3.9.15.14 e5019a7e False 3 True DEWESoft XCP 0 False 3 0 False 8000 False False False 34 10 14 0 net0 CAN Terminal LogFile 0 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 WiVI_GlobalID_VSSAL sig5 1 0 0 1464401932 True True 1464401932 True Fulltrace_on_MIC_TRIGGERED_DoingPost_VSSAL sig1 1 0 0 0 True True True OBDSim_RPM_greater_1000_TRIGGERED_DoingPost_VSSAL sig2 1 0 0 0 True True True Collect_DEWESoft_Power_on_Audio_TRIGGERED_DoingPost_VSSAL sig3 1 0 0 0 True True True Force_Upload_Trigger_VSSAL sig4 1 0 0 0 True True ICS_Demo_LENGTH_OF_XCP_CMD_VSSAL sig6 1 0 0 0 True True ICS_Demo_XCP_SEMIFORE_VSSAL sig7 1 0 0 0 True True ICS_Demo_BIN_INDEX_INIT_VSSAL sig8 1 0 0 0 True True XCP_INIT_TIMEOUT_VSSAL sig9 1 0 0 0 True True ICS_Demo_CONNECT_ATTEMPT_INIT_VSSAL sig10 1 0 0 0 True True ICS_Demo_XCP_WatchdogLastSampledRxCount_VSSAL sig11 1 0 0 0 True True Conditional_Captures_Active_VSSAL sig12 1 0 0 0 True True Triggered_Message_Semaphore_VSSAL sig13 1 0 0 0 True True True OBDSim_RPM_greater_1000_Messages Captured At Trigger_VSSAL sig14 1 0 0 0 True True Collect_DEWESoft_Power_on_Audio_Messages Captured At Trigger_VSSAL sig15 1 0 0 0 True True dq0 DAQ 1 True 1 1 True 1 Fulltrace_on_MIC 0 True True 2 1 2 10 20 OBDSim_RPM_greater_1000 UPM (Value [1/min]) {UPM (Value [1/min]) :in102-sig0-0}>1000 0.0 0 16383.75 1/min True True 3 1 2 15 15 Collect DEWESoft Power on Audio Audio_in1_LAeq_t (Value [dBA]) {Audio_in1_LAeq_t (Value [dBA]) :dq0-sig49-0}>60 dBA True True 107 0 0 3 False 10 icsSpyLogFile icsSpyLogFile 0 icsSpyLogFile True 10 1 True 60 DAQ 1 True True 10 DAQ 1 Log File DAQ 1 Log File C:\Users\Andreas\CloudStation\IntrepidCS\Vehicle Spy 3\Data Directory\Demo - Datalogger TEX22\DAQ 1 Log File 2024-04-12 11-11-26-989000.csv DAQ 1 Log File True Break spc0 {Break (value) :dq0-sig1-0} -1 2 True True Breakpedal spc1 {Breakpedal (value) :dq0-sig2-0} -1 2 True True CAN_aktive spc2 {CAN_aktive (value) :dq0-sig3-0} -1 2 True True Drehzahl spc3 {Drehzahl (value) :dq0-sig4-0} -1 2 True True Handbreak spc4 {Handbreak (value) :dq0-sig5-0} -1 2 True True Breakepedal_sw spc5 {Breakepedal_sw (value) :dq0-sig6-0} 0 1 True Peadl_force spc6 {Peadl_force (value) :dq0-sig7-0} 0.0 0 100.000000065 % True Break spc7 {Break (value) :dq0-sig8-0} 0 1 True Zuendung spc8 {Zuendung (value) :dq0-sig9-0} 0 1 True UPM spc9 {UPM (value) :dq0-sig10-0} 0.0 0 16383.75 1/min True Handbraek_switch_on spc10 {Handbraek_switch_on (value) :dq0-sig11-0} 0 1 True Handbraek_swtch_off spc11 {Handbraek_swtch_off (value) :dq0-sig12-0} 0 1 True Locked spc12 {Locked (value) :dq0-sig13-0} 0 1 True Magnetometer X spc13 {Magnetometer X (value) :dq0-sig14-0} 0.0000 0 0 µT True Magnetometer Y spc14 {Magnetometer Y (value) :dq0-sig15-0} 0.0000 0 0 µT True Magnetometer Z spc15 {Magnetometer Z (value) :dq0-sig16-0} 0.0000 0 0 µT True Accelerometer X spc16 {Accelerometer X (value) :dq0-sig17-0} 0.0000 0 0 g True Accelerometer Y spc17 {Accelerometer Y (value) :dq0-sig18-0} 0.0000 0 0 g True Accelerometer Z spc18 {Accelerometer Z (value) :dq0-sig19-0} 0.0000 0 0 g True Gyroscope X spc19 {Gyroscope X (value) :dq0-sig20-0} 0.0000 0 0 °/sec True Gyroscope Y spc20 {Gyroscope Y (value) :dq0-sig21-0} 0.0000 0 0 °/sec True Gyroscope Z spc21 {Gyroscope Z (value) :dq0-sig22-0} 0.0000 0 0 °/sec True cos_phi_L1_H1 spc22 {cos_phi_L1_H1 (value) :dq0-sig25-0} 0.000 0 0 - True DH_L1 spc23 {DH_L1 (value) :dq0-sig26-0} 0.000 0 0 var True D_L1 spc24 {D_L1 (value) :dq0-sig27-0} 0.000 0 0 var True Frequency spc25 {Frequency (value) :dq0-sig28-0} 0.000 0 0 Hz True I_L1_H1 spc26 {I_L1_H1 (value) :dq0-sig30-0} 0.000 0 0 A True I_rms_L1 spc27 {I_rms_L1 (value) :dq0-sig31-0} 0.000 0 0 A True I_rm_L1 spc28 {I_rm_L1 (value) :dq0-sig32-0} 0.000 0 0 A True PF_L1 spc29 {PF_L1 (value) :dq0-sig33-0} 0.000 0 0 - True phi_L1_H1 spc30 {phi_L1_H1 (value) :dq0-sig34-0} 0.000 0 0 deg. True P_L1 spc31 {P_L1 (value) :dq0-sig35-0} 0.000 0 0 W True P_L1_H1 spc32 {P_L1_H1 (value) :dq0-sig36-0} 0.000 0 0 W True QH_L1 spc33 {QH_L1 (value) :dq0-sig37-0} 0.000 0 0 var True Q_L1 spc34 {Q_L1 (value) :dq0-sig38-0} 0.000 0 0 var True Q_L1_H1 spc35 {Q_L1_H1 (value) :dq0-sig39-0} 0.000 0 0 var True Status spc36 {Status (value) :dq0-sig40-0} 0.000 0 255 - True S_L1 spc37 {S_L1 (value) :dq0-sig41-0} 0.000 0 0 VA True S_L1_H1 spc38 {S_L1_H1 (value) :dq0-sig42-0} 0.000 0 0 VA True U_L1_H1 spc39 {U_L1_H1 (value) :dq0-sig44-0} 0.000 0 0 V True U_rms_L1 spc40 {U_rms_L1 (value) :dq0-sig45-0} 0.000 0 0 V True U_rm_L1 spc41 {U_rm_L1 (value) :dq0-sig46-0} 0.000 0 0 V True Audio_in1_LAeq_t spc42 {Audio_in1_LAeq_t (value) :dq0-sig49-0} 0.000 0 0 dBA True U_rm_L1 spc43 {U_rm_L1 (value) :dq0-sig50-0} 0.0000 0 0 V True cos_phi_L1_H1 spc44 {cos_phi_L1_H1 (value) :dq0-sig51-0} 0.0000 0 0 - True DH_L1 spc45 {DH_L1 (value) :dq0-sig52-0} 0.0000 0 0 var True D_L1 spc46 {D_L1 (value) :dq0-sig53-0} 0.0000 0 0 var True Frequency spc47 {Frequency (value) :dq0-sig54-0} 0.0000 0 0 Hz True I_L1_H1 spc48 {I_L1_H1 (value) :dq0-sig55-0} 0.0000 0 0 A True I_rms_L1 spc49 {I_rms_L1 (value) :dq0-sig56-0} 0.0000 0 0 A True I_rm_L1 spc50 {I_rm_L1 (value) :dq0-sig57-0} 0.0000 0 0 A True PF_L1 spc51 {PF_L1 (value) :dq0-sig58-0} 0.0000 0 0 - True phi_L1_H1 spc52 {phi_L1_H1 (value) :dq0-sig59-0} 0.0000 0 0 deg. True P_L1 spc53 {P_L1 (value) :dq0-sig60-0} 0.0000 0 0 W True P_L1_H1 spc54 {P_L1_H1 (value) :dq0-sig61-0} 0.0000 0 0 W True QH_L1 spc55 {QH_L1 (value) :dq0-sig62-0} 0.0000 0 0 var True Q_L1 spc56 {Q_L1 (value) :dq0-sig63-0} 0.0000 0 0 var True Q_L1_H1 spc57 {Q_L1_H1 (value) :dq0-sig64-0} 0.0000 0 0 var True S_L1 spc58 {S_L1 (value) :dq0-sig65-0} 0.0000 0 0 VA True S_L1_H1 spc59 {S_L1_H1 (value) :dq0-sig66-0} 0.0000 0 0 VA True U_L1_H1 spc60 {U_L1_H1 (value) :dq0-sig67-0} 0.0000 0 0 V True U_rms_L1 spc61 {U_rms_L1 (value) :dq0-sig68-0} 0.0000 0 0 V True sig1 20 in2 Break 1 sig2 20 in107 Breakpedal 2 sig3 20 in6 CAN_aktive 3 sig4 20 in102 Drehzahl 4 sig5 20 in3 Handbreak 5 sig6 21 in2 sig0 Breakepedal_sw Break 6 sig7 21 in107 sig0 Peadl_force Breakpedal 7 sig8 21 in6 sig1 Break CAN_aktive 8 sig9 21 in6 sig0 Zuendung CAN_aktive 9 sig10 21 in102 sig0 UPM Drehzahl 10 sig11 21 in3 sig0 Handbraek_switch_on Handbreak 11 sig12 21 in3 sig1 Handbraek_swtch_off Handbreak 12 sig13 21 in3 sig2 Locked Handbreak 13 sig14 dbs55 sig0 Magnetometer X Report Message (Magnetometer) 14 sig15 dbs55 sig1 Magnetometer Y Report Message (Magnetometer) 15 sig16 dbs55 sig2 Magnetometer Z Report Message (Magnetometer) 16 sig17 dbs53 sig0 Accelerometer X Report Message (Accelerometer) 17 sig18 dbs53 sig1 Accelerometer Y Report Message (Accelerometer) 18 sig19 dbs53 sig2 Accelerometer Z Report Message (Accelerometer) 19 sig20 dbs54 sig0 Gyroscope X Report Message (Gyroscope) 20 sig21 dbs54 sig1 Gyroscope Y Report Message (Gyroscope) 21 sig22 dbs54 sig2 Gyroscope Z Report Message (Gyroscope) 22 sig25 9 mep1 chr2 cos_phi_L1_H1 ICS_Demo cos_phi_L1_H1 5 23 sig26 9 mep1 chr4 DH_L1 ICS_Demo DH_L1 7 24 sig27 9 mep1 chr3 D_L1 ICS_Demo D_L1 6 25 sig28 9 mep1 chr5 Frequency ICS_Demo Frequency 8 26 sig30 9 mep1 chr6 I_L1_H1 ICS_Demo I_L1_H1 9 27 sig31 9 mep1 chr8 I_rms_L1 ICS_Demo I_rms_L1 11 28 sig32 9 mep1 chr7 I_rm_L1 ICS_Demo I_rm_L1 10 29 sig33 9 mep1 chr12 PF_L1 ICS_Demo PF_L1 14 30 sig34 9 mep1 chr13 phi_L1_H1 ICS_Demo phi_L1_H1 15 31 sig35 9 mep1 chr10 P_L1 ICS_Demo P_L1 12 32 sig36 9 mep1 chr11 P_L1_H1 ICS_Demo P_L1_H1 13 33 sig37 9 mep1 chr16 QH_L1 ICS_Demo QH_L1 18 34 sig38 9 mep1 chr14 Q_L1 ICS_Demo Q_L1 16 35 sig39 9 mep1 chr15 Q_L1_H1 ICS_Demo Q_L1_H1 17 36 sig40 9 mep1 chr19 Status ICS_Demo Status 21 37 sig41 9 mep1 chr17 S_L1 ICS_Demo S_L1 19 38 sig42 9 mep1 chr18 S_L1_H1 ICS_Demo S_L1_H1 20 39 sig44 9 mep1 chr20 U_L1_H1 ICS_Demo U_L1_H1 22 40 sig45 9 mep1 chr22 U_rms_L1 ICS_Demo U_rms_L1 24 41 sig46 9 mep1 chr21 U_rm_L1 ICS_Demo U_rm_L1 23 42 sig49 9 mep1 chr1 Audio_in1_LAeq_t ICS_Demo Audio_in1_LAeq_t 4 43 sig50 21 in229 sig1 U_rm_L1 VSGW_PackedTxMsg_1 44 sig51 21 in238 sig1 cos_phi_L1_H1 VSGW_PackedTxMsg_10 45 sig52 21 in238 sig0 DH_L1 VSGW_PackedTxMsg_10 46 sig53 21 in237 sig1 D_L1 VSGW_PackedTxMsg_9 47 sig54 21 in237 sig0 Frequency VSGW_PackedTxMsg_9 48 sig55 21 in236 sig1 I_L1_H1 VSGW_PackedTxMsg_8 49 sig56 21 in236 sig0 I_rms_L1 VSGW_PackedTxMsg_8 50 sig57 21 in235 sig1 I_rm_L1 VSGW_PackedTxMsg_7 51 sig58 21 in235 sig0 PF_L1 VSGW_PackedTxMsg_7 52 sig59 21 in234 sig1 phi_L1_H1 VSGW_PackedTxMsg_6 53 sig60 21 in234 sig0 P_L1 VSGW_PackedTxMsg_6 54 