A continuous load is an electrical load that is expected to operate continuously for three hours or more under normal conditions. It is typically used in electrical engineering to determine the capacity and ratings of electrical equipment and circuits. Continuous loads are important for ensuring safety and efficiency in electrical systems, as they affect the sizing of conductors and protective devices. When calculating load demands, continuous loads are often considered at 125% of their rated value to account for potential overloads.
For a continuous load the circuit breaker is set 25% higher than the load current. So a 20-amp breaker is used with a continuous 16-amp load.
A continuous load is a constant load. A noncontinuous load is one that varies over time.
If you have a measured continuous load of say 80 Amps, you would want to have a panel rated at 100 A. For continuous load you want to be at 80% of rated capacity.
By definition a continuous signal is just that continuous to have no amplitude is to mean it doesn't exists
The definiton of static load is to load something staticly. However, the definition of a dynamic load can be either that of a large load of something or to have something of great importance be placed onto someone in such a way that it is a "load".
Discrete is something that is not continuous, or in other words. Not doing it continuous.
It means to put something in another thing you 'load' it
For a 41 amp load, you would typically use a 50 amp circuit breaker. The general rule is to select a breaker size that is 125% of the continuous load amps or equal to the load amps if it is not a continuous load. In this case, 41 amps is considered a continuous load, so you would round up to the nearest available breaker size, which is 50 amps.
The NEC defines a continuous load as that which may run for three hours or more. Examples of these are: electric heat, water heaters, AC units, and even lighting circuits.
A continuous load is a constant load. A noncontinuous load is one that varies over time.
The definition of continuous is never stopping or ending.
The maximum continuous load that can be connected to a 2 AWG THHN conductor, according to the National Electrical Code (NEC), is typically 100 amps. However, for continuous loads, which are defined as loads that operate for three hours or more, it's advisable to apply a derating factor. This means you should limit the continuous load to 80% of the conductor's ampacity, resulting in a maximum continuous load of 80 amps for a 2 AWG THHN conductor. Always consult local codes and regulations for specific requirements.