GVL.stPLCtoPMC.PG3_Pressure ); GasAnalogRead[251]( // PG/PS4 NH3-2 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW251 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG4_Pressure ); GasAnalogRead[252]( // PG/PS5 SiH4 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW252 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG5_Pressure ); GasAnalogRead[253]( // PG/PS6 N2-2 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW253 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG6_Pressure ); GasAnalogRead[254]( // PG/PS7 NF3 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW254 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG7_Pressure ); GasAnalogRead[255]( // PG/PS8 20%F2/N2 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW255 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG8_Pressure ); GasAnalogRead[256]( // PG/PS31 N2-10 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW256 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG31_Pressure ); GasAnalogRead[257]( // PG/PS32 N2-11 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW257 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG32_Pressure ); GasAnalogRead[258]( // VG31 tank-1 backward pipe pressure (0~100torr) AnalogRdValue_In_Int:= stGBI.IW258 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 100 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.VG31_Pressure ); GasAnalogRead[259]( // PG/PS2 HCL pressure AnalogRdValue_In_Int:= stGBI.IW259 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.OX_Value ); GasAnalogRead[260]( // PS11 N2-8 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW260 , AnalogResMin_In_Int:= 1996 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PS11_Pressure ); GasAnalogRead[261]( // PG/PS1 N2-1 in pipe pressure AnalogRdValue_In_Int:= stGBI.IW261 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG1_Pressure ); GasAnalogRead[262]( // MS2 gas box(左) exhaust pressure AnalogRdValue_In_Int:= stGBI.IW262 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS2_Gasboxleft ); GasAnalogRead[263]( // MS5 loading area exhaust pressure AnalogRdValue_In_Int:= stGBI.IW263 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS5_Loadingarea ); //O2 Range judgment IF NOT stGBI.I201_13 AND stGBI.I201_14 AND stGBI.I201_15 THEN rO2Range := 1000000 ; // O2 range 0~100% END_IF IF stGBI.I201_13 AND NOT stGBI.I201_14 AND stGBI.I201_15 THEN rO2Range := 100000 ; // O2 range 0~10% END_IF IF NOT stGBI.I201_13 AND NOT stGBI.I201_14 AND stGBI.I201_15 THEN rO2Range := 10000 ; // O2 range 0~1% END_IF IF stGBI.I201_13 AND stGBI.I201_14 AND NOT stGBI.I201_15 THEN rO2Range := 1000 ; // O2 range 0~1000ppm END_IF IF NOT stGBI.I201_13 AND stGBI.I201_14 AND NOT stGBI.I201_15 THEN rO2Range := 100 ; // O2 range 0~100ppm END_IF IF stGBI.I201_13 AND NOT stGBI.I201_14 AND NOT stGBI.I201_15 THEN rO2Range := 10 ; // O2 range 0~10ppm END_IF GasAnalogRead[264]( // O2 concention AnalogRdValue_In_Int:= stGBI.IW264 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= rO2Range , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.OX_Value ); GasAnalogRead[265]( // spare AnalogRdValue_In_Int:= stGBI.IW265 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); GasAnalogRead[266]( // PG/PS21 Tank-1 forward pipe pressure AnalogRdValue_In_Int:= stGBI.IW266 , AnalogResMin_In_Int:= 3277 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= -100 , AnalogPhyMax_In_Real:= 300 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG21_Pressure ); GasAnalogRead[267]( // PG/PS22 Tank-2 forward pipe pressure AnalogRdValue_In_Int:= stGBI.IW267 , AnalogResMin_In_Int:= 3277 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= -100 , AnalogPhyMax_In_Real:= 300 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG22_Pressure ); GasAnalogRead[268]( // PG/PS23 Tank-3 forward pipe pressure AnalogRdValue_In_Int:= stGBI.IW268 , AnalogResMin_In_Int:= 3277 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= -100 , AnalogPhyMax_In_Real:= 300 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG23_Pressure ); GasAnalogRead[269]( // PS33 LSC tank pressure AnalogRdValue_In_Int:= stGBI.IW269 , AnalogResMin_In_Int:= 3277 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= -100 , AnalogPhyMax_In_Real:= 500 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PS33_Pressure ); ExhAnalogRead[300]( // FS105 RHC cooling water flow AnalogRdValue_In_Int:= stEXHI.IW300 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 40 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.FS105_Flow ); ExhAnalogRead[301]( // FS106 Heater jacket cooling water flow AnalogRdValue_In_Int:= stEXHI.IW301 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 16 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.FS106_Flow ); ExhAnalogRead[302]( // FS202 Furnace cooling water flow AnalogRdValue_In_Int:= stEXHI.IW302 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 16 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.FS202_Flow ); ExhAnalogRead[303]( // FS104 Shutter cooling water flow AnalogRdValue_In_Int:= stEXHI.IW303 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 4 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.FS104_Flow ); ExhAnalogRead[304]( // FS111 boat rotation cooling water flow AnalogRdValue_In_Int:= stEXHI.IW304 