Patent Description:
In the state of the art, measurement devices are known that have an autoset/autoscale function. Currently, the autoset/autoscale function only takes the input signal into account as it is. For instance, the input signal is an analog signal wherein the curve representing the analog input signal is output in an optimized manner while using the autoset/autoscale function of the dedicated measurement device.

For instance, <CIT> describes a autoscale topogoloy for oscilloscopes that determines the minimum and maximum values of an input signal for autoscaling purposes.

In <CIT>, an oscilloscope is described that is enabled to debug a bus signal so that decoded data can be displayed if the user of the oscilloscope wants to investigate the respective decoded data.

Further, the operator of the measurement device may select a Bus decode mode that is configured to decode the analog input signal in order to provide at least one event being decoded from the analog input signal. However, the enabled autoset/autoscale function still outputs the analog input signal in an optimized manner.

Accordingly, there is a need for an improved autoset/autoscale function, in particular with regard to signals being decoded.

The invention provides a method for performing a Bus autoset function, with the following steps:.

Further, the invention provides a measurement device comprising a display and a processing unit that is configured to perform a method as mentioned above such that the display is configured to display an output of the processing unit.

The invention is based on the finding that a context-sensitive autoset/autoscale function is provided such that the information being of interest is output in an optimized manner. Usually, an event decoded from the analog input signal is of interest for the operator of the measurement device. For instance, the event is established by a frame containing certain information. The output of this event is ensured by the converting and detecting steps. Hence, a whole frame can be output comprising the information being of interest. Accordingly, the measurement device is set up in an optimized manner easily, in particular the scaling, wherein the setting is done automatically without any manual input. The Bus autoset function is directed to at least one event being of interest within the analog input signal, for instance a frame within the analog input signal. Thus, a frame being decoded from the analog input signal is output. The decoded frame is detected and the scale is set such that the whole frame being decoded and detected is output in an optimized manner. Accordingly, no manual input is required to set the scaling in an appropriate manner for outputting the frame in a desired manner. This setting/adjustment is done automatically by the measurement device. The logic conversion can be done by aid of a clock signal. For instance, the data transmitted correspond to a first line whereas a second line is allocated to the clock signal used for the logic conversion. Furthermore, the Bus autoset function can be applied in real time such that the decoded event, namely the frame, is output in real time in an optimized manner. The output unit used may be part of the measurement device. Alternatively, the output unit can be established by a separate device being connected.

According to an aspect, the whole content of a frame is displayed on the display of the measurement device. This ensures that the information being of interest is displayed completely and in an optimized manner with regard to the size of the display. No additional manual input or setting is required to obtain this setup for the display. The frame may be a data frame such that the content of the data transmitted via the data frame are output. The output unit is established by the display.

According to another aspect, a trigger level is set. This trigger level can be set manually or automatically depending on the analog signal being input to the measurement device. The trigger level simplifies the conversion step as the trigger level may represent a limit. For instance, the trigger level ensures that only those portions of the analog signal are taken into account that reach or exceed the trigger level.

Particularly, the trigger level is set prior to the logic conversion. The converting and detecting steps are triggered as soon as a predetermined level is reached or has been exceeded.

Another aspect provides that an actuation of the autoset function is detected at the beginning. Accordingly, the method for performing a Bus autoset function is inter alia initiated once the autoset function has been actuated. Thus, a first condition is fulfilled for starting the Bus autoset function once the autoset function is actuated or initiated.

Particularly, the autoset function is initiated by the user initially. Thus, the user/operator manually starts the autoset function prior to the execution of the Bus autoset function. For instance, the user actuates a certain actuating element relating to the autoset function. The actuating element may be part of a touch-sensitive display of the measurement device. On this touch-sensitive display, a graphical user interface may be provided comprising several buttons, in particular a button related to the autoset function.

