Simex MultiCon CMC-99/141 - User Manual

Guidelines for proper touch screen interaction and care.

Procedure for unpacking the device and checking for damages.

Instructions for physically assembling and mounting the device.

Guidance on connecting power supply and signal cables.

List and description of optional hardware modules that can be installed.

Explanation of the device's architecture and core concepts.

Definition and purpose of logical channels within the device.

Concept of grouping logical channels for display and visualization.

Details on the modular hardware design and available configurations.

Steps for powering on and starting the device.

Guidelines for proper touch screen interaction and care.

Description of the device's display and user interface elements.

Explanation of various dialog interfaces used for configuration.

Navigation structure for accessing different device menus.

Operations for managing files, including export/import via flash drive.

Accessing device info, license management, firmware updates, and remote access.

Main menu for configuring device inputs, outputs, and system settings.

Visual representation of the device's configuration menu hierarchy.

Configuration of user interface, display, and general device settings.

Configuration of logical channels for data processing and control.

Basic settings and modes for configuring logical channels.

Configuring channels to read data from physical input modules.

Configuring channels to display data from built-in output modules.

Configuring logical channels for Modbus communication.

Defining constant values for logical channels.

Configuring logical channels to perform mathematical operations.

Configuring logical channels for PID control loops.

Configuring logical channels for profile/timer sequences.

Configuring logical channels for cycle counting based on profiles.

Using data from other logical channels or modules as a source.

Practical examples of configuring logical channels.

Example of configuring channels for UI4 module inputs.

Example for TC4 modules using hardware input.

Example for RT4 modules using hardware input.

Example for R45 relay modules using hardware output monitor.

Example for Modbus communication with SLAVE devices.

Example for TC8 thermocouple modules using hardware input.

Example of using logical channels with math functions.

Example of configuring a controller for temperature control.

Example of creating a profile/timer sequence.

Example using FT4 module with hardware input and data from other channels.

Menu for configuring built-in device inputs.

General configuration parameters for built-in inputs.

Descriptions of different built-in input modules.

Specifics of the built-in binary digital input.

Configuration of built-in simulation demo inputs.

Overview of various built-in input modules.

Details on modules for measuring voltage and current.

Information on modules supporting mixed input types.

Details on modules for analogue flow measurement.

Details on modules for pulse flow measurement.

Details on modules for thermocouple measurements.

Details on modules for RTD measurements.

Information on advanced universal input modules.

Details on optoisolated digital input modules.

Details on optoisolated universal counter modules.

Details on optoisolated hourmeter modules.

Menu for configuring built-in device outputs.

General configuration parameters for built-in outputs.

Parameters for relay, sound signal, and virtual relay outputs.

Configuration for PWM mode of SSR relay outputs.

Configuration for passive current output modules.

Practical examples of configuring built-in outputs.

Example configuration for R45 relay modules.

Example configuration for IO modules with current output.

Menu for configuring external outputs via Modbus.

General settings for external outputs using Modbus.

Configuring external outputs to operate as relays.

Configuring external outputs to operate as linear (analog) outputs.

Practical examples of external output configurations.

Example of external output configuration using Modbus MASTER.

Menu for defining and configuring profiles and timers.

General settings for creating and managing profiles and timers.

Details on triggering modes for profiles and timers.

Details on triggering profiles and timers based on time.

Practical examples of profile/timer configurations.

Example of creating a profile timer with edge triggering.

Example of creating a profile timer triggered by time.

Menu for configuring PID controllers.

General settings for PID controllers, including autotuning.

Practical examples of controller configurations.

Example of configuring a controller for heater temperature control.

Example of controller configuration with SSR output for heater control.

Menu for organizing and displaying logical channels in groups.

General settings for configuring groups and their display.

Configuring logging options for groups.

Examples of visualizing groups of logical channels.

Example of displaying a single channel using a needle widget.

Example of displaying three channels with different sizes.

