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g_brzhezinskiy
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--------------------------------------------------------------------------------
-- Электрические и силовые цепи 718
--------------------------------------------------------------------------------
Metrostroi.DefineSystem("81_718_Electric")
TRAIN_SYSTEM.DontAccelerateSimulation = false
function TRAIN_SYSTEM:Initialize()
-- General power output
self.Main750V = 0.0
self.Aux750V = 0.0
self.Power750V = 0.0
self.Aux80V = 0.0
self.Lights80V = 0.0
self.Battery80V = 0.0
-- Resistances
self.R1 = 1e9
self.R2 = 1e9
self.Rs1 = 1e9
self.Rs2 = 1e9
self.Rstator13 = 1e9
self.Rstator24 = 1e9
self.Ranchor13 = 1e9
self.Ranchor24 = 1e9
-- Electric network info
self.Itotal = 0.0
self.I13 = 0.0
self.I24 = 0.0
self.Ustator13 = 0.0
self.Ustator24 = 0.0
self.Ishunt13 = 0.0
self.Istator13 = 0.0
self.Ishunt24 = 0.0
self.Istator24 = 0.0
self.Utotal = 0.0
-- Calculate current through rheostats 1, 2
self.IR1 = self.Itotal
self.IR2 = self.Itotal
self.IRT2 = self.Itotal
self.T1 = 25
self.T2 = 25
self.P1 = 0
self.P2 = 0
self.Overheat1 = 0
self.Overheat2 = 0
-- Total energy used by train
self.ElectricEnergyUsed = 0 -- joules
self.ElectricEnergyDissipated = 0 -- joules
self.EnergyChange = 0
--Train wire outside power
-- Need many iterations for engine simulation to converge
self.SubIterations = 16
self.Train:LoadSystem("KK","Relay","KPP-110",{ bass = true })
self.Train:LoadSystem("BV","Relay")
self.Train:LoadSystem("GV","Relay","GV_10ZH",{bass=true})
--Регулятор давления
self.Train:LoadSystem("RD","Relay","AK-11B")
--self.Train:LoadSystem("Telemetry",nil,"",{"Electric","Panel","Engines"})
end
function TRAIN_SYSTEM:Inputs()
return { }
end
function TRAIN_SYSTEM:Outputs()
return { "I13","I24","Itotal", "Brake", "Drive",
--[[
"Rs1","Rs2","Itotal","I13","I24","IRT2",
"Ustator13","Ustator24","Ishunt13","Istator13","Ishunt24","Istator24",
"Uanchor13","Uanchor24","U13","U24","Utotal","RVState",--]]
"Main750V", "Power750V", "Aux750V", "Aux80V", "Lights80V", "Battery80V", --[[
"ElectricEnergyUsed", "ElectricEnergyDissipated", "EnergyChange",
"RPSignalResistor"]]
"RNState", "RN",
"BTB","V2","V1",
"BVKA_KM1","BVKA_KM2","BVKA_KM3","BVKA_KM4","BVKA_KM5",
"Vent1","Vent2",
"BSKA","BTPI_V","BTPI_ZKK","BUTP"
}
end
function TRAIN_SYSTEM:TriggerInput(name,value)
end
--------------------------------------------------------------------------------
function TRAIN_SYSTEM:Think(dT,iter)
local Train = self.Train
-- local dT = dT/8
----------------------------------------------------------------------------
-- Voltages from the third rail
----------------------------------------------------------------------------
self.Main750V = Train.TR.Main750V
self.Aux750V = Train.TR.Main750V
self.Power750V = self.Main750V--*Train.GV.Value
----------------------------------------------------------------------------
-- Information only