sig61 21 in233 sig1 P_L1_H1 VSGW_PackedTxMsg_5 55 sig62 21 in233 sig0 QH_L1 VSGW_PackedTxMsg_5 56 sig63 21 in232 sig1 Q_L1 VSGW_PackedTxMsg_4 57 sig64 21 in232 sig0 Q_L1_H1 VSGW_PackedTxMsg_4 58 sig65 21 in231 sig1 S_L1 VSGW_PackedTxMsg_3 59 sig66 21 in231 sig0 S_L1_H1 VSGW_PackedTxMsg_3 60 sig67 21 in230 sig1 U_L1_H1 VSGW_PackedTxMsg_2 61 sig68 21 in230 sig0 U_rms_L1 VSGW_PackedTxMsg_2 62 50000 8 Tahoma 0 6 CAN/CAN FD 0 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 8 6 90 6 37 7 25 7 9 8 162 8 11 9 90 9 12 10 62 10 105 11 25 11 80 12 25 12 81 13 25 13 82 14 25 14 40 15 62 15 39 16 175 16 87 17 175 J1939 1 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 27 6 90 6 21 7 43 7 25 8 31 8 24 9 31 9 9 10 137 10 11 11 90 11 12 12 62 12 40 13 62 13 39 14 175 14 87 15 175 Class 2 2 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 19 6 90 6 8 7 90 7 9 8 137 8 17 9 25 Ford SCP 3 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 16 6 90 6 8 7 90 7 9 8 137 8 15 9 90 GMLAN 4 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 8 6 90 6 20 7 43 7 28 8 43 8 29 9 50 9 30 10 31 10 9 11 137 11 12 12 62 12 11 13 62 LIN 5 0 1 62 1 1 2 90 2 32 3 25 3 33 4 25 4 6 5 25 5 7 6 152 6 8 7 90 7 9 8 187 8 34 9 62 9 35 10 62 10 36 11 62 11 11 12 90 CGI 6 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 37 6 25 6 8 7 90 7 9 8 162 8 38 9 90 9 11 10 90 10 12 11 62 FlexRay 7 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 54 6 25 6 106 7 90 7 51 8 90 8 103 9 90 9 37 10 25 10 9 11 162 11 11 12 90 12 12 13 62 13 104 14 90 14 60 15 31 15 57 16 25 16 58 17 31 17 59 18 31 18 56 19 25 19 55 20 25 20 50 21 50 21 52 22 75 22 53 23 62 23 35 24 62 24 40 25 62 25 39 26 175 26 87 27 175 ARINC 825 8 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 41 6 43 6 42 7 50 7 43 8 31 8 44 9 31 9 45 10 31 10 46 11 37 11 47 12 31 12 48 13 50 13 49 14 31 14 9 15 162 15 11 16 90 16 40 17 62 17 39 18 175 18 87 19 175 Ethernet 9 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 92 6 152 6 100 7 50 7 77 8 152 8 101 9 50 9 102 10 56 10 78 11 50 11 79 12 37 12 37 13 25 13 9 14 162 14 11 15 90 15 12 16 62 16 40 17 62 17 39 18 175 18 87 19 175 PTP (802.1as) 10 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 92 6 152 6 77 7 152 7 102 8 56 8 78 9 50 9 79 10 37 10 37 11 25 11 85 12 125 12 83 13 50 13 84 14 37 14 86 15 125 15 11 16 90 16 12 17 62 17 40 18 62 18 39 19 175 19 87 20 175 TCP 11 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 92 6 152 6 100 7 50 7 77 8 152 8 101 9 50 9 102 10 56 10 78 11 50 11 79 12 37 12 37 13 31 13 88 14 68 14 89 15 68 15 90 16 50 16 91 17 93 17 11 18 90 18 12 19 62 19 40 20 62 20 39 21 175 21 87 22 175 UDP 12 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 92 6 152 6 100 7 50 7 77 8 152 8 101 9 50 9 102 10 56 10 78 11 50 11 79 12 37 12 37 13 50 13 9 14 212 14 11 15 90 15 120 16 90 16 12 17 62 17 39 18 175 18 87 19 175 FSA 13 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 93 6 50 6 94 7 50 7 95 8 50 8 96 9 50 9 97 10 68 10 37 11 31 11 98 12 68 12 99 13 68 13 11 14 90 14 39 15 175 15 87 16 175 Statistics 14 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 8 6 90 6 37 7 25 7 9 8 162 8 11 9 90 9 12 10 62 10 40 11 62 11 39 12 175 12 87 13 175 13 107 14 62 14 108 15 62 15 109 16 62 16 110 17 62 I2C 15 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 8 6 90 6 121 7 25 7 122 8 81 8 37 9 25 9 9 10 162 10 11 11 90 11 12 12 62 12 40 13 62 13 39 14 175 14 87 15 175 A2B 16 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 144 6 90 6 124 7 90 7 125 8 90 8 126 9 25 9 127 10 90 10 128 11 25 11 129 12 25 12 130 13 90 13 11 14 90 14 12 15 62 15 131 16 90 16 40 17 62 17 39 18 175 18 87 19 175 wBMS 17 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 133 6 90 6 135 7 175 7 132 8 90 8 136 9 62 9 137 10 62 10 37 11 25 11 9 12 162 12 11 13 90 13 12 14 62 14 40 15 62 15 39 16 175 16 87 17 175 MDIO 18 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 138 6 68 6 139 7 43 7 140 8 68 8 142 9 81 9 141 10 87 10 37 11 25 11 9 12 162 12 11 13 90 13 12 14 62 14 40 15 62 15 39 16 175 16 87 17 175 DoIP 19 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 201 5 80 5 202 6 80 6 203 7 40 7 204 8 300 8 92 9 90 9 77 10 90 10 100 11 55 11 101 12 55 12 205 13 140 13 78 14 60 14 143 15 70 15 91 16 60 16 11 17 70 17 12 18 60 18 79 19 60 10BASE-T1S 20 0 1 62 1 1 2 90 2 5 3 25 3 6 4 25 4 7 5 152 5 145 6 87 6 146 7 37 7 12 8 31 8 37 9 25 9 9 10 162 10 11 11 90 11 40 12 62 12 39 13 175 13 87 14 175 Custom 1 Custom 2 Custom 3 Custom 4 Custom 5 Custom 6 1 Intrepid0 HS CAN net0 HS CAN 500000 1 2000000 2 1 False False MS CAN net1 MS CAN 500000 1 2000000 2 False False SW CAN net2 SW CAN 33333 1 1 2 False False J1850 VPW net3 J1850 VPW 10417 3 2 False False ISO9141/KW2K net4 ISO9141/KW2K 10417 6 2 False False LSFT CAN net5 LSFT CAN 125000 1 2 False False J1850 PWM net6 J1850 PWM 41600 4 2 False False J1708 net7 J1708 9600 13 2 False False neoVI net8 neoVI 0 1 2 False False HS CAN2 net9 HS CAN2 (neoVI 3G) 500000 1 2000000 2 False False HS CAN3 net10 HS CAN3 (neoVI 3G) 500000 1 2000000 2 False False LIN2 net11 LIN2 (neoVI 3G) 10417 12 2 False False LIN3 net12 LIN3 (neoVI 3G) 10417 12 2 False False LIN4 net13 LIN4 (neoVI 3G) 10417 12 2 False False CGI net14 CGI (neoVI 3G) 625000 18 2 False False LIN net15 LIN 10417 12 2 False False ISO9141/KW2K 2 net16 ISO9141/KW2K 2 10417 6 2 False False ISO9141/KW2K 3 net17 ISO9141/KW2K 3 10417 6 2 False False ISO9141/KW2K 4 net18 ISO9141/KW2K 4 10417 6 2 False False HS CAN4 net19 HS CAN4 500000 1 2000000 2 False False HS CAN5 net20 HS CAN5 500000 1 2000000 2 False False UART net21 UART (neoVI 3G) 10417 28 2 False False UART2 net22 UART2 (neoVI 3G) 10417 28 2 False False LIN5 net23 LIN5 (neoVI 3G) 10417 12 2 False False MOST (VNET A) net24 MOST (VNET A) 1000000 17 2 False False FlexRay1A (VNET A) net25 FlexRay1A (VNET A) 5000000 16 2 False False FlexRay1B (VNET A) net26 FlexRay1B (VNET A) 5000000 16 2 False False FlexRay2A (VNET A) net27 FlexRay2A (VNET A) 5000000 16 2 False False FlexRay2B (VNET A) net28 FlexRay2B (VNET A) 5000000 16 2 False False HS CAN (VNET A) net29 HS CAN (VNET A) 500000 1 2000000 2 False False MS CAN (VNET A) net30 MS CAN (VNET A) 500000 1 2000000 2 False False SW CAN (VNET A) net31 SW CAN (VNET A) 33333 1 2 False False J1850 VPW (VNET A) net32 J1850 VPW (VNET A) 10417 3 2 False False LSFT CAN (VNET A) net33 LSFT CAN (VNET A) 125000 1 2 False False J1708 (VNET A) net34 J1708 (VNET A) 9600 13 2 False False neoVI (VNET A) net35 neoVI (VNET A) 500000 1 2 False False HS CAN2 (VNET A) net36 HS CAN2 (VNET A) 500000 1 2000000 2 False False HS CAN3 (VNET A) net37 HS CAN3 (VNET A) 500000 1 2000000 2 False False LIN (VNET A) net38 LIN (VNET A) 10417 12 2 False False LIN2 (VNET A) net39 LIN2 (VNET A) 10417 12 2 False False LIN3 (VNET A) net40 LIN3 (VNET A) 10417 12 2 False False LIN4 (VNET A) net41 LIN4 (VNET A) 10417 12 2 False False CGI (VNET A) net42 CGI (VNET A) 625000 18 2 False False ISO9141/KW2K (VNET A) net43 ISO9141/KW2K (VNET A) 10417 6 2 False False ISO9141/KW2K 2 (VNET A) net44 ISO9141/KW2K 2 (VNET A) 10417 6 2 False False ISO9141/KW2K 3 (VNET A) net45 ISO9141/KW2K 3 (VNET A) 10417 6 2 False False ISO9141/KW2K 4 (VNET A) net46 ISO9141/KW2K 4 (VNET A) 10417 6 2 False False HS CAN (VNET B) net47 HS CAN (VNET B) 500000 1 2000000 2 False False MS CAN (VNET B) net48 MS CAN (VNET B) 500000 1 2000000 2 False False SW CAN (VNET B) net49 SW CAN (VNET B) 33333 1 2 False False J1850 VPW (VNET B) net50 J1850 VPW (VNET B) 10417 3 2 False False LSFT CAN (VNET B) net51 LSFT CAN (VNET B) 125000 1 2 False False J1708 (VNET B) net52 J1708 (VNET B) 9600 13 2 False False neoVI (VNET B) net53 neoVI (VNET B) 500000 1 2 False False HS CAN2 (VNET B) net54 HS CAN2 (VNET B) 500000 1 2000000 2 False False HS CAN3 (VNET B) net55 HS CAN3 (VNET B) 500000 1 2000000 2 False False LIN (VNET B) net56 LIN (VNET B) 10417 12 2 False False LIN2 (VNET B) net57 LIN2 (VNET B) 10417 12 2 False False LIN3 (VNET B) net58 LIN3 (VNET B) 10417 12 2 False False LIN4 (VNET B) net59 LIN4 (VNET B) 10417 12 2 False False CGI (VNET B) net60 CGI (VNET B) 625000 18 2 False False ISO9141/KW2K (VNET B) net61 ISO9141/KW2K (VNET B) 10417 6 2 False False ISO9141/KW2K 2 (VNET B) net62 ISO9141/KW2K 2 (VNET B) 10417 6 2 False False ISO9141/KW2K 3 (VNET B) net63 ISO9141/KW2K 3 (VNET B) 10417 6 2 False False ISO9141/KW2K 4 (VNET B) net64 ISO9141/KW2K 4 (VNET B) 10417 6 2 False False HS CAN4 (VNET A) net65 HS CAN4 (VNET A) 500000 1 2000000 2 False False HS CAN5 (VNET A) net66 HS CAN5 (VNET A) 500000 1 2000000 2 False False LIN5 (VNET A) net67 LIN5 (VNET A) 10417 12 2 False False HS CAN4 (VNET B) net68 HS CAN4 (VNET B) 500000 1 2000000 2 False False HS CAN5 (VNET B) net69 HS CAN5 (VNET B) 500000 1 2000000 2 False False LIN5 (VNET B) net70 LIN5 (VNET B) 10417 12 2 False False Ethernet DAQ net71 Ethernet DAQ (neoVI 3G) 0 29 2 False False Ethernet net72 WLAN : Killer Wireless-n/a/ac 1535 Wireless Network Adapter 29 True Ethernet PCAP icsenet.dll 2 False False MOST (VNET B) net73 MOST (VNET B) 1000000 17 2 False False FlexRay1A (VNET B) net74 FlexRay1A (VNET B) 5000000 16 2 False False FlexRay1B (VNET B) net75 FlexRay1B (VNET B) 5000000 16 2 False False FlexRay2A (VNET B) net76 FlexRay2A (VNET B) 5000000 16 2 False False FlexRay2B (VNET B) net77 FlexRay2B (VNET B) 5000000 16 2 False False SW CAN2 net78 SW CAN2 (neoVI 3G) 33333 1 2 False False SW CAN2 (VNET A) net79 SW CAN2 (VNET A) 33333 1 2 False False SW CAN2 (VNET B) net80 SW CAN2 (VNET B) 33333 1 2 False False FSA net81 (FSA Virtual) 31 2 False False TCP net82 (TCP Virtual) 32 2 False False HS CAN6 net83 HS CAN6 500000 1 2000000 2 False False HS CAN7 net84 HS CAN7 500000 1 2000000 2 False False LIN6 net85 LIN6 10417 12 2 False False LSFT CAN2 net86 LSFT CAN2 125000 1 2 False False OP (BR) ETH01 net87 OP (BR) ETH1 100 29 2 False False OP (BR) ETH02 net88 OP (BR) ETH2 100 29 2 False False OP (BR) ETH03 net89 OP (BR) ETH3 100 29 2 False False OP (BR) ETH04 net90 OP (BR) ETH4 100 29 2 False False OP (BR) ETH05 net91 OP (BR) ETH5 100 29 2 False False OP (BR) ETH06 net92 OP (BR) ETH6 100 29 2 False False OP (BR) ETH07 net93 OP (BR) ETH7 100 29 2 False False OP (BR) ETH08 net94 OP (BR) ETH8 100 29 2 False False OP (BR) ETH09 net95 OP (BR) ETH9 100 29 2 False False OP (BR) ETH10 net96 OP (BR) ETH10 100 29 2 False False OP (BR) ETH11 net97 OP (BR) ETH11 100 29 2 False False OP (BR) ETH12 net98 OP (BR) ETH12 100 29 2 False False FlexRay net99 FlexRay 10000000 16 2 False False FlexRay2 net100 FlexRay2 10000000 16 2 False False LIN6 (VNET A) net101 LIN6 (VNET A) 10417 12 2 False False LIN6 (VNET B) net102 LIN6 (VNET B) 10417 12 2 False False HS CAN6 (VNET A) net103 HS CAN6 (VNET A) 500000 1 2000000 2 False False HS CAN6 (VNET B) net104 HS CAN6 (VNET B) 500000 1 2000000 2 False False HS CAN7 (VNET A) net105 HS CAN7 (VNET A) 500000 1 2000000 2 False False HS CAN7 (VNET B) net106 HS CAN7 (VNET B) 500000 1 2000000 2 False False LSFT CAN2 (VNET A) net107 LSFT CAN2 (VNET A) 125000 1 2 False False LSFT CAN2 (VNET B) net108 LSFT CAN2 (VNET B) 125000 1 2 False False Ethernet (VNET A) net109 Ethernet (VNET A) 0 29 2 False False Ethernet (VNET B) net110 Ethernet (VNET B) 0 29 2 False False UDP net111 (UDP Virtual) 33 2 False False AUTOSAR net112 (AUTOSAR Virtual) 34 2 False False (PID 00) CAN Supported PIDs (1-20) Response in0 7E8 xx 41 00 net0 16744448 PID 01 Supported (PID 00) sig0 2 bit7({B4}) True/False 24 1 PID 02 Supported (PID 00) sig1 2 bit6({B4}) True/False 25 1 PID 03 Supported (PID 00) sig2 2 bit5({B4}) True/False 26 1 PID 04 Supported (PID 00) sig3 2 bit4({B4}) True/False 27 1 PID 05 Supported (PID 00) sig4 2 bit3({B4}) True/False 28 1 PID 06 Supported (PID 00) sig5 2 bit2({B4}) True/False 29 1 PID 07 Supported (PID 00) sig6 2 bit1({B4}) True/False 30 1 PID 08 Supported (PID 00) sig7 2 bit0({B4}) True/False 31 1 PID 09 Supported (PID 00) sig8 2 bit7({B5}) True/False 32 1 PID 0A Supported (PID 00) sig9 2 bit6({B5}) True/False 33 1 PID 0B Supported (PID 00) sig10 2 bit5({B5}) True/False 34 1 PID 0C Supported (PID 00) sig11 2 bit4({B5}) True/False 35 1 PID 0D Supported (PID 00) sig12 2 bit3({B5}) True/False 36 1 PID 0E Supported (PID 00) sig13 2 bit2({B5}) True/False 37 1 PID 0F Supported (PID 00) sig14 2 bit1({B5}) True/False 38 1 PID 10 Supported (PID 00) sig15 2 bit0({B5}) True/False 39 1 PID 11 Supported (PID 00) sig16 2 bit7({B6}) True/False 40 1 PID 12 Supported (PID 00) sig17 2 bit6({B6}) True/False 41 1 PID 13 Supported (PID 00) sig18 2 bit5({B6}) True/False 42 1 PID 14 Supported (PID 00) sig19 2 bit4({B6}) True/False 43 1 PID 15 Supported (PID 00) sig20 2 bit3({B6}) True/False 44 1 PID 16 Supported (PID 00) sig21 2 bit2({B6}) True/False 45 1 PID 17 Supported (PID 00) sig22 2 bit1({B6}) True/False 46 1 PID 18 Supported (PID 00) sig23 2 bit0({B6}) True/False 47 1 PID 19 Supported (PID 00) sig24 2 bit7({B7}) True/False 48 1 PID 1A Supported (PID 00) sig25 2 bit6({B7}) True/False 49 1 PID 1B Supported (PID 00) sig26 2 bit5({B7}) True/False 50 1 PID 1C Supported (PID 00) sig27 2 bit4({B7}) True/False 51 1 PID 1D Supported (PID 00) sig28 2 bit3({B7}) True/False 52 1 PID 1E Supported (PID 00) sig29 2 bit2({B7}) True/False 53 1 PID 1F Supported (PID 00) sig30 2 bit1({B7}) True/False 54 1 PID 20 Supported (PID 00) sig31 2 bit0({B7}) True/False 55 1 (PID 04) CAN Calculated Load Value Response in4 7E8 xx 41 04 net0 Calculated LOAD Value (PID 04) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 05) CAN Engine Coolant Temp Response in5 7E8 xx 41 05 net0 Engine Coolant Temperature (PID 05) sig0 1 {Raw Value}*1-40|0,1,24,8 0 215 -40 °C -40 24 8 (PID 0A) CAN Fuel Pressure Response in10 7E8 xx 41 0A net0 Fuel Pressure (Gauge) (PID 0A) sig0 1 {Raw Value}*3+0|0,1,24,8 0 765 0 kPa 3 24 8 3 (PID 0B) CAN Intake Manifold Absolute Pressure Response in11 7E8 xx 41 0B net0 Intake Manifold Absolute Pressure (PID 0B) sig0 1 {Raw Value}|0,1,24,8 0 255 0 kPa 24 8 (PID 0C) CAN Engine RPM Response in12 7E8 xx 41 0C net0 Engine RPM (PID 0C) sig0 1 {Raw Value}*0.25+0|0,1,24,16 0.00 16383.75 0 rpm 0.25 24 16 (PID 0D) CAN Vehicle Speed Response in13 7E8 xx 41 0D net0 Vehicle Speed Sensor (PID 0D) sig0 1 {Raw Value}|0,1,24,8 0 255 0 km/h 24 8 (PID 0F) CAN Intake Air Temperature Response in15 7E8 xx 41 0F net0 Intake Air Temperature (PID 0F) sig0 1 {Raw Value}*1-40|0,1,24,8 0 215 -40 °C -40 24 8 (PID 10) CAN MAF Sensor Air Flow Rate Response in16 7E8 xx 41 10 net0 Air Flow Rate from MAF Sensor (PID 10) sig0 1 {Raw Value}*0.01+0|0,1,24,16 0.00 655.35 0 g/s 0.01 24 16 (PID 11) CAN Absolute Throttle Position Response in17 7E8 xx 41 11 net0 8421504 Absolute Throttle Position (PID 11) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 13) CAN Oxygen Sensors Response in19 7E8 xx 41 13 net0 33023 O2 Sensor 2-4 Present (PID 13) sig0 2 bit7({B4}) True/False 24 1 O2 Sensor 2-3 Present (PID 13) sig1 2 bit6({B4}) True/False 25 1 O2 Sensor 2-2 Present (PID 13) sig2 2 bit5({B4}) True/False 26 1 O2 Sensor 2-1 Present (PID 13) sig3 2 bit4({B4}) True/False 27 1 O2 Sensor 1-4 Present (PID 13) sig4 2 bit3({B4}) True/False 28 1 O2 Sensor 1-3 Present (PID 13) sig5 2 bit2({B4}) True/False 29 1 O2 Sensor 1-2 Present (PID 13) sig6 2 bit1({B4}) True/False 30 1 O2 Sensor 1-1 Present (PID 13) sig7 2 bit0({B4}) True/False 31 1 (PID 14) CAN Oxygen Sensor 1-1 Response in20 7E8 xx 41 14 net0 33023 O2 Sensor 1-1 Output Voltage (PID 14) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 1-1 Short Term Fuel Trim (PID 14) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 15) CAN Oxygen Sensor 1-2 Response in21 7E8 xx 41 15 net0 33023 O2 Sensor 1-2 Output Voltage (PID 15) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 1-2 Short Term Fuel Trim (PID 15) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 16) CAN Oxygen Sensor 1-3 OR 2-1 Response in22 7E8 xx 41 16 net0 33023 O2 Sensor 1-3/2-1 Output Voltage (PID 16) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 1-3/2-1 Short Term Fuel Trim (PID 16) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 17) CAN Oxygen Sensor 1-4 OR 2-2 Response in23 7E8 xx 41 17 net0 33023 O2 Sensor 1-4/2-2 Output Voltage (PID 17) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 1-4/2-2 Short Term Fuel Trim (PID 17) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 18) CAN Oxygen Sensor 2-1 OR 3-1 Response in24 7E8 xx 41 18 net0 33023 O2 Sensor 2-1/3-1 Output Voltage (PID 18) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 2-1/3-1 Short Term Fuel Trim (PID 18) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 19) CAN Oxygen Sensor 2-2 OR 3-2 Response in25 7E8 xx 41 19 net0 33023 O2 Sensor 2-2/3-2 Output Voltage (PID 19) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 2-2/3-2 Short Term Fuel Trim (PID 19) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 1A) CAN Oxygen Sensor 2-3 OR 4-1 Response in26 7E8 xx 41 1A net0 33023 