The FSS (Full Scope Simulator) system is a comprehensive project that integrates design management, simulation technology, computer science, and nuclear power engineering expertise. It serves as an integrated support platform for simulations, offering features such as online model modification and debugging, complete database management, simulation operation control, and I/O and network management capabilities. This system plays a vital role in training nuclear power plant operators, enhancing their skills and competence, and ensuring the safe and reliable operation of nuclear facilities. Additionally, it acts as a crucial tool for verifying improvements in power station design and changes to operational procedures.
**System Use (Full Range Nuclear Power Plant Simulator)**
- Effectively train operators in real-world scenarios
- Conduct operation permit tests to ensure compliance with safety standards
- Support periodic emergency drills as required by the National Nuclear Safety Administration
- Enable learning, verification, and validation of power plant I&C system designs and modifications (V&V platform), including: human-machine interface in the control room, process control functions, plant operations/emergency procedures, optimization of plant control, and transient analysis
**System Features (Non-Safety Grade DCS Simulator)**
- Combines human-machine interface and DCS functionality through stimulation and emulation, making it easy to maintain
- Quickly loads and stores ICs in under one minute
- Offers IC management tools that are compatible with original ICs even after DCS software upgrades
- Supports full playback functions, including operation replay on display units
- Provides fault simulation capabilities, replicating all faults supported by actual DCS systems
- Designed for 4×1000MW units at Hongyanhe Nuclear Power Plant No. 1–4
- Also supports 2×1000MW units at Ningde Nuclear Power Plant, Units 3 and 4
This advanced simulation system not only enhances operator performance but also contributes significantly to the continuous improvement and safety of nuclear power operations. Its flexibility, efficiency, and reliability make it an essential asset in modern nuclear power training and development.
HDMI 2.0 Cable
Maximum bandwidth in the HDMI 2.0 specification is 18Gbps. This bandwidth allows for support of 4K video resolutions at a higher refresh rates with more detailed color information than previous HDMI specifications. This configuration will also support advanced audio streams.
Refresh Rate
Higher refresh rates, up to 60Hz at a 4K resolution are supported within the HDMI 2.0 specification. This helps to reduce motion blur and lag and provides sufficient bandwidth for high dynamic range (HDR) and deep color content.
Chroma Subsampling
4:4:4 chroma subsampling per the HDMI 2.0 specification means that colors can be displayed uncompressed and in full resolution. Compliance with a 4:4:4 color spec is especially important when displaying content from computers and laptops.
Color Bit Depth
Color bit depth has increased to 12-bit deep color with 4,096 shades per channel outlined within the HDMI 2.0 specification. This allows for smoother gradients in displayed images than previous HDMI Specifications.
High Dynamic Range (HDR)
HDR expands the range of both contrast and color allowing images to achieve greater levels of detail in both bright and dark sections of the image. HDMI 2.0 was the first HDMI specification to support this feature.
Optimized Audio Performance
Support for advanced audio features such as DTS-HD, Dolby TrueHD & Dolby ATMOS allow for superior audio performance versus previous HDMI specifications.
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