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Homepage>BS Standards>27 ENERGY AND HEAT TRANSFER ENGINEERING>27.160 Solar energy engineering>PD IEC TR 60904-14:2020 Photovoltaic devices Guidelines for production line measurements of single-junction PV module maximum power output and reporting at standard test conditions
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PD IEC TR 60904-14:2020 Photovoltaic devices Guidelines for production line measurements of single-junction PV module maximum power output and reporting at standard test conditions

PD IEC TR 60904-14:2020

Photovoltaic devices Guidelines for production line measurements of single-junction PV module maximum power output and reporting at standard test conditions

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Standard number:PD IEC TR 60904-14:2020
Pages:32
Released:2020-12-09
ISBN:978 0 539 14142 9
Status:Standard
PD IEC TR 60904-14:2020 - Photovoltaic Devices Guidelines

PD IEC TR 60904-14:2020 - Photovoltaic Devices Guidelines

Unlock the full potential of your photovoltaic production line with the PD IEC TR 60904-14:2020 standard. This comprehensive guideline is essential for manufacturers and engineers who are committed to optimizing the performance and efficiency of single-junction PV modules. Released on December 9, 2020, this standard is a must-have for anyone involved in the photovoltaic industry.

Overview

The PD IEC TR 60904-14:2020 provides detailed guidelines for measuring the maximum power output of single-junction photovoltaic (PV) modules on production lines. It ensures that measurements are conducted under standard test conditions, which is crucial for maintaining consistency and reliability in PV module performance reporting.

Key Features

  • Standard Number: PD IEC TR 60904-14:2020
  • Pages: 32
  • Release Date: December 9, 2020
  • ISBN: 978 0 539 14142 9
  • Status: Standard

Why Choose PD IEC TR 60904-14:2020?

This standard is designed to help you achieve the highest level of accuracy and efficiency in your PV module production line. By adhering to these guidelines, you can ensure that your products meet industry standards and customer expectations. Here are some reasons why this standard is indispensable:

  • Consistency: Provides a uniform approach to measuring and reporting PV module power output, ensuring consistency across different production lines and facilities.
  • Accuracy: Offers precise methodologies for testing under standard conditions, reducing the risk of errors and discrepancies in power output measurements.
  • Reliability: Enhances the reliability of your PV modules by ensuring that they are tested and reported accurately, leading to increased customer trust and satisfaction.
  • Compliance: Helps you stay compliant with international standards, which is crucial for global market access and competitiveness.

Applications

The PD IEC TR 60904-14:2020 is applicable to a wide range of stakeholders in the photovoltaic industry, including:

  • PV module manufacturers looking to optimize their production processes and ensure product quality.
  • Quality assurance teams responsible for maintaining high standards in PV module performance.
  • Engineers and technicians involved in the design and testing of photovoltaic devices.
  • Research and development teams focused on improving PV module efficiency and reliability.

Benefits of Implementation

Implementing the guidelines outlined in the PD IEC TR 60904-14:2020 can lead to numerous benefits for your organization, including:

  • Improved Product Quality: By following standardized testing procedures, you can ensure that your PV modules consistently meet high-quality standards.
  • Enhanced Market Reputation: Demonstrating compliance with international standards can enhance your reputation in the market, attracting more customers and business opportunities.
  • Cost Efficiency: Reducing errors and discrepancies in power output measurements can lead to cost savings in production and quality control processes.
  • Innovation and Growth: Staying up-to-date with industry standards can drive innovation and growth, allowing you to remain competitive in the rapidly evolving photovoltaic market.

Conclusion

The PD IEC TR 60904-14:2020 is an invaluable resource for anyone involved in the production and testing of single-junction PV modules. By providing clear and comprehensive guidelines for measuring and reporting power output, this standard helps ensure that your products meet the highest levels of quality and performance. Whether you are a manufacturer, engineer, or quality assurance professional, this standard is essential for achieving success in the photovoltaic industry.

Invest in the PD IEC TR 60904-14:2020 today and take the first step towards optimizing your PV module production line for maximum efficiency and reliability.

DESCRIPTION

PD IEC TR 60904-14:2020


This standard PD IEC TR 60904-14:2020 Photovoltaic devices is classified in these ICS categories:
  • 27.160 Solar energy engineering

This document provides guidelines for measurements of the maximum power (Pmax) output of single-junction photovoltaic (PV) modules and for reporting at standard test conditions (STC) in industrial production line settings. Such measurements typically:

  • Record current-voltage (I-V) data while illuminating the module with a solar simulator;

  • Are performed on 100 % of manufactured modules, in order to determine whether they meet nameplate requirements for various bins spanning different power output levels.

This type of measurement is widespread and performed in high volume by PV module manufacturers worldwide. As it is desirable to have consistent measurement practices across the industry, this document describes the following features of such measurements:

  • Essential elements, in order to provide common understanding;

  • Common issues or complications;

  • Sources of error and uncertainty, including recommendations to minimize them.

Understanding of Pmax measurement uncertainties is expected to be useful in application of other IEC documents, such as IEC 61215-1 and IEC 62941, where Pmax tolerances and uncertainties must be determined. Whenever possible, this document references specific IEC documents covering topics in more detail. Where no such documents exist, this document provides guidance and recommendations based on other publications relevant to the PV industry.