----------------------------------------------------------------------------
self.Aux80V = BBE and 82 or 65
self.Lights80V = BBE and 82 or 0
self.Battery80V = 65--(Train.VB.Value > 0) and (BBE and 82 or 65) or 0
----------------------------------------------------------------------------
-- Some internal electric
----------------------------------------------------------------------------
local P = self.Battery80V > 62 and 1 or 0
local HV = 550 < self.Main750V and self.Main750V < 975 and 1 or 0
----------------------------------------------------------------------------
-- Solve circuits
----------------------------------------------------------------------------
self:SolvePowerCircuits(Train,dT)
if iter == 1 then
self:SolveControlCircuits(Train,dT)
end
----------------------------------------------------------------------------
-- Calculate current flow out of the battery
----------------------------------------------------------------------------
--local totalCurrent = 5*A30 + 63*A24 + 16*A44 + 5*A39 + 10*A80
--local totalCurrent = 20 + 60*DIP
end
local S = {}
local min = math.min
function TRAIN_SYSTEM:SolveControlCircuits(Train,dT)
local B = (Train.Battery.Voltage > 62) and 1 or 0
local T = Train.SolverTemporaryVariables
if not T then
T = {}
for i=1,100 do T[i] = 0 end
Train.SolverTemporaryVariables = T
end
for i=1,100 do
T[i] = min(Train:ReadTrainWire(i),1)
end
T[-34] = min(Train:ReadTrainWire(-34),1)
T[-11] = min(Train:ReadTrainWire(-11),1)
local BUP = Train.BUP
local BUV = Train.BUV
local BKCU = Train.BKCU
local BKVA = Train.BKVA
local BUVS = Train.BUVS
local BBE = Train.BBE
local BKBD = Train.BKBD
local Panel = Train.Panel
--1.1. Цепи аккумуляторной батареи. Страница 7
S[303] = B*Train.VB.Value
S[305] = S[303]
S[315] = S[303]*Train.SF5.Value
S[310] = B*Train.VB.Value
S[550] = S[310]*Train.SF2.Value--CHECK
Train:WriteTrainWire(50,S[550])
S[316] = S[315]+T[50] --+ДИОД
S[311] = B*Train.VB.Value
S[334] = S[311]*Train.SF45.Value
S[312] = S[311]*Train.SF3.Value --CHECK
BBE.KMPower = S[334]
BBE.Power = S[305]
--1.2. Цепи заряда аккумуляторной батареи. Включение ББЭ. Страница 7
S[318] = S[316]*Train.SF7.Value
S[518] = S[318]*Train.SB15.Value
Train:WriteTrainWire(18,S[518])
S[324] = T[18]*Train.SF12.Value
BBE.Activate = S[324] --Включение ББЭ
--1.4. Отключение ББЭ. Страница 8
S[519] = S[318]*Train.SB16.Value
Train:WriteTrainWire(19,S[519])
S[333] = T[19]*Train.SF13.Value
--1.5. Аварийное отключение ББЭ и сигнализации Страница 9
Train:WriteTrainWire(20,BBE.Error)
Panel.HL7 = S[318]*T[20]
BBE.Deactivate = S[333] --Включение ББЭ
--2.1. Освещение вагонов основное. Страница 9
S[544] = S[318]*Train.SAP8.Value
Train:WriteTrainWire(44,S[544])
S[538] = (1-Train.SAP8.Value)*T[44]
Train:WriteTrainWire(38,S[538])
S[340] = T[38]*Train.SF16.Value
BBE.KM2Power = S[340]
S[408] = S[305]*BBE.KM2
S[409] = S[408]*Train.SF44.Value --END
Panel.EL7_30 = S[409]
--2.2. Аварийное освещение салонов и кабины. Страница 10
S[407] = S[312]*Train.SF44.Value
Panel.EL3_6 = S[407]
