first input with the third trigger output control, and the second input with the output of the delay line, the input of which is connected 15 with the second output of the control trigger.

The drawing shows a structural • electrical circuit of an electron beam oscilloscope. _m

The oscilloscope consists of a clock source 1, a control trigger 2, a comparison unit 3, a beam brightness control unit 4, a delay line 5, an AND logic 6 unit, a sawtooth generator 7, a blocker 8, a horizontal deflection amplifier 9, and a cathode ray tube (CRT) 10 and. Amplifier 11 vertical deviation.

The oscilloscope operates as follows.

At the initial time, the trigger 2 control is in a low voltage state. The appearance on the per- ³⁵ PTO input trigger controls 2 clock translates it into a high-voltage state. High potential from the first output of the trigger 2 control comes through block 4 ⁴⁰ control the brightness of the beam to the modulator CRT 10, and with. the second and third outputs, respectively, to the input of the delay line 5 and the first input of the logical multiplication block I. After ⁴⁵ times, determined by the parameters of the delay line 5, a high potential arrives at the first input of the logical multiplication block 6 And, the output signal And of which triggers the generator ⁵⁰ torus 7 sawtooth voltage. At the same time, the formation of a direct path of sawtooth voltage and accumulation begins; energy in the blocker 8. The direct path of the sawtooth voltage 55 begins after the front of the beam brightness control pulse for a time determined by the delay line 5

If the sawtooth and constant voltage are equal, the output signal of the comparison unit 3 puts the trigger 2 of the control in a low voltage state. The low potential from the first output of the control trigger 2 through the beam brightness control unit 4 is supplied to the CRT modulator 10 and locks the CRT 10..

From the third output of the trigger 2 control low potential is supplied to the first input of block 6 of the logical multiplication And in the initial state. The lock 8 (via the comparison unit 3) holds the control trigger 2 in the low voltage state for the duration of the sawtooth voltage backstop and the establishment of transients in the sweep generator. Upon: the expiration of this time, the blocker 8 returns the comparison unit 3 to its initial state and provides the possibility of triggering the trigger 2 for controlling the next clock. to the CRT modulator 10. As a result of the delay in starting the sawtooth generator 7, the forward run of the sawtooth voltage begins at nt achieve the maximum value of the pulse control brightness of the beam level unlocking CRT 10.

The proposed oscilloscope ensures the coincidence of the beginning of the forward path of the sawtooth voltage and the moment of unlocking the CRT, which reduces the loss of information about the signal under study. Moreover, a change in the sweep coefficients does not cause a change in the length of the line of the beam (image length);

Claims (1)

1. Technical description and operating instructions of the oscilloscope type 180 A (base block, c.1 and 1821A (block sweep) company ftewlett Packard .: USA, 1979 (prototype).