Meter
[Distribution flow solver (radial)]

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Detailed Description

Substation object serves as a connecting object between the powerflow and network solvers.

Note:

The meter object now only implements polyphase meters. For a singlephase meter, see the triplex_meter object.

Distribution meter can be either single phase or polyphase meters. For polyphase meters, the line voltages are nominally 277V line-to-line, and 480V line-to-ground. The ground is not presented explicitly (it is assumed).

Total cumulative energy, instantantenous power and peak demand are metered.

The three-phase unbalanced connections of the distribution solver are posted as an equivalent per-unit load on the network solver. The network solver per-unit voltage is translated into a balanced three-phase voltage for the distribution solver. This functionality assumes the substation is treated as the swing bus for the distribution solver.

Total cumulative energy, instantantenous power and peak demand are metered.

Functions
	meter::meter (MODULE *mod)
	substation::substation (MODULE *mod)

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Function Documentation

meter::meter

(

MODULE *

mod

)

[inherited]

Todo:

three-phase meter should meter Q also (required complex)

Definition at line 45 of file meter.cpp.

References gl_publish_function, gl_publish_variable, gl_register_class, GL_THROW, meter::indiv_measured_power, meter::measured_current, meter::measured_demand, meter::measured_power, meter::measured_reactive_energy, meter::measured_reactive_power, meter::measured_real_energy, meter::measured_real_power, meter::measured_voltage, meter::measured_voltageD, PADDR, PC_BOTTOMUP, PC_POSTTOPDOWN, PC_PRETOPDOWN, PC_UNSAFE_OVERRIDE_OMIT, PT_complex, PT_double, and PT_int16.

substation::substation

(

MODULE *

mod

)

[inherited]

Todo:

three-phase meter should meter Q also (required complex)

Definition at line 43 of file substation.cpp.

References gl_publish_function, gl_publish_variable, gl_register_class, GL_THROW, PADDR, PC_BOTTOMUP, PC_POSTTOPDOWN, PC_PRETOPDOWN, PC_UNSAFE_OVERRIDE_OMIT, PT_complex, and PT_double.