O2 Sensor 2-3/4-1 Output Voltage (PID 1A) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 2-3/4-1 Short Term Fuel Trim (PID 1A) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 1B) CAN Oxygen Sensor 2-4 OR 4-2 Response in27 7E8 xx 41 1B net0 33023 O2 Sensor 2-4/4-2 Output Voltage (PID 1B) sig0 1 {Raw Value}*0.005+0|0,1,24,8 0.000 1.275 0 V 0.005 24 8 O2 Sensor 2-4/4-2 Short Term Fuel Trim (PID 1B) sig1 1 {Raw Value}*0.78125-100|0,1,32,8 0.00 99.22 -100 % 0.78125 -100 32 8 (PID 1F) CAN Time Since Engine Start Response in31 7E8 xx 41 1F net0 Time Since Engine Start (PID 1F) sig0 1 {Raw Value}|0,1,24,16 0 65535 0 sec 24 16 (PID 20) CAN Supported PIDs (21-40) Response in32 7E8 xx 41 20 net0 16744448 PID 21 Supported (PID 20) sig0 2 bit7({B4}) True/False 24 1 PID 22 Supported (PID 20) sig1 2 bit6({B4}) True/False 25 1 PID 23 Supported (PID 20) sig2 2 bit5({B4}) True/False 26 1 PID 24 Supported (PID 20) sig3 2 bit4({B4}) True/False 27 1 PID 25 Supported (PID 20) sig4 2 bit3({B4}) True/False 28 1 PID 26 Supported (PID 20) sig5 2 bit2({B4}) True/False 29 1 PID 27 Supported (PID 20) sig6 2 bit1({B4}) True/False 30 1 PID 28 Supported (PID 20) sig7 2 bit0({B4}) True/False 31 1 PID 29 Supported (PID 20) sig8 2 bit7({B5}) True/False 32 1 PID 2A Supported (PID 20) sig9 2 bit6({B5}) True/False 33 1 PID 2B Supported (PID 20) sig10 2 bit5({B5}) True/False 34 1 PID 2C Supported (PID 20) sig11 2 bit4({B5}) True/False 35 1 PID 2D Supported (PID 20) sig12 2 bit3({B5}) True/False 36 1 PID 2E Supported (PID 20) sig13 2 bit2({B5}) True/False 37 1 PID 2F Supported (PID 20) sig14 2 bit1({B5}) True/False 38 1 PID 30 Supported (PID 20) sig15 2 bit0({B5}) True/False 39 1 PID 31 Supported (PID 20) sig16 2 bit7({B6}) True/False 40 1 PID 32 Supported (PID 20) sig17 2 bit6({B6}) True/False 41 1 PID 33 Supported (PID 20) sig18 2 bit5({B6}) True/False 42 1 PID 34 Supported (PID 20) sig19 2 bit4({B6}) True/False 43 1 PID 35 Supported (PID 20) sig20 2 bit3({B6}) True/False 44 1 PID 36 Supported (PID 20) sig21 2 bit2({B6}) True/False 45 1 PID 37 Supported (PID 20) sig22 2 bit1({B6}) True/False 46 1 PID 38 Supported (PID 20) sig23 2 bit0({B6}) True/False 47 1 PID 39 Supported (PID 20) sig24 2 bit7({B7}) True/False 48 1 PID 3A Supported (PID 20) sig25 2 bit6({B7}) True/False 49 1 PID 3B Supported (PID 20) sig26 2 bit5({B7}) True/False 50 1 PID 3C Supported (PID 20) sig27 2 bit4({B7}) True/False 51 1 PID 3D Supported (PID 20) sig28 2 bit3({B7}) True/False 52 1 PID 3E Supported (PID 20) sig29 2 bit2({B7}) True/False 53 1 PID 3F Supported (PID 20) sig30 2 bit1({B7}) True/False 54 1 PID 40 Supported (PID 20) sig31 2 bit0({B7}) True/False 55 1 (PID 23) CAN Fuel Rail Pressure Response in35 7E8 xx 41 23 net0 Fuel Rail Pressure (PID 23) sig0 1 {Raw Value}*10+0|0,1,24,16 0 655350 0 kPa 10 24 16 10 (PID 2C) CAN Commanded EGR Response in44 7E8 xx 41 2C net0 EGR Percent (PID 2C) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 99.99999999999999 0 % 0.392156862745098 24 8 (PID 2D) CAN EGR Error Response in45 7E8 xx 41 2D net0 EGR Error (PID 2D) sig0 1 {Raw Value}*0.78125-100|0,1,24,8 0.00 99.22 -100 % 0.78125 -100 24 8 (PID 30) CAN Num Warm-Ups Since DTC's Cleared Response in48 7E8 xx 41 30 net0 32896 Number of Warm-Ups (PID 30) sig0 1 {Raw Value}|0,1,24,8 0 255 0 24 8 (PID 33) CAN Barometric Pressure Response in51 7E8 xx 41 33 net0 Barometric Pressure (PID 33) sig0 1 {Raw Value}|0,1,24,8 0 255 0 kPa 24 8 (PID 3C) CAN Catalyst Temperature 1-1 Response in60 7E8 xx 41 3C net0 128 Catalyst Temperature 1-1 (PID 3C) sig0 1 {Raw Value}*0.1-40|0,1,24,16 0.0 6513.5 -40 °C 0.1 -40 24 16 (PID 3D) CAN Catalyst Temperature 2-1 Response in61 7E8 xx 41 3D net0 128 Catalyst Temperature 2-1 (PID 3D) sig0 1 {Raw Value}*0.1-40|0,1,24,16 0.0 6513.5 -40 °C 0.1 -40 24 16 (PID 3E) CAN Catalyst Temperature 1-2 Response in62 7E8 xx 41 3E net0 128 Catalyst Temperature 1-2 (PID 3E) sig0 1 {Raw Value}*0.1-40|0,1,24,16 0.0 6513.5 -40 °C 0.1 -40 24 16 (PID 3F) CAN Catalyst Temperature 2-2 Response in63 7E8 xx 41 3F net0 128 Catalyst Temperature 2-2 (PID 3F) sig0 1 {Raw Value}*0.1-40|0,1,24,16 0.0 6513.5 -40 °C 0.1 -40 24 16 (PID 40) CAN Supported PIDs (41-60) Response in64 7E8 xx 41 40 net0 16744448 PID 41 Supported (PID 40) sig0 2 bit7({B4}) True/False 24 1 PID 42 Supported (PID 40) sig1 2 bit6({B4}) True/False 25 1 PID 43 Supported (PID 40) sig2 2 bit5({B4}) True/False 26 1 PID 44 Supported (PID 40) sig3 2 bit4({B4}) True/False 27 1 PID 45 Supported (PID 40) sig4 2 bit3({B4}) True/False 28 1 PID 46 Supported (PID 40) sig5 2 bit2({B4}) True/False 29 1 PID 47 Supported (PID 40) sig6 2 bit1({B4}) True/False 30 1 PID 48 Supported (PID 40) sig7 2 bit0({B4}) True/False 31 1 PID 49 Supported (PID 40) sig8 2 bit7({B5}) True/False 32 1 PID 4A Supported (PID 40) sig9 2 bit6({B5}) True/False 33 1 PID 4B Supported (PID 40) sig10 2 bit5({B5}) True/False 34 1 PID 4C Supported (PID 40) sig11 2 bit4({B5}) True/False 35 1 PID 4D Supported (PID 40) sig12 2 bit3({B5}) True/False 36 1 PID 4E Supported (PID 40) sig13 2 bit2({B5}) True/False 37 1 PID 4F Supported (PID 40) sig14 2 bit1({B5}) True/False 38 1 PID 50 Supported (PID 40) sig15 2 bit0({B5}) True/False 39 1 PID 51 Supported (PID 40) sig16 2 bit7({B6}) True/False 40 1 PID 52 Supported (PID 40) sig17 2 bit6({B6}) True/False 41 1 PID 53 Supported (PID 40) sig18 2 bit5({B6}) True/False 42 1 PID 54 Supported (PID 40) sig19 2 bit4({B6}) True/False 43 1 PID 55 Supported (PID 40) sig20 2 bit3({B6}) True/False 44 1 PID 56 Supported (PID 40) sig21 2 bit2({B6}) True/False 45 1 PID 57 Supported (PID 40) sig22 2 bit1({B6}) True/False 46 1 PID 58 Supported (PID 40) sig23 2 bit0({B6}) True/False 47 1 PID 59 Supported (PID 40) sig24 2 bit7({B7}) True/False 48 1 PID 5A Supported (PID 40) sig25 2 bit6({B7}) True/False 49 1 PID 5B Supported (PID 40) sig26 2 bit5({B7}) True/False 50 1 PID 5C Supported (PID 40) sig27 2 bit4({B7}) True/False 51 1 PID 5D Supported (PID 40) sig28 2 bit3({B7}) True/False 52 1 PID 5E Supported (PID 40) sig29 2 bit2({B7}) True/False 53 1 PID 5F Supported (PID 40) sig30 2 bit1({B7}) True/False 54 1 PID 60 Supported (PID 40) sig31 2 bit0({B7}) True/False 55 1 (PID 42) CAN Control Module Voltage Response in66 7E8 xx 41 42 net0 Module Voltage (PID 42) sig0 1 {Raw Value}*0.001+0|0,1,24,16 0.000 65.535 0 V 0.001 24 16 (PID 43) CAN Absolute Load Value Response in67 7E8 xx 41 43 net0 Load Value (PID 43) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,16 0.000 25700 0 % 0.392156862745098 24 16 (PID 44) CAN Fuel/Air Commanded Equivalence Ratio Response in68 7E8 xx 41 44 net0 Fuel/Air Commanded Equivalence Ratio (PID 44) sig0 1 {Raw Value}*3.05e-05+0|0,1,24,16 0.000 1.999 0 3.05e-05 24 16 (PID 45) CAN Relative Throttle Position Response in69 7E8 xx 41 45 net0 Relative Throttle Position (PID 45) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 46) CAN Ambient Air Temperature Response in70 7E8 xx 41 46 net0 Ambient Air Temperature (PID 46) sig0 1 {Raw Value}*1-40|0,1,24,8 0 215 -40 °C -40 24 8 (PID 47) CAN Absolute Throttle Position B Response in71 7E8 xx 41 47 net0 8421504 Throttle Position (B) (PID 47) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 48) CAN Absolute Throttle Position C Response in72 7E8 xx 41 48 net0 8421504 Throttle Position (C) (PID 48) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 49) CAN Accelerator Pedal Position D Response in73 7E8 xx 41 49 net0 8388672 Accelerator Pedal Position (D) (PID 49) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 4A) CAN Accelerator Pedal Position E Response in74 7E8 xx 41 4A net0 8388672 Accelerator Pedal Position (E) (PID 4A) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 4B) CAN Accelerator Pedal Position F Response in75 7E8 xx 41 4B net0 8388672 Accelerator Pedal Position (F) (PID 4B) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 4C) CAN Commanded Throttle Actuator Control Response in76 7E8 xx 41 4C net0 Commanded Throttle Actuator Control (PID 4C) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 59) CAN Fuel Rail Pressure (Absolute) Response in89 7E8 xx 41 59 net0 Absolute Fuel Rail Pressure (PID 59) sig0 1 {Raw Value}*10+0|0,1,24,16 0 655350 0 kPa 10 24 16 10 (PID 5A) CAN Relative Accelerator Pedal Position Response in90 7E8 xx 41 5A net0 8388672 Relative Accelerator Pedal Position (PID 5A) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 5B) CAN Hybrid/EV Battery Pack Remaining Charge Response in91 7E8 xx 41 