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 4 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.FS111_Flow ); ExhAnalogRead[305]( // FS102 Flange cooling water flow AnalogRdValue_In_Int:= stEXHI.IW305 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 4 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.FS102_Flow ); ExhAnalogRead[306]( // spare AnalogRdValue_In_Int:= stEXHI.IW306 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[307]( // spare AnalogRdValue_In_Int:= stEXHI.IW307 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[308]( // DG1 tube and loading area differential pressure AnalogRdValue_In_Int:= stEXHI.IW308 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -300 , AnalogPhyMax_In_Real:= 300 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.DG1_Pressure ); ExhAnalogRead[309]( // spare AnalogRdValue_In_Int:= stEXHI.IW309 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[310]( // spare AnalogRdValue_In_Int:= stEXHI.IW310 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[311]( // FS116 Cooling unit flow AnalogRdValue_In_Int:= stEXHI.IW311 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 16 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.FS116_Flow ); ExhAnalogRead[312]( // PS13 pressure AnalogRdValue_In_Int:= stEXHI.IW312 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 98.1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PS13_Pressure ); ExhAnalogRead[313]( // spare AnalogRdValue_In_Int:= stEXHI.IW313 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[314]( // spare AnalogRdValue_In_Int:= stEXHI.IW314 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[315]( // spare AnalogRdValue_In_Int:= stEXHI.IW315 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[316]( // spare AnalogRdValue_In_Int:= stEXHI.IW316 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[317]( // spare AnalogRdValue_In_Int:= stEXHI.IW317 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[318]( // PS21 N2-13 in pipe pressure 0.6~5V AnalogRdValue_In_Int:= stEXHI.IW318 , AnalogResMin_In_Int:= 3276 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PS21_Pressure ); ExhAnalogRead[319]( // PS110 exhaust pressure AnalogRdValue_In_Int:= stEXHI.IW319 , AnalogResMin_In_Int:= 3276 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= -100 , AnalogPhyMax_In_Real:= 100 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PS110_Pressure ); ExhAnalogRead[320]( // PG/PS12 N2-9 in pipe pressure AnalogRdValue_In_Int:= stEXHI.IW320 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= -0.1 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PG12_Pressure ); ExhAnalogRead[321]( // VG14 pressure AnalogRdValue_In_Int:= stEXHI.IW321 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 10 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.VG14_Pressure ); ExhAnalogRead[322]( // PS14 pressure AnalogRdValue_In_Int:= stEXHI.IW322 , AnalogResMin_In_Int:= 3276 , AnalogResMax_In_Int:= 16383 , AnalogPhyMin_In_Real:= -100 , AnalogPhyMax_In_Real:= 100 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.PS14_Pressure ); ExhAnalogRead[323]( // spare AnalogRdValue_In_Int:= stEXHI.IW323 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[324]( // spare AnalogRdValue_In_Int:= stEXHI.IW324 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[325]( // spare AnalogRdValue_In_Int:= stEXHI.IW325 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[326]( // spare AnalogRdValue_In_Int:= stEXHI.IW326 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[327]( // spare AnalogRdValue_In_Int:= stEXHI.IW327 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[328]( // spare AnalogRdValue_In_Int:= stEXHI.IW328 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[329]( // spare AnalogRdValue_In_Int:= stEXHI.IW329 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[330]( // spare AnalogRdValue_In_Int:= stEXHI.IW330 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[331]( // spare AnalogRdValue_In_Int:= stEXHI.IW331 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[332]( // spare AnalogRdValue_In_Int:= stEXHI.IW332 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[333]( // spare AnalogRdValue_In_Int:= stEXHI.IW333 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[334]( // spare AnalogRdValue_In_Int:= stEXHI.IW334 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); ExhAnalogRead[335]( // spare AnalogRdValue_In_Int:= stEXHI.IW335 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 1 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> ); OpAnalogRead[600]( // MS8 RHC exhaust pressure AnalogRdValue_In_Int:= stOPI.IW600 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 2 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS8_RHC_ExhPress ); OpAnalogRead[601]( // MS1 Heater exhaust pressure AnalogRdValue_In_Int:= stOPI.IW601 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS1_Heater ); OpAnalogRead[602]( // MS3 Scavenger exhaust pressure AnalogRdValue_In_Int:= stOPI.IW602 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS3_Scavenger ); OpAnalogRead[603]( // MS6 Frontbody exhaust pressure AnalogRdValue_In_Int:= stOPI.IW603 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS6_Frontbody ); OpAnalogRead[604]( // MS9 LSC1 exhaust pressure