Gain and Phase Margin Plot

Gain and phase margins of linear system approximated from nonlinear Simulink model

Description

This block is same as the Check Gain and Phase Margins block except for different default parameter settings in the Bounds tab.

Compute a linear system from a nonlinear Simulink model and view the gain and phase margins on a Bode, Nichols or Nyquist plot. Alternatively, you can view the margins in a table. By default, the margins are computed using negative feedback for the closed-loop system.

During simulation, the software linearizes the portion of the model between specified linearization inputs and outputs, and plots the linear system on the specified plot type.

The Simulink model can be continuous- or discrete-time or multirate and can have time delays. Because you can specify only one linearization input/output pair in this block, the linear system is Single-Input Single-Output (SISO).

You can specify only one gain and phase margin bound each and view them on the selected plot or table. The block does not support multiple gain and phase margin bounds. You can also check that the bounds are satisfied during simulation:

• If all bounds are satisfied, the block does nothing.

• If a bound is not satisfied, the block asserts, and a warning message appears at the MATLAB® prompt. You can also specify that the block:

• Evaluate a MATLAB expression.

• Stop the simulation and bring that block into focus.

During simulation, the block can also output a logical assertion signal:

• If all bounds are satisfied, the signal is true (`1`).

• If a bound is not satisfied, the signal is false (`0`).

You can add multiple Gain and Phase Margin Plot blocks to compute and plot the gain and phase margins of various portions of the model.

You can save the linear system as a variable in the MATLAB workspace.

The block does not support code generation and can be used only in `Normal` simulation mode.

Parameters

The following table summarizes the Gain and Phase Margin Plot block parameters, accessible via the block parameter dialog box.

Configure linearization.Specify inputs and outputs (I/Os).In Linearizations tab:
Specify settings.In Linearizations tab:
Specify algorithm options.In Algorithm Options of Linearizations tab:
Specify labels for linear system I/Os and state names.In Labels of Linearizations tab:
Specify plot type for viewing gain and phase margins.
Plot the linear system.Show Plot
Specify the feedback sign for closed-loop gain and phase margins.

(Optional) Specify bounds on gain and phase margins of the linear system for assertion.

Include gain and phase margins in assertion in Bounds tab.

Specify assertion options (only when you specify bounds on the linear system).In Assertion tab:
Save linear system to MATLAB workspace.Save data to workspace in Logging tab.
Display plot window instead of block parameters dialog box on double-clicking the block.Show plot on block open.

Linearization inputs/outputs

Linearization inputs and outputs that define the portion of a nonlinear Simulink model to linearize.

If you have defined the linearization input and output in the Simulink model, the block automatically detects these points and displays them in the Linearization inputs/outputs area. Click at any time to update the Linearization inputs/outputs table with I/Os from the model. To add other analysis points:

1. Click .

The dialog box expands to display a Click a signal in the model to select it area and a new button.

2. Select one or more signals in the Simulink Editor.

The selected signals appear under Model signal in the Click a signal in the model to select it area.

3. (Optional) For buses, expand the bus signal to select individual elements.

 Tip   For large buses or other large lists of signals, you can enter search text for filtering element names in the Filter by name edit box. The name match is case-sensitive. Additionally, you can enter MATLAB regular expression. To modify the filtering options, click . To hide the filtering options, click .
4. Click to add the selected signals to the Linearization inputs/outputs table.

To remove a signal from the Linearization inputs/outputs table, select the signal and click .

 Tip   To find the location in the Simulink model corresponding to a signal in the Linearization inputs/outputs table, select the signal in the table and click .

The table displays the following information about the selected signal:

 Block : Port : Bus Element Name of the block associated with the input/output. The number adjacent to the block name is the port number where the selected bus signal is located. The last entry is the selected bus element name. Configuration Type of linearization point:`Open-loop Input` — Specifies a linearization input point after a loop opening.`Open-loop Output` — Specifies a linearization output point before a loop opening.`Loop Transfer` — Specifies an output point before a loop opening followed by an input.`Input Perturbation` — Specifies an additive input to a signal.`Output Measurement` — Takes measurement at a signal.`Loop Break` — Specifies a loop opening.`Sensitivity` — Specifies an additive input followed by an output measurement.`Complementary Sensitivity` — Specifies an output followed by an additive input.

