IEC 60068-2-116:2014 is an international standard that specifies the test method for the severity of shock and bump in electrical and electronic equipment. It provides guidelines for conducting tests to evaluate the ability of equipment to withstand the mechanical stresses that may occur during handling, transport, and use.
Importance of Shock and Bump Testing
Shock and bump testing are vital to ensure the reliability and durability of electrical and electronic equipment. These tests simulate real-life scenarios where equipment may be subjected to mechanical shocks, such as falling, impacts, or vibrations during transportation or usage. By subjecting the equipment to controlled shocks and bumps, manufacturers can identify potential weaknesses and design flaws to improve the product's robustness.
Additionally, complying with IEC 60068-2-116:2014 helps manufacturers meet industry standards, customer expectations, and regulatory requirements. It also helps prevent costly damage, warranty claims, and accidents caused by equipment failures due to inadequate shock and bump resistance.
Test Procedure and Criteria
The test procedure outlined in IEC 60068-2-116:2014 involves subjecting the equipment to a series of shock and bump events with predefined acceleration, duration, and pulse shapes. The severity of these events may vary depending on the type of equipment and its intended use. The criteria for pass or fail are based on the equipment's ability to maintain proper functionality without any significant alterations or damage after the test.
The standard provides guidelines for selecting suitable test levels based on the type of equipment, packaging, transportation conditions, and usage scenarios. It also defines various shock and bump profiles that replicate real-world situations, ensuring comprehensive evaluation of the equipment's resilience.
Benefits of Compliance
Complying with IEC 60068-2-116:2014 offers several benefits for equipment manufacturers and end-users alike. Firstly, it enhances product quality and reliability, as any design weaknesses or vulnerabilities are addressed during the testing phase. This helps reduce the risk of product failures, customer dissatisfaction, and potential recalls.
Secondly, complying with the standard improves marketability, as customers often seek products that adhere to recognized industry standards. Meeting the requirements of IEC 60068-2-116:2014 demonstrates a commitment to product excellence and customer safety, providing a competitive edge in the market.
Lastly, adherence to the standard ensures compatibility and interoperability with other equipment and systems. By undergoing shock and bump tests, manufacturers can identify potential compatibility issues early on and make necessary adjustments to ensure seamless integration with other components.