AnalogRdValue_In_Int:= stOPI.IW604 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS9_LSC1 ); OpAnalogRead[605]( // MS11 Gas box(右上) exhaust pressure AnalogRdValue_In_Int:= stOPI.IW605 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS11_GasBox ); OpAnalogRead[606]( // MS12 Gas box(右下) exhaust pressure AnalogRdValue_In_Int:= stOPI.IW606 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> GVL.stPLCtoPMC.MS12_GasBox ); OpAnalogRead[607]( // spare AnalogRdValue_In_Int:= stOPI.IW607 , AnalogResMin_In_Int:= 0 , AnalogResMax_In_Int:= 32767 , AnalogPhyMin_In_Real:= 0 , AnalogPhyMax_In_Real:= 200 , AnalogRdOffset_In_Real:= , ActRdValue_Out_Real=> );]]> 80 ) (*stEXHQ. Q300_00*) ; EXH_EL2889[1,1] := FALSE(*NOT GVL.stPMCtoPLC.WAT_F_sw OR ( ( GVL.stPMCtoPLC.Inlet_Ht_1_temp > 200) OR ( GVL.stPMCtoPLC.Inlet_Ht_2_temp > 200) OR ( GVL.stPMCtoPLC.Port_Ht_1_temp > 200) OR ( GVL.stPMCtoPLC.Port_Ht_2_temp > 200) OR ( GVL.stPMCtoPLC.Port_Ht_3_temp > 200) OR ( GVL.stPMCtoPLC.Port_Ht_4_temp > 200) OR ( GVL.stPMCtoPLC.Port_Ht_5_temp > 200) )*)(*stEXHQ. Q300_01*) ; EXH_EL2889[1,2] := stEXHQ. Q300_02 ; EXH_EL2889[1,3] := stEXHQ. Q300_03 ; EXH_EL2889[1,4] := stEXHQ. Q300_04 ; EXH_EL2889[1,5] := stEXHQ. Q300_05 ; EXH_EL2889[1,6] := stEXHQ. Q300_06 ; EXH_EL2889[1,7] := stEXHQ. Q300_07 ; EXH_EL2889[1,8] := TRUE(*stEXHQ. Q300_08*) ; EXH_EL2889[1,9] := GVL.stPMCtoPLC.I103_00(*stEXHQ. Q300_09*) ; EXH_EL2889[1,10] := TRUE(*stEXHQ. Q300_10*) ; EXH_EL2889[1,11] := stEXHQ. Q300_11 ; EXH_EL2889[1,12] := stEXHQ. Q300_12 ; EXH_EL2889[1,13] := stEXHQ. Q300_13 ; EXH_EL2889[1,14] := stEXHQ. Q300_14 ; EXH_EL2889[1,15] := stEXHQ. Q300_15 ; EXH_EV := stEXHQ.QEV ;]]> aAV[1] ); AV[2] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[2], bValveInterlock_In := aILK_AV[2] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[2] , bValveOpen_Out => aAV[2] ); AV[3] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[3], bValveInterlock_In := aILK_AV[3] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[3] , bValveOpen_Out => aAV[3] ); AV[4] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[4], bValveInterlock_In := aILK_AV[4] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[4] , bValveOpen_Out => aAV[4] ); AV[5] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[5], bValveInterlock_In := aILK_AV[5] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[5] , bValveOpen_Out => aAV[5] ); AV[6] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[6], bValveInterlock_In := aILK_AV[6] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[6] , bValveOpen_Out => aAV[6] ); AV[7] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[7], bValveInterlock_In := aILK_AV[7] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[7] , bValveOpen_Out => aAV[7] ); AV[8] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[8], bValveInterlock_In := aILK_AV[8] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[8] , bValveOpen_Out => aAV[8] ); AV[9] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[9], bValveInterlock_In := aILK_AV[9] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[9] , bValveOpen_Out => aAV[9] ); AV[10] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[10], bValveInterlock_In := aILK_AV[10] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[10] , bValveOpen_Out => aAV[10] ); AV[11] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[11], bValveInterlock_In := aILK_AV[11] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[11] , bValveOpen_Out => aAV[11] ); AV[12] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[12], bValveInterlock_In := aILK_AV[12] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[12] , bValveOpen_Out => aAV[12] ); AV[13] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[13], bValveInterlock_In := aILK_AV[13] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[13] , bValveOpen_Out => aAV[13] ); AV[14] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[14], bValveInterlock_In := aILK_AV[14] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[14] , bValveOpen_Out => aAV[14] ); AV[15] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[15], bValveInterlock_In := aILK_AV[15] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[15] , bValveOpen_Out => aAV[15] ); AV[16] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[16], bValveInterlock_In := aILK_AV[16] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[16] , bValveOpen_Out => aAV[16] ); AV[17] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[17], bValveInterlock_In := aILK_AV[17] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[17] , bValveOpen_Out => aAV[17] ); AV[18] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[18], bValveInterlock_In := aILK_AV[18] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[18] , bValveOpen_Out => aAV[18] ); AV[19] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[19], bValveInterlock_In := aILK_AV[19] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[19] , bValveOpen_Out => aAV[19] ); AV[20] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[20], bValveInterlock_In := aILK_AV[20] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[20] , bValveOpen_Out => aAV[20] ); AV[21] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[21], bValveInterlock_In := aILK_AV[21] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[21] , bValveOpen_Out => aAV[21] ); AV[22] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[22], bValveInterlock_In := aILK_AV[22] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[22] , bValveOpen_Out => aAV[22] ); AV[23] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[23], bValveInterlock_In := aILK_AV[23] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[23] , bValveOpen_Out => aAV[23] ); AV[24] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[24], bValveInterlock_In := aILK_AV[24] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[24] , bValveOpen_Out => aAV[24] ); AV[25] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[25], bValveInterlock_In := aILK_AV[25] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[25] , bValveOpen_Out => aAV[25] ); AV[26] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[26], bValveInterlock_In := aILK_AV[26] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[26] , bValveOpen_Out => aAV[26] ); AV[27] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[27], bValveInterlock_In := aILK_AV[27] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[27] , bValveOpen_Out => aAV[27] ); AV[28] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[28], bValveInterlock_In := aILK_AV[28] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[28] , bValveOpen_Out => aAV[28] ); AV[29] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[29], bValveInterlock_In := aILK_AV[29] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[29] , bValveOpen_Out => aAV[29] ); AV[30] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[30], bValveInterlock_In := aILK_AV[30] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[30] , bValveOpen_Out => aAV[30] ); AV[31] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[31], bValveInterlock_In := aILK_AV[31] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[31] , bValveOpen_Out => aAV[31] ); AV[32] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[32], bValveInterlock_In := aILK_AV[32] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[32] , bValveOpen_Out => aAV[32] ); AV[33] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[33], bValveInterlock_In := aILK_AV[33] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[33] , bValveOpen_Out => aAV[33] ); AV[34] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[34], bValveInterlock_In := aILK_AV[34] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[34] , bValveOpen_Out => aAV[34] ); AV[35] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[35], bValveInterlock_In := aILK_AV[35] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[35] , bValveOpen_Out => aAV[35] ); AV[36] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[36], bValveInterlock_In := aILK_AV[36] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[36] , bValveOpen_Out => aAV[36] ); AV[37] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[37], bValveInterlock_In := aILK_AV[37] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[37] , bValveOpen_Out => aAV[37] ); AV[38] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[38], bValveInterlock_In := aILK_AV[38] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[38] , bValveOpen_Out => aAV[38] ); AV[39] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[39], bValveInterlock_In := aILK_AV[39] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[39] , bValveOpen_Out => aAV[39] ); AV[40] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[40], bValveInterlock_In := aILK_AV[40] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[40] , bValveOpen_Out => aAV[40] ); AV[41] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[41], bValveInterlock_In := aILK_AV[41] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[41] , bValveOpen_Out => aAV[41] ); AV[42] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[42], bValveInterlock_In := aILK_AV[42] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[42] , bValveOpen_Out => aAV[42] ); AV[43] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[43], bValveInterlock_In := aILK_AV[43] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[43] , bValveOpen_Out => aAV[43] ); AV[44] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[44], bValveInterlock_In := aILK_AV[44] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[44] , bValveOpen_Out => aAV[44] ); AV[45] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[45], bValveInterlock_In := aILK_AV[45] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[45] , bValveOpen_Out => aAV[45] ); AV[46] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[46], bValveInterlock_In := aILK_AV[46] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[46] , bValveOpen_Out => aAV[46] ); AV[47] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[47], bValveInterlock_In := aILK_AV[47] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[47] , bValveOpen_Out => aAV[47] ); AV[48] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[48], bValveInterlock_In := aILK_AV[48] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[48] , bValveOpen_Out => aAV[48] ); AV[49] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[49], bValveInterlock_In := aILK_AV[49] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[49] , bValveOpen_Out => aAV[49] ); AV[50] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[50], bValveInterlock_In := aILK_AV[50] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[50] , bValveOpen_Out => aAV[50] ); AV[51] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[51], bValveInterlock_In := aILK_AV[51] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[51] , bValveOpen_Out => aAV[51] ); AV[52] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[52], bValveInterlock_In := aILK_AV[52] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[52] , bValveOpen_Out => aAV[52] ); AV[53] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[53], bValveInterlock_In := aILK_AV[53] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[53] , bValveOpen_Out => aAV[53] ); AV[54] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[54], bValveInterlock_In := aILK_AV[54] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[54] , bValveOpen_Out => aAV[54] ); AV[55] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[55], bValveInterlock_In := aILK_AV[55] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[55] , bValveOpen_Out => aAV[55] ); AV[56] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[56], bValveInterlock_In := aILK_AV[56] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[56] , bValveOpen_Out => aAV[56] ); AV[57] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[57], bValveInterlock_In := aILK_AV[57] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[57] , bValveOpen_Out => aAV[57] ); AV[58] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[58], bValveInterlock_In := aILK_AV[58] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[58] , bValveOpen_Out => aAV[58] ); AV[59] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[59], bValveInterlock_In := aILK_AV[59] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[59] , bValveOpen_Out => aAV[59] ); AV[60] //auto valve ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[60], bValveInterlock_In := aILK_AV[60] , bPMCCtrl_In := TRUE(*GVL.stPMCtoPLC.aAV[60]*) , bValveOpen_Out => aAV[60] ); AV[61] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[61], bValveInterlock_In := aILK_AV[61] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[61] , bValveOpen_Out => aAV[61] ); AV[62] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[62], bValveInterlock_In := aILK_AV[62] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[62] , bValveOpen_Out => aAV[62] ); AV[63] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[63], bValveInterlock_In := aILK_AV[63] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[63] , bValveOpen_Out => aAV[63] ); AV[64] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[64], bValveInterlock_In := aILK_AV[64] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[64] , bValveOpen_Out => aAV[64] ); (*AV[65] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[65], bValveInterlock_In := aILK_AV[65] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[65] , bValveOpen_Out => aAV[65] ); *) AV65Open ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV65Open, bValveInterlock_In := aILK_AV[65] , bPMCCtrl_In := GVL.stPMCtoPLC.bAV65Open , bValveOpen_Out => GVL.bAV65Open ); AV65Close ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV65Close, bValveInterlock_In := aILK_AV[65] , bPMCCtrl_In := GVL.stPMCtoPLC.bAV65Close , bValveOpen_Out => GVL.bAV65Close ); AV[66] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[66], bValveInterlock_In := aILK_AV[66] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[66] , bValveOpen_Out => aAV[66] ); AV[67] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[67], bValveInterlock_In := aILK_AV[67] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[67] , bValveOpen_Out => aAV[67] ); AV[68] // auto valve ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[68], bValveInterlock_In := aILK_AV[68] , bPMCCtrl_In := TRUE(*GVL.stPMCtoPLC.aAV[68]*) , bValveOpen_Out => aAV[68] ); AV[69] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[69], bValveInterlock_In := aILK_AV[69] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[69] , bValveOpen_Out => aAV[69] ); AV[70] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[70], bValveInterlock_In := aILK_AV[70] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[70] , bValveOpen_Out => aAV[70] ); AV[71] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[71], bValveInterlock_In := aILK_AV[71] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[71] , bValveOpen_Out => aAV[71] ); AV[72] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[72], bValveInterlock_In := aILK_AV[72] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[72] , bValveOpen_Out => aAV[72] ); AV[73] // auto valve ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[73], bValveInterlock_In := aILK_AV[73] , bPMCCtrl_In := TRUE(*GVL.stPMCtoPLC.aAV[73]*) , bValveOpen_Out => aAV[73] ); AV[74] // auto valve ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[74], bValveInterlock_In := aILK_AV[74] , bPMCCtrl_In := TRUE(*GVL.stPMCtoPLC.aAV[74]*) , bValveOpen_Out => aAV[74] ); AV[75] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[75], bValveInterlock_In := aILK_AV[75] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[75] , bValveOpen_Out => aAV[75] ); AV[76] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[76], bValveInterlock_In := aILK_AV[76] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[76] , bValveOpen_Out => aAV[76] ); AV[77] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[77], bValveInterlock_In := aILK_AV[77] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[77] , bValveOpen_Out => aAV[77] ); AV[78] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[78], bValveInterlock_In := aILK_AV[78] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[78] , bValveOpen_Out => aAV[78] ); AV79Open ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV79Open, bValveInterlock_In := aILK_AV[79] , bPMCCtrl_In := GVL.stPMCtoPLC.bAV79Open , bValveOpen_Out => GVL.bAV79Open ); AV79Close ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV79Close, bValveInterlock_In := aILK_AV[79] , bPMCCtrl_In := GVL.stPMCtoPLC.bAV79Close , bValveOpen_Out => GVL.bAV79Close ); (*AV[79] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[79], bValveInterlock_In := aILK_AV[79] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[79] , bValveOpen_Out => aAV[79] ); *) AV[80] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[80], bValveInterlock_In := aILK_AV[80] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[80] , bValveOpen_Out => aAV[80] ); AV[81] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[81], bValveInterlock_In := aILK_AV[81] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[81] , bValveOpen_Out => aAV[81] ); AV[82] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[82], bValveInterlock_In := aILK_AV[82] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[82] , bValveOpen_Out => aAV[82] ); AV[83] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[83], bValveInterlock_In := aILK_AV[83] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[83] , bValveOpen_Out => aAV[83] ); AV[84] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[84], bValveInterlock_In := aILK_AV[84] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[84] , bValveOpen_Out => aAV[84] ); AV[85] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[85], bValveInterlock_In := aILK_AV[85] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[85] , bValveOpen_Out => aAV[85] ); AV[86] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[86], bValveInterlock_In := aILK_AV[86] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[86] , bValveOpen_Out => aAV[86] ); AV[87] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[87], bValveInterlock_In := aILK_AV[87] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[87] , bValveOpen_Out => aAV[87] ); AV[88] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[88], bValveInterlock_In := aILK_AV[88] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[88] , bValveOpen_Out => aAV[88] ); AV[89] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[89], bValveInterlock_In := aILK_AV[89] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[89] , bValveOpen_Out => aAV[89] ); AV[90] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[90], bValveInterlock_In := aILK_AV[90] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[90] , bValveOpen_Out => aAV[90] ); (*AV[91] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[91], bValveInterlock_In := aILK_AV[91] , bPMCCtrl_In := FALSE , bValveOpen_Out => aAV[91] ); *) AV91Open ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV91Open, bValveInterlock_In := TRUE(*aILK_AV[91]*) , bPMCCtrl_In := GVL.stPMCtoPLC.bAV91Open , bValveOpen_Out => GVL.bAV91Open ); AV91Close ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV91Close, bValveInterlock_In := TRUE(*aILK_AV[91]*) , bPMCCtrl_In := GVL.stPMCtoPLC.bAV91Close , bValveOpen_Out => GVL.bAV91Close ); AV[92] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[92], bValveInterlock_In := aILK_AV[92] , bPMCCtrl_In := TRUE , bValveOpen_Out => aAV[92] ); AV[93] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[93], bValveInterlock_In := aILK_AV[93] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[93] , bValveOpen_Out => aAV[93] ); AV[94] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[94], bValveInterlock_In := aILK_AV[94] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[94] , bValveOpen_Out => aAV[94] ); AV[95] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[95], bValveInterlock_In := aILK_AV[95] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[95] , bValveOpen_Out => aAV[95] ); AV[96] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[96], bValveInterlock_In := aILK_AV[96] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[96] , bValveOpen_Out => aAV[96] ); AV[97] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[97], bValveInterlock_In := aILK_AV[97] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[97] , bValveOpen_Out => aAV[97] ); AV[98] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[98], bValveInterlock_In := aILK_AV[98] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[98] , bValveOpen_Out => aAV[98] ); AV[99] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[99], bValveInterlock_In := aILK_AV[99] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[99] , bValveOpen_Out => aAV[99] ); AV[100] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[100], bValveInterlock_In := aILK_AV[100] , bPMCCtrl_In := NOT