S[322] = T[50]*Train.SF11.Value
Panel.EL1 = S[322]
S[321] = T[50]*Train.SF10.Value
S[385] = S[321]*Train.SAP13.Value
Panel.EL2 = S[385]
--2.3. Освещение аппаратных отсеков. Страница 10
S[384] = S[322]*Train.SAP12.Value
Panel.EL31 = S[384]
--2.4. Подсветка прибора. Страница 10
S[328] = T[50]*Train.SF72.Value
S[131] = S[328]*Train["SA4/1"].Value
Panel.HL52 = S[131]
--3.1 Основное управление ЭК. Страница 11
S[531] = S[318]*(1-Train.SA16.Value)
Train:WriteTrainWire(31,S[531])
S[410] = Train.SA16.Value*T[31] + Train.SF56.Value*T[55] --3.3. Особенности управления ЭК в неполном составе. Страница 12
S[529] = S[410]*Train.SP1.Value
Train:WriteTrainWire(29,S[529])
--3.2. Резервное управление ЭК. Страница 10
S[320] = S[316]*Train.SF9.Value
S[530] = S[320]*Train.SB14.Value
Train:WriteTrainWire(30,S[530])
S[348] = T[30]*Train.SF22.Value
S[347] = T[29]
BKVA.KM2 = (S[347]+S[348])--[[*тепловое реле]]
S[206] = self.Main750V > 200 and 1 or 0
S[208] = S[206]*BKVA.KM2
Train.KK:TriggerInput("Set",S[208])
--4.1. Обогрев кабины. Страница 13
S[383] = S[321]*Train.SAP11.Value
BKVA.KM1 = S[383]
--5.1. Вентиляция салонов. Страница 13
S[307] = S[312]*Train.SF34.Value
S[540] = S[321]*Train.SAP9.Value --Включение
Train:WriteTrainWire(40,S[540])
S[375] = T[40]*Train.SF23.Value
BUVS.KM1 = S[375]
S[379] = S[307]*BUVS.KM1 --Контроль
BUVS.KV1 = S[379]
S[542] = 1-BUVS.KV1 --Сигнализация
Train:WriteTrainWire(42,S[542])
Panel.VS1 = T[42]*S[321]
S[541] = S[322]*Train.SAP10.Value
Train:WriteTrainWire(41,S[541])
S[377] = T[41]*Train.SF23.Value
BUVS.KM2 = S[377]
S[381] = S[307]*BUVS.KM2
BUVS.KV2 = S[381]
S[549] = 1-BUVS.KV2
Train:WriteTrainWire(49,S[549])
Panel.VS2 = T[49]*S[322]
-- 5.2. Питание двигателя вентилятора кабины. Страница 13
--6.1. Звуковая сигнализация. Страница 14
S[613] = B*(1-Train.VB.Value)
S[675] = S[613]*Train.SF55.Value
S[548] = S[318]*Train.SB5.Value + S[675]*Train.SP7.Value
Train:WriteTrainWire(48,S[548])
Train.BZOS.Ring = T[48]
--6.3. Пожарная сигнализация. Страница 15 --TODO
S[326] = T[50]*Train.SF76.Value
--6.2. Охранная сигнализация. Страница 14
Train.BZOS.Power = S[326]
--7.2. Цепи "нулевого" положения КР и КРУ. Цепи габаритных фонарей. Страница 16
S[317] = S[316]*Train.SF6.Value
BKCU.KM3 = S[317]*Train.KRU["317-317A"]*Train.KR["317A-387"]*(1-BKCU.KM1)*(1-BKCU.KM2)
S[320] = S[316]*Train.SF9.Value
BKCU.KM7 = S[320]*Train.KRU["320A-393"]*(1-BKCU.KM5)*(1-BKCU.KM6)
S[366] = S[316]*Train.SF41.Value
Panel.H11 = S[366]*(1-BKCU.KM2)
--7.3. Цепи положения "ВПЕРЕД" КР. Страница 17
S[3178] = S[317]*Train.KRU["317-317A"]*(1-BKCU.KM8)*(1-BKCU.KM4) --FIXME
BKCU.KM2 = S[3178]*Train.KR["317B-388"]
S[673] = S[317]*Train.SF51.Value
--673-679 - Гребнесмазыватель
--S[369] = S[316]*Train.SF8.Value*Train.KR["673-679"]
--7.4. Цепи положения "НАЗАД" КР. Страница 17
BKCU.KM1 = S[3178]*Train.KR["317B-386"]
--7.5. Цепи положения "ВПЕРЕД" КРУ. Страница 17
S[3208] = S[320]*Train.KR["320-320A"]*(1-BKCU.KM8)*(1-BKCU.KM4) --FIXME
BKCU.KM6 = S[3208]*Train.KRU["320B-392"]
