JPH0749420Y2 - Delayed sweep display circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a delay sweep display circuit in an analog oscilloscope.

[Outline of device]

In the conventional delayed sweep display on an analog oscilloscope, the main sweep of the waveform corresponding to the enlarged and delayed sweep is displayed with brightness modulation.

However, in the case of this brightness modulation, if the brightness of the waveform is high, it is difficult to identify the brightness modulation part, and if it is too low, it becomes difficult to see the part where the brightness modulation is not applied, and the brightness volume is adjusted to obtain the optimum brightness. It was necessary to operate.

In the present invention, two vertical cursors are displayed on the surface of the cathode ray tube in order to clarify the point where the delayed sweep is performed regardless of the brightness of the waveform, and the cursor on the left side of these two cursors is the delayed sweep from the main sweep. Shows the delay time up to, and the waveform between the two cursors is expanded by delay sweep. These two cursors automatically change the display position depending on the delay time setting and the main sweep and delay sweep enlargement ratios. It was made to change. As a result, the delayed sweep area is displayed with the cursor, and the enlarged area can be clearly displayed regardless of the brightness.

[Conventional technology]

When repeatedly observing a waveform with a conventional analog oscilloscope, the main sweep that displays the observed waveform in real time at the normal sweep speed that is determined by the time range from any trigger point The well-known delay sweep method is a method in which the sweep is started and the delay sweep for displaying the waveform to be observed is regularly switched and displayed. Since the delayed sweep is normally performed at a faster speed than the main sweep, it is displayed as a waveform expanded in the time axis direction than the waveform obtained by the main sweep. The observer can simultaneously observe the two waveforms of the main sweep and the delayed sweep by the afterimage effect by visual observation. At this time, the delayed sweep is displayed by performing luminance modulation on the main sweep of the waveform portion corresponding to the enlarged and displayed portion of the delayed sweep.

FIG. 3 shows an example of a conventional waveform display when luminance modulation is performed. Here, 11 is the main sweep waveform display, B is the brightness modulation part, A is the delay time, and 21 is the expanded sweep waveform display by delay.

[Problems to be solved by the invention]

In the case of the conventional brightness modulation, if the brightness of the waveform is high, it is difficult to identify the brightness modulation part, and if it is too low, it becomes difficult to see the part where the brightness modulation is not applied, and the brightness volume is adjusted to obtain the optimum brightness. It was necessary to operate.

Further, in the conventional method, the frequency characteristic of the Z-axis (luminance) amplifier circuit does not follow during high-speed sweeping, and the starting point of sweeping may be displayed faintly, which causes a problem that luminance modulation does not work well. Then, these can also be solved.

In order to solve these disadvantages peculiar to the analog oscilloscope, the present invention aims to clarify the part where the delay sweep is performed regardless of the brightness of the waveform.

[Means for solving problems]

In order to achieve the above object, the present invention displays two vertical cursors on the surface of a cathode ray tube, and the cursor on the left side of these two cursors indicates the delay time from the main sweep to the delayed sweep. The waveform between is enlarged by delay sweep. These two cursors are such that the display position is automatically changed according to the setting of delay time and the enlargement ratio of main sweep and delayed sweep. Main sweep and enlarged sweep A sweep signal generation circuit that alternately generates two kinds of sweep signals, and a control signal to the sweep signal generation circuit based on the information set by the main sweep time range, delayed sweep time range, and delay time on the operation panel. , A control circuit that generates a cursor display position signal and a cursor / waveform display switching signal, a cursor signal generation circuit, and a switch that switches between cursor display and waveform display

[Action]

As a result, the delayed sweep area is displayed with the cursor, and the enlarged area can be clearly displayed regardless of the brightness.

〔Example〕

An embodiment of the present invention will be described below with reference to FIG. Here, 1 is an input signal, 2 is a trigger circuit that generates a sweep start signal, 2a is a sweep start signal, and 3 is a sweep signal generation circuit that generates a main sweep signal and a delayed sweep signal. 3a is a sweep signal, 4 is a vertical amplifier circuit, 4a is a vertical signal output, 5 is an operation panel, 5a is a main sweep time range switch, 5b is a delayed sweep time range switch, 5c is a delay time setting volume, and 6 is a control circuit. Reference numeral 6a is a cursor position control signal, 6b is a waveform / cursor switching signal, 7 is a cursor signal generating circuit, 7a is a cursor display X signal, 7b is a cursor display Y signal, 8 is a switch, and 9 is a cathode ray tube.