GVL.stPMCtoPLC.T_MNT_sw OR ( GVL.stPMCtoPLC.T_MNT_sw AND GVL.stPMCtoPLC.T_REF_sw AND GVL.stPMCtoPLC.aAV[100] )(*GVL.stPMCtoPLC.aAV[100]*) , bValveOpen_Out => aAV[100] ); AV[101] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[101], bValveInterlock_In := aILK_AV[101] , bPMCCtrl_In := NOT GVL.stPMCtoPLC.T_MNT_sw OR ( GVL.stPMCtoPLC.T_MNT_sw AND GVL.stPMCtoPLC.T_REF_sw AND GVL.stPMCtoPLC.aAV[101] )(*GVL.stPMCtoPLC.aAV[101]*) , bValveOpen_Out => aAV[101] ); AV[102] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[102], bValveInterlock_In := aILK_AV[102] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[102] , bValveOpen_Out => aAV[102] ); AV[103] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[103], bValveInterlock_In := aILK_AV[103] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[103] , bValveOpen_Out => aAV[103] ); AV[104] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[104], bValveInterlock_In := aILK_AV[104] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[104] , bValveOpen_Out => aAV[104] ); AV[105] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[105], bValveInterlock_In := aILK_AV[105] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[105] , bValveOpen_Out => aAV[105] ); AV[106] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[106], bValveInterlock_In := aILK_AV[106] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[106] , bValveOpen_Out => aAV[106] ); AV[107] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[107], bValveInterlock_In := aILK_AV[107] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[107] , bValveOpen_Out => aAV[107] ); AV[108] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[108], bValveInterlock_In := aILK_AV[108] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[108] , bValveOpen_Out => aAV[108] ); AV[109] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[109], bValveInterlock_In := aILK_AV[109] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[109] , bValveOpen_Out => aAV[109] ); AV[110] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[110], bValveInterlock_In := aILK_AV[110] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[110] , bValveOpen_Out => aAV[110] ); AV[111] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[111], bValveInterlock_In := aILK_AV[111] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[111] , bValveOpen_Out => aAV[111] ); AV[112] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[112], bValveInterlock_In := aILK_AV[112] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[112] , bValveOpen_Out => aAV[112] ); AV[113] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[113], bValveInterlock_In := aILK_AV[113] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[113] , bValveOpen_Out => aAV[113] ); AV[114] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[114], bValveInterlock_In := aILK_AV[114] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[114] , bValveOpen_Out => aAV[114] ); AV[115] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[115], bValveInterlock_In := aILK_AV[115] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[115] , bValveOpen_Out => aAV[115] ); AV[116] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[116], bValveInterlock_In := aILK_AV[116] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[116] , bValveOpen_Out => aAV[116] ); AV[117] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[117], bValveInterlock_In := aILK_AV[117] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[117] , bValveOpen_Out => aAV[117] ); AV[118] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[118], bValveInterlock_In := aILK_AV[118] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[118] , bValveOpen_Out => aAV[118] ); AV[119] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[119], bValveInterlock_In := aILK_AV[119] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[119] , bValveOpen_Out => aAV[119] ); AV[120] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[120], bValveInterlock_In := aILK_AV[120] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[120] , bValveOpen_Out => aAV[120] ); AV[121] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[121], bValveInterlock_In := aILK_AV[121] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[121] , bValveOpen_Out => aAV[121] ); AV[122] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[122], bValveInterlock_In := aILK_AV[122] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[122] , bValveOpen_Out => aAV[122] ); AV[123] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[123], bValveInterlock_In := aILK_AV[123] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[123] , bValveOpen_Out => aAV[123] ); AV[124] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[124], bValveInterlock_In := aILK_AV[124] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[124] , bValveOpen_Out => aAV[124] ); AV[125] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[125], bValveInterlock_In := aILK_AV[125] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[125] , bValveOpen_Out => aAV[125] ); AV[126] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[126], bValveInterlock_In := aILK_AV[126] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[126] , bValveOpen_Out => aAV[126] ); AV[127] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[127], bValveInterlock_In := aILK_AV[127] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[127] , bValveOpen_Out => aAV[127] ); AV[128] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[128], bValveInterlock_In := aILK_AV[128] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[128] , bValveOpen_Out => aAV[128] ); AV[129] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[129], bValveInterlock_In := aILK_AV[129] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[129] , bValveOpen_Out => aAV[129] ); AV[130] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[130], bValveInterlock_In := aILK_AV[130] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[130] , bValveOpen_Out => aAV[130] ); AV[131] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[131], bValveInterlock_In := aILK_AV[131] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[131] , bValveOpen_Out => aAV[131] ); AV[132] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[132], bValveInterlock_In := aILK_AV[132] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[132] , bValveOpen_Out => aAV[132] ); AV[133] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[133], bValveInterlock_In := aILK_AV[133] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[133] , bValveOpen_Out => aAV[133] ); AV[134] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[134], bValveInterlock_In := aILK_AV[134] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[134] , bValveOpen_Out => aAV[134] ); AV[135] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[135], bValveInterlock_In := aILK_AV[135] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[135] , bValveOpen_Out => aAV[135] ); AV[136] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[136], bValveInterlock_In := aILK_AV[136] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[136] , bValveOpen_Out => aAV[136] ); AV[137] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[137], bValveInterlock_In := aILK_AV[137] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[137] , bValveOpen_Out => aAV[137] ); AV[138] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[138], bValveInterlock_In := aILK_AV[138] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[138] , bValveOpen_Out => aAV[138] ); AV[139] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[139], bValveInterlock_In := aILK_AV[139] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[139] , bValveOpen_Out => aAV[139] ); AV[140] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[140], bValveInterlock_In := aILK_AV[140] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[140] , bValveOpen_Out => aAV[140] ); AV[141] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[141], bValveInterlock_In := aILK_AV[141] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[141] , bValveOpen_Out => aAV[141] ); AV[142] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[142], bValveInterlock_In := aILK_AV[142] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[142] , bValveOpen_Out => aAV[142] ); AV[143] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[143], bValveInterlock_In := aILK_AV[143] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[143] , bValveOpen_Out => aAV[143] ); AV[144] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[144], bValveInterlock_In := aILK_AV[144] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[144] , bValveOpen_Out => aAV[144] ); AV[145] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[145], bValveInterlock_In := aILK_AV[145] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[145] , bValveOpen_Out => aAV[145] ); AV[146] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[146], bValveInterlock_In := aILK_AV[146] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[146] , bValveOpen_Out => aAV[146] ); AV[147] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[147], bValveInterlock_In := aILK_AV[147] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[147] , bValveOpen_Out => aAV[147] ); AV[148] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[148], bValveInterlock_In := aILK_AV[148] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[148] , bValveOpen_Out => aAV[148] ); AV[149] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[149], bValveInterlock_In := aILK_AV[149] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[149] , bValveOpen_Out => aAV[149] ); AV[150] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[150], bValveInterlock_In := aILK_AV[150] , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[150] , bValveOpen_Out => aAV[150] ); (*AV[202] ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := aForceOpValve[150], bValveInterlock_In := TRUE(*aILK_AV[202]*) , bPMCCtrl_In := GVL.stPMCtoPLC.aAV[202] , bValveOpen_Out => aAV[202] ); *) AV202Open ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV202Open, bValveInterlock_In := aILK_AV[202] , bPMCCtrl_In := GVL.stPMCtoPLC.bAV202Open , bValveOpen_Out => GVL.bAV202Open ); AV202Close ( bValveEnable_In := TRUE , bInterlock1_In := bEMOStatus , bInterlock2_In := TRUE , bInterlock3_In := TRUE , bInterlock4_In := TRUE , bInterlock5_In := TRUE , bForceOpen_In := bForceAV202Close, bValveInterlock_In := aILK_AV[202] , bPMCCtrl_In := GVL.stPMCtoPLC.bAV202Close , bValveOpen_Out => GVL.bAV202Close ); ]]>