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@@ -1,24 +1,22 @@
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+from types import CellType
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import pandas as pd
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import numpy as np
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-import datetime
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+import datetime,time
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import pika
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import json
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import BatParam
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class BatCrtl():
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- def __init__(self,host,port,df_statectrl_ram,df_rlyctrl_ram,df_balctrl_ram,df_diag,df_bms,sn_list): #参数初始化
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+ def __init__(self,host,port,df_statectrl_ram,df_rlyctrl_ram,df_diag,df_bms,sn_list): #参数初始化
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- celltype=1
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self.host=host
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self.port=port
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self.sn_list=sn_list
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- self.param=BatParam.BatParam(celltype)
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df_bms['time']=pd.to_datetime(df_bms['time'], format='%Y-%m-%d %H:%M:%S')
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self.df_bms=df_bms
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self.df_statectrl_ram=df_statectrl_ram.copy()
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self.df_rlyctrl_ram=df_rlyctrl_ram.copy()
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- self.df_balctrl_ram=df_balctrl_ram.copy()
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self.df_diag1=df_diag[(df_diag['fault_code']==110) | (df_diag['fault_code']==119) | (df_diag['fault_code']==12) | (df_diag['fault_code']==18)]
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self.df_diag2=df_diag[df_diag['fault_code']==100]
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@@ -27,8 +25,6 @@ class BatCrtl():
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# self.bms_soc=df_bms['PackSOC']
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# self.bms_soh=df_bms['PackSOH']
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# self.bmsstat=df_bms['BMSStat']
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- self.cellvolt_name=['CellVolt'+str(x) for x in range(1,self.param.CellVoltNums+1)]
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- self.celltemp_name=['CellTemp'+str(x) for x in range(1,self.param.CellTempNums+1)]
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#主调用函数........................................................................
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def bat_crtl(self):
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@@ -48,12 +44,22 @@ class BatCrtl():
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channel.queue_declare(queue='cmdQueue',durable=True)
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channel.basic_publish(exchange='cmdExchange',routing_key='CmdDirectRouting',body=json.dumps(dict_send)) # 消息内容
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connection.close()
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+
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+ def _parameter(self,sn):
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+ if 'KPD' in sn:
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+ celltype=1
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+ else:
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+ celltype=99
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+
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+ self.param=BatParam.BatParam(celltype)
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+ self.cellvolt_name=['CellVolt'+str(x) for x in range(1,self.param.CellVoltNums+1)]
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+ self.celltemp_name=['CellTemp'+str(x) for x in range(1,self.param.CellTempNums+1)]
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#电池继电器下行控制.........................................................................................................................
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def _bat_rlycrtl(self):
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time_now=datetime.datetime.now()
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- factory=self.df_bms.iloc[0]['factory']
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for sn in self.sn_list:
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+ factory=self.df_bms.loc[self.df_bms[self.df_bms['sn']==sn].index[0], 'factory']
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if sn in list(self.df_diag1['sn']): #该sn发生4级或5级故障
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if sn in list(self.df_rlyctrl_ram['sn']): #ram是否包含该sn
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if self.df_rlyctrl_ram.loc[self.df_rlyctrl_ram[self.df_rlyctrl_ram['sn']==sn].index[0], 'batrlyctrl']==0:
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@@ -88,8 +94,8 @@ class BatCrtl():
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#电池充放电下行控制.........................................................................................................................