S[319] = S[316]*Train.SF8.Value
S[369] = S[319]*(Train.KR["319-369"]+Train.KRU["319-369"])
S[680] = S[316]*Train.SF52.Value
S[620] = S[680]*Train.KRU["680-680A"] + S[673]*Train.KR["673-673A"]
S[611] = S[620]*Train.SF61.Value
BKBD.FMM1 = S[611]
BKCU.KM5 = S[3208]*Train.KRU["320B-394"]
--8.1. Открытие дверей. Страница 18
S[536] = S[369]*(Train.SB1.Value*(1-Train.SA7.Value)+Train.SA24.Value+Train.SBP4.Value)
Panel.HL3 = S[369]*(1-Train.SA7.Value)
Train:WriteTrainWire(36,S[536])
--S[357] = T[36]*Train.SF18.Value+S[358]
--8.1.4 Открытие правых дверей Страница 19
S[537] = S[369]*(Train.SB2.Value*Train.SA7.Value+Train.SBP6.Value)
Train:WriteTrainWire(37,S[537])
Panel.HL4 = S[369]*Train.SA7.Value
--S[359] = T[37]*Train.SF20.Value+S[358]
--8.2. Закрытие дверей. Страница 19
S[532] = S[369]*Train.SA5.Value*Train.SA6.Value
Train:WriteTrainWire(32,S[532])
--352-353-354
S[354] =(1-BKVA.KM4)
Train.U1:TriggerInput("Set", T[32]*S[354])
--8.2.2
S[533] = S[369]*Train.SB3.Value
Train:WriteTrainWire(33,S[533])
S[358] = T[33]*Train.SF19.Value
S[357] = T[36]*Train.SF18.Value+S[358]
S[359] = T[37]*Train.SF20.Value+S[358]
Train.U2:TriggerInput("Set",S[357])
Train.U3:TriggerInput("Set",S[359])
--8.3. Контроль положения дверей. Страницы 19-20
--312-SA15..SA22-351
S[351] = S[312]*Train.SAD.Value
BKVA.KM4 = S[351]
--312-KM2/1-534(-34)-Концевые каждого вагона(34)-Замкнутый КМ3 БКЦУ-36 провод
S[534] = S[312]*(BKCU.KM1+BKCU.KM2)+S[320]*(BKCU.KM5+BKCU.KM6)*(1-BKCU.KM7)
Train:WriteTrainWire(-34,S[534]) --Подача питания на 34 провод
Train:WriteTrainWire(34,T[-34]*Train.SAD.Value) --Разрыв питания онцевых переключателей
S[535] = T[34]*BKCU.KM3*BKCU.KM7
Train:WriteTrainWire(35,S[535])
Panel.SD = T[35]
Panel.HL13 = S[312]*S[354]
BUP.IKDV = BUP.Power*(1-T[35])
--9. БЛОКИРОВКА ПОСТОВ УПРАВЛЕНИЯ И ФОРМИРОВАНИЕ ЦЕПЕЙ УПРАВЛЕНИЯ ДВИЖЕНИЕМ СОСТАВА
--Страница 20-21
--317Г
S[515] = S[317]*(BKCU.KM1+BKCU.KM2)-->V
Train:WriteTrainWire(15,S[515])-->V
BKCU.KM4 = T[15]*min(1,BKCU.KM3+BKCU.KM4)
--320Г
S[516] = S[320]*(BKCU.KM5+BKCU.KM6)-->V
Train:WriteTrainWire(16,S[516])-->V
BKCU.KM8 = T[16]*min(1,BKCU.KM7+BKCU.KM8)
BUP.Power = S[515]
--9.4
S[335] = T[15]*Train.SF14.Value
S[337] = T[16]*Train.SF5.Value
BKVA.KM3 = S[335]+S[337]
--312=314
S[314] = S[312]*Train.SF4.Value*BKVA.KM3
BUV.Power = S[314]
Train.BSKA.Power = S[314]
Train.PTTI.Power = S[314]
S[517] = (1-BKVA.KM3)
Train:WriteTrainWire(17,S[517])
Panel.CUV = T[15]*T[17]--Питание с 15 провода и земля с 17
--10. ЦЕПИ БЕЛЫХ ФАР И ЛАМП СИГНАЛИЗАЦИИ СТОЯНОЧНОГО ТОРМОЗА
--Страница 322
--316-SF41-365-KM2/6-390
S[390] = S[316]*Train.SF41.Value*(BKCU.KM2+BKCU.KM6)
--390-SA1/1(SA2/1)-367(368)-R9(R10)-HL17-19(HL20-22)
S[512] = S[328]*Train.SQ1.Value
Train:WriteTrainWire(12,S[512])
Panel.HL46 = S[512]
Panel.ST = T[12]
Panel.HL17 = S[390]*Train["SA1/1"].Value
Panel.HL20 = S[390]*Train["SA2/1"].Value
--11. ЗАЩИТА СИЛОВЫХ ЦЕПЕЙ. ЦЕПИ КОНТРОЛЯ СОСТОЯНИЯ ЗАЩИТЫ.
--11.1. Цепи быстродействующих автоматических выключателей.
