Composite Model Frame(g1)
- Block definition:
- Name: Frame H
- Title: {''}
Graphic
Slot Links
- Gov: Gov
- AVR: AVR
- Hydro turbine: Hydro turbine
Parameters
Slot Model: Gov
| Name | Value | Unit | Type | Description | |
|---|---|---|---|---|---|
| 0 | Sigma | 0 | 40000000000000 | NaN | d |
Slot Model: AVR
| Name | Value | Unit | Type | Description | |
|---|---|---|---|---|---|
| 0 | ifdlim | 1.0 | 8.991000e+12 | NaN | d |
| 1 | Ta | 10.0 | 0.000000e+00 | NaN | d |
| 2 | Tb | 20.0 | 0.000000e+00 | NaN | d |
| 3 | G | 70.0 | 0.000000e+00 | NaN | d |
| 4 | Kp | 75.0 | 0.000000e+00 | NaN | d |
| 5 | Tw | 15.0 | 0.000000e+00 | NaN | d |
| 6 | T1 | 0.0 | 2.000000e+13 | NaN | d |
| 7 | T2 | 0.0 | 1.000000e+13 | NaN | d |
| 8 | PSS_act | 1.0 | 0.000000e+00 | NaN | d |
| 9 | C | 0.0 | 1.000000e+13 | NaN | d |
| 10 | L1 | -11.0 | 0.000000e+00 | NaN | d |
| 11 | L2 | 4.0 | 0.000000e+00 | NaN | d |
| 12 | t | NaN | NaN | [d | d] |
Slot Model: Hydro turbine
| Name | Value | Unit | Type | Description | |
|---|---|---|---|---|---|
| 0 | Tw | 1 | 0 | NaN | d |
Block Defintions (Graphical)
Gov
Title
None
Grafic
Subblocks
Output signals
['z']
Input signals
['xspeed', 'pgt', 'P0']
States
['x', 'x1', 'x2']
Parameters
['Sigma']
Equations
inc(x2)=z
inc(x1)=z
inc(x)=pgt
inc(P0)=(pgt*Sigma-1+xspeed)/Sigma
AVR
Title
None
Grafic
Subblocks
- (1)
- +-C
- -1
- 0[1/s]L2
- States mapping: x2 (x),
- 10
- G(1+sTa)/(1+sTb)
- States mapping: x1 (x),
- Pss_act
- ifdlim
- sK/(1+sT)
- States mapping: x3 (x),
- Internal variables mapping: dx1 (dx),
- (1+sT1)/(1+sT2)
- Parameters mapping: T1 (T2),
- States mapping: x4 (x),
- Internal variables mapping: dx2 (dx),
- (1+sT1)/(1+sT2)
- States mapping: x5 (x),
- Internal variables mapping: dx3 (dx),
- Switch
- [L11/s
- min
Output signals
['ve']
Input signals
['ie', 'V0', 'ut', 'xspeed']
States
['x', 'x1', 'x2', 'x3', 'x4', 'x5']
Parameters
['array_t', 'ifdlim', 'Ta', 'Tb', 'G', 'Kp', 'Tw', 'T1', 'T2', 'PSS_act', 'C']
Upper limitation parameters
['L2']
Lower limitation parameters
['L1']
Equations
inc(x2)=ve
inc(x1)=ve/G
inc(x)=L1!0
inc(x5)=0
inc(x4)=0
inc(x3)=xspeed*Kp
inc0(V0)=ut + ve/G
Hydro turbine
Title
None
Grafic
Subblocks
Output signals
['pt']
Input signals
['z']
States
['x']
Parameters
['Tw']
Equations
inc(x)=pt
inc(z)=pt
Block Definitions (Macros)
(1)
Output signals:
['yo']
Input signals:
['yi']
Parameters:
['array_t']
Equations:
yo=lapprox(yi,array_t)
(1+sT1)/(1+sT2)
Title:
Lead-lag block
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Parameters:
['T1', 'T2']
Equations:
limits(T2)=(0,)
dx=(yi-x)/T2
x.=dx
yo=x+T1*dx
(q/z)^2
Output signals:
['yo']
Input signals:
['z', 'q']
Equations:
yo=(q/z)*(q/z)
+-0.1
Title:
simmetrical Limiter
Output signals:
['yo']
Input signals:
['yi']
Equations:
yo=lim(yi,-0.1,0.1)
+-C
Title:
simmetrical Limiter
Output signals:
['yo']
Input signals:
['yi']
Parameters:
['C']
Equations:
yo=lim(yi,-C,C)
-1
Output signals:
['yo']
Input signals:
['yi']
Equations:
yo=-1*yi
0[1/s]1
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Equations:
x.=yi
yo=limstate(x,0,1)
0[1/s]L2
Title:
integrator with anti.windup limits
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Upper limitation parameters:
['L2']
Equations:
x.=yi
yo=limstate(x,0,L2)
1
Output signals:
['yo']
Equations:
yo=1
1/(1+s2)
Title:
First order delay (PT1)
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Equations:
x.=(yi-x)/2
yo=x
1/Tw
Output signals:
['yo']
Input signals:
['yi']
Parameters:
['Tw']
Equations:
yo=yi/Tw
1/s
Title:
integrator with anti.windup limits
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Equations:
x.=yi
yo=x
10
Output signals:
['yo']
Input signals:
['yi']
Equations:
yo=10*yi
5
Output signals:
['yo']
Input signals:
['yi']
Equations:
yo=5*yi
G(1+sTa)/(1+sTb)
Title:
Lead-lag block
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Parameters:
['Ta', 'Tb', 'G']
Equations:
limits(Tb)=(0,)
dx=(yi-x)/Tb
x.=dx
yo=(x+Tadx)G
L1[1/s
Title:
integrator with anti.windup limits
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Lower limitation parameters:
['L1']
Equations:
x.=yi
yo=limstate(x,L1,999)
PI controller
Title:
PI controller
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Equations:
! Proportional Integral controller
x.=0.4*yi
yo=2*yi+x
Pss_act
Output signals:
['yo']
Input signals:
['yi']
Parameters:
['PSS_act']
Equations:
yo=select(PSS_act=0,0,yi)
Sigma
Output signals:
['yo']
Input signals:
['yi']
Parameters:
['Sigma']
Equations:
yo=yi*Sigma
Switch
Output signals:
['yo']
Input signals:
['y1', 'y', 'y2']
Equations:
yo=select(y<0,y2,y1)
ifdlim
Output signals:
['yo']
Parameters:
['ifdlim']
Equations:
yo=ifdlim
min
Output signals:
['yo']
Input signals:
['y1', 'y2']
Equations:
yo=min(y1,y2)
sK/(1+sT)
Title:
First-order lag derivative with gain
Output signals:
['yo']
Input signals:
['yi']
States:
['x']
Parameters:
['Kp', 'Tw']
Equations:
limits(Tw)=(0,)
dx=(Kp*yi-x)/Tw
x.=dx
yo=dx