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def _bat_statecrtl(self):
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- time_now=datetime.datetime.now()
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- factory=self.df_bms.iloc[0]['factory']
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+ time_now=datetime.datetime.now()
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+
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#对完成充放电循环,且超过10天的,done_flg置0
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if not self.df_statectrl_ram.empty:
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for i in range(len(self.df_statectrl_ram)):
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@@ -103,11 +109,13 @@ class BatCrtl():
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#存在电池正在放电-------------------------------
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if 3 in list(self.df_statectrl_ram['batstatectrl']):
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sn=self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['batstatectrl']==3].index[0], 'sn']
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+ factory=self.df_bms.loc[self.df_bms[self.df_bms['sn']==sn].index[0], 'factory']
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+ self._parameter(sn)
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bms_index=self.df_bms[self.df_bms['sn']==sn].index[0]
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packsoc=self.df_bms.loc[bms_index,'PackSOC']
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cellvolt = self.df_bms.loc[bms_index,self.cellvolt_name]
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time_now=self.df_bms.loc[bms_index,'time']
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- if packsoc<10 or 1<min(cellvolt)<3: #结束放电
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+ if packsoc<self.param.DscPackSoc or 1<min(cellvolt)<self.param.CellDscVolt: #结束放电
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self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['sn']==sn].index[0], 'time']=time_now
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self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['sn']==sn].index[0], 'batstatectrl']=2
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dict_send={"cmd_type":2,"factory":factory,"sn":sn,"batstatectrl":2,"dischrg_volt":272}
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@@ -118,12 +126,14 @@ class BatCrtl():
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#存在电池正在静置---------------------------------
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elif 2 in list(self.df_statectrl_ram['batstatectrl']):
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sn=self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['batstatectrl']==2].index[0], 'sn']
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+ factory=self.df_bms.loc[self.df_bms[self.df_bms['sn']==sn].index[0], 'factory']
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+ self._parameter(sn)
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bms_index=self.df_bms[self.df_bms['sn']==sn].index[0]
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packcrnt=self.df_bms.loc[bms_index,'PackCrnt']
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packsoc=self.df_bms.loc[bms_index,'PackSOC']
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cellvolt = self.df_bms.loc[bms_index,self.cellvolt_name]
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time_now=self.df_bms.loc[bms_index,'time']
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- if packsoc>25 or min(cellvolt)>3.5:
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+ if packsoc>self.param.DscPackSoc+5 or self.param.CellDscVolt+0.5<min(cellvolt)<4.5:
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self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['sn']==sn].index[0], 'time']=time_now
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self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['sn']==sn].index[0], 'batstatectrl']=3
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dict_send={"cmd_type":2,"factory":factory,"sn":sn,"batstatectrl":3,"dischrg_volt":272}
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@@ -148,6 +158,8 @@ class BatCrtl():
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#存在电池正在充电------------------------------------
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elif 1 in list(self.df_statectrl_ram['batstatectrl']):
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sn=self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['batstatectrl']==1].index[0], 'sn']
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+ factory=self.df_bms.loc[self.df_bms[self.df_bms['sn']==sn].index[0], 'factory']
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+ self._parameter(sn)
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bms_index=self.df_bms[self.df_bms['sn']==sn].index[0]
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packsoc=self.df_bms.loc[bms_index,'PackSOC']
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cellvolt = self.df_bms.loc[bms_index,self.cellvolt_name]
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@@ -164,13 +176,15 @@ class BatCrtl():
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#当前电池均不在充放电循环过程中,则接下来判断是否存在100故障---------------------------------
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else:
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for sn in self.sn_list:
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+ factory=self.df_bms.loc[self.df_bms[self.df_bms['sn']==sn].index[0], 'factory']
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+ self._parameter(sn)
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if sn in list(self.df_diag2['sn']): #该sn发生100长时间未标定故障
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if sn in list(self.df_bms['sn']):
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bms_index=self.df_bms[self.df_bms['sn']==sn].index[0]
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packsoc=self.df_bms.loc[bms_index,'PackSOC']
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cellvolt = self.df_bms.loc[bms_index,self.cellvolt_name]
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time_now=self.df_bms.loc[bms_index,'time']
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- if packsoc>20 or min(cellvolt)>3.5:
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+ if packsoc>self.param.DscPackSoc+5 or self.param.CellDscVolt+0.5<min(cellvolt)<4.5:
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if sn in list(self.df_statectrl_ram['sn']): #该sn的ram不为空
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if self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['sn']==sn].index[0], 'done_flg']==0:
