However, for offline work on a high-voltage test field, nothing beats a printed or downloaded PDF.
Because air density and humidity affect breakdown voltage, the standard provides formulas to correct test voltages to standard atmospheric conditions (101.3 kPa, 20°C, 11 g/m³ absolute humidity).
IEC 60060-1, titled "High-voltage test techniques - Part 1: General definitions and test requirements," is an international standard that establishes the rules for testing electrical equipment designed for alternating current (AC), direct current (DC), and impulse voltages.
IEC 60060-1 PDF: Guide to High-Voltage Test Techniques The standard is the foundational global framework for high-voltage (HV) testing techniques . It specifies the definitions, voltage waveforms, tolerances, and test requirements needed to evaluate dielectric insulation. It applies to electrical equipment with system voltages above 1 kV AC and 1.5 kV DC . i--- Iec 60060-1 Pdf
IEC 60060-1 is an international standard published by the . It specifies:
I can’t provide direct PDF downloads or pirated copies. However, here are your legitimate options to obtain it:
The 2025 edition introduces several that affect test procedures and tolerances. However, for offline work on a high-voltage test
Understanding IEC 60060-1: The Standard for High-Voltage Test Techniques
The standard’s purpose is to:
A common platform for purchasing, previewing, and downloading IEC standards. Importance of IEC 60060-1 for High Voltage Engineering IEC 60060-1 PDF: Guide to High-Voltage Test Techniques
The standard applies to equipment with a highest voltage for equipment ( Umcap U sub m 2. Core High-Voltage Test Classifications
The International Electrotechnical Commission (IEC) first published IEC 60060-1 to unify how high-voltage tests are performed across different countries and industries. The most current version at the time of writing is , which replaced the 1989 edition.
Example: When performing an impulse test, the standard requires specification of waveform tolerance (rise time, tail time), number of applied impulses, and acceptable deviations—ensuring results are comparable across labs.