Ieee Std 80 2013 〈Official〉
(thermal): [ A_kcmil = I \cdot \sqrt\fracK_f \cdot t_cTCAP \cdot \ln\left(\fracT_m + K_aT_a + K_a\right) ]
The standard centers on protecting individuals from three critical voltage hazards:
: The potential difference experienced by a person bridging a 1-meter distance with their feet while walking on the earth's surface.
Here are some key points related to IEEE Std 80-2013: ieee std 80 2013
: Provides a quantitative basis for determining tolerable limits for "touch" and "step" voltages.
(simplified for crushed rock): [ E_touch = (1000 + 1.5 \cdot C_s \cdot \rho_s) \cdot \frac0.116\sqrtt_s ] (for 50 kg body; ( t_s ) = fault duration, ( \rho_s ) = surface layer resistivity, ( C_s ) = reduction factor)
Some of the critical aspects covered by IEEE Std 80-2013 include: (thermal): [ A_kcmil = I \cdot \sqrt\fracK_f \cdot
: It emphasizes the importance of public awareness and education regarding the dangers of electrical power lines and the importance of maintaining safe distances.
, titled the "IEEE Guide for Safety in AC Substation Grounding," is the globally recognized standard for designing safe and effective grounding systems in outdoor AC substations. It provides the analytical methods and safety criteria necessary to protect personnel from hazardous electrical potentials during fault conditions. Core Purpose and Scope
If you need the , please note that IEEE copyright restricts distribution. You can purchase it from the IEEE Standards Store or access it via institutional subscription (e.g., IEEE Xplore). Would you like help interpreting a specific section or calculation from the standard? , titled the "IEEE Guide for Safety in
: Calculated as the product of the maximum grid current and the overall grid resistance.
: The potential difference between a person's hand, touching a grounded metallic structure, and their feet on the ground.
The is the industry-standard guide for safety in AC substation grounding , primarily focusing on outdoor conventional or gas-insulated substations. Its primary "feature" is a structured 12-step design procedure used to ensure that grounding systems protect personnel and equipment from dangerous potentials during a fault. Core Safety Features & Parameters