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PV SpectralS - ProfEC Ventus Spectrum Services: C-C-C.online

Discover the Power of Campbell Code Creator C-C-C.onboard: Introducing the Campbell Code Creator C-C-C, a revolutionary user interface designed to simplify the configuration of Campbell Scientific’s CR1000X data logger like never before. With C-C-C.onboard, Users can effortlessly configure their CR1000X and CR350 without the need for any programming skills.

The C-C-C interface, both, onboard and online, is specifically crafted to democratize access to the CR1000X and CR350, making it accessible and practical for a wider range of users who may not have programming expertise as code creators. This groundbreaking tool sets the CR1000X apart in the global industry of solar and wind data loggers. Multichannel data loggers like CR1000X and CR350 with low power consumption are crucial in various sectors and industries where field measurements are conducted over extended periods. These include for example:

DATAV

The Data Verification DATA VERITAS comes with
C-C-C.onboard, warranting entire data integrity and authenticity.

Enhancing Data Integrity and Authenticity with C-C-C - data transfers banking on DATA VERITAS:

Introducing Integer and Authentic Data Transfer:
C-C-C's diverse methods of data transfer include pushed Emails, FTP (Third Party Server), MQTT, HTTP Put, Loggernet or the C-C-C Monitoring Portal (ProfEC Ventus’ protected server) transfers as “call on demand” or as “automated and schedule push” options. The use of DATA VERITAS (DATAV), being one of the ProfEC Ventus PV Services, establishes C-C-C as an uttermost robust solution in the market. Ensuring data integrity and authenticity is crucial not only for operational reliability but also for adherence to industry standards such as IEC 61400-50-1, FGW TR 6 guidelines, and MEASNET procedures.

IEC 61400 Series on Data Integrity and Authenticity:
The IEC 61400 series of standards, which governs wind turbines, often touches on aspects of data integrity and authenticity, albeit more implicitly than explicitly. These standards typically focus on the accuracy and reliability of wind measurements and performance data, essential for turbine certification, power performance measurements and validations, safety assessments and wind resource measurements. For instance, IEC 61400-12-1, which pertains to the power performance measurements of electricity-producing wind turbines, emphasizes the need for precise data acquisition and handling to ensure that performance assessments are both accurate and replicable.
MEASNET Procedure "Evaluation of Site-Specific Wind Conditions" on Data Integrity:
The MEASNET procedure guideline rigorously addresses the evaluation of site-specific wind conditions, a critical aspect of wind energy projects. It outlines detailed methods for data quality assessment and filtering, key to maintaining data integrity. The MEASNET procedure "Evaluation of SiteSpecific Wind Conditions" stresses the importance of data representativeness and insists on traceability and reproducibility, supported by an accredited quality management system.

FGW TR6 Rev. 12 Technical Guideline on Data Integrity and Data Authenticity:
FGW Technical Guideline TR6 Rev. 12 establishes precise expectations for data integrity and authenticity within the wind energy sector. Six integrity levels A - F are introduced (A being the best, warranting lowest possible uncertainties attached to the measurement data). This guideline is revered globally as a technical reference for ensuring bankable wind measurements. It focuses on thorough documentation and verification of data throughout the data handling process, ensuring that data utilized for critical wind energy assessments and investment decisions is accurate, reliable, and traceable to the original measurements.

Comparative Analysis and C-C-C Compliance:


C-C-C's capabilities align with best practices outlined in MEASNET, IEC, and FGW TR6, particularly in data security, like integrity and authenticity, prepared to reach the best FGW Integrity Level ‚A‘. C-C-C's varied data transmission methods, which include robust encryption and digital signing, further benefit from alignment with MEASNET's comprehensive data evaluation processes recommended. Integrating even more rigorous data validation processes, as MEASNET recommends, enhances C-C-C's compliance with both best practice standards: FGW TR6 Rev. 12 and MEASNET. This approach encompasses encryption, digital signing, and extensive checks on data integrity before its use in analysis or distribution to stakeholders. DATA VERITAS technology is set up on

CONCLUSION

C-C-C's data measurement and transmission methods achieve minimal uncertainty by fully complying with established data quality standards, as stipulated by IEC 61400 series like ISO/IEC 61400-50-1 and ISO/IEC 61400-12-1, as well as FGW TR 6 Technical Guideline, and the MEASNET procedure “Evaluation of Site-Specific Wind Conditions”. By anticipating and incorporating the most stringent aspects of these standards, particularly concerning data integrity and authenticity, C-C-C, with its ability to warrant the achievement of integrity Level A, establishes itself as a leader in secure and reliable data transfer within the wind energy sector.


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