 Note:   If you simulate the model without specifying an input or output, the software does not compute a linear system. Instead, you see a warning message at the MATLAB prompt.

No default

Command-Line Information

Use `getlinio` and `setlinio` to specify linearization inputs and outputs.

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Click a signal in the model to select it

Enables signal selection in the Simulink model. Appears only when you click .

When this option appears, you also see the following changes:

• A new button.

Use to add a selected signal as a linearization input or output in the Linearization inputs/outputs table. For more information, see Linearization inputs/outputs.

• changes to .

Use to collapse the Click a signal in the model to select it area.

No default

Command-Line Information

Use the `getlinio` and `setlinio` commands to select signals as linearization inputs and outputs.

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Enable regular expression

Enable the use of MATLAB regular expressions for filtering signal names. For example, entering `t\$` in the Filter by name edit box displays all signals whose names end with a lowercase `t` (and their immediate parents). For details, see Regular Expressions.

Settings

Default: On

On

Allow use of MATLAB regular expressions for filtering signal names.

Off

Disable use of MATLAB regular expressions for filtering signal names. Filtering treats the text you enter in the Filter by name edit box as a literal character vector.

Dependencies

Selecting the Options button on the right-hand side of the Filter by name edit box ( ) enables this parameter.

Show filtered results as a flat list

Uses a flat list format to display the list of filtered signals, based on the search text in the Filter by name edit box. The flat list format uses dot notation to reflect the hierarchy of bus signals. The following is an example of a flat list format for a filtered set of nested bus signals.

Settings

Default: Off

On

Display the filtered list of signals using a flat list format, indicating bus hierarchies with dot notation instead of using a tree format.

Off

Display filtered bus hierarchies using a tree format.

Dependencies

Selecting the Options button on the right-hand side of the Filter by name edit box ( ) enables this parameter.

Linearize on

When to compute the linear system during simulation.

Settings

Default: ```Simulation snapshots```

`Simulation snapshots`

Specific simulation time, specified in Snapshot times.

Use when you:

• Know one or more times when the model is at steady-state operating point

• Want to compute the linear systems at specific times

`External trigger`

Trigger-based simulation event. Specify the trigger type in Trigger type.

Use when a signal generated during simulation indicates steady-state operating point.

Selecting this option adds a trigger port to the block. Use this port to connect the block to the trigger signal.

For example, for an aircraft model, you might want to compute the linear system whenever the fuel mass is a fraction of the maximum fuel mass. In this case, model this condition as an external trigger.

Dependencies

• Setting this parameter to ```Simulation snapshots``` enables Snapshot times.

• Setting this parameter to `External trigger` enables Trigger type.

Command-Line Information

 Parameter: `LinearizeAt` Type: character vector Value: `'SnapshotTimes'` | `'ExternalTrigger'` Default: `'SnapshotTimes'`

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Snapshot times

One or more simulation times. The linear system is computed at these times.

Settings

Default: 0

• For a different simulation time, enter the time. Use when you:

• Want to plot the linear system at a specific time

• Know the approximate time when the model reaches steady-state operating point

• For multiple simulation times, enter a vector. Use when you want to compute and plot linear systems at multiple times.

Snapshot times must be less than or equal to the simulation time specified in the Simulink model.

Dependencies

Selecting `Simulation snapshots` in Linearize on enables this parameter.

Command-Line Information

 Parameter: `SnapshotTimes` Type: character vector Value: `0` | ```positive real number``` | `vector of positive real numbers` Default: `0`

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Trigger type

Trigger type of an external trigger for computing linear system.

Settings

Default: ```Rising edge```

`Rising edge`

Rising edge of the external trigger signal.

`Falling edge`

Falling edge of the external trigger signal.