--Страница 23
S[306] = S[312]*Train.SF27.Value
Train.BVA.Power = S[306]
S[3061] = S[306]*Train.SF46.Value
Train.BVA.ControlPower = S[3061]
--S[526] = T[45]*Train.SB12.Value
Train.BVA.Reset = T[26]
--317Г + 320Г
S[522] = S[515]*Train.SB13.Value
Train:WriteTrainWire(22,S[522])
--11.4
Train.BVA.Disable = T[22]
--360А-Лампа-БУВ-725
Panel.HL25 = S[3061]*BUV.ORP
--Мы получаем землю
S[528] = Panel.HL25*100+BUV.OIZ
Train:WriteTrainWire(28,S[528])
Panel.HL6 = S[515]*(S[528]+T[28])
--11.1.5
S[526] = (T[45]+T[54])*Train.SB12.Value
Train:WriteTrainWire(26,S[526])
--12.2. Команды направления движения.
BUP.IV = BUP.Power*S[317]*BKCU.KM2
BUP.IN = BUP.Power*S[317]*BKCU.KM1
--13.1. Формирование сигналов безопасности движения с включенной системой АРС.
--626=363
S[626] = (S[611]*Train.SA13.Value+T[87]*(1-Train.SA13.Value))*Train.RC.Value
BKBD.Power = S[626]
S[610] = Train.PB.Value*S[611] + (1-Train.SAP26.Value)*S[626]
Train.RPB:TriggerInput("Set",S[610])
BUP.IPB = BUP.Power*S[610]
S[584] = S[626]*Train.PB.Value + T[87]*Train.SA14.Value*Train.SB8.Value
Train:WriteTrainWire(84,S[584])
BKBD.KB = T[84]
--13.2
S[5908] = S[673]*(1-Train.RC.Value)
S[5901] = S[5908]*Train.SF77.Value
S[590] = BKBD.Drive*Train.RC.Value + S[5901]*Train.SBR16.Value
Train:WriteTrainWire(90,S[590])
S[589] = BKBD.Drive--[[R]] *Train.RC.Value
Train:WriteTrainWire(89,S[589])
--13.1
BUP.IX = T[90]
Train.ROT1:TriggerInput("Set",S[590]+T[90]*(1-Train.RC.Value))
Train.ROT2:TriggerInput("Set",S[589]+T[89]*(1-Train.RC.Value))
Panel.KVD = T[87]*(1-Train.ROT2.Value)
--501Г-501В
S[5012] = Train.ROT1.Value*BUP.OXp
--501Б-501Е
S[5016] = S[5012]*(Train.SP2.Value+Train.SA9.Value)
S[5011] = S[5016]*(Train.SP5.Value+Train.SAP26.Value)
S[501] = S[5011]*(Train.RPB.Value+Train.SA8.Value)
BUP.IX = S[501]
BUP.IROT = BUP.OXp*(1-S[5012])
BUP.IPVU = BUP.OXp*(1-S[5016])
BUP.ISOT = BUP.OXp*(1-S[5011])
BUP.IRPB = BUP.OXp*(1-S[501])
Train:WriteTrainWire(1,S[501])
S[649] = S[326]*(1-Train.SP2.Value)
Panel.AVU = S[649]
S[724] = S[515]*Train.SA2.Value
BUP.IBDV = S[724]
--13.2. Формирование сигналов безопасности при отключении системы АРС. Страница 30
--РПБ-
S[509] = S[611]*(1-Train.RPB.Value)*(1-Train.SAP24.Value) + T[14]*Train.KRU["514-509"]--15.2
Train:WriteTrainWire(09,S[509])
S[5091] = T[09]*Train.SF26.Value
S[672] = S[316]*Train.SF60.Value
S[615]= S[672]*(Train.SA13.Value+Train.SA15.Value)
S[627] = S[672]*Train.SA15.Value
BKBD.Power75V = S[627]
BKBD.Power12V = S[615]
--13.3 Формирование сигналов безопасности в режиме АРС-Р. Страница 31
S[680] = S[316]*Train.SF52.Value
S[5875] = S[680]*Train.SA14.Value
S[587] = S[5875]*(1-Train.RC.Value)
Train:WriteTrainWire(87,S[587])
S[606] = BKBD.EPKContacts*Train.RC.Value
S[583] = S[606]*(1-Train.SA13.Value)
Train:WriteTrainWire(83,S[583])
Train.U4:TriggerInput("Set",T[83]+S[606])
--14.1. Ходовые режимы основного управления. Страница 32-33
Train.KMR1:TriggerInput("Set",BUV.OVP*(1-Train.KMR2.Value)*S[314])
Train.KMR2:TriggerInput("Set",BUV.ONZ*(1-Train.KMR1.Value)*S[314])
BUV.IRV = S[314]*Train.KMR1.Value
BUV.IRN = S[314]*Train.KMR2.Value
BUV.IRV = S[314]*Train.KMR1.Value
BUV.IRN = S[314]*Train.KMR2.Value
Train.K1:TriggerInput("Set",S[314]*BUV.OLK)
