WO2015074300A1

WO2015074300A1 - Full-touch tablet oscilloscope

Info

Publication number: WO2015074300A1
Application number: PCT/CN2013/088838
Authority: WO
Inventors: 张兴杰; 宫玥枚
Original assignee: 深圳麦科信仪器有限公司
Priority date: 2013-11-19
Filing date: 2013-12-09
Publication date: 2015-05-28
Also published as: CN103616543A

Abstract

A full-touch tablet oscilloscope comprises a signal conditioning unit (1), a signal acquisition and processing unit (2), a CPU (3), a display unit (5), and a storage unit (7). The display unit (5) is connected to the CPU (3) and is used for displaying a graph, an image, a character interface, and an operation control interface. The storage unit (7) is connected to the CPU (3) and is used for storing a command, a graphic image, data, and a character. The signal acquisition and processing unit (2) is separately connected to the CPU (3) and the signal conditioning unit (1). The full-touch control tablet oscilloscope also comprises a touch unit (4). The touch unit (4) is connected to the CPU (3), and is used for delivering a command to the full-touch control tablet oscilloscope and adjusting a parameter and a value. The full-touch tablet oscilloscope is of a tablet shape. The full-touch tablet oscilloscope has the following positive effects: the full-touch tablet oscilloscope has a small size, saves space of a display screen, and is easy and convenient to operate.

Description

Full-touch flat panel oscilloscope

Technical field

The invention relates to the field of measuring instruments, in particular to a full-touch flat panel oscilloscope.

Background technique

At present, in the field of oscilloscopes, the main way of human-computer interaction still relies on buttons and knobs. For this kind of human-computer interaction, there are the following problems: the mechanical button and the knob panel occupy a large part of the front panel space of the oscilloscope, which occupies the space of the display screen and increases the volume of the oscilloscope; the mechanical buttons and knobs are easy to age or reach After the service life expires; with the increase of the oscilloscope function, a limited number of buttons and knobs cause inconvenience, and adding too many buttons and knobs causes the panel to be cumbersome and increases the difficulty of operation; the oscilloscope cannot be changed once it is finalized.

technical problem

The technical problem to be solved by the present invention is to provide a full-touch flat panel oscilloscope with a relatively small volume, a display screen space, and a simple operation for the above-mentioned defects of large volume, occupying display screen space and inconvenient operation. .

Technical solution

The technical solution adopted by the present invention to solve the technical problem is: constructing a full-touch flat panel oscilloscope, comprising a signal conditioning unit, a signal acquisition and processing unit, a CPU, a display unit and a storage unit; the display unit is connected to the CPU For displaying graphics, images, text interfaces, and operation control interfaces; the storage unit is connected to the CPU for storing commands, graphic images, data, and text; the signal acquisition and processing unit is respectively associated with the CPU and Signal conditioning unit connection; also includes:

The touch unit is connected to the CPU unit, and is configured to send a command, adjust parameters, and a value to the full-touch flat-panel oscilloscope;

The full touch panel oscilloscope is in the form of a flat plate.

In the full touch panel oscilloscope of the present invention, the method further includes:

The functional unit is connected to the CPU, and is configured to communicate with an external device, feed back the input signal, automatically adjust the screen display mode according to the environment, and dissipate the full-touch flat-panel oscilloscope.

In the full touch panel oscilloscope of the present invention, the functional unit includes:

A camera module is connected to the CPU for image capture.

In the full touch panel oscilloscope of the present invention, the functional unit further includes:

a wireless connection module, connected to the CPU, for communicating with an external device.

An audio processing module is coupled to the CPU for inputting and outputting audio.

The light sensing module is connected to the CPU, and is configured to adjust a screen display manner according to ambient light intensity, and the screen display manner includes display brightness and display color.

The vibration module is connected to the CPU for vibration response or reminding of the input.

The heat dissipation module is connected to the CPU for dissipating heat from the full touch panel oscilloscope.

In the full touch panel oscilloscope of the present invention, the signal conditioning unit includes a plurality of signal conditioning modules for adjusting the received signal to a suitable amplitude for transmission to the signal acquisition and processing unit.

In the full touch panel oscilloscope of the present invention, the signal acquisition and processing unit includes:

a plurality of analog-to-digital converters connected to the signal conditioning unit to convert the received analog signals into digital signals;

a logic circuit, coupled to the CPU, for controlling the analog to digital converter to sample, and processing the sampling result and transmitting to the CPU;

The data buffering module is connected to the logic circuit for storing and buffering data in the operation process of the logic circuit.