Dependencies

Selecting `External trigger` in Linearize on enables this parameter.

Command-Line Information

 Parameter: `TriggerType` Type: character vector Value: `'rising'` | `'falling'` Default: `'rising'`

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Enable zero-crossing detection

Enable zero-crossing detection to ensure that the software computes the linear system characteristics at the following simulation times:

• The exact snapshot times, specified in Snapshot times.

As shown in the following figure, when zero-crossing detection is enabled, the variable-step Simulink solver simulates the model at the snapshot time `Tsnap`. `Tsnap` may lie between the simulation time steps `Tn-1` and `Tn` which are automatically chosen by the solver.

• The exact times when an external trigger is detected, specified in Trigger type.

As shown in the following figure, when zero-crossing detection is enabled, the variable-step Simulink solver simulates the model at the time, `Ttrig`, when the trigger signal is detected. `Ttrig` may lie between the simulation time steps `Tn-1` and `Tn` which are automatically chosen by the solver.

Settings

Default: On

On

Compute linear system characteristics at the exact snapshot time or exact time when a trigger signal is detected.

This setting is ignored if the Simulink solver is fixed step.

Off

Compute linear system characteristics at the simulation time steps that the variable-step solver chooses. The software may not compute the linear system at the exact snapshot time or exact time when a trigger signal is detected.

Command-Line Information

 Parameter: `ZeroCross` Type: character vector Value: `'on'` | `'off'` Default: `'on'`

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Use exact delays

How to represent time delays in your linear model.

Use this option if you have blocks in your model that have time delays.

Settings

Default: Off

On

Return a linear model with exact delay representations.

Off

Return a linear model with Padé approximations of delays, as specified in your Transport Delay and Variable Transport Delay blocks.

Command-Line Information

 Parameter: `UseExactDelayModel` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

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Linear system sample time

Sample time of the linear system computed during simulation.

Use this parameter to:

• Compute a discrete-time system with a specific sample time from a continuous-time system

• Resample a discrete-time system with a different sample time

• Compute a continuous-time system from a discrete-time system

When computing discrete-time systems from continuous-time systems and vice-versa, the software uses the conversion method specified in Sample time rate conversion method.

Settings

Default: `auto`

`auto`. Computes the sample time as:
• 0, for continuous-time models.

• For models that have blocks with different sample times (multi-rate models), least common multiple of the sample times. For example, if you have a mix of continuous-time and discrete-time blocks with sample times of 0, 0.2 and 0.3, the sample time of the linear model is 0.6.

`Positive finite value`. Use to compute:
• A discrete-time linear system from a continuous-time system.

• A discrete-time linear system from another discrete-time system with a different sample time

`0`

Use to compute a continuous-time linear system from a discrete-time model.

Command-Line Information

 Parameter: `SampleTime` Type: character vector Value: `auto` | ```Positive finite value``` | `0` Default: `auto`

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Sample time rate conversion method

Method for converting the sample time of single- or multi-rate models.

This parameter is used only when the value of Linear system sample time is not `auto`.

Settings

Default: ```Zero-Order Hold```

`Zero-Order Hold`

Zero-order hold, where the control inputs are assumed piecewise constant over the sampling time `Ts`. For more information, see Zero-Order Hold in Control System Toolbox™ User's Guide.

This method usually performs better in time domain.

`Tustin (bilinear)`

Bilinear (Tustin) approximation without frequency prewarping. The software rounds off fractional time delays to the nearest multiple of the sampling time. For more information, see Tustin Approximation in Control System Toolbox User's Guide.

This method usually perform better in the frequency domain.

`Tustin with Prewarping`

Bilinear (Tustin) approximation with frequency prewarping. Also specify the prewarp frequency in Prewarp frequency (rad/s). For more information, see Tustin Approximation in Control System Toolbox User's Guide.