Train.K2:TriggerInput("Set",S[314]*BUV.OKX)
Train.K3:TriggerInput("Set",S[314]*BUV.OKT)
BUV.IKX = Train.K2.Value
BUV.IKT = Train.K3.Value
BUV.ILT = Train.K1.Value
--14.2. Резервное управление ходовыми режимами. Страница 34
S[557] = S[320]*BKCU.KM6
Train:WriteTrainWire(57,S[557])
S[558] = S[320]*BKCU.KM5
Train:WriteTrainWire(58,S[558])
S[3205] = S[516]*(Train.ROT2.Value+Train.ROT1.Value)*Train.SP5.Value
S[555] = S[3205]*(Train.SBR14.Value+Train.SBR15.Value)
Train:WriteTrainWire(55,S[555])
S[556] = S[555]*Train.SBR15.Value
Train:WriteTrainWire(56,S[556])
--14.3. Режим "МАНЕВР". Страница 35
S[513] = S[515]*Train.SB7.Value
Train:WriteTrainWire(13,S[513])
--15. УПРАВЛЕНИЕ СИЛОВЫМ ПРИВОДОМ В ТОРМОЗНЫХ РЕЖИМАХ Страница 36-37
--КТ
--БКБД головного-511-КУВС-БКБД хвостового
S[5092] = S[5091]+T[08]*(1-BUVS.KM3)
BUVS.KM3 = S[314]*BUV.ORMT
BUVS.KM4 = S[314]*BUV.ORKT
Train.U6:TriggerInput("Set",S[5092])
S[5102] = T[10]+Train.SF29.Value*BUV.OV1
Train.U7:TriggerInput("Set",S[5102])
--15.2. Управление от АРС и контроль эффективности торможения. Страница 39
--!!!7.5.4. замкнутыми контакта ми КРУ 514 КРУ → 509 КРУ объединяются цепи команд аварийного торможения ВЗ №2 от БКБД.
S[507] = S[626]*BKBD.Brake
Train:WriteTrainWire(07,S[507])
Train:WriteTrainWire(14,S[507])
--16. ПЕРЕХОД В РЕЖИМ "ВЫБЕГ"
--320Г-SB14/15
S[554] = S[516]*(1-Train.SBR14.Value)*(1-Train.SBR15.Value)
Train:WriteTrainWire(54,S[554])
--17. РЕЖИМЫ РАБОТЫ ЭЛЕКТРИЧЕСКОЙ СХЕМЫ УПРАВЛЕНИЯ ВАГОНА И ЦЕПЕЙ КОНТРОЛЯ
S[527] = S[318]*Train.SB4.Value
Train:WriteTrainWire(27,S[527])
S[523] = BUV.Power*BUV.OSN
Train:WriteTrainWire(23,S[523])
Panel.HL5 = S[318]*T[23]
S[547] = S[515]*Train.SBP22.Value
Train:WriteTrainWire(47,S[547])
--19. УПРАВЛЕНИЕ ОТЖАТИЕМ ТОКОПРИЕМНИКОВ
S[524] = T[50]*((Train.VTPR.Value == 1 or Train.VTPR.Value == 2) and 1 or 0)
S[525] = T[50]*((Train.VTPR.Value == 1 or Train.VTPR.Value == 3) and 1 or 0)
S[559] = Train.VTPR.Value > 0 and 1 or 0
Train:WriteTrainWire(24,S[524])
Train:WriteTrainWire(25,S[525])
Train:WriteTrainWire(59,S[559])
Train.U5:TriggerInput("Set",T[24]*T[59])
--24. УПРАВЛЕНИЕ АППАРАТУРОЙ АРС ПРИ ДВИЖЕНИИ СОСТАВА СО ВСПОМОГАТЕЛЬНЫМ ПОЕЗДОМ
S[574] = S[611]*Train.SAP23.Value
Train:WriteTrainWire(74,S[574])
S[588] = S[611]*Train.SAP14.Value*(1-Train.SAP23.Value)
Train:WriteTrainWire(88,S[588])
--Выдача сигналов БУП на поездные провода
Train:WriteTrainWire(01,BUP.OX)
Train:WriteTrainWire(02,BUP.OT)
Train:WriteTrainWire(03,BUP.OU1)
Train:WriteTrainWire(04,BUP.OU2)
Train:WriteTrainWire(05,BUP.OV)
Train:WriteTrainWire(06,BUP.ON)
Train:WriteTrainWire(08,BUP.OZPT)
Train:WriteTrainWire(45,BUP.O0)
--Передача сигналов с поездных проводов в БУВ
local BUVPower = BUV.Power
BUV.IX = BUVPower*T[01]
BUV.IT = BUVPower*T[02]
BUV.IU1 = BUVPower*T[03]
BUV.IU2 = BUVPower*T[04]
BUV.IVP = BUVPower*T[05]
BUV.INZ = BUVPower*T[06]
BUV.ITARS = BUVPower*T[07]
BUV.ITEM = BUVPower*T[14]
BUV.IM = BUVPower*T[13]
BUV.IVZ = BUVPower*T[26]
BUV.IPROV = BUVPower*T[27]
BUV.IPROV0 = BUVPower*T[47]
BUV.IXP = BUVPower*T[55]
BUV.IU1R = BUVPower*T[56]
BUV.IVR = BUVPower*T[57]
BUV.INR = BUVPower*T[58]
BUV.IAVR = BUVPower*(1-Train.SP3.Value) --737-700 14.3. Режим "МАНЕВР".
