Admittance

Multiphase linear admittance

    Admittance

Library

Modelica/Electrical/QuasiStationary/MultiPhase/Basic

Description

The admittance model represents a parallel connection of a resistor and either a capacitor or inductor in each phase.

The linear admittance connects the voltage v with the current i by i = Y*v in each phase, using m singlephase admittances. The resistive components are modeled temperature dependent, so the real parts G_actual = real(Y) are determined from the actual operating temperatures and the reference input conductances real(Y_ref). Conditional heat ports are considered. The reactive components B_actual = imag(Y) are equal to imag(Y_ref) if frequencyDependent = false. Frequency dependency is considered by frequencyDependent = true, distinguishing two cases:

(a) imag(Y_ref) > 0: capacitive case
The actual susceptances B_actual are proportional to f/f_ref
(b) imag(Y_ref) < 0: inductive case
The actual susceptances B_actual are proportional to f_ref/f

See also

Admittance, Resistor, Conductor, Capacitor, Impedance, Variable resistor, Variable conductor, Variable capacitor, Variable inductor, Variable impedance, Variable admittance

Parameters

Admittance_0

NameLabelDescriptionData TypeValid Values

mo_m

m

Number of phases

Scalar

mo_Y_ref

Y_ref

Complex admittances G_ref + j*B_ref

mo_T_ref

T_ref

Reference temperatures

Vector

mo_alpha_ref

alpha_ref

Temperature coefficient of resistance (R_actual = R_ref*(1 + alpha_ref*(heatPort.T - T_ref))

Vector

mo_mh

mh

Number of heatPorts=number of phases

Scalar

mo_useHeatPort

useHeatPort

=true, if all heat ports are enabled

Number

0
1

mo_T

T

Fixed device temperatures if useHeatPort = false

Vector

mo_frequencyDependent

frequencyDependent

Consider frequency dependency, if true

Scalar

true
false

mo_f_ref

f_ref

Reference frequency, if frequency dependency is considered

Scalar

Admittance_1

NameLabelDescriptionData TypeValid Values

mo_abs_v

abs_v

abs_v

Structure

mo_abs_v/fixed

fixed

Cell of vectors

true
false

mo_abs_v/start

start

Cell of vectors

mo_arg_v

arg_v

arg_v

Structure

mo_arg_v/fixed

fixed

Cell of vectors

true
false

mo_arg_v/start

start

Cell of vectors

mo_abs_i

abs_i

abs_i

Structure

mo_abs_i/fixed

fixed

Cell of vectors

true
false

mo_abs_i/start

start

Cell of vectors

mo_arg_i

arg_i

arg_i

Structure

mo_arg_i/fixed

fixed

Cell of vectors

true
false

mo_arg_i/start

start

Cell of vectors

mo_P

P

P

Structure

mo_P/fixed

fixed

Cell of vectors

true
false

mo_P/start

start

Cell of vectors

mo_P_total

P_total

P_total

Structure

mo_P_total/fixed

fixed

Cell of scalars

true
false

mo_P_total/start

start

Cell of scalars

mo_Q

Q

Q

Structure

mo_Q/fixed

fixed

Cell of vectors

true
false

mo_Q/start

start

Cell of vectors

mo_Q_total

Q_total

Q_total

Structure

mo_Q_total/fixed

fixed

Cell of scalars

true
false

mo_Q_total/start

start

Cell of scalars

mo_S

S

S

Structure

mo_S/fixed

fixed

Cell of vectors

true
false

mo_S/start

start

Cell of vectors

mo_S_total

S_total

S_total

Structure

mo_S_total/fixed

fixed

Cell of scalars

true
false

mo_S_total/start

start

Cell of scalars

mo_pf

pf

pf

Structure

mo_pf/fixed

fixed

Cell of vectors

true
false

mo_pf/start

start

Cell of vectors

mo_omega

omega

omega

Structure

mo_omega/fixed

fixed

Cell of scalars

true
false

mo_omega/start

start

Cell of scalars

Ports

NameTypeDescriptionIO TypeNumber

plug_p

implicit

Positive quasi-static polyphase plug

input

1

plug_n

implicit

Negative quasi-static polyphase plug

output

1

Port 3

implicit

Conditional heat ports

input

mo_useHeatPort