This method usually perform better in the frequency domain. Use this method to ensure matching at frequency region of interest.

```Upsampling when possible, Zero-Order Hold otherwise```

Upsample a discrete-time system when possible and use ```Zero-Order Hold``` otherwise.

You can upsample only when you convert discrete-time system to a new sample time that is an integer-value-times faster than the sampling time of the original system.

```Upsampling when possible, Tustin otherwise```

Upsample a discrete-time system when possible and use ```Tustin (bilinear)``` otherwise.

You can upsample only when you convert discrete-time system to a new sample time that is an integer-value-times faster than the sampling time of the original system.

```Upsampling when possible, Tustin with Prewarping otherwise```

Upsample a discrete-time system when possible and use ```Tustin with Prewarping``` otherwise. Also, specify the prewarp frequency in Prewarp frequency (rad/s).

You can upsample only when you convert discrete-time system to a new sample time that is an integer-value-times faster than the sampling time of the original system.

Dependencies

Selecting either:

• `Tustin with Prewarping`

• ```Upsampling when possible, Tustin with Prewarping otherwise```

Command-Line Information

 Parameter: `RateConversionMethod` Type: character vector Value: `'zoh'` | `'tustin'` | `'prewarp'`| `'upsampling_zoh'`| `'upsampling_tustin'`| `'upsampling_prewarp'` Default: `'zoh'`

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Prewarp frequency for Tustin method, specified in radians/second.

Settings

Default: 10

Positive scalar value, smaller than the Nyquist frequency before and after resampling. A value of 0 corresponds to the standard Tustin method without frequency prewarping.

Dependencies

Selecting either

• `Tustin with Prewarping`

• ```Upsampling when possible, Tustin with Prewarping otherwise```

in Sample time rate conversion method enables this parameter.

Command-Line Information

 Parameter: `PreWarpFreq` Type: character vector Value: `10` | ```positive scalar value``` Default: `10`

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Use full block names

How the state, input and output names appear in the linear system computed during simulation.

The linear system is a state-space object and system states and input/output names appear in following state-space object properties:

Input, Output or State NameAppears in Which State-Space Object Property
Linearization input name`InputName`
Linearization output name`OutputName`
State names`StateName`

Settings

Default: Off

On

Show state and input/output names with their path through the model hierarchy. For example, in the `chemical reactor model`, a state in the `Integrator1` block of the `CSTR` subsystem appears with full path as `scdcstr/CSTR/Integrator1`.

Off

Show only state and input/output names. Use this option when the signal name is unique and you know where the signal is location in your Simulink model. For example, a state in the `Integrator1` block of the `CSTR` subsystem appears as `Integrator1`.

Command-Line Information

 Parameter: `UseFullBlockNameLabels` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

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Use bus signal names

How to label signals associated with linearization inputs and outputs on buses, in the linear system computed during simulation (applies only when you select an entire bus as an I/O point).

Selecting an entire bus signal is not recommended. Instead, select individual bus elements.

You cannot use this parameter when your model has mux/bus mixtures.

Settings

Default: Off

On

Use the signal names of the individual bus elements.

Bus signal names appear when the input and output are at the output of the following blocks:

• Root-level inport block containing a bus object

• Bus creator block

• Subsystem block whose source traces back to one of the following blocks:

• Output of a bus creator block

• Root-level inport block by passing through only virtual or nonvirtual subsystem boundaries

Off

Use the bus signal channel number.

Command-Line Information

 Parameter: `UseBusSignalLabels` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

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Include gain and phase margins in assertion

Check that the gain and phase margins are greater than the values specified in Gain margin (dB) > and Phase margin (deg) >, during simulation. The software displays a warning if the gain or phase margin is less than or equals the specified value.

By default, negative feedback, specified in Feedback sign, is used to compute the margins.

This parameter is used for assertion only if Enable assertion in the Assertion tab is selected.

You can view the gain and phase margin bound on one of the following plot types:

• Bode

• Nichols

• Nyquist

• Table

If you clear Enable assertion, the bounds are not used for assertion but continue to appear on the plot.

Settings