--BUV. = BUVPower*Train:ReadTrainWire(45)
self.Schemes = S
end
--------------------------------------------------------------------------------
function TRAIN_SYSTEM:SolvePowerCircuits(Train,dT)
-- Apply K2, K3 contactors
self.R1 = self.R1 + 1e9*(1 - math.min(1,Train.K2.Value+Train.K3.Value))
self.R2 = self.R2 + 1e9*(1 - math.min(1,Train.K2.Value+Train.K3.Value))
-- Thyristor contrller
self.Rs1 = Train.PTTI.RVResistance or 1e9
self.Rs2 = Train.PTTI.RVResistance or 1e9
-- Calculate total resistance of engines winding
local RwAnchor = Train.Engines.Rwa*2 -- Double because each set includes two engines
local RwStator = Train.Engines.Rws*2
-- Total resistance of the stator + shunt
self.Rstator13 = (RwStator^(-1) + self.Rs1^(-1))^(-1)
self.Rstator24 = (RwStator^(-1) + self.Rs2^(-1))^(-1)
-- Total resistance of entire motor
self.Ranchor13 = RwAnchor
self.Ranchor24 = RwAnchor
-- Calculate electric power network
--FIXME
if Train.PTTI.State < 0 then
self:SolvePT(Train)
else
self:SolvePP(Train)
end
-- Calculate current through rheostats 1, 2
self.IR1 = self.I13
self.IR2 = self.I24
-- Calculate induction properties of the motor
self.I13SH = self.I13SH or self.I13
self.I24SH = self.I24SH or self.I24
-- Time constant
local T13const1 = math.max(16.00,math.min(28.0,(self.R13^2) * 2.0)) -- R * L
local T24const1 = math.max(16.00,math.min(28.0,(self.R24^2) * 2.0)) -- R * L
-- Total change
local dI13dT = T13const1 * (self.I13 - self.I13SH) * dT
local dI24dT = T24const1 * (self.I24 - self.I24SH) * dT
-- Limit change and apply it
if dI13dT > 0 then dI13dT = math.min(self.I13 - self.I13SH,dI13dT) end
if dI13dT < 0 then dI13dT = math.max(self.I13 - self.I13SH,dI13dT) end
if dI24dT > 0 then dI24dT = math.min(self.I24 - self.I24SH,dI24dT) end
if dI24dT < 0 then dI24dT = math.max(self.I24 - self.I24SH,dI24dT) end
self.I13SH = self.I13SH + dI13dT
self.I24SH = self.I24SH + dI24dT
self.I13 = self.I13SH
self.I24 = self.I24SH
--FIXME
if Train.PTTI.State > 0 then -- PS
self.I13 = self.I13 * Train.K2.Value * Train.K1.Value
self.I24 = self.I24 * Train.K2.Value * Train.K1.Value
self.Itotal = Train.Electric.I13 + Train.Electric.I24
else -- PT
self.I13 = self.I13 * Train.K3.Value
self.I24 = self.I24 * Train.K3.Value
self.Itotal = Train.Electric.I13 + Train.Electric.I24
end
-- Calculate extra information
self.Uanchor13 = self.I13 * self.Ranchor13
self.Uanchor24 = self.I24 * self.Ranchor24
----------------------------------------------------------------------------
-- Calculate current through stator and shunt
self.Ustator13 = self.I13 * self.Rstator13
self.Ustator24 = self.I24 * self.Rstator24
self.Ishunt13 = self.Ustator13 / self.Rs1
self.Istator13 = self.Ustator13 / RwStator
self.Ishunt24 = self.Ustator24 / self.Rs2
self.Istator24 = self.Ustator24 / RwStator
--FIXME
if Train.PTTI.State < 0 then