In the full touch panel oscilloscope of the present invention, the full touch panel oscilloscope further includes:

An input/output port connected to the CPU, the input/output port comprising a USB port, an RS232 port, a universal bus port, a network port, a GPIO port, a GPIB port, a VGA port, an HDMI port, or an audio port.

An internal power module is configured to convert and distribute electrical energy to each unit and module of the full-touch flat panel oscilloscope.

a battery connected to the internal power module;

A charging module is coupled to the battery for charging the battery.

In the full touch panel oscilloscope of the present invention, the touch unit comprises a touch screen; the touch screen comprises a resistive touch screen, a capacitive touch screen, an infrared touch screen, a surface acoustic wave touch screen or an ultra sensitive touch screen.

In the full touch panel oscilloscope of the present invention, the oscilloscope is in the form of a flat plate, and the display unit comprises a liquid crystal display or a plasma display, and the display has a size of ≥ 7 inches.

Beneficial effect

The full-touch flat-panel oscilloscope embodying the present invention has the following beneficial effects: since the touch unit, the CPU, and the display unit are used, the touch unit is connected to the CPU unit, and is used for issuing commands and adjusting parameters to the full-touch flat-panel oscilloscope. The display unit is connected to the CPU for displaying graphics, images, text interfaces, and operation control interfaces; the full-touch flat-panel oscilloscope is a flat plate, and its operation control basically does not require mechanical buttons and knobs, so its volume is small and saves. Display screen space and easy operation.

DRAWINGS

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below. Obviously, the drawings in the following description are only It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.

FIG. 1 is a schematic structural diagram of an embodiment of a full touch panel oscilloscope according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiments of the invention

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained without creative efforts are subject to the protection of the present invention based on the embodiments of the present invention.

In the embodiment of the full touch panel oscilloscope of the present invention, the structure diagram of the full touch panel oscilloscope is shown in FIG. 1 . In FIG. 1 , the full touch panel oscilloscope comprises a signal conditioning unit 1 and a signal acquisition and processing unit 2 . The CPU 3, the touch unit 4, the display unit 5 and the storage unit 7; wherein the display unit 5 is connected to the CPU 3 for displaying graphics, images, text interfaces and operation control interfaces; the storage unit 7 is connected to the CPU 3 for storing commands, Graphic image, data, and text; the signal acquisition and processing unit 2 is connected to the CPU 3 and the signal conditioning unit 1 respectively, and the touch unit 4 is connected to the CPU 3 for issuing commands, adjusting parameters and values to the full touch panel oscilloscope; It is to be noted that the full-touch flat-panel oscilloscope in this embodiment has a flat shape, and the operation control basically does not require mechanical buttons and knobs, so the volume is small, the display screen space is saved, and the operation is simple. In this embodiment, the touch unit 4 includes a touch screen, and the touch screen includes a resistive touch screen, a capacitive touch screen, an infrared touch screen, a surface acoustic wave touch screen or an ultra sensitive touch screen, and the display unit 5 includes a liquid crystal display or a plasma display.

In some cases in this embodiment, in order to enrich the function of the full-touch flat panel oscilloscope, the full-touch flat panel oscilloscope further includes a functional unit 8; the functional unit 8 is connected to the CPU 3 for communicating with an external device, and inputting a signal Feedback is provided to automatically adjust the screen display mode according to the environment to dissipate the full-touch flat panel oscilloscope.

In this embodiment, the touch unit 4 is used as the only means for issuing commands and adjusting parameters and values to the full touch panel oscilloscope. That is to say, the touch unit 4 is completely used to control the full-touch flat-panel oscilloscope, that is, the touch screen is used to perform human-computer interaction, thereby replacing the keys and knobs of the desktop oscilloscope. The touch unit 4 in this embodiment can also be used for channel control, channel setting, menu setting, menu operation, channel operation, waveform movement, gear position adjustment, time base adjustment, trigger adjustment, measurement, cursor adjustment, storage, recovery, Recording, playback, zooming, finder, display adjustment, and time adjustment, that is, these functions can be achieved by touch operation, eliminating the need for physical buttons and knobs, which reduce the size of the oscilloscope because it does not require physical buttons and knobs. This saves space on the display screen, and because it does not have too many buttons and knobs like a conventional oscilloscope, it is easier to operate.