Default:

• Off for Gain and Phase Margin Plot block.

• On for Check Gain and Phase Margins block.

On

Check that the gain and phase margins satisfy the specified values, during simulation.

Off

Do not check that the gain and phase margins satisfy the specified values, during simulation.

Tips

• Clearing this parameter disables the gain and phase margin bounds and the software stops checking that the gain and phase margins satisfy the bounds during simulation. The gain and phase margin bounds are also disabled on the plot.

• To only view the gain and phase margin on the plot, clear Enable assertion.

Command-Line Information

 Parameter: `EnableMargins` Type: character vector Value: `'on'` | `'off'` Default: `'off'` for Gain and Phase Margin Plot block, `'on'` for Check Gain and Phase Margins block

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Gain margin (dB) >

Gain margin, specified in decibels.

By default, negative feedback, specified in Feedback sign, is used to compute the gain margin.

You can specify only one gain margin bound on the linear system in this block.

Settings

Default:

 `[]` for Gain and Phase Margin Plot block. `20` for Check Gain and Phase Margins block.

Positive finite number.

Tips

• To assert that the gain margin is satisfied, select both Include gain and phase margins in assertion and Enable assertion.

• To modify the gain margin from the plot window, right-click the plot, and select Bounds > Edit Bound. Specify the new gain margin in Gain margin >. You must click Update Block before simulating the model.

Command-Line Information

 Parameter: `GainMargin` Type: character vector Value: `[]` | `20` | ```positive finite number```. Must be specified inside single quotes (`''`). Default: `'[]'` for Gain and Phase Margin Plot block, `'20'` for Check Gain and Phase Margins block.

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Phase margin (deg) >

Phase margin, specified in degrees.

By default, negative feedback, specified in Feedback sign, is used to compute the phase margin.

You can specify only one phase margin bound on the linear system in this block.

Settings

Default:

 `[]` for Gain and Phase Margin Plot block. `30` for Check Gain and Phase Margins block.

Positive finite number.

Tips

• To assert that the phase margin is satisfied, select both Include gain and phase margins in assertion and Enable assertion.

• To modify the phase margin from the plot window, right-click the plot, and select Bounds > Edit Bound. Specify the new phase margin in Phase margin >. You must click Update Block before simulating the model.

Command-Line Information

 Parameter: `PhaseMargin` Type: character vector Value: `[]` | `30` | ```positive finite number```. Must be specified inside single quotes (`''`). Default: `'[]'` for Gain and Phase Margin Plot block, `'30'` for Check Gain and Phase Margins block.

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Feedback sign

Feedback sign to determine the gain and phase margins of the linear system, computed during simulation.

To determine the feedback sign, check if the path defined by the linearization inputs and outputs include the feedback Sum block:

• If the path includes the Sum block, specify positive feedback.

• If the path does not include the Sum block, specify the same feedback sign as the Sum block.

For example, in the aircraft model, the Check Gain and Phase Margins block includes the negative sign in the summation block. Therefore, the Feedback sign is positive.

Settings

Default: ```negative feedback```

`negative feedback`

Use when the path defined by the linearization inputs/outputs does not include the Sum block and the Sum block feedback sign is `-`.

`positive feedback`

Use when:

• The path defined by the linearization inputs/outputs includes the Sum block.

• The path defined by the linearization inputs/outputs does not include the Sum block and the Sum block feedback sign is `+`.

Command-Line Information

 Parameter: `FeedbackSign` Type: character vector Value: `'-1'` | `'+1'` Default: `'-1'`

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Save data to workspace

Save one or more linear systems to perform further linear analysis or control design.

The saved data is in a structure whose fields include:

• `time` — Simulation times at which the linear systems are computed.

• `values` — State-space model representing the linear system. If the linear system is computed at multiple simulation times, `values` is an array of state-space models.

• `operatingPoints` — Operating points corresponding to each linear system in `values`. This field exists only if Save operating points for each linearization is checked.

The location of the saved data structure depends upon the configuration of the Simulink model:

• If the Simulink model is not configured to save simulation output as a single object, the data structure is a variable in the MATLAB workspace.

