HalfControlledBridge2Pulse

Two pulse Graetz half controlled rectifier bridge

    HalfControlledBridge2Pulse

Library

Modelica/Electrical/PowerConverters/ACDC

Description

General information about AC/DC converters can be found at the AC/DC converter concept

This is a two pulse Graetz half controlled rectifier bridge. The firing signal fire_p is connected with thyristor thyristor_p1. The firing signal fire_n is connected with thyristor thyristor_p2. The circuit topology is the same as in Examples.ACDC.RectifierCenterTap2Pulse.

Parameters

HalfControlledBridge2Pulse_0

NameLabelDescriptionData TypeValid Values

mo_RonDiode

RonDiode

Closed diode resistance

Scalar

mo_GoffDiode

GoffDiode

Opened diode conductance

Scalar

mo_VkneeDiode

VkneeDiode

Diode forward threshold voltage

Scalar

mo_RonThyristor

RonThyristor

Closed thyristor resistance

Scalar

mo_GoffThyristor

GoffThyristor

Opened thyristor conductance

Scalar

mo_VkneeThyristor

VkneeThyristor

Thyristor forward threshold voltage

Scalar

mo_offStart_p1

offStart_p1

Boolean start value of variable thyristor_p1.off

Scalar

true
false

mo_offStart_p2

offStart_p2

Boolean start value of variable thyristor_p2.off

Scalar

true
false

mo_useHeatPort

useHeatPort

=true, if heatPort is enabled

Number

0
1

mo_T

T

Fixed device temperature if useHeatPort = false

Scalar

mo_m

m

Number of phases

Scalar

HalfControlledBridge2Pulse_1

NameLabelDescriptionData TypeValid Values

mo_useConstantEnable

useConstantEnable

true = disabled boolean input, use constantEnable

Number

0
1

mo_constantEnable

constantEnable

Constant enabling of firing signals

Scalar

true
false

HalfControlledBridge2Pulse_2

NameLabelDescriptionData TypeValid Values

mo_vAC

vAC

vAC

Structure

mo_vAC/fixed

fixed

Cell of scalars

true
false

mo_vAC/start

start

Cell of scalars

mo_iAC

iAC

iAC

Structure

mo_iAC/fixed

fixed

Cell of scalars

true
false

mo_iAC/start

start

Cell of scalars

mo_powerAC

powerAC

powerAC

Structure

mo_powerAC/fixed

fixed

Cell of scalars

true
false

mo_powerAC/start

start

Cell of scalars

mo_vDC

vDC

vDC

Structure

mo_vDC/fixed

fixed

Cell of scalars

true
false

mo_vDC/start

start

Cell of scalars

mo_iDC

iDC

iDC

Structure

mo_iDC/fixed

fixed

Cell of scalars

true
false

mo_iDC/start

start

Cell of scalars

mo_powerDC

powerDC

powerDC

Structure

mo_powerDC/fixed

fixed

Cell of scalars

true
false

mo_powerDC/start

start

Cell of scalars

mo_LossPower

LossPower

LossPower

Structure

mo_LossPower/fixed

fixed

Cell of scalars

true
false

mo_LossPower/start

start

Cell of scalars

mo_T_heatPort

T_heatPort

T_heatPort

Structure

mo_T_heatPort/fixed

fixed

Cell of scalars

true
false

mo_T_heatPort/start

start

Cell of scalars

mo_enable

enable

enable

Structure

mo_enable/fixed

fixed

Cell of scalars

true
false

mo_enable/start

start

Cell of scalars

mo_fire_p

fire_p

fire_p

Structure

mo_fire_p/fixed

fixed

Cell of scalars

true
false

mo_fire_p/start

start

Cell of scalars

mo_fire_n

fire_n

fire_n

Structure

mo_fire_n/fixed

fixed

Cell of scalars

true
false

mo_fire_n/start

start

Cell of scalars

Ports

NameTypeDescriptionIO TypeNumber

ac_p

implicit

Positive AC input

input

1

ac_n

implicit

Negative AC input

output

1

dc_p

implicit

Positive DC output

input

2

dc_n

implicit

Negative DC output

output

2

fire_p

implicit

Firing signal of positive potential transistor

input

3

fire_n

implicit

Firing signal of negative potential transistor

input

4

Port 7

implicit

Conditional heat port

input

mo_useHeatPort

Port 8

implicit

Enables fire and notFire

input

1-mo_useConstantEnable