5B net0 Remaining Battery Pack Charge (PID 5B) sig0 1 {Raw Value}*0.392156862745098+0|0,1,24,8 0.000 100 0 % 0.392156862745098 24 8 (PID 5C) CAN Engine Oil Temperature Response in92 7E8 xx 41 5C net0 Oil Temperature (PID 5C) sig0 1 {Raw Value}*1-40|0,1,24,8 0 215 -40 °C -40 24 8 (PID 5D) CAN Fuel Injection Timing Response in93 7E8 xx 41 5D net0 Fuel Injection Timing (PID 5D) sig0 1 {Raw Value}*0.0078125-210|0,1,24,16 0.000 301.992 -210 deg 0.0078125 -210 24 16 (PID 5E) CAN Engine Fuel Rate Response in94 7E8 xx 41 5E net0 Engine Fuel Rate (PID 5E) sig0 1 {Raw Value}*0.05+0|0,1,24,16 0.00 3276.75 0 L/h 0.05 24 16 (PID 60) CAN Supprted PIDs (61-80) Response in96 7E8 xx 41 60 net0 16744448 PID 61 Supported (PID 60) sig0 2 bit7({B4}) True/False 24 1 PID 62 Supported (PID 60) sig1 2 bit6({B4}) True/False 25 1 PID 63 Supported (PID 60) sig2 2 bit5({B4}) True/False 26 1 PID 64 Supported (PID 60) sig3 2 bit4({B4}) True/False 27 1 PID 65 Supported (PID 60) sig4 2 bit3({B4}) True/False 28 1 PID 66 Supported (PID 60) sig5 2 bit2({B4}) True/False 29 1 PID 67 Supported (PID 60) sig6 2 bit1({B4}) True/False 30 1 PID 68 Supported (PID 60) sig7 2 bit0({B4}) True/False 31 1 PID 69 Supported (PID 60) sig8 2 bit7({B5}) True/False 32 1 PID 6A Supported (PID 60) sig9 2 bit6({B5}) True/False 33 1 PID 6B Supported (PID 60) sig10 2 bit5({B5}) True/False 34 1 PID 6C Supported (PID 60) sig11 2 bit4({B5}) True/False 35 1 PID 6D Supported (PID 60) sig12 2 bit3({B5}) True/False 36 1 PID 6E Supported (PID 60) sig13 2 bit2({B5}) True/False 37 1 PID 6F Supported (PID 60) sig14 2 bit1({B5}) True/False 38 1 PID 70 Supported (PID 60) sig15 2 bit0({B5}) True/False 39 1 PID 71 Supported (PID 60) sig16 2 bit7({B6}) True/False 40 1 PID 72 Supported (PID 60) sig17 2 bit6({B6}) True/False 41 1 PID 73 Supported (PID 60) sig18 2 bit5({B6}) True/False 42 1 PID 74 Supported (PID 60) sig19 2 bit4({B6}) True/False 43 1 PID 75 Supported (PID 60) sig20 2 bit3({B6}) True/False 44 1 PID 76 Supported (PID 60) sig21 2 bit2({B6}) True/False 45 1 PID 77 Supported (PID 60) sig22 2 bit1({B6}) True/False 46 1 PID 78 Supported (PID 60) sig23 2 bit0({B6}) True/False 47 1 PID 79 Supported (PID 60) sig24 2 bit7({B7}) True/False 48 1 PID 7A Supported (PID 60) sig25 2 bit6({B7}) True/False 49 1 PID 7B Supported (PID 60) sig26 2 bit5({B7}) True/False 50 1 PID 7C Supported (PID 60) sig27 2 bit4({B7}) True/False 51 1 PID 7D Supported (PID 60) sig28 2 bit3({B7}) True/False 52 1 PID 7E Supported (PID 60) sig29 2 bit2({B7}) True/False 53 1 PID 7F Supported (PID 60) sig30 2 bit1({B7}) True/False 54 1 PID 80 Supported (PID 60) sig31 2 bit0({B7}) True/False 55 1 (PID 61) CAN Driver's Demand Engine - Percent Torque Response in97 7E8 xx 41 61 net0 12615680 Driver's Demand Engine - Percent Torque (PID 61) sig0 1 {Raw Value}*1-125|0,1,24,8 0 130 -125 % -125 24 8 (PID 62) CAN Actual Engine - Percent Torque Response in98 7E8 xx 41 62 net0 12615680 Actual Engine - Percent Torque (PID 62) sig0 1 {Raw Value}*1-125|0,1,24,8 0 130 -125 % -125 24 8 (PID 63) CAN Engine Reference Torque Response in99 7E8 xx 41 63 net0 12615680 Engine Reference Torque (PID 63) sig0 1 {Raw Value}|0,1,24,16 0 65535 0 Nm 24 16 (PID 80) CAN Supported PIDs (81-A0) Response in128 7E8 xx 41 80 net0 16744448 PID 81 Supported (PID 80) sig0 2 bit7({B4}) True/False 24 1 PID 82 Supported (PID 80) sig1 2 bit6({B4}) True/False 25 1 PID 83 Supported (PID 80) sig2 2 bit5({B4}) True/False 26 1 PID 84 Supported (PID 80) sig3 2 bit4({B4}) True/False 27 1 PID 85 Supported (PID 80) sig4 2 bit3({B4}) True/False 28 1 PID 86 Supported (PID 80) sig5 2 bit2({B4}) True/False 29 1 PID 87 Supported (PID 80) sig6 2 bit1({B4}) True/False 30 1 PID 88 Supported (PID 80) sig7 2 bit0({B4}) True/False 31 1 PID 89 Supported (PID 80) sig8 2 bit7({B5}) True/False 32 1 PID 8A Supported (PID 80) sig9 2 bit6({B5}) True/False 33 1 PID 8B Supported (PID 80) sig10 2 bit5({B5}) True/False 34 1 PID 8C Supported (PID 80) sig11 2 bit4({B5}) True/False 35 1 PID 8D Supported (PID 80) sig12 2 bit3({B5}) True/False 36 1 PID 8E Supported (PID 80) sig13 2 bit2({B5}) True/False 37 1 PID 8F Supported (PID 80) sig14 2 bit1({B5}) True/False 38 1 PID 90 Supported (PID 80) sig15 2 bit0({B5}) True/False 39 1 PID 91 Supported (PID 80) sig16 2 bit7({B6}) True/False 40 1 PID 92 Supported (PID 80) sig17 2 bit6({B6}) True/False 41 1 PID 93 Supported (PID 80) sig18 2 bit5({B6}) True/False 42 1 PID 94 Supported (PID 80) sig19 2 bit4({B6}) True/False 43 1 PID 95 Supported (PID 80) sig20 2 bit3({B6}) True/False 44 1 PID 96 Supported (PID 80) sig21 2 bit2({B6}) True/False 45 1 PID 97 Supported (PID 80) sig22 2 bit1({B6}) True/False 46 1 PID 98 Supported (PID 80) sig23 2 bit0({B6}) True/False 47 1 PID 99 Supported (PID 80) sig24 2 bit7({B7}) True/False 48 1 PID 9A Supported (PID 80) sig25 2 bit6({B7}) True/False 49 1 PID 9B Supported (PID 80) sig26 2 bit5({B7}) True/False 50 1 PID 9C Supported (PID 80) sig27 2 bit4({B7}) True/False 51 1 PID 9D Supported (PID 80) sig28 2 bit3({B7}) True/False 52 1 PID 9E Supported (PID 80) sig29 2 bit2({B7}) True/False 53 1 PID 9F Supported (PID 80) sig30 2 bit1({B7}) True/False 54 1 PID A0 Supported (PID 80) sig31 2 bit0({B7}) True/False 55 1 (PID 83) CAN NOx Sensor Response in131 7E8 41 83 net0 10789024 True 86 NOx Sensor Concentration 2-2 Supported (PID 83) sig1 2 bit3({B3}) True/False 20 1 NOx Sensor Concentration 2-1 Supported (PID 83) sig2 2 bit2({B3}) True/False 21 1 NOx Sensor Concentration 1-2 Supported (PID 83) sig3 2 bit1({B3}) True/False 22 1 NOx Sensor Concentration 1-1 Supported (PID 83) sig4 2 bit0({B3}) True/False 23 1 NOx Sensor Concentration 1-1 (PID 83) sig5 1 {Raw Value}|0,1,24,16 0 65535 0 ppm 24 16 NOx Sensor Concentration 1-2 (PID 83) sig6 1 {Raw Value}|0,1,40,16 0 65535 0 ppm 40 16 NOx Sensor Concentration 2-1 (PID 83) sig7 1 {Raw Value}|0,1,56,16 0 65535 0 ppm 56 16 NOx Sensor Concentration 2-2 (PID 83) sig8 1 {Raw Value}|0,1,72,16 0 65535 0 ppm 72 16 (Pid 9E) CAN Engine Exhaust Flow Rate in58 7E8 41 9E net0 10789024 True 86 Engine Exhaust Flow Rate sig8 1 {Raw Value}*0.2+0|0,1,16,16 0.00 13107 0 kg/h 0.2 16 16 4 (PID A1) CAN NOx-Sensor Corrected in65 7E8 41 A1 net0 10789024 True 86 NOx Sensor Corrected Concentration 2-2 Supported (PID A1) sig1 2 bit3({B3}) True/False 20 1 NOx Sensor Corrected Concentration 2-1 Supported (PID A1) sig2 2 bit2({B3}) True/False 21 1 NOx Sensor Corrected Concentration 1-2 Supported (PID A1) sig3 2 bit1({B3}) True/False 22 1 NOx Sensor Corrected Concentration 1-1 Supported (PID A1) sig4 2 bit0({B3}) True/False 23 1 NOx Sensor Corrected Concentration 1-1 (PID A1) sig5 1 {Raw Value}|0,1,24,16 0 65535 0 ppm 24 16 NOx Sensor Corrected Concentration 1-2 (PID A1) sig6 1 {Raw Value}|0,1,40,16 0 65535 0 ppm 40 16 NOx Sensor Corrected Concentration 2-1 (PID A1) sig7 1 {Raw Value}|0,1,56,16 0 65535 0 ppm 56 16 NOx Sensor Corrected Concentration 2-2 (PID A1) sig8 1 {Raw Value}|0,1,72,16 0 65535 0 ppm 72 16 (PID A0) CAN Supported PIDs (A0-BF) Response in77 7E8 41 A0 True net0 True 1 0 PID A1 Supported sig0 2 bit7({B3}) True/False 16 1 PID A2 Supported sig1 2 bit6({B3}) True/False 17 1 PID A3 Supported sig2 2 bit5({B3}) True/False 18 1 PID A4 Supported sig3 2 bit4({B3}) True/False 19 1 PID A5 Supported sig4 2 bit3({B3}) True/False 20 1 PID A6 Supported sig5 2 bit2({B3}) True/False 21 1 PID A7 Supported sig6 2 bit1({B3}) True/False 22 1 PID A8 Supported sig7 2 bit0({B3}) True/False 23 1 PID A9 Supported sig8 2 bit7({B4}) True/False 24 1 PID AA Supported sig9 2 bit6({B4}) True/False 25 1 PID AB Supported sig10 2 bit5({B4}) True/False 26 1 PID AC Supported sig11 2 bit4({B4}) True/False 27 1 PID AD Supported sig12 2 bit3({B4}) True/False 28 1 PID AE Supported sig13 2 bit2({B4}) True/False 29 1 PID AF Supported sig14 2 bit1({B4}) True/False 30 1 PID B0 Supported sig15 2 bit0({B4}) True/False 31 1 PID B1 Supported sig16 2 bit7({B5}) True/False 32 1 PID B2 Supported sig17 2 bit6({B5}) True/False 33 1 PID B3 Supported sig18 2 bit5({B5}) True/False 34 1 PID B4 Supported sig19 2 bit4({B5}) True/False 35 1 PID B5 Supported sig20 2 bit3({B5}) True/False 36 1 PID B6 Supported sig21 2 bit2({B5}) True/False 37 1 PID B7 Supported sig22 2 bit1({B5}) True/False 38 1 PID B8 Supported sig23 2 bit0({B5}) True/False 39 1 PID B9 Supported sig24 2 bit7({B6}) True/False 40 1 PID BA Supported sig25 2 bit6({B6}) True/False 41 1 PID BB Supported sig26 2 bit5({B6}) True/False 42 1 PID BC Supported sig27 2 