JPS6257948B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Technical Field) The present invention relates to a display circuit for an oscilloscope or the like using a CRT display or the like.

(Prior art and its problems) FIG. 1 shows an example of a vertical axis system block in a conventional oscilloscope. A signal applied to input terminal 1 in FIG. 1 is applied to amplifier 4 through switch 2 which switches between the input signal and the reference level (ground level in the figure). The amplifier 4 includes a variable position resistor 3. The output of amplifier 4 is
Added to the vertical deflection system of CRT5.

Generally, when observing a signal, it is often important to determine how many volts the signal is shifted from a reference level (eg, ground level). In FIG. 1, switch 2 is a means for switching and observing on the CRT screen. Conventionally, this switching means was a manual type, and only either the signal or the ground level could be observed on the tube surface. Therefore, when observing a signal, the observer must determine the location of the ground level.
I had to remember it or write it down as a document. However, even if it were memorized and written down, when the signal changes and the variable position resistor 3 is adjusted appropriately again, there is the inconvenience of having to operate the switch 2 again and memorize it or write it down as a document.

(Purpose) In order to solve this drawback, this invention makes it possible to simultaneously display the input signal and the reference signal equivalently on the screen, thereby eliminating the above-mentioned inconvenience and dramatically improving the efficiency of observation. It is intended to.

(Example) An example of the present invention will be described below with reference to FIG. 1 is a signal input terminal; 2' is a switching means such as a relay with a voltage drive terminal (hereinafter referred to as a relay switch for ease of understanding); For simplicity, the reference level is referred to as the ground level.) End b can be switched by a control signal from TIMER8. The switching timing is programmed in the timer 8 in advance. Reference numeral 6 denotes a second switching means, which is an electronic switch using a transistor or the like. This electronic switch switches between the output signal end c of the relay switch 2' and the hold signal end d of the sample hold circuit 7. An amplifier 4 includes a DC coupling amplifier and a variable position resistor 3.
5 is a CRT vertical axis deflection system (hereinafter referred to as CRT).
Display the input signal waveform. 8 is a TIMER and each electronic switch 6 is activated by control signals 9 and 10.
It also controls the relay switch 2' and the sample hold circuit 8, and controls the blanking/unblanking circuit 12 with the control signal 11.

The present invention achieves the above-mentioned object by controlling the timer 8. The timer 8 includes, for example, a microcomputer and its peripherals, and the timings of the control signals 9, 10, 11 are appropriately programmed. Third
The figure is a timing diagram. For example, if the current oscilloscope sweep time is 1ms/div,
The time relationship of the timer output signals 9 to 11 at that time is output as shown in FIG. This operation will be explained in detail below. When the control signal 10 has a sample period s, the changeover relay switch 2' is set to b
It's on the side. At this time, the electronic switch 6 is on the c side. The sample and hold circuit 7 is in a sample period at this time. This sample time s is approximately 5ms if the chatter time is 23ms since it is necessary to sample after the relay chatter ends.
It is enough. In this process, the GND level is sampled and held in the sample and hold circuit 7. Next, the control signal 10 is set during the hold period H.
At this time, switch 2' is on side a. At this time, the sample and hold circuit 7 is in a state of outputting a held GND signal. The electronic switch 6 is
For example, the control signal 9 switches the input signal c side or the held GNDd side to 10
Switch every μs. In this way, since the sweep time is now 1 ms/div, the held GND signal and input signal can be observed simultaneously on the CRT screen. If the observer adjusts the position variable resistor 3 in this state, approximately one second later, this new GND signal will be sampled and held, the input signal and the GND level will be maintained correctly, and the newly held GND level will be The input signal is displayed. The control signal 11 in FIG. 3 is a blanking signal, and the control signal 9, 1
At the timing of erasing the 0 switching transient phenomenon from the screen surface, blanking B and unblanking UNB are applied to a brightness modulation amplification circuit (not shown).

(Effects) The CRT display circuit according to the present invention realizes a new function of being able to view an input signal and a reference signal (for example, GND level) at the same time, thereby significantly improving measurement efficiency for an observer. Another advantage is that, for example, as mentioned above, when a relay with mechanical contacts is adopted as the switching means 2', the switching life of this relay, which has a short switching life compared to an electronic switch, is reduced and the life is significantly longer. It lies in what you can do.

[Brief explanation of the drawing]

FIG. 1 is a conventional CRT display circuit, FIG. 2 is a CRT display circuit according to the present invention, and FIG. 3 is a timing diagram of control signals. 2': Relay switch, 3: Variable position resistor, 4: Amplifier, 7: Sample and hold circuit,
8: Timer, 9, 10, 11: Control signal.

Claims (1)

[Claims] 1. A first signal switching means for switching between an input signal and a reference signal, a second signal switching means for switching between a signal from this switching means and an output of a sample and hold circuit described below, and a signal switching means connected to the second switching means. a display means connected to the amplification means; a part of the output of the amplification means is connected to the input of the sample and hold circuit; the first signal switching means, the second signal switching means, the sample A display circuit comprising a timer that controls the operation timing of a hold circuit.