VAR_GLOBAL
// ST_Volume
st_GMD : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
st_EM1K0_GMD_VRC_10_VOL : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
st_RoughingLine : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
st_EM1K0_GMD_VRC_20_VOL : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
st_EM1K0_GMD_VRC_30_VOL : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
st_EM1K0_GMD_VRC_50_VOL : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
st_EM1K0_GMD_VRC_60_VOL : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
st_EM1K0_GMD_VRC_70_VOL : ST_Volume := (rVolume := 1E3, rPressure := Global_Pressure, rVLeak := Global_Leak);
// ST_MKS_275
st_EM1K0_GMD_GPI_10 : ST_MKS_275 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GPI_40 : ST_MKS_275 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GPI_70 : ST_MKS_275 := (q_xGaugeConnected := TRUE);
// FB_MKS_275
fb_EM1K0_GMD_GPI_10 : FB_MKS_275;
fb_EM1K0_GMD_GPI_40 : FB_MKS_275;
fb_EM1K0_GMD_GPI_70 : FB_MKS_275;
// ST_MechPump
st_EM1K0_GMD_PTM_10 : ST_MechPump := (iMaxSpd:=1000, rBasePress:=1E-9, rMaxLoad:=0.95);
st_EM1K0_GMD_PTM_20 : ST_MechPump := (iMaxSpd:=1000, rBasePress:=1E-9, rMaxLoad:=0.95);
st_EM1K0_GMD_PTM_30 : ST_MechPump := (iMaxSpd:=1000, rBasePress:=1E-9, rMaxLoad:=0.95);
st_EM1K0_GMD_PRT_40 : ST_MechPump := (rMRE:=10, rBasePress:=1E-3);
st_EM1K0_GMD_PTM_40 : ST_MechPump := (iMaxSpd:=1000, rBasePress:=1E-9, rMaxLoad:=0.95);
st_EM1K0_GMD_PTM_50 : ST_MechPump := (iMaxSpd:=1000, rBasePress:=1E-9, rMaxLoad:=0.95);
st_EM1K0_GMD_PTM_60 : ST_MechPump := (iMaxSpd:=1000, rBasePress:=1E-9, rMaxLoad:=0.95);
st_EM1K0_GMD_PTM_70 : ST_MechPump := (iMaxSpd:=1000, rBasePress:=1E-9, rMaxLoad:=0.95);
// FB_TurboPump
fb_EM1K0_GMD_PTM_10 : FB_TurboPump;
fb_EM1K0_GMD_PTM_20 : FB_TurboPump;
fb_EM1K0_GMD_PTM_30 : FB_TurboPump;
fb_EM1K0_GMD_PTM_40 : FB_TurboPump;
fb_EM1K0_GMD_PTM_50 : FB_TurboPump;
fb_EM1K0_GMD_PTM_60 : FB_TurboPump;
fb_EM1K0_GMD_PTM_70 : FB_TurboPump;
// ST_VacuumValve
st_EM1K0_GMD_VRC_10 : ST_VacuumValve := (q_xClsLS := TRUE, q_xOpnLS := FALSE);
st_EM1K0_GMD_VRC_20 : ST_VacuumValve := (q_xClsLS := TRUE, q_xOpnLS := FALSE);
st_EM1K0_GMD_VRC_30 : ST_VacuumValve := (q_xClsLS := TRUE, q_xOpnLS := FALSE);
st_EM1K0_GMD_VRC_50 : ST_VacuumValve := (q_xClsLS := TRUE, q_xOpnLS := FALSE);
st_EM1K0_GMD_VRC_60 : ST_VacuumValve := (q_xClsLS := TRUE, q_xOpnLS := FALSE);
st_EM1K0_GMD_VRC_70 : ST_VacuumValve := (q_xClsLS := TRUE, q_xOpnLS := FALSE);
// FB_VacuumValve
fb_EM1K0_GMD_VRC_10 : FB_VacuumValve;
fb_EM1K0_GMD_VRC_20 : FB_VacuumValve;
fb_EM1K0_GMD_VRC_30 : FB_VacuumValve;
fb_EM1K0_GMD_VRC_50 : FB_VacuumValve;
fb_EM1K0_GMD_VRC_60 : FB_VacuumValve;
fb_EM1K0_GMD_VRC_70 : FB_VacuumValve;
// ST_MKS_422
st_EM1K0_GMD_GCC_10 : ST_MKS_422 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GCC_20 : ST_MKS_422 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GCC_30 : ST_MKS_422 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GCC_40 : ST_MKS_422 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GCC_50 : ST_MKS_422 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GCC_60 : ST_MKS_422 := (q_xGaugeConnected := TRUE);
st_EM1K0_GMD_GCC_70 : ST_MKS_422 := (q_xGaugeConnected := TRUE);
// FB_MKS_422
fb_EM1K0_GMD_GCC_10 : FB_MKS_422;
fb_EM1K0_GMD_GCC_20 : FB_MKS_422;
fb_EM1K0_GMD_GCC_30 : FB_MKS_422;
fb_EM1K0_GMD_GCC_40 : FB_MKS_422;
fb_EM1K0_GMD_GCC_50 : FB_MKS_422;
fb_EM1K0_GMD_GCC_60 : FB_MKS_422;
fb_EM1K0_GMD_GCC_70 : FB_MKS_422;
// FB_RoughPump
fb_EM1K0_GMD_PRT_40 : FB_RoughPump;
END_VAR