bit4({B6}) True/False 43 1 PID BD Supported sig28 2 bit3({B6}) True/False 44 1 PID BE Supported sig29 2 bit2({B6}) True/False 45 1 PID BF Supported sig30 2 bit1({B6}) True/False 46 1 PID C0 Supported sig31 2 bit0({B6}) True/False 47 1 (PID 31) CAN Distance traveled since last DTC clear in79 7E8 04 41 31 net0 12615680 Kilometerstand sig1 1 {Raw Value}|0,1,24,16 0 65535 0 km 24 16 (PID 21) CAN Distance Traveled While MIL Activated in82 7E8 04 41 21 net0 DistanceMILOn sig0 1 {Raw Value}|0,1,24,16 0 65535 0 km 24 16 Drehzahl in102 C9 net0 3 UPM sig0 1 {Raw Value}*0.25|0,1,8,16 0.0 16383.75 0 1/min 1 0.25 8 16 Vector__XXX Wisher_Front in1 135 net0 1 Wischer sig0 2 bit6({B1}) 2 1 1 Vector__XXX Waschen sig1 2 bit5({B1}) 2 2 1 Vector__XXX Break in2 1E9 net0 1 Breakepedal_sw sig0 2 bit6({B1}) 2 1 1 Vector__XXX Handbreak in3 230 net0 2 Handbraek_switch_on sig0 2 bit7({B1}) 2 1 Vector__XXX Handbraek_swtch_off sig1 2 bit6({B1}) 2 1 1 Vector__XXX Locked sig2 2 bit4({B2}) 2 11 1 Vector__XXX Breakpedal in107 214 net0 2 Peadl_force sig0 1 {Raw Value}*0.392157|0,1,8,8 0.0 100.000000065 0 % 1 0.392157 8 8 Vector__XXX HS_CAN__2F9 in109 2F9 net0 0 CAN_aktive in6 140 net0 3 Zuendung sig0 2 bit1({B1}) 2 6 1 Vector__XXX Break sig1 2 bit6({B1}) 2 1 1 Vector__XXX HS_CAN__185 in7 185 net0 0 HS_CAN__1C3 in8 1C3 net0 0 HS_CAN__3D1 in9 3D1 net0 0 HS_CAN__4C1 in115 4C1 net0 0 ICS_Demo_XCPDAQ_PID_0_VSSAL in133 192.168.2.12 5555 L,XX,XX,XX,XX,00,00,00 xcp net82 False Audio_in1_LAeq_t sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 120 0 dBA 88 32 False 3 ICS_Demo_XCPDAQ_PID_1_VSSAL in134 192.168.2.12 5555 L,XX,XX,XX,XX,00,01,00 xcp net82 False cos_phi_L1_H1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 1 -1 - 88 32 False 3 ICS_Demo_XCPDAQ_PID_2_VSSAL in135 192.168.2.12 5555 L,XX,XX,XX,XX,00,02,00 xcp net82 False D_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 0 var 88 32 False 3 ICS_Demo_XCPDAQ_PID_3_VSSAL in136 192.168.2.12 5555 L,XX,XX,XX,XX,00,03,00 xcp net82 False DH_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 0 var 88 32 False 3 ICS_Demo_XCPDAQ_PID_4_VSSAL in137 192.168.2.12 5555 L,XX,XX,XX,XX,00,04,00 xcp net82 False Frequency sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 1100 0 Hz 88 32 False 3 ICS_Demo_XCPDAQ_PID_5_VSSAL in138 192.168.2.12 5555 L,XX,XX,XX,XX,00,05,00 xcp net82 False I_L1_H1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 10 0 A 88 32 False 3 ICS_Demo_XCPDAQ_PID_6_VSSAL in139 192.168.2.12 5555 L,XX,XX,XX,XX,00,06,00 xcp net82 False I_rm_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 10 0 A 88 32 False 3 ICS_Demo_XCPDAQ_PID_7_VSSAL in140 192.168.2.12 5555 L,XX,XX,XX,XX,00,07,00 xcp net82 False I_rms_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 10 0 A 88 32 False 3 ICS_Demo_XCPDAQ_PID_8_VSSAL in141 192.168.2.12 5555 L,XX,XX,XX,XX,00,08,00 xcp net82 False P_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 -4120 W 88 32 False 3 ICS_Demo_XCPDAQ_PID_9_VSSAL in142 192.168.2.12 5555 L,XX,XX,XX,XX,00,09,00 xcp net82 False P_L1_H1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 -4120 W 88 32 False 3 ICS_Demo_XCPDAQ_PID_A_VSSAL in143 192.168.2.12 5555 L,XX,XX,XX,XX,00,0A,00 xcp net82 False PF_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 1 -1 - 88 32 False 3 ICS_Demo_XCPDAQ_PID_B_VSSAL in144 192.168.2.12 5555 L,XX,XX,XX,XX,00,0B,00 xcp net82 False phi_L1_H1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 180 -180 deg. 88 32 False 3 ICS_Demo_XCPDAQ_PID_C_VSSAL in145 192.168.2.12 5555 L,XX,XX,XX,XX,00,0C,00 xcp net82 False Q_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 0 var 88 32 False 3 ICS_Demo_XCPDAQ_PID_D_VSSAL in146 192.168.2.12 5555 L,XX,XX,XX,XX,00,0D,00 xcp net82 False Q_L1_H1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 -4120 var 88 32 False 3 ICS_Demo_XCPDAQ_PID_E_VSSAL in147 192.168.2.12 5555 L,XX,XX,XX,XX,00,0E,00 xcp net82 False QH_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 -4120 var 88 32 False 3 ICS_Demo_XCPDAQ_PID_F_VSSAL in148 192.168.2.12 5555 L,XX,XX,XX,XX,00,0F,00 xcp net82 False S_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 0 VA 88 32 False 3 ICS_Demo_XCPDAQ_PID_10_VSSAL in149 192.168.2.12 5555 L,XX,XX,XX,XX,00,10,00 xcp net82 False S_L1_H1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 4120 0 VA 88 32 False 3 ICS_Demo_XCPDAQ_PID_11_VSSAL in150 192.168.2.12 5555 L,XX,XX,XX,XX,00,11,00 xcp net82 False Status sig0 1 {Raw Value}*1+0|0,0,88,8 0.000 2 0 - 88 8 False ICS_Demo_XCPDAQ_PID_12_VSSAL in151 192.168.2.12 5555 L,XX,XX,XX,XX,00,12,00 xcp net82 False U_L1_H1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 412 0 V 88 32 False 3 ICS_Demo_XCPDAQ_PID_13_VSSAL in152 192.168.2.12 5555 L,XX,XX,XX,XX,00,13,00 xcp net82 False U_rm_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 412 0 V 88 32 False 3 ICS_Demo_XCPDAQ_PID_14_VSSAL in153 192.168.2.12 5555 L,XX,XX,XX,XX,00,14,00 xcp net82 False U_rms_L1 sig0 1 {Raw Value}*1+0|3,0,88,32 0.000 412 0 V 88 32 False 3 ICS_Demo_XCP_START_STOP_CMD_DAQ0_VSSAL in154 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,00,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL in155 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCPDAQ_PID_0_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ1_VSSAL in156 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,01,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL in157 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCPDAQ_PID_1_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ2_VSSAL in158 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,02,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL in159 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCPDAQ_PID_2_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ3_VSSAL in160 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,03,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL in161 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCPDAQ_PID_3_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ4_VSSAL in162 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,04,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL in163 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCPDAQ_PID_4_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ5_VSSAL in164 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,05,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL 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ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL in169 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCPDAQ_PID_7_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ8_VSSAL in170 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,08,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL 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ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCPDAQ_PID_B_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQC_VSSAL in178 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,0C,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL 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ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL in181 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCPDAQ_PID_D_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQE_VSSAL in182 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,0E,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL in183 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCPDAQ_PID_E_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQF_VSSAL in184 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,0F,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL in185 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCPDAQ_PID_F_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ10_VSSAL in186 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,10,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL in187 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCPDAQ_PID_10_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ11_VSSAL in188 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,11,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL in189 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCPDAQ_PID_11_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ12_VSSAL in190 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,12,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL in191 