EP2019968A1

EP2019968A1 - Measuring device for previewing a plurality of electrical signals which can change over time

Info

Publication number: EP2019968A1
Application number: EP07724630A
Authority: EP
Inventors: Markus Freidhof
Original assignee: Rohde and Schwarz GmbH and Co KG
Current assignee: Rohde and Schwarz GmbH and Co KG
Priority date: 2006-05-22
Filing date: 2007-04-26
Publication date: 2009-02-04
Also published as: WO2007134697A1; US8195413B2; DE102006023914A1; US20090265126A1

Abstract

The invention relates to a measuring device (1) for displaying a plurality of electrical signals (2) which can change over time, said device having a front panel (4), which comprises different operating elements (5), and a screen (9) which comprises a plurality of display areas (10, 11). The first display area (10) has at least one window (12) which corresponds to a particular measurement channel (14), wherein the electrical signal (2) which can change over time can be seen in this first display area (10) and can be switched to the second display area (11) in the form of a magnified display. A status field is then displayed in the corresponding first display area (10) for each signal (2) which is displayed in magnified form in the second display area (11).

Description

Measuring device for previewing several time-varying electrical signals

The invention relates to a measuring device for displaying a plurality of time-varying electrical signals.

A disadvantage of known multichannel oscilloscopes is that due to the large number of measurement signals displayed on the screen, the overall presentation for the user appears confusing or not very user-friendly.

European Patent EP 0 284 692 B1 discloses an oscilloscope which makes it possible to select a curve from a multiplicity of illustrated waveforms by means of a touch screen, these waveforms being retrieved from a waveform memory. The touch screen includes a plurality of rows of light sources and light sensors distributed over the edge of the touch screen to provide input data to the oscilloscope relating to a screen position touched by a finger of an operator. However, it is not possible to select several measuring signals from several measuring channels.

The invention is based on the object to provide a measuring device which has a user-friendly and clear screen area.

This object is achieved by the features of claim 1.

Thus, the measuring device according to the invention comprises for displaying a plurality of time-variable electrical signals a front panel with different controls, such as control buttons, rotary switches and the like. On the front panel of the meter, such as an oscilloscope, a screen area is provided with a monitor, wherein on this monitor several display areas are arranged. The first display area has one or more windows, each window corresponding to a measurement channel. In the windows of the first display area, the measured time-varying electrical signals are displayed in reduced size, which can be switched on the second display area, which can also be referred to as the main screen in an enlarged view. Following the enlarged display on the main screen or the second

Display area, a status field is displayed in the respective window of the first display area.

Advantageous further developments are the subject of the dependent claims.

The advantages achieved by the invention are, in particular, that the representation in the entire display area is very clear and user-friendly by signals that are suitable for the

Users are currently not of interest, can be displayed either in a reduced display area. Furthermore, it is advantageous that a status field is displayed in the smaller windows, so that the user can quickly find out about the current measurement parameters or signal format attributes.

Furthermore, it is advantageous that the time-varying displayed in both display areas electrical signals are displayed in real time, so that the user also on the windows of the first display area has a preview with respect to the signal displayed therein and a significant change of this signal, the signal of interest can zoom in on the enlarged display on the second display area.

Furthermore, the measuring device according to the invention can have a contact screen. This will be the

Ease of use increases as the user activates or deactivates the various display areas by touching the touch screen, triggering a toggle function on the selected signal in relation to its presentation.

Alternatively, the controls may contain push buttons, the z. B. are arranged below the screen area. This arrangement is also very user-friendly, since the functionality of the respective push button refers to the window of the first display area, which is displayed immediately above the push button. This makes it easy for the user to see which signal he chooses an enlarged representation by pressing the push button.

Alternatively, a mouse function with an on-screen movable mouse pointer is provided as a control element. As a result, for example, a signal which is currently displayed in the second display area can be easily selected and marked. In addition, it is advantageous that the contact screen in addition to the controls push buttons or mouse function is provided so that the signals, in particular the signals shown in the second display area can also be selected and marked with the touch screen function.

Embodiments of the measuring device according to the invention will be explained in more detail with reference to a drawing. Show:

1 shows a first embodiment of a measuring device according to the invention;

Fig. 2 shows the screen area of a second

Embodiment of a measuring device according to the invention and

Fig. 3 shows the screen area of a third embodiment of an inventive

Measuring device and a conventional operating mouse.

Corresponding parts are provided in all figures with the same reference numerals.