This operation will be described below. The input signal 1 passes through the vertical amplifier circuit 4 and outputs a vertical signal output 4a as a signal in the Y direction of the cathode ray tube 9. Further, the input signal 1 passes through the trigger generation circuit 2 to become the sweep start signal 2a, and the sweep signal generation circuit 3 alternately generates two kinds of sweep signals 3a of main sweep and expanded sweep. This is the signal in the X direction of the cathode ray tube 9.

On the other hand, the main sweep time range switch 5 on the operation panel 5
The information set by a, the delay sweep time range switch 5b, and the delay time setting volume 5c is input to the control circuit 6.
The control circuit 6 generates the sweep control signal 6c as in the conventional oscilloscope, and at the same time, the delay time and the expansion period are obtained based on these information, and the two cursors corresponding to these are displayed on the cathode ray tube 9. The position is determined and the cursor position control signal 6a is generated. By this,
In the cursor signal generation circuit 7, the cursor display X signal 7a
And Y signal 7b for cursor display is generated. The two linear display patterns generated by the cursor signal generation circuit 7 can be easily obtained by combining, for example, a binary counter or the like and performing D / A conversion of the combination. The positions and intervals of the two vertical cursors are controlled by the cursor position control signal 6a, which correspond to the delay time and the like.

These signals are switched by the switch 8 by the waveform / cursor switching signal 6b for distinguishing the waveform display and the cursor display, and the waveform of the input signal is displayed or the cursor is displayed. This waveform / cursor switching signal 6b
The switching time is very fast, about several microseconds, and the cursor may be displayed during the blanking period of the waveform. As a more advanced display method, Japanese Patent Application No. 59-2788 is available.
The method of No. 67 can also be used. As a result, the waveform and the cursor are displayed on the surface of the cathode ray tube 9 as if they were being displayed at the same time.

FIG. 2 shows a display example according to the present invention. 11 is a main sweep waveform display, A is a delay time, c is an enlarged portion, 21 is an enlarged sweep waveform display by delay, and 31 is two cursors.

[Effect of device]

According to the present invention, by displaying the enlarged portion with the cursor, the brightness and the sweep speed are irrelevant and a clear display can be performed.

Here, by utilizing the well-known read-out function for the cursor, it is possible to realize this function by only partially changing the control method without newly adding a circuit.

[Brief description of drawings]

FIG. 1 is a block diagram showing the overall configuration of an embodiment of the present invention,
FIG. 2 is a CRT view showing a display example according to the present invention, and FIG. 3 is a CRT view showing a conventional display example. 3: Sweep signal generation circuit, 5: Panel, 6: Control circuit, 7: Cursor signal generation circuit, 8: Analog switch, 9: CRT.

Continuation of front page (56) References JP-A-52-62070 (JP, A) JP-A-52-131768 (JP, A) JP-A-61-45299 (JP, A) Hideo Seki "Synchronous scope" New revision Edition (Sho 44-6-20) Nikkan Kogyo Shimbun PP. 56-59

Claims (1)

[Scope of utility model registration request] 1. An analog oscilloscope capable of displaying a waveform in real time and capable of delayed sweep, wherein a sweep time range setting means for the delayed sweep, a sweep time range setting means for the main sweep, and a delayed sweep for the main sweep. Delay time setting means for setting the start time of the, and a control circuit for generating a sweep control signal, a cursor position control signal, and a switching signal for switching between cursor display and waveform display, corresponding to the set value from each of the setting means, A sweep signal generation circuit that generates a sweep signal according to the sweep control signal, a cursor signal generation circuit that generates a cursor signal at a delayed sweep start point and a delayed sweep end point according to the cursor position control signal, and the cursor display and waveform display Delayed sweep display characterized by having a switch for switching between waveform display and cursor display according to a switching signal A road