Cscape 9.90 is a comprehensive software suite developed by Horner Automation for programming its OCS (Operator Control Station) and PLC product lines. Its primary innovation is the seamless integration of logic control and operator interface design within a single environment. Built upon the IEC‑61131 standard, Cscape 9.90 eliminates the traditional separation between control logic and visualization tools, allowing users to program both aspects of a machine from one unified project. This approach not only speeds up development but also reduces errors, as a single set of I/O references is used for both the logic and the HMI.
Buttons, indicators, and text displays can be directly linked to ladder logic variables. C. Advanced Networking and IoT Capabilities
Cscape 9.90 focuses heavily on modernizing connectivity. Key advancements include:
(e.g., PLC, software, machinery) What is the manufacturer? cscape 990
The integrated operator interface development engine within Cscape 9.90 allows users to create high-resolution visualization screens right alongside their control code.
Developers do not need separate graphic suites to build control panel screens. Cscape 9.90 links graphical primitives and dynamic system metrics automatically:
The 990 has a microSD slot. In Cscape:
– A landmark release that added online programming and line‑by‑line debugging capabilities for the IEC language environment. To take full advantage of SP4, users needed to update their controller firmware to version 15.50 or later.
Developers can choose between two main programming approaches: Cscape Software - Horner Automation
: Eliminates the step of exporting and importing tag variables between the PLC and HMI. Cscape 9
The 990’s touchscreen is programmed within the same Cscape environment. No separate HMI software is needed.
: Includes a powerful, drag-and-drop ladder editor based on the IEC-61131 standard . It supports nearly 100 functions, including advanced math, floating-point operations, and string handling.
: High-density process tracking is supported via dynamic XY scatter plots and historical trend graphs capable of plotting up to 16 independent pens concurrently. This approach not only speeds up development but