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCPDAQ_PID_12_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ13_VSSAL in192 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,13,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL in193 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCPDAQ_PID_13_VSSAL 5 4 0 ICS_Demo_XCP_START_STOP_CMD_DAQ14_VSSAL in194 192.168.2.12 5555 L,XX,XX,XX,XX,DE,02,14,00 xcp net82 False ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ0_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ10_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ11_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ12_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ13_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ1_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ2_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ3_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ4_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ5_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ6_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ7_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ8_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ9_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQA_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQB_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQC_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQD_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQE_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQF_VSSAL ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL in195 192.168.2.12 5555 L,XX,XX,XX,XX,FF xcp net82 0 False ICS_Demo_XCP_START_STOP_RESP_DAQ14_VSSAL ICS_Demo_XCPDAQ_PID_14_VSSAL 5 4 0 ICS_Demo_XCP_DISCONNECT_VSSAL in196 192.168.2.12 5555 L,XX,XX,XX,XX,FE xcp net82 12 False XCP_Length sig0 1 {Raw Value}|0,0,0,16 0.0000 65535 0 16 False XCP_Counter sig1 1 {Raw Value}|0,0,16,16 0.0000 65535 0 16 16 False ICS_Demo_MAIN_XCP_RSP_VSSAL ICS_Demo_XCP_GET_S_STATUS_VSSAL in197 192.168.2.12 5555 L,XX,XX,XX,XX,FD xcp net82 12 False XCP_Length sig0 1 {Raw Value}|0,0,0,16 0.0000 65535 0 16 False XCP_Counter sig1 1 {Raw Value}|0,0,16,16 0.0000 65535 0 16 16 False ICS_Demo_MAIN_XCP_RSP_VSSAL ICS_Demo_MAIN_XCP_RSP_VSSAL in132 #b1111111X 192.168.2.12 5555 xcp net82 Command Response Code sig0 1 {Raw Value}|0,1,40,8 0.0000 Command_Response_Code 255 0 40 8 True UNSCALED-VSGW_Break_VSSAL in198 1E9 net0 1 Breakepedal_sw sig0 2 bit6({B1}) 2 1 1 Vector__XXX UNSCALED-VSGW_Breakpedal_VSSAL in199 214 net0 2 Peadl_force sig0 1 {Raw Value}|0,1,8,8 0.0 100.000000065 0 % 1 8 8 Vector__XXX UNSCALED-VSGW_CAN_aktive_VSSAL in200 140 net0 3 Break sig0 2 bit6({B1}) 2 1 1 Vector__XXX Zuendung sig1 2 bit1({B1}) 2 6 1 Vector__XXX UNSCALED-VSGW_Drehzahl_VSSAL in201 C9 net0 3 UPM sig0 1 {Raw Value}|0,1,8,16 0.0 16383.75 0 1/min 1 8 16 Vector__XXX UNSCALED-VSGW_Handbreak_VSSAL in202 230 net0 2 Handbraek_switch_on sig0 2 bit7({B1}) 2 1 Vector__XXX Handbraek_swtch_off sig1 2 bit6({B1}) 2 1 1 Vector__XXX Locked sig2 2 bit4({B2}) 2 11 1 Vector__XXX UNSCALED-VSGW_Report Message (Magnetometer)_VSSAL in203 192 True net8 Magnetometer X sig0 1 {Raw Value}|3,0,0,32 0.0000 Magnetometer_X 0 0 µT 32 False 3 Magnetometer Y sig1 1 {Raw Value}|3,0,32,32 0.0000 Magnetometer_Y 0 0 µT 32 32 False 3 Magnetometer Z sig2 1 {Raw Value}|3,0,64,32 0.0000 Magnetometer_Z 0 0 µT 64 32 False 3 UNSCALED-VSGW_Report Message (Accelerometer)_VSSAL in204 190 True net8 Accelerometer X sig0 1 {Raw Value}|3,0,0,32 0.0000 Accelerometer_X 0 0 g 32 False 3 Accelerometer Y sig1 1 {Raw Value}|3,0,32,32 0.0000 Accelerometer_Y 0 0 g 32 32 False 3 Accelerometer Z sig2 1 {Raw Value}|3,0,64,32 0.0000 Accelerometer_Z 0 0 g 64 32 False 3 UNSCALED-VSGW_Report Message (Gyroscope)_VSSAL in205 191 True net8 Gyroscope X sig0 1 {Raw Value}|3,0,0,32 0.0000 Gyroscope_X 0 0 °/sec 32 False 3 Gyroscope Y sig1 1 {Raw Value}|3,0,32,32 0.0000 Gyroscope_Y 0 0 °/sec 32 32 False 3 Gyroscope Z sig2 1 {Raw Value}|3,0,64,32 0.0000 Gyroscope_Z 0 0 °/sec 64 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_1_VSSAL_VSSAL in206 192.168.2.12 5555 L,XX,XX,XX,XX,00,01,00 xcp net82 False cos_phi_L1_H1 sig0 1 {Raw Value}|3,0,88,32 0.000 1 -1 - 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_3_VSSAL_VSSAL in207 192.168.2.12 5555 L,XX,XX,XX,XX,00,03,00 xcp net82 False DH_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 0 var 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_2_VSSAL_VSSAL in208 192.168.2.12 5555 L,XX,XX,XX,XX,00,02,00 xcp net82 False D_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 0 var 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_4_VSSAL_VSSAL in209 192.168.2.12 5555 L,XX,XX,XX,XX,00,04,00 xcp net82 False Frequency sig0 1 {Raw Value}|3,0,88,32 0.000 1100 0 Hz 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_5_VSSAL_VSSAL in210 192.168.2.12 5555 L,XX,XX,XX,XX,00,05,00 xcp net82 False I_L1_H1 sig0 1 {Raw Value}|3,0,88,32 0.000 10 0 A 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_7_VSSAL_VSSAL in211 192.168.2.12 5555 L,XX,XX,XX,XX,00,07,00 xcp net82 False I_rms_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 10 0 A 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_6_VSSAL_VSSAL in212 192.168.2.12 5555 L,XX,XX,XX,XX,00,06,00 xcp net82 False I_rm_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 10 0 A 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_A_VSSAL_VSSAL in213 192.168.2.12 5555 L,XX,XX,XX,XX,00,0A,00 xcp net82 False PF_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 1 -1 - 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_B_VSSAL_VSSAL in214 192.168.2.12 5555 L,XX,XX,XX,XX,00,0B,00 xcp net82 False phi_L1_H1 sig0 1 {Raw Value}|3,0,88,32 0.000 180 -180 deg. 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_8_VSSAL_VSSAL in215 192.168.2.12 5555 L,XX,XX,XX,XX,00,08,00 xcp net82 False P_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 -4120 W 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_9_VSSAL_VSSAL in216 192.168.2.12 5555 L,XX,XX,XX,XX,00,09,00 xcp net82 False P_L1_H1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 -4120 W 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_E_VSSAL_VSSAL in217 192.168.2.12 5555 L,XX,XX,XX,XX,00,0E,00 xcp net82 False QH_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 -4120 var 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_C_VSSAL_VSSAL in218 192.168.2.12 5555 L,XX,XX,XX,XX,00,0C,00 xcp net82 False Q_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 0 var 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_D_VSSAL_VSSAL in219 192.168.2.12 5555 L,XX,XX,XX,XX,00,0D,00 xcp net82 False Q_L1_H1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 -4120 var 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_11_VSSAL_VSSAL in220 192.168.2.12 5555 L,XX,XX,XX,XX,00,11,00 xcp net82 False Status sig0 1 {Raw Value}|0,0,88,8 0.000 2 0 - 88 8 False UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_F_VSSAL_VSSAL in221 192.168.2.12 5555 L,XX,XX,XX,XX,00,0F,00 xcp net82 False S_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 0 VA 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_10_VSSAL_VSSAL in222 192.168.2.12 5555 L,XX,XX,XX,XX,00,10,00 xcp net82 False S_L1_H1 sig0 1 {Raw Value}|3,0,88,32 0.000 4120 0 VA 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_12_VSSAL_VSSAL in223 192.168.2.12 5555 L,XX,XX,XX,XX,00,12,00 xcp net82 False U_L1_H1 sig0 1 {Raw Value}|3,0,88,32 0.000 412 0 V 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_14_VSSAL_VSSAL in224 192.168.2.12 5555 L,XX,XX,XX,XX,00,14,00 xcp net82 False U_rms_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 412 0 V 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_13_VSSAL_VSSAL in225 192.168.2.12 5555 L,XX,XX,XX,XX,00,13,00 xcp net82 False U_rm_L1 sig0 1 {Raw Value}|3,0,88,32 0.000 412 0 V 88 32 False 3 UNSCALED-VSGW_ICS_Demo_XCPDAQ_PID_0_VSSAL_VSSAL in226 192.168.2.12 5555 L,XX,XX,XX,XX,00,00,00 xcp net82 False Audio_in1_LAeq_t sig0 1 {Raw Value}|3,0,88,32 0.000 120 0 dBA 88 32 False 3 Trigger_VSSAL in227 411 net8 8 False Logger_Triggered sig0 3 NO_TRG@{Raw Value}=0|TRG[msg]@{Raw Value}=1|TRG[ms]@{Raw Value}=2~0,1,0,8 0 3 NO_TRG 0 TRG[msg] 1 TRG[ms] 2 2 0 8 Pre-Trigger_Size sig1 1 {Raw Value}|0,1,8,32 0 4294967295 0 8 32 Collection Index sig2 1 {Raw Value}|0,1,40,8 0 255 0 40 8 ICS_Demo_MAIN_XCP_CMD_VSSAL in228 192.168.2.12 5555 xcp net82 12 2 False XCP_Length