In an embodiment, the function unit 8 includes a camera module 81, a wireless connection module 82, an audio processing module 83, a light sensing module 84, a vibration module 85, and a heat dissipation module 86; wherein the camera module 81 is connected to the CPU 3 for image capturing; The wireless connection module 82 is connected to the CPU 3 for communication with an external device; the audio processing module 83 is connected to the CPU 3 for inputting and outputting audio; and the light sensing module 84 is connected to the CPU 3 for adjusting the screen display mode according to the ambient light intensity. The screen display mode includes display brightness and display color; the vibration module 85 is connected to the CPU 3 for vibration response or reminding of the input; the heat dissipation module 86 is connected to the CPU 3 for heat dissipation of the full touch panel oscilloscope. It is to be noted that the functional unit 8 may also include only one or more or all of the camera module 81, the wireless connection module 82, the audio processing module 83, the light sensing module 84, the vibration module 85, and the heat dissipation module 86. Which modules are needed specifically, and can be selected according to actual needs.

Specifically, the wireless connection module 82 includes a wireless network connection module, an infrared module, or a Bluetooth module, and is configured to connect to an external control and display device for remotely viewing the display interface of the full-touch flat-panel oscilloscope, and controlling the full-touch tablet. Oscilloscope. The audio processing module 83 emits a sound when the CPU 3 receives a signal, that is, when the touch screen is touched, the CPU 3 controls the audio processing module 83 to emit a sound, which can be used for tactile feedback, that is, when the audio processing module 83 emits a sound, Indicates that the touch screen is touched. The light sensing module 84 adjusts the display brightness and color of the display unit 5 correspondingly when the brightness of the ambient light is sensed. The vibration module 85 generates vibration when the CPU 3 receives the external touch input signal. In this embodiment, when the touch screen is touched, the audio processing module 83 can be controlled to make a sound, or the vibration module 85 can be controlled to generate vibration, or at the same time The audio processing module 83 emits a sound and causes the vibration module 85 to generate a shock. The heat dissipation module 86 is used to dissipate heat from the full-touch flat-panel oscilloscope. In this embodiment, the heat dissipation module 86 is used to dissipate excess heat of the device to ensure smooth operation of the device.

It is worth mentioning that the camera module 81 has the same function as the computer camera. In the process of using the full-touch flat-panel oscilloscope, if there is a problem that the field personnel cannot solve, the remote help can be performed, and the camera module 81 is used for the video call. Photographing on site, recording on site, allowing remote personnel to understand the site and providing support. At the same time, the system turns on the audio processing module 83 to make a voice call. In this way, remote help is achieved.

In this embodiment, the signal conditioning unit 1 includes a plurality of signal conditioning modules for adjusting the signal input by the probe to a suitable amplitude for transmission to the signal acquisition and processing unit 2. In this embodiment, the signal conditioning unit 1 includes N signal conditioning modules, which are respectively referred to as a first signal conditioning module 11, ..., an Nth signal conditioning module 1N. The signal acquisition and processing unit 2 includes a plurality of analog to digital converters, a logic circuit 21 and a data buffering module 22; wherein a plurality of analog to digital converters are coupled to the signal conditioning unit 1 for converting the received analog signals into digital signals The logic circuit 21 is connected to the CPU 3 for controlling the analog-to-digital converter to perform sampling, and processing the sampling result and transmitting it to the CPU 3; the data buffering module 22 is connected to the logic circuit 21 for calculating the data in the logic circuit 21 Store and buffer. It should be noted that, in this embodiment, the number of analog-to-digital converters is also N, and the N analog-to-digital converters are respectively referred to as the first analog-to-digital converter 23, ..., the N-th analog-to-digital conversion. 2 (N+2), the first analog-to-digital converter 23, ..., the N-th analog-to-digital converter 2 (N+2) are respectively sequentially connected to the first signal conditioning module 11, ..., the Nth signal conditioning module 1N connection, the signal conditioning unit 1 adjusts the amplitude of the analog signal input by the probe, and the analog-to-digital converter converts the amplitude-adjusted signal into a digital signal. The analog signal (the analog signal in this embodiment is a square wave signal) enters the full-touch flat panel oscilloscope via the probe; the full-scale flat panel oscilloscope inner diameter signal conditioning unit 1 processes the analog signal into a signal of a suitable amplitude and then transmits the signal to the signal. An analog to digital converter in the acquisition and processing unit 2 converts the analog signal into a digital signal. In this embodiment, an external probe is required for use, and no more than N each time, and each probe is connected to a corresponding signal conditioning module, that is, the first probe, the ..., the Nth probe are respectively respectively first and the first The signal conditioning module 11, ..., the Nth signal conditioning module 1N are connected.