For instance, the autoset function is initiated by actuating a corresponding button of the measurement device. Hence, the user actuates a certain button in a mechanical manner wherein this button is allocated to the autoset function. The button may be a push button or any other suitable knob. Further, the button may be part of a graphical user interface displayed on the output unit, in particular the display.

Moreover, a measurement device mode set may be detected at the beginning. Thus, the measurement device also verifies if a certain measurement device mode has been set at the beginning before starting the Bus autoset function. Particularly, the measurement device mode selected has to be a certain Bus decode mode, for instance a I2C Bus decode mode.

Accordingly, a Bus decode mode may be initiated by the user initially. For performing the Bus autoset function, the user has to manually initiate the Bus decode mode such that the analog signal being input to the measurement device will be decoded by the measurement device in order to derive and decode an event within the analog signal, in particular a frame within the analog input signal.

In a similar manner, the Bus decode mode may be initiated by actuating a certain actuating element relating to the Bus decode mode. The actuating element may be part of a touch-sensitive display of the measurement device, for instance a button. Alternatively, the actuating element is a mechanical one to be actuated by the user in a mechanical manner.

For instance, the Bus decode mode is initiated by actuating a corresponding button of the measurement device. Hence, the operator of the measurement device actuates a certain button on the measurement device in a mechanical manner in order to initiate the Bus decode mode. The button may be a push button or any other suitable knob that can be rotated for selecting a certain Bus decode mode. Alternatively, the button is provided by a graphical user interface displayed on the output unit, in particular the display.

Particularly, it is verified at the beginning if the autoset function is enabled and the measurement device mode is set to a Bus decode mode. For starting the Bus autoset function, certain settings done by the user are verified initially by the measurement device. According to these settings to be present, the input signal shall be decoded (enabled Bus decode mode) and an autoset function, namely an automatically scaling, shall be applied (enabled autoset function). The Bus autoset function is initiated by actuating both functions, namely the autoset function and the activated Bus decode mode. Since the Bus autoset function is a context-sensitive autoset function, the content decoded from the analog input signal is output in an optimized manner with regard to the scaling.

Further, the analog signal may be decoded. The analog input signal is decoded in order to obtain the at least one frame being encompassed within the analog input signal wherein the frame represents a decoded event being of interest for the user/operator of the measurement device.

The output of the processing unit may be the decoded event that is output in an optimized manner, in particular displayed in an optimized manner. The display may display different contents simultaneously, for instance the analog signal, the decoded frames and/or the logically converted signal for information purposes wherein different display areas are provided. However, the Bus autoset function applied ensures that the different display areas are scaled with respect to the decoded frames.

According to a certain embodiment, the measurement device is an oscilloscope.

The invention will now be described with reference to a preferred embodiment that is shown in the enclosed drawings. In the drawings,.

In <FIG>, a measurement device <NUM> is shown that is formed by an oscilloscope in the shown embodiment.

The measurement device <NUM> has a display <NUM> that is configured to display data being received by a processing unit <NUM>. Accordingly, the display <NUM> represents an output unit. The processing unit <NUM> is connected with at least one input <NUM> being configured to receive an analog signal fed to the measurement device <NUM> for analyzing purposes.

In addition, the measurement device <NUM> comprises a first actuating element <NUM> relating to an autoset function and a second actuating element <NUM> used for setting a certain measurement device mode, in particular a certain Bus decode mode.

In the shown embodiment, the first actuating element <NUM> is established by a push button that can be activated by the user/operator of the measurement device <NUM> in a mechanical manner. The second actuating element <NUM> is established by a knob being configured to be rotated in order to select a certain measurement device mode to be activated. Alternatively, both actuating elements <NUM>, <NUM> may be provided by push buttons, knobs, buttons or any other suitable elements to be actuated by the user.

The settings done by the user/operator of the measurement device <NUM> with regard to the actuating elements <NUM>, <NUM> influence the processing unit <NUM>, in particular the operations done by the processing unit <NUM>. In general, the processing unit <NUM> is configured to perform a method for performing a Bus autoset function as will be described with respect to <FIG>.