Configuration and usage of the SCADALite visualization feature.

Configuration and usage of the Modbus communication protocol.

Basic communication parameters for Modbus interface.

Configuration for the device operating as a Modbus SLAVE.

Loading and saving Modbus templates for SLAVE device configuration.

Configuring logical channels and registers for Modbus SLAVE communication.

Details on Modbus RTU protocol handling.

Mapping of Modbus registers to device parameters and measurements.

Configuration for the device operating as a Modbus MASTER.

Managing device templates for Modbus MASTER configuration.

Configuring logical channels for Modbus MASTER communication.

Detailed settings for Modbus registers in MASTER mode.

Configuring register blocks for multi-register Modbus queries.

Practical examples of Modbus protocol configuration.

Step-by-step guide for configuring Modbus input in MASTER mode.

Configuration steps for Modbus input in MASTER mode for ACM module.

Configuration of network settings and remote display capabilities.

Managing user access levels and passwords for device security.

Settings for configuring printouts from the device.

Configuration for sending e-mail notifications for alarms or events.

Technical specifications of power supply modules.

Technical data for voltage and current measurement modules.

Technical data for mixed universal input modules.

Technical data for isolated current input modules.

Technical data for flowmeter and pulse input modules.

Technical data for thermocouple sensor measurement modules.

Technical data for RTD measurement modules.

Technical data for optoisolated universal input modules.

Technical data for optoisolated digital input modules.

Technical data for optoisolated universal counter modules.

Technical data for optoisolated hourmeter modules.

Technical data for SSR relay driver modules.

Technical data for relay output modules.

Technical data for passive current output modules.

Technical data for communication modules (ACM, ETU, USB).

General and technical information about the external printer.

Overview of the printer's features and capabilities.

Technical specifications of the printer.

Explanation of the data format for obtained measurements.

How to access log files via HTTP protocol.

Accessing the device's web interface.

Overview of the WWW page menu options.

Accessing device documentation via the WWW page.

Logging and user management options accessible via WWW.

Guidelines for proper touch screen interaction and care.

Procedure for unpacking the device and checking for damages.

Instructions for physically assembling and mounting the device.

Guidance on connecting power supply and signal cables.

List and description of optional hardware modules that can be installed.

Explanation of the device's architecture and core concepts.

Definition and purpose of logical channels within the device.

Concept of grouping logical channels for display and visualization.

Details on the modular hardware design and available configurations.

Steps for powering on and starting the device.

Guidelines for proper touch screen interaction and care.

Description of the device's display and user interface elements.

Explanation of various dialog interfaces used for configuration.

Navigation structure for accessing different device menus.

Operations for managing files, including export/import via flash drive.

Accessing device info, license management, firmware updates, and remote access.

Main menu for configuring device inputs, outputs, and system settings.

Visual representation of the device's configuration menu hierarchy.

Configuration of user interface, display, and general device settings.

Configuration of logical channels for data processing and control.

Basic settings and modes for configuring logical channels.

Configuring channels to read data from physical input modules.

Configuring channels to display data from built-in output modules.

Configuring logical channels for Modbus communication.

Defining constant values for logical channels.

Configuring logical channels to perform mathematical operations.

Configuring logical channels for PID control loops.

Configuring logical channels for profile/timer sequences.

Configuring logical channels for cycle counting based on profiles.

Using data from other logical channels or modules as a source.

Practical examples of configuring logical channels.

Example of configuring channels for UI4 module inputs.

Example for TC4 modules using hardware input.

Example for RT4 modules using hardware input.

Example for R45 relay modules using hardware output monitor.

Example for Modbus communication with SLAVE devices.

Example for TC8 thermocouple modules using hardware input.

Example of using logical channels with math functions.

Example of configuring a controller for temperature control.

Example of creating a profile/timer sequence.

Example using FT4 module with hardware input and data from other channels.

Menu for configuring built-in device inputs.

General configuration parameters for built-in inputs.

