Panasonic HMWIN User Manual

Understand basic requirements and user assumptions for using HMWIN Studio.

Step-by-step guide for installing HMWIN Studio software and its components.

Configure fundamental settings for HMI devices, including runtime modes.

Explore options available in the HMI device's context menu for navigation and control.

Understand the layout and main areas of the HMWIN Studio workspace interface.

Step-by-step process for initiating a new HMWIN Studio project using the wizard.

Configure device communication drivers and settings within the Protocol Editor.

Overview of data types available for specifying tag properties in HMWIN Studio.

Learn how to link object properties to tags or variables for dynamic configuration.

Access and configure project-level user-configurable data via the Properties pane.

Utilize runtime debugging functions to enable and disable for project development.

Define tag simulation behavior using various methods in the Tag Editor's Simulator field.

Transfer projects and HMI Runtime to the target HMI device via Ethernet.

Create packages for installing or updating HMI Runtime and projects via USB.

Access system variables related to alarm status and management.

Retrieve device settings and operating status information through system variables.

Utilize the default protocol to create tags pointing to HMI system variables.

Execute actions to acknowledge or reset alarms within the HMI project.

Manage system properties and execute actions like restart or dump data.

Interact directly with tags for data transfer, bit manipulation, and value writing.

Control trend display and data scrolling using specific actions.

Understand the interface elements of the HMWIN Client application for remote access.

Configure FTP parameters, including default credentials and changing settings.

Steps to enable and start the VNC server on WinCE devices for remote control.

Configure alarms, including name, groups, enable status, acknowledgment, and trigger conditions.

Display and manage active alarms, including acknowledgment and filtering options.

Create, configure, and manage recipes for organizing tag values and application requirements.

Log and store tag values in HMI memory using trend buffers for historical analysis.

Display logged data graphically using trend widgets for real-time and historical data visualization.

Map transfer rules between tags for data exchange between devices and protocols.

Understand the system's process for recognizing and managing offline controllers.

Configure project languages, fonts, and add new languages using the dedicated editor.

Define schedules with lists of actions to be executed at specific intervals or times.

Set access permissions for widgets and actions at project, page, or widget level.

Manage user accounts, including default user settings, passwords, and logoff times.

Set up dedicated event buffers to record audit records for process tracking and user identification.

Configure reports with specific contents, trigger conditions, and output printers using the Reports editor.

Set up slide shows and associate actions for screen saver start and stop events.

Archive the HMI device content, including Runtime and project, to external memory for backup.

Create and customize keypads for data entry, associating them with specific fields.

Configure and map actions to specific keys on external keyboards connected via USB.

Verify tag usage, identify invalid references, and find unused tags within the project.

Configure indexed tag sets to select tag instances based on another tag's value.

Activate OPC UA Server operation and publish HMI data and real-time alarm data.

Embed web pages into HMI device pages using an HTML5 compatible browser widget.

Draw graphics using JavaScript scripting within a dedicated canvas widget.

Use as a selector or to filter table rows, with options for full-screen mode with images.

Monitor continuously increasing resources and calculate increments for trend-like display.

Represent and control process status using group or basic control lists.

Display images or video streams from IP cameras or video streams.

Create and compose custom widgets by grouping and converting existing widgets.

Define properties that will be displayed for custom widgets in the Properties pane.

Set up SMTP server details, user credentials, and encryption for sending emails.

Utilize a powerful editor for writing and managing JavaScript code within HMWIN Studio.

Handle events triggered by widget interactions like clicks, mouse movements, and data updates.

Manage events related to page activation, deactivation, and mouse wheel actions.

Access HMI elements like widgets and pages using JavaScript objects and their properties.

Define the project widget for retrieving project data such as tags, alarms, and recipes.

Perform file operations like creating, removing, reading, and writing files on the HMI device.

Use integrated debuggers for runtime and remote debugging of JavaScript code.

Configure system settings for WinCE devices, including runtime installation and updates.

Manage system components and settings for Linux-based HMI devices via web browser or tap-tap.

Access various system settings like Languages, System Info, Networks, and Services.

Identify compatible platforms and web browsers for accessing HMI projects remotely via HM4Web.

Transfer HM4Web projects to the HMI device after testing and verification.

Review supported HMWIN Studio features and limitations when used with HM4Web.

Activate HMI device licenses using an internet connection and an activation key.

Create a license file for later activation on the HMI device.

Update system components like Main OS or Runtime from HMWIN Studio via Ethernet.

Secure HMI devices by changing passwords for Runtime management and system access.

Techniques to improve run-time performance by merging images and optimizing widget rendering.

Guidelines for creating high-performing projects, focusing on widget placement and image optimization.

Overview of supported functions, their limits, and system performance specifications.

Details on the specific capabilities and limitations of different HMI device models.

Information on the compatibility policy for HMWIN Studio projects across different HMI devices.

Procedures and guidelines for converting projects between various HMI device models.