• If the Simulink model is configured to save simulation output as a single object, the data structure is a field in the `Simulink.SimulationOutput` object that contains the logged simulation data.

To configure your model to save simulation output in a single object, in the Simulink editor, select Simulation > Model Configuration Parameters. In the Configuration Parameters dialog box, in the Data Import/Export pane, check Single simulation output.

For more information about data logging in Simulink, see Export Simulation Data and the `Simulink.SimulationOutput` reference page.

Settings

Default: Off

On

Save the computed linear system.

Off

Do not save the computed linear system.

Dependencies

This parameter enables Variable name.

Command-Line Information

 Parameter: `SaveToWorkspace` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

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Variable name

Name of the data structure that stores one or more linear systems computed during simulation.

The location of the saved data structure depends upon the configuration of the Simulink model:

• If the Simulink model is not configured to save simulation output as a single object, the data structure is a variable in the MATLAB workspace.

• If the Simulink model is configured to save simulation output as a single object, the data structure is a field in the `Simulink.SimulationOutput` object that contains the logged simulation data. The

The name must be unique among the variable names used in all data logging model blocks, such as Linear Analysis Plot blocks, Model Verification blocks, Scope blocks, To Workspace blocks, and simulation return variables such as time, states, and outputs.

For more information about data logging in Simulink, see Export Simulation Data and the `Simulink.SimulationOutput` reference page.

Settings

Default: sys

Character vector.

Dependencies

Save data to workspace enables this parameter.

Command-Line Information

 Parameter: `SaveName` Type: character vector Value: `sys` | ```any character vector```. Must be specified inside single quotes (`''`). Default: `'sys'`

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Save operating points for each linearization

When saving linear systems to the workspace for further analysis or control design, also save the operating point corresponding to each linearization. Using this option adds a field named `operatingPoints` to the data structure that stores the saved linear systems.

Settings

Default: Off

On

Save the operating points.

Off

Do not save the operating points.

Dependencies

Save data to workspace enables this parameter.

Command-Line Information

 Parameter: `SaveOperatingPoint` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

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Enable assertion

Enable the block to check that bounds specified and included for assertion in the Bounds tab are satisfied during simulation. Assertion fails if a bound is not satisfied. A warning, reporting the assertion failure, appears at the MATLAB prompt.

If assertion fails, you can optionally specify that the block:

For the `Linear Analysis Plots` blocks, this parameter has no effect because no bounds are included by default. If you want to use the `Linear Analysis Plots` blocks for assertion, specify and include bounds in the Bounds tab.

Clearing this parameter disables assertion, i.e., the block no longer checks that specified bounds are satisfied. The block icon also updates to indicate that assertion is disabled.

In the Configuration Parameters dialog box of the Simulink model, the Model Verification block enabling option on the All Parameters tab lets you to enable or disable all model verification blocks in a model, regardless of the setting of this option in the block.

Settings

Default: On

On

Check that bounds included for assertion in the Bounds tab are satisfied during simulation. A warning, reporting assertion failure, is displayed at the MATLAB prompt if bounds are violated.

Off

Do not check that bounds included for assertion are satisfied during simulation.

Dependencies

This parameter enables:

• Simulation callback when assertion fails (optional)

• Stop simulation when assertion fails

Command-Line Information

 Parameter: `enabled` Type: character vector Value: `'on'` | `'off'` Default: `'on'`

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Simulation callback when assertion fails (optional)

MATLAB expression to execute when assertion fails.

Because the expression is evaluated in the MATLAB workspace, define all variables used in the expression in that workspace.

Settings

No Default

A MATLAB expression.

Dependencies

Enable assertion enables this parameter.

Command-Line Information

 Parameter: `callback` Type: character vector Value: `''` | ```MATLAB expression``` Default: `''`

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Stop simulation when assertion fails

Stop the simulation when a bound specified in the Bounds tab is violated during simulation, i.e., assertion fails.