Descriptions of different built-in input modules.

Specifics of the built-in binary digital input.

Configuration of built-in simulation demo inputs.

Overview of various built-in input modules.

Details on modules for measuring voltage and current.

Information on modules supporting mixed input types.

Details on modules for analogue flow measurement.

Details on modules for pulse flow measurement.

Details on modules for thermocouple measurements.

Details on modules for RTD measurements.

Information on advanced universal input modules.

Details on optoisolated digital input modules.

Details on optoisolated universal counter modules.

Details on optoisolated hourmeter modules.

Menu for configuring built-in device outputs.

General configuration parameters for built-in outputs.

Parameters for relay, sound signal, and virtual relay outputs.

Configuration for PWM mode of SSR relay outputs.

Configuration for passive current output modules.

Practical examples of configuring built-in outputs.

Example configuration for R45 relay modules.

Example configuration for IO modules with current output.

Menu for configuring external outputs via Modbus.

General settings for external outputs using Modbus.

Configuring external outputs to operate as relays.

Configuring external outputs to operate as linear (analog) outputs.

Practical examples of external output configurations.

Example of external output configuration using Modbus MASTER.

Menu for defining and configuring profiles and timers.

General settings for creating and managing profiles and timers.

Details on triggering modes for profiles and timers.

Details on triggering profiles and timers based on time.

Practical examples of profile/timer configurations.

Example of creating a profile timer with edge triggering.

Example of creating a profile timer triggered by time.

Menu for configuring PID controllers.

General settings for PID controllers, including autotuning.

Practical examples of controller configurations.

Example of configuring a controller for heater temperature control.

Example of controller configuration with SSR output for heater control.

Menu for organizing and displaying logical channels in groups.

General settings for configuring groups and their display.

Configuring logging options for groups.

Examples of visualizing groups of logical channels.

Example of displaying a single channel using a needle widget.

Example of displaying three channels with different sizes.

Configuration and usage of the SCADALite visualization feature.

Configuration and usage of the Modbus communication protocol.

Basic communication parameters for Modbus interface.

Configuration for the device operating as a Modbus SLAVE.

Loading and saving Modbus templates for SLAVE device configuration.

Configuring logical channels and registers for Modbus SLAVE communication.

Details on Modbus RTU protocol handling.

Mapping of Modbus registers to device parameters and measurements.

Configuration for the device operating as a Modbus MASTER.

Managing device templates for Modbus MASTER configuration.

Configuring logical channels for Modbus MASTER communication.

Detailed settings for Modbus registers in MASTER mode.

Configuring register blocks for multi-register Modbus queries.

Practical examples of Modbus protocol configuration.

Step-by-step guide for configuring Modbus input in MASTER mode.

Configuration steps for Modbus input in MASTER mode for ACM module.

Configuration of network settings and remote display capabilities.

Managing user access levels and passwords for device security.

Settings for configuring printouts from the device.

Configuration for sending e-mail notifications for alarms or events.

Technical specifications of power supply modules.

Technical data for voltage and current measurement modules.

Technical data for mixed universal input modules.

Technical data for isolated current input modules.

Technical data for flowmeter and pulse input modules.

Technical data for thermocouple sensor measurement modules.

Technical data for RTD measurement modules.

Technical data for optoisolated universal input modules.

Technical data for optoisolated digital input modules.

Technical data for optoisolated universal counter modules.

Technical data for optoisolated hourmeter modules.

Technical data for SSR relay driver modules.

Technical data for relay output modules.

Technical data for passive current output modules.

Technical data for communication modules (ACM, ETU, USB).

General and technical information about the external printer.

Overview of the printer's features and capabilities.

Technical specifications of the printer.

Explanation of the data format for obtained measurements.

How to access log files via HTTP protocol.

Accessing the device's web interface.

Overview of the WWW page menu options.

Accessing device documentation via the WWW page.

Logging and user management options accessible via WWW.