1 shows a first embodiment of a measuring device 1 according to the invention for the representation of several time-variable electrical signals 2. The measuring device 1 according to the invention in this figure is an oscilloscope 3, wherein the measuring device 1 according to the invention, however, z. B. may also be a spectrum analyzer or a network analyzer. The measuring device 1 or the oscilloscope 3 has a front plate 4 on its side facing the user. On this front panel 4 are various controls 5 such as an on / off button 6, a Umschalttastschalter, control buttons 7 and selection rotary switch 8 for several

Measuring ranges arranged. Furthermore, the front panel 4 comprises a screen 9 with several display areas 10, 11. In this case, a first display area 10 extends to a plurality of smaller subregions or windows 12, wherein a second display area 11 is defined by a larger main screen or a larger main window 13.

In this case, a window 12 of the first display area 10 corresponds in each case to a measuring channel 14, so that there are as many windows 12 in the first display area 10 as measuring sockets 15 on the measuring device 1 according to the invention either on the front panel 4 or at another location of the measuring device 1 or Oscilloscopes 3 are provided. The measuring sockets 15 are arranged in the first embodiment of the measuring device 1 according to the invention shown in FIG. 1 below the first display area 10, wherein the assignment of the measuring channel 14 and the measuring socket 15 to a window 12 of the first display area 10 for the user is easily apparent.

In the windows 12 of the first display area 10, the time-varying electrical signal is visible as a "live image" 2 in the manner of a preview, as it is currently being recorded by a connected, but not shown here probe. These signals 2 shown in the smaller windows 12 can be switched to the second, larger display area 11, wherein, following the enlarged display of the signal 2 in the second display area 11, a status field 16 is displayed in the corresponding window 12 of the first display area 10. The status field 16, for example, displays waveform attributes such as the position of a marker, volts per unit, amps per unit, time / unit, or the intensity of the waveform. In both display areas 10, 11, the time-varying electrical signals 2 are displayed in real time.

In the first exemplary embodiment of the measuring device 1 according to the invention shown in FIG. 1, the screen 9 is a contact screen or a touchscreen, so that touching the second display area 11 in the immediate vicinity of the respective signal waveform shuts off the relevant signal 2 in the second display area 11 and on the corresponding window 12 of the first display area 10 switches or displays in the corresponding smaller window 12, wherein the relevant status field 16 is turned off and the now reduced signal 2 in the corresponding window 12 of the first display area 10 is still displayed in real time. The same function can also be achieved by touching the status field 16 in the first display area 10.

In general terms, it can thus be said that touching the different display areas 10, 11 on the touch screen triggers a toggle function which either displays the signal 2 in an enlarged view 24 or back in a reduced representation, the toggle function referring to the first display area 10 or a window 12 of the first display area 10 applied between a display of the status field 16 and a real-time display of the respective electrical signal 2 changes. If the toggle function is applied to a signal 2 displayed in the second display area 11, the real-time display of this enlarged electrical signal 2 is deactivated and the selected signal 2 is reduced again in the corresponding window 12 of the first display area 10 and displayed in real time.

2 merely shows the screen area of a second embodiment of the measuring device 1 according to the invention, wherein additional operating elements in the form of push buttons 17 are arranged below the first display area 10 and a function of a specific push button 17 relates to the window 12 of the first display area 10, which directly is arranged above this push button 17.

Pressing the selected push button 17 triggers a

Toggle function, wherein the toggle function of the selected push button 17, which is associated with a window 12 of the first display area 10, between a display of the status field 16 and a real-time display of the electrical signal 2 in the respective window 12 of the first display area 10 changes.

The toggle function of the screen 9, in particular the touch screen within the second display area 11, causes a signal 2 in its immediate vicinity to be inactivated thereby deactivating the real-time display of this signal so that this selected signal 2 disappears from the screen 9. FIG. 3 shows the screen area of a third exemplary embodiment of a measuring device 1 according to the invention, in which the operating elements 5 are supplemented by a conventional computer mouse 18. The computer mouse 18, which is connected to a mouse port of the measuring device 1, not shown, comprises a mouse function with a movable pointer 9 on the screen 19. Furthermore, it has on its side facing the user in the embodiment, three push buttons 20 or mouse buttons, which each with two functions - double-click or Einfachklick- are assignable.

If the mouse pointer 19, which can be moved via the screen 9, is located on the first display area 10 or the second display area 11, a toggle function can be triggered by a single actuation of the left-hand pressure switch 21, the toggle function between a display of the status field 16 and a real-time display of the respective electrical signal 2 changes when the mouse pointer 19 when actuated z. B. the left pressure switch 21 to the respective window 12 in the first display area 10 shows.