If you run the simulation from the Simulink Editor, the Simulation Diagnostics window opens to display an error message. Also, the block where the bound violation occurs is highlighted in the model.

Settings

Default: Off

On

Stop simulation if a bound specified in the Bounds tab is violated.

Off

Continue simulation if a bound is violated with a warning message at the MATLAB prompt.

Tips

• Because selecting this option stops the simulation as soon as the assertion fails, assertion failures that might occur later during the simulation are not reported. If you want all assertion failures to be reported, do not select this option.

Dependencies

Enable assertion enables this parameter.

Command-Line Information

 Parameter: `stopWhenAssertionFail` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

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Output assertion signal

Output a Boolean signal that, at each time step, is:

• True (`1`) if assertion succeeds, i.e., all bounds are satisfied

• False (`1`) if assertion fails, i.e., a bound is violated.

The output signal data type is Boolean only if the Implement logic signals as Boolean data option on the All Parameters tab of the Configuration Parameters dialog box of the Simulink model is selected. Otherwise, the data type of the output signal is double.

Selecting this parameter adds an output port to the block that you can connect to any block in the model.

Settings

Default:Off

On

Output a Boolean signal to indicate assertion status. Adds a port to the block.

Off

Do not output a Boolean signal to indicate assertion status.

Command-Line Information

 Parameter: `export` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

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Plot type

Plot to view gain and phase margins of the linear system computed during simulation.

Settings

Default: `Bode`

`Bode`

Bode plot.

`Nichols`

Nichols plot

`Nyquist`

Nyquist plot

`Tabular`

Table.

Right-click the Bode , Nichols or Nyquist plot and select Characteristics > Minimum Stability Margins to view gain and phase margins. The table displays the computed margins automatically.

Command-Line Information

 Parameter: `PlotType` Type: character vector Value: `'bode'` | `'nichols'` | `'nyquist'` | `'table'` Default: `'bode'`

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Show plot on block open

Open the plot window instead of the Block Parameters dialog box when you double-click the block in the Simulink model.

Use this parameter if you prefer to open and perform tasks, such as adding or modifying bounds, in the plot window instead of the Block Parameters dialog box. If you want to access the block parameters from the plot window, select Edit or click .

Settings

Default: Off

On

Open the plot window when you double-click the block.

Off

Open the Block Parameters dialog box when double-clicking the block.

Command-Line Information

 Parameter: `LaunchViewOnOpen` Type: character vector Value: `'on'` | `'off'` Default: `'off'`

Plot Linear Characteristics of Simulink Models During Simulation

Model Verification at Default Simulation Snapshot Time

Show Plot

Open the plot window.

Use the plot to view:

• System characteristics and signals computed during simulation

You must click this button before you simulate the model to view the system characteristics or signal.

You can display additional characteristics, such as the peak response time, by right-clicking the plot and selecting Characteristics.

• Bounds

You can specify bounds in the Bounds tab of the Block Parameters dialog box or right-click the plot and select Bounds > New Bound. For more information on the types of bounds you can specify, see the individual reference pages.

You can modify bounds by dragging the bound segment or by right-clicking the plot and selecting Bounds > Edit Bound. Before you simulate the model, click Update Block to update the bound value in the block parameters.

Typical tasks that you perform in the plot window include:

• Opening the Block Parameters dialog box by clicking or selecting Edit.

• Finding the block that the plot window corresponds to by clicking or selecting View > Highlight Simulink Block. This action makes the model window active and highlights the block.

• Simulating the model by clicking or selecting Simulation > Start. This action also linearizes the portion of the model between the specified linearization input and output.

• Adding legend on the linear system characteristic plot by clicking .

 Note:   To optimize the model response to meet design requirements specified in the Bounds tab, open the Response Optimization tool by selecting Tools > Response Optimization in the plot window. This option is only available if you have Simulink Design Optimization™ software installed.

Response Optimization

Open the Response Optimization tool to optimize the model response to meet design requirements specified in the Bounds tab.

This button is available only if you have Simulink Design Optimization software installed.