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coi.py
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coi.py
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"""
Classes for Center of Inertia calculation.
"""
import numpy as np
from andes.core.model import Model, ModelData
from andes.core.param import ExtParam
from andes.core.service import (BackRef, ConstService, ExtService, IdxRepeat,
NumReduce, NumRepeat, RefFlatten,)
from andes.core.var import Algeb, ExtAlgeb, ExtState
class COIData(ModelData):
"""COI parameter data"""
def __init__(self):
ModelData.__init__(self)
class COIModel(Model):
"""
Implementation of COI.
To understand this model, please refer to
:py:class:`andes.core.service.NumReduce`,
:py:class:`andes.core.service.NumRepeat`,
:py:class:`andes.core.service.IdxFlatten`, and
:py:class:`andes.core.service.BackRef`.
"""
def __init__(self, system, config):
Model.__init__(self, system, config)
self.group = 'Calculation'
self.flags.update({'tds': True})
self.SynGen = BackRef(info='Back reference to SynGen idx')
self.SynGenIdx = RefFlatten(ref=self.SynGen)
self.M = ExtParam(model='SynGen', src='M',
indexer=self.SynGenIdx, export=False,
info='Linearly stored SynGen.M',
)
self.wgen = ExtState(model='SynGen',
src='omega',
indexer=self.SynGenIdx,
tex_name=r'\omega_{gen}',
info='Linearly stored SynGen.omega',
)
self.agen = ExtState(model='SynGen',
src='delta',
indexer=self.SynGenIdx,
tex_name=r'\delta_{gen}',
info='Linearly stored SynGen.delta',
)
self.d0 = ExtService(model='SynGen',
src='delta',
indexer=self.SynGenIdx,
tex_name=r'\delta_{gen,0}',
info='Linearly stored initial delta',
)
self.a0 = ExtService(model='SynGen',
src='omega',
indexer=self.SynGenIdx,
tex_name=r'\omega_{gen,0}',
info='Linearly stored initial omega',
)
self.Mt = NumReduce(u=self.M,
tex_name='M_t',
fun=np.sum,
ref=self.SynGen,
info='Summation of M by COI index',
)
self.Mr = NumRepeat(u=self.Mt,
tex_name='M_{tr}',
ref=self.SynGen,
info='Repeated summation of M',
)
self.Mw = ConstService(tex_name='M_w',
info='Inertia weights',
v_str='M/Mr')
self.d0w = ConstService(tex_name=r'\delta_{gen,0,w}',
v_str='d0 * Mw',
info='Linearly stored weighted delta')
self.a0w = ConstService(tex_name=r'\omega_{gen,0,w}',
v_str='a0 * Mw',
info='Linearly stored weighted omega')
self.d0a = NumReduce(u=self.d0w,
tex_name=r'\delta_{gen,0,avg}',
fun=np.sum,
ref=self.SynGen,
info='Average initial delta',
cache=False,
)
self.a0a = NumReduce(u=self.a0w,
tex_name=r'\omega_{gen,0,avg}',
fun=np.sum,
ref=self.SynGen,
info='Average initial omega',
cache=False,
)
self.pidx = IdxRepeat(u=self.idx, ref=self.SynGen, info='Repeated COI.idx')
# Note:
# Even if d(omega) /d (omega) = 1, it is still stored as a lambda function.
# When no SynGen is referencing any COI, j_update will not be called,
# and Jacobian will become singular. `diag_eps = True` needs to be used.
# Note:
# Do not assign `v_str=1` for `omega`. Otherwise, COIs with no connected generators will
# fail to initialize.
self.omega = Algeb(tex_name=r'\omega_{coi}',
info='COI speed',
v_str='a0a',
v_setter=True,
e_str='-omega',
diag_eps=True,
)
self.delta = Algeb(tex_name=r'\delta_{coi}',
info='COI rotor angle',
v_str='d0a',
v_setter=True,
e_str='-delta',
diag_eps=True,
)
# Note:
# `omega_sub` or `delta_sub` must not provide `v_str`.
# Otherwise, values will be incorrectly summed for `omega` and `delta`.
self.omega_sub = ExtAlgeb(model='COI',
src='omega',
e_str='Mw * wgen',
indexer=self.pidx,
info='COI frequency contribution of each generator',
ename='omega sub',
tex_ename=r'\omega_{sub}',
)
self.delta_sub = ExtAlgeb(model='COI',
src='delta',
e_str='Mw * agen',
indexer=self.pidx,
info='COI angle contribution of each generator',
ename='delta sub',
tex_ename=r'\delta_{sub}',
)
def set_in_use(self):
"""
Set the ``Model.in_use`` flag based on ``len(self.SynGenIdx.v)``.
"""
self.in_use = (len(self.SynGenIdx.v) > 0)
class COI(COIData, COIModel):
"""
Center of inertia calculation class.
"""
def __init__(self, system, config):
COIData.__init__(self)
COIModel.__init__(self, system, config)