In this embodiment, the full-touch flat-panel oscilloscope further includes an internal power supply module 100, a battery 101, a charging module 102, and an external power supply. The internal power supply module 100 is configured to convert and distribute the power provided by the battery 101 or an external power supply to the full touch. Each unit and module of the flat panel oscilloscope. The battery 101 is connected to the internal power module 100; the charging module 102 is connected to the battery 101, and the external power source is used to supply power to the full touch panel oscilloscope or to charge the battery 101 through the charging module 102.

In other cases of the embodiment, the touch unit 4 can also be the main input mode of the full-touch flat-panel oscilloscope, and some mechanical buttons are additionally provided as the auxiliary input mode. For example, the full-touch flat-panel oscilloscope may further include a button, and the button is connected to the CPU 3. The button is a function button, and the number thereof is one or a few, which is used for the operation of the touch unit 4, and the button includes a physical button and a virtual button. button. The button includes a power button, which is used to turn on the screen, lock the screen, power on, standby, and power off. The above buttons may also include other function keys for function switching, selection, and return.

In short, depending on the specific situation, there may be no function keys, and these functions can be realized by the touch unit 4. Of course, you can also add a few buttons for convenient control. In some cases of this embodiment, in order to achieve the necessary display effect, the display size should not be less than 7 inches, that is, the size of the display is greater than or equal to 7 inches, that is, the size of the display is ≥ 7 inches.

In an embodiment, the full-touch flat-panel oscilloscope further includes an input/output port 6, and the input/output port 6 is connected to the CPU 3. The input/output port 6 includes a USB port, an RS232 port, a universal bus port, a network port, a GPIO port, and a GPIB port. VGA port, HDMI port or audio port.

In summary, in this embodiment, the touch unit 4 can be used as the main input mode of the full touch flat panel oscilloscope, and the mechanical button is used as the auxiliary input mode. Only the power button can be made into a mechanical button, and other function buttons are all realized by the touch unit 4. Compared with the conventional oscilloscope, the full-touch flat-panel oscilloscope in this embodiment has the following advantages: the display area can be effectively increased in the same volume; the touch screen is more durable than the mechanical buttons; the function can be added or removed as needed; Limited by the mold or product shape; remove the complicated operation panel, the operation is more intuitive, more convenient, easy to learn and use; the whole full touch flat oscilloscope is a flat plate, easy to clean; remove the operation panel, so that the instrument volume is reduced, Reduced weight and easy to carry; it is also easier to extend the capabilities of the oscilloscope.

The above is only the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., which are included in the spirit and scope of the present invention, should be included in the present invention. Within the scope of protection.

Industrial applicability

Sequence table free content

Claims

A full-touch flat panel oscilloscope, comprising a signal conditioning unit, a signal acquisition and processing unit, a CPU, a display unit and a storage unit; the display unit is connected to the CPU for displaying graphics, images, text interfaces and operations The control unit is connected to the CPU for storing commands, graphic images, data, and text; the signal acquisition and processing unit is respectively connected to the CPU and the signal conditioning unit; and the method further includes:

The full touch panel oscilloscope is in the form of a flat plate.

2. The full touch panel oscilloscope according to claim 1, further comprising:

3. The full touch panel oscilloscope according to claim 2, wherein the functional unit comprises:

A camera module is connected to the CPU for image capture.

The full touch panel oscilloscope according to claim 3, wherein the functional unit further comprises:

The full touch panel oscilloscope according to claim 4, wherein the functional unit further comprises:

The full touch panel oscilloscope according to claim 5, wherein the functional unit further comprises:

The full touch panel oscilloscope according to claim 6, wherein the functional unit further comprises:

The full touch panel oscilloscope according to claim 7, wherein the functional unit further comprises:

9. The full touch panel oscilloscope according to claim 1, wherein the signal conditioning unit comprises a plurality of signal conditioning modules for adjusting the received signal to a suitable amplitude for transmission to the signal acquisition. With the processing unit.

The full touch panel oscilloscope according to claim 1, wherein the signal acquisition and processing unit comprises:

The full touch panel oscilloscope according to claim 1, wherein the full touch panel oscilloscope further comprises:

The full touch panel oscilloscope according to claim 11, further comprising:

The full touch panel oscilloscope according to claim 12, further comprising:

a battery connected to the internal power module;

A charging module is coupled to the battery for charging the battery.

14. The full touch panel oscilloscope of claim 1 wherein:

The touch unit includes a touch screen;

The touch screen comprises a resistive touch screen, a capacitive touch screen, an infrared touch screen, a surface acoustic wave touch screen or an ultra sensitive touch screen.

15. The full touch panel oscilloscope of claim 1, wherein the display unit comprises a liquid crystal display or a plasma display, the display having a size of > 7 inches.