local I1,I2 = self.Ishunt13,self.Ishunt24
self.Ishunt13 = -I2
self.Ishunt24 = -I1
I1,I2 = self.Istator13,self.Istator24
self.Istator13 = -I2
self.Istator24 = -I1
end
-- Sane checks
if self.R1 > 1e5 then self.IR1 = 0 end
if self.R2 > 1e5 then self.IR2 = 0 end
-- Calculate power and heating --FIXME
local K = 12.0*1e-5
local H = (10.00+(15.00*Train.Engines.Speed/80.0))*1e-3
self.P1 = (self.IR1^2)*self.R1
self.P2 = (self.IR2^2)*self.R2
self.T1 = (self.T1 + self.P1*K*dT - (self.T1-25)*H*dT)
self.T2 = (self.T2 + self.P2*K*dT - (self.T2-25)*H*dT)
self.Overheat1 = math.min(1-1e-12,
self.Overheat1 + math.max(0,(math.max(0,self.T1-750.0)/400.0)^2)*dT )
self.Overheat2 = math.min(1-1e-12,
self.Overheat2 + math.max(0,(math.max(0,self.T2-750.0)/400.0)^2)*dT )
-- Energy consumption
self.ElectricEnergyUsed = self.ElectricEnergyUsed + math.max(0,self.EnergyChange)*dT
self.ElectricEnergyDissipated = self.ElectricEnergyDissipated + math.max(0,-self.EnergyChange)*dT
end
function TRAIN_SYSTEM:SolvePP(Train)
-- Calculate total resistance of each branch
local R1 = self.Ranchor13 + self.Rstator13
local R2 = self.Ranchor13 + self.Rstator13
local CircuitClosed = (self.Power750V*Train.K1.Value > 0) and 1 or 0
-- Main circuit parameters
local V = self.Power750V*Train.K1.Value*Train.PTTI.RNState
local E1 = Train.Engines.E13
local E2 = Train.Engines.E24
-- Calculate current through engines 13, 24
self.I13 = math.max(0,((V - E1)/R1)*CircuitClosed)
self.I24 = math.max(0,((V - E2)/R2)*CircuitClosed)
-- Total resistance (for induction RL circuit)
self.R13 = R1
self.R24 = R2
-- Calculate everything else
self.U13 = self.I13*R1
self.U24 = self.I24*R2
self.Utotal = (self.U13 + self.U24)/2
self.Itotal = Train.Electric.I13 + Train.Electric.I24
-- Energy consumption
self.EnergyChange = math.abs((self.I13^2)*R1) + math.abs((self.I24^2)*R2)
end
function TRAIN_SYSTEM:SolvePT(Train)
-- Winding resistances
local R1 = self.Ranchor13 + self.Rstator13
local R2 = self.Ranchor24 + self.Rstator24
-- Total resistance of the entire braking rheostat
local R3 = --[[ (1.730+0.4)*--]] 2.5*(1-0.84*Train.PTTI.RNState)
-- Main circuit parameters
local V = self.Power750V*Train.K1.Value
local E1 = Train.Engines.E13
local E2 = Train.Engines.E24
-- Calculate current through engines 13, 24
self.I13 = -((E1*R2 + E1*R3 - E2*R3 - R2*V)/(R1*R2 + R1*R3 + R2*R3))
self.I24 = -((E2*R1 - E1*R3 + E2*R3 - R1*V)/(R1*R2 + R1*R3 + R2*R3))
-- Total resistance (for induction RL circuit)
self.R13 = R3+((R1^(-1) + R2^(-1))^(-1))
self.R24 = R3+((R1^(-1) + R2^(-1))^(-1))
-- Calculate everything else
self.U13 = self.I13*R1
self.U24 = self.I24*R2
self.Utotal = (self.U13 + self.U24)/2
self.Itotal = Train.Electric.I13 + Train.Electric.I24
-- Energy consumption
self.EnergyChange = -math.abs(((0.5*self.Itotal)^2)*self.R13)
end