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self.df_statectrl_ram.loc[self.df_statectrl_ram[self.df_statectrl_ram['sn']==sn].index[0], 'time']=time_now
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@@ -221,10 +235,13 @@ class BatCrtl():
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#电池均衡下行控制————————————————————————————————————————————————————————————————————————————————————————————————————————
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def _bat_balcrtl(self):
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- time_now=datetime.datetime.now()
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- factory=self.df_bms.iloc[0]['factory']
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for sn in self.sn_list:
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+ sn_index=self.df_bms[self.df_bms['sn']==sn].index[0]
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+ factory=self.df_bms.loc[sn_index, 'factory'] #获取厂家名称
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+ bms_balstate=self.df_bms.loc[sn_index, 'balstate'] #获取BMS均衡状态
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+ bms_balstate=list(map(int,bms_balstate.split(',')))
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+ self._parameter(sn)
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bms_index=self.df_bms[self.df_bms['sn']==sn].index[0]
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packsoc=self.df_bms.loc[bms_index,'PackSOC']
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cellvolt = self.df_bms.loc[bms_index,self.cellvolt_name]
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@@ -234,29 +251,45 @@ class BatCrtl():
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voltdiff=np.interp(packsoc,self.param.LookTab_SOC,self.param.LookTab_DiffVolt)
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- if min(cellvolt)>2 and max(cellvolt)<4.5 and packsoc>15 and max(cellvolt)-min(cellvolt)>voltdiff: #满足均衡开启条件
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+ #满足均衡开启条件————————————————————————————————————————————————————————————————————————————————————
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+ if min(cellvolt)>2 and max(cellvolt)<4.5 and packsoc>20 and max(cellvolt)-min(cellvolt)>voltdiff:
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#寻找并判断最大电压是否在均衡
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cellmax_index=list(cellvolt).index(max(cellvolt))+1
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- bal_num=cellmax_index//16
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- bal_index=cellmax_index%16
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+ bal_group = cellmax_index // self.param.BalGroups #取整
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+ bal_index = cellmax_index % self.param.BalGroups #取余
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if bal_index==0:
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- bal_index=16
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+ bal_index=self.param.BalNums
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else:
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pass
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+
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+ #获取BMS当前最大电芯电压的均衡状态
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+ bmscellmax_balgroup=bms_balstate[bal_group]
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+ bmscellmax_balgroup >> bal_index-1
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+ bmscellmax_balstate=bmscellmax_balgroup & 1
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- cellmax_balstate='balstate'+str(bal_num)
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- cellmax_balstate >> bal_index-1
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- cellmax_balstate=cellmax_balstate & 1
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-
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- if cellmax_balstate==1: #最大电压在均衡
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+ if bmscellmax_balstate==1: #最大电压在均衡
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pass
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else: #最大电芯不在均衡
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-
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-
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-
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-
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-
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+ cellvoltdiff=cellvolt-min(cellvolt)
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+ cellvoltdiff=cellvoltdiff[cellvoltdiff>voltdiff]=1 #压差>阈值的赋1
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+ cellvoltdiff=cellvoltdiff[cellvoltdiff<=voltdiff]=0 #压差<=阈值的赋0
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+ cellvoltdiff=list(map(int,cellvoltdiff))
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-
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-
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-
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+ #均衡状态按照分组赋值————————————————————————————————————————————————
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+ limsbalctrl=[]
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+ for i in range(self.param.BalGroups):
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+ balstate=0
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+ cellvoltdiff_group=cellvoltdiff[self.param.BalNums*i : self.param.BalNums*(i+1)]
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+ for j in range(self.param.BalNums): #计算每一个分组的均衡状态
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+ balstate=balstate+cellvoltdiff_group[j]*2**j
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+ limsbalctrl.append(balstate)
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+ dict_send={"cmd_type":3,"factory":factory,"sn":sn,"batbalctrl":limsbalctrl}
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+ self._rabbit_send(dict_send)
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+ time.sleep(0.1)
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+
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+ #不满足均衡开启条件————————————————————————————————————————————————————————————————————————————————————
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+ else:
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+ limsbalctrl=[0]*self.param.BalGroups #所有电芯均衡关闭
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+ dict_send={"cmd_type":3,"factory":factory,"sn":sn,"batbalctrl":limsbalctrl}
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+ self._rabbit_send(dict_send)
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+ time.sleep(0.1)
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