At the beginning, the processing unit <NUM> verifies if a Bus autoset function is activated. This activation may be done by the user manually by actuating the autoset function and a certain Bus decode mode, for instance an I2C Bus decode mode. Accordingly, the Bus autoset function is activated by actuating both actuating elements <NUM>, <NUM> such that the autoset function is enabled and the second actuating element <NUM> is set such that a certain Bus decode mode is initiated. Particularly, the second actuating element <NUM> being a knob is rotated for selecting the appropriate Bus decode mode.

Alternatively, the user/operator may actuate two different buttons on the measurement device <NUM> wherein both buttons are allocated to the autoset function and the Bus decode mode. These buttons may be part of a graphical user interface displayed on the display <NUM>.

Then, the analog signal being fed to the input <NUM> is analyzed by the measurement device <NUM>, in particular the processing unit <NUM>, as the Bus decode mode is activated wherein a maximum amplitude of the analog input signal is detected.

Afterwards, an optional step may be performed according to which a trigger level is set and applied to the analog input signal in order to simplify the further processing as only those portions of the analog input signal are taken into account that reach or exceed the trigger level set.

Then, the analog input signal is converted into a logical signal, in particular the portions reaching or exceeding the trigger level. This logic conversion is done by aid of a clock signal, for instance.

Afterwards, a detecting step is performed on the logical signal such that frames within the converted analog input signal are detected automatically.

Accordingly, the steps of converting the analog input signal and detecting frames within the analog input signal relate to a decoding of the analog input signal since events being encompassed in the analog input signal are decoded, namely the frames.

Afterwards, the scale of the measurement device <NUM> is set automatically such that a frame being detected is displayed in an optimized manner, in particular the whole frame. Thus, the setting of the measurement device <NUM> with regard to the scaling is automatically done such that it is ensured that the whole frame, that is, the whole information/content of the frame, is displayed on the display <NUM> of the measurement device <NUM> in an optimized manner.

Accordingly, the decoded frame of the analog input signal is used as the parameter for performing the autoset/autoscale function ensuring that the frame being decoded is displayed in an optimized manner. Thus, the user/operator does not have to set the scaling manually. The Bus autoset function provides a context-sensitive autoset function as the context of the analog input signal is output in an optimized manner with regard to the scaling.

In <FIG>, a display <NUM> of a measurement device <NUM> according to another embodiment is shown wherein the display <NUM> is a touch-sensitive one.

The display <NUM> comprises different displaying areas <NUM> to <NUM> wherein the first display area <NUM> is used for displaying the analog input signal being fed to the input <NUM> of the measurement device <NUM>. The second display area <NUM> is configured to display the logical signal being provided by the processing unit <NUM> during the autoset function. The third display area <NUM> is configured to display the frame being detected/decoded from the analog input signal.

The fourth display area <NUM> is a setting display area as several buttons are display in a graphical user interface <NUM>. These buttons correspond to the actuating elements <NUM>, <NUM> shown in <FIG>. As the display <NUM> is a touch-sensitive display, the user/operator may touch the display <NUM>, in particular the fourth display area <NUM>, in order to actuate the actuating elements <NUM>, <NUM>, thus activating the autoset function and setting the Bus decode mode.

In <FIG>, the I2C Bus decode mode is activated and the autoset function is enabled. Accordingly, the data displayed in the display areas <NUM> to <NUM> are autoset/autoscaled with regard to the frame being decoded from the analog input signal fed to the input <NUM>.

Claim 1:
Method for performing a Bus autoset function, with the following steps:
a) Detecting a maximum amplitude of an analog signal,
b) Converting the analog signal into a logical signal,
c) Detecting a frame in the logical signal, and
d) Setting a scale of an output unit automatically without any manual input such that the whole frame is output, wherein the output unit is established by a display.