If the mouse pointer 19 is within the second

Display area 11, the toggle function z. B. the left push button 21 of the mouse function that the real-time display of the enlarged electrical signal 2 is deactivated when the mouse pointer 19 on actuation of the left push button 21 to the illustrated signal 2 and to its immediate vicinity shows.

In addition, it is possible that the remaining functionalities of the push buttons 20 of the mouse function of User defined to be occupied with application functions of the measuring device 1 according to the invention. For example, it is conceivable that a double-click of the middle or right-hand pressure switch 22, 23 stores the selected signal 2 or the marked signal section; or that a single click on the middle or right push button activates a trigger. For example, a depressed right or middle pressure switch 22, 23 of the computer mouse 18 may serve to mark a signal portion.

The invention is not limited to the exemplary embodiments illustrated in the drawing, in particular not to an oscilloscope 3. In particular, the invention is also applicable to gauges that represent time-varying electrical signals in the frequency domain, z. B. Real-time spectrum analyzers. If there are several second display areas, it makes sense that a selection can be made on which of the several second display areas the

Measuring signal of an existing window in the first display area to be displayed after its selection. This selection could be made via a keyboard. It is more advantageous, however, if the corresponding window is moved with a mouse or on a touchscreen with the user's finger in those display area in which it is to be displayed. In this way, an effective and simple assignment of the measurement signals to the different display areas is possible. All described above and in the

Drawing illustrated features can be combined with each other.

Claims

claims

1. A measuring device (1) for displaying a plurality of temporally variable electrical signals (2) with a screen (9) comprising a plurality of display areas (10, 11), wherein the first display area (10) has at least one window (12) a certain measuring channel (14) is assigned, wherein on this first display area (10), the time-varying electrical signal (2) is visible, as enlarged

Display (24) on the second display area (11) is switchable, and wherein for each on the second

Display area (11) magnified displayed signal

(2) a corresponding status field (16) in the first display area (10) is displayed.

2. Measuring device according to claim 1, characterized in that the time-varying electrical signals (2) in both display areas (10, 11) are shown in real time.

3. Measuring device according to claim 1 or 2, characterized in that the screen (9) is a contact screen.

4. Measuring device according to one of claims 1 to 3, characterized in that touching the different display areas (10, 11) triggers a toggle function.

5. Measuring device according to claim 4, characterized in that that the toggle function alternates between an indication of the status field (16) and an indication of the electrical signals (2).

6. Measuring device according to claim 4 or 5, characterized in that the toggle function deactivates a display of the enlarged electrical signal (2) and displays the signal (2) in the corresponding window (12) of the first display area (10).

7. Measuring device according to one of claims 1 to 6, characterized in that operating elements (17) are provided, which are arranged below the screen (9), wherein a functionality of the operating elements (17) on the window (12) of the first display area (10), which is arranged above the respective push button (17).

8. Measuring device according to claim 7, characterized in that an actuation of the selected operating element (17) triggers a toggle function.

9. Measuring device according to claim 8, characterized in that the toggle function of the selected pushbutton (17), which is associated with a window (12) of the first display area (10), between an indication of the status field (16) and a display of the electrical signals ( 2) changes.

10. Measuring device according to one of claims 1 to 9, characterized by a mouse (18) and a mouse function with a mouse pointer (19) displaceable on the screen (9).

11. Measuring device according to claim 10, characterized in that the mouse (18) has at least one pressure switch (20).

12. Measuring device according to claim 11, characterized in that a single actuation of the pressure switch (21) triggers a toggle function.

13. A meter according to claim 12, characterized in that the toggle function of the pressure switch (21) of the mouse (18) between a display of the status field (16) and a display of the respective electrical signal (2) changes when the mouse pointer (19) Actuation of the pressure switch (21) on the respective window (12) of the first display area (10) shows.

14. Measuring device according to one of the claim 11, characterized in that the toggle function of the pressure switch (21) of the mouse

(18) in the second display areas (11) deactivates a display of the enlarged electrical signal (2), when the mouse pointer (19) on actuation of the pressure switch (21) to a signal shown in the second display area (11) (2).

15. Measuring device according to one of claims 12 to 14, characterized that functionalities of the mouse-function push-button switches (20) can be assigned by a user to application functions of the measuring device (1).

16. Measuring device according to one of claims 1 to 15, characterized in that the measuring device (1) is an oscilloscope (3) or a spectrum analyzer or a network analyzer.