sig0 1 {Raw Value}|0,0,0,16 0.0000 65535 0 0 True 16 False XCP_Counter sig1 1 {Raw Value}|0,0,16,16 0.0000 65535 0 0 True 16 16 False VSGW_PackedTxMsg_1 in229 100 net0 8 10 Audio_in1_LAeq_t sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 dBA 2 32 3 Vector__XXX U_rm_L1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 V 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_2 in230 101 net0 8 10 U_rms_L1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 V 2 32 3 Vector__XXX U_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 V 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_3 in231 102 net0 8 10 S_L1_H1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 VA 2 32 3 Vector__XXX S_L1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 VA 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_4 in232 103 net0 8 10 Q_L1_H1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 var 2 32 3 Vector__XXX Q_L1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 var 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_5 in233 104 net0 8 10 QH_L1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 var 2 32 3 Vector__XXX P_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 W 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_6 in234 105 net0 8 10 P_L1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 W 2 32 3 Vector__XXX phi_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 deg. 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_7 in235 106 net0 8 10 PF_L1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 - 2 32 3 Vector__XXX I_rm_L1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 A 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_8 in236 107 net0 8 10 I_rms_L1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 A 2 32 3 Vector__XXX I_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 A 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_9 in237 108 net0 8 10 Frequency sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 Hz 2 32 3 Vector__XXX D_L1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 var 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_10 in238 109 net0 8 10 DH_L1 sig0 1 {Raw Value}|3,1,0,32 0.0000 0 0 var 2 32 3 Vector__XXX cos_phi_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.0000 0 0 - 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_11 in239 10A net0 8 10 Gyroscope Z sig0 1 {Raw Value}|3,1,0,32 0.0000 Gyroscope_Z 0 0 °/sec 2 32 3 Vector__XXX Gyroscope Y sig1 1 {Raw Value}|3,1,32,32 0.0000 Gyroscope_Y 0 0 °/sec 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_12 in240 10B net0 8 10 Gyroscope X sig0 1 {Raw Value}|3,1,0,32 0.0000 Gyroscope_X 0 0 °/sec 2 32 3 Vector__XXX Accelerometer Z sig1 1 {Raw Value}|3,1,32,32 0.0000 Accelerometer_Z 0 0 g 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_13 in241 10C net0 8 10 Accelerometer Y sig0 1 {Raw Value}|3,1,0,32 0.0000 Accelerometer_Y 0 0 g 2 32 3 Vector__XXX Accelerometer X sig1 1 {Raw Value}|3,1,32,32 0.0000 Accelerometer_X 0 0 g 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_14 in242 10D net0 8 10 Magnetometer Z sig0 1 {Raw Value}|3,1,0,32 0.0000 Magnetometer_Z 0 0 µT 2 32 3 Vector__XXX Magnetometer Y sig1 1 {Raw Value}|3,1,32,32 0.0000 Magnetometer_Y 0 0 µT 2 32 32 3 Vector__XXX VSGW_PackedTxMsg_15 in243 10E net0 8 10 Magnetometer X sig0 1 {Raw Value}|3,1,0,32 0.0000 Magnetometer_X 0 0 µT 2 32 3 Vector__XXX UPM sig1 1 {Raw Value}*0.25|0,1,32,16 0.0 16383.75 0 1/min 1 0.25 32 16 Vector__XXX Status sig2 1 {Raw Value}|0,1,48,8 255 0 - 1 48 8 Vector__XXX Peadl_force sig3 1 {Raw Value}*0.392157|0,1,56,8 0.0 100.000000065 0 % 1 0.392157 56 8 Vector__XXX VSGW_PackedTxMsg_16 in244 10F net0 1 10 Locked sig0 2 bit7({B1}) 2 1 Vector__XXX Handbraek_swtch_off sig1 2 bit6({B1}) 2 1 1 Vector__XXX Handbraek_switch_on sig2 2 bit5({B1}) 2 2 1 Vector__XXX Zuendung sig3 2 bit4({B1}) 2 3 1 Vector__XXX Break sig4 2 bit3({B1}) 2 4 1 Vector__XXX Breakepedal_sw sig5 2 bit2({B1}) 2 5 1 Vector__XXX out1 10 VSGW_PackedTxMsg_1_VSSAL out1 100 net0 False Audio_in1_LAeq_t sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 dBA 0 True 32 3 U_rm_L1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 V 0 True 32 32 3 out2 10 VSGW_PackedTxMsg_2_VSSAL out2 101 net0 False U_rms_L1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 V 0 True 32 3 U_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 V 0 True 32 32 3 out3 10 VSGW_PackedTxMsg_3_VSSAL out3 102 net0 False S_L1_H1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 VA 0 True 32 3 S_L1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 VA 0 True 32 32 3 out4 10 VSGW_PackedTxMsg_4_VSSAL out4 103 net0 False Q_L1_H1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 var 0 True 32 3 Q_L1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 var 0 True 32 32 3 out5 10 VSGW_PackedTxMsg_5_VSSAL out5 104 net0 False QH_L1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 var 0 True 32 3 P_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 W 0 True 32 32 3 out6 10 VSGW_PackedTxMsg_6_VSSAL out6 105 net0 False P_L1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 W 0 True 32 3 phi_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 deg. 0 True 32 32 3 out7 10 VSGW_PackedTxMsg_7_VSSAL out7 106 net0 False PF_L1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 - 0 True 32 3 I_rm_L1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 A 0 True 32 32 3 out8 10 VSGW_PackedTxMsg_8_VSSAL out8 107 net0 False I_rms_L1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 A 0 True 32 3 I_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 A 0 True 32 32 3 out9 10 VSGW_PackedTxMsg_9_VSSAL out9 108 net0 False Frequency sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 Hz 0 True 32 3 D_L1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 var 0 True 32 32 3 out10 10 VSGW_PackedTxMsg_10_VSSAL out10 109 net0 False DH_L1 sig0 1 {Raw Value}|3,1,0,32 0.000 0 0 var 0 True 32 3 cos_phi_L1_H1 sig1 1 {Raw Value}|3,1,32,32 0.000 0 0 - 0 True 32 32 3 out11 10 VSGW_PackedTxMsg_11_VSSAL out11 10A net0 False Gyroscope Z sig0 1 {Raw Value}|3,1,0,32 0.0000 Gyroscope_Z 0 0 °/sec 0 True 32 3 Gyroscope Y sig1 1 {Raw Value}|3,1,32,32 0.0000 Gyroscope_Y 0 0 °/sec 0 True 32 32 3 out12 10 VSGW_PackedTxMsg_12_VSSAL out12 10B net0 False Gyroscope X sig0 1 {Raw Value}|3,1,0,32 0.0000 Gyroscope_X 0 0 °/sec 0 True 32 3 Accelerometer Z sig1 1 {Raw Value}|3,1,32,32 0.0000 Accelerometer_Z 0 0 g 0 True 32 32 3 out13 10 VSGW_PackedTxMsg_13_VSSAL out13 10C net0 False Accelerometer Y sig0 1 {Raw Value}|3,1,0,32 0.0000 Accelerometer_Y 0 0 g 0 True 32 3 Accelerometer X sig1 1 {Raw Value}|3,1,32,32 0.0000 Accelerometer_X 0 0 g 0 True 32 32 3 out14 10 VSGW_PackedTxMsg_14_VSSAL out14 10D net0 False Magnetometer Z sig0 1 {Raw Value}|3,1,0,32 0.0000 Magnetometer_Z 0 0 µT 0 True 32 3 Magnetometer Y sig1 1 {Raw Value}|3,1,32,32 0.0000 Magnetometer_Y 0 0 µT 0 True 32 32 3 out15 10 VSGW_PackedTxMsg_15_VSSAL out15 10E net0 False Magnetometer X sig0 1 {Raw Value}|3,1,0,32 0.0000 Magnetometer_X 0 0 µT 0 True 32 3 UPM sig1 1 {Raw Value}|0,1,32,16 0.0 16383.75 0 1/min 1 0 True 32 16 Vector__XXX Status sig2 1 {Raw Value}|0,1,48,8 0.000 255 0 - 0 True 48 8 Peadl_force sig3 1 {Raw Value}|0,1,56,8 0.0 100.000000065 0 % 1 0 True 56 8 Vector__XXX out16 10 VSGW_PackedTxMsg_16_VSSAL out16 10F net0 False Locked sig0 2 bit7({B1}) 2 0 True 1 Vector__XXX Handbraek_swtch_off sig1 2 bit6({B1}) 2 0 True 1 1 Vector__XXX Handbraek_switch_on sig2 2 bit5({B1}) 2 0 True 2 1 Vector__XXX Zuendung sig3 2 bit4({B1}) 2 0 True 3 1 Vector__XXX Break sig4 2 bit3({B1}) 2 0 True 4 1 Vector__XXX Breakepedal_sw sig5 2 bit2({B1}) 2 0 True 5 1 Vector__XXX out17 ICS_Demo_MAIN_XCP_CMD_VSSAL out17 192.168.2.12 5555 xcp net82 12 2 False XCP_Length sig0 1 {Raw Value}|0,0,0,16 0.0000 65535 0 1 True 16 False XCP_Counter sig1 1 {Raw Value}|0,0,16,16 0.0000 65535 0 0 True 16 16 False out18 Trigger_VSSAL out18 411 net8 8 False Logger_Triggered sig0 3 NO_TRG@{Raw Value}=0|TRG[msg]@{Raw Value}=1|TRG[ms]@{Raw Value}=2~0,1,0,8 0 3 NO_TRG 0 TRG[msg] 1 TRG[ms] 2 2 0 0 True 8 Pre-Trigger_Size sig1 1 {Raw Value}|0,1,8,32 0 4294967295 0 0 True 8 32 Collection Index sig2 1 {Raw Value}|0,1,40,8 0 255 0 0 True 40 8 Main tst1 8 Capture File Function Block 2 True 1 5000 1 1 1 True out1 1 stp0 14 TODO: Add step commands here txt stp1 4 4 tst0 Playback1 stp2 4 4 2 tst2 Playback2 stp3 14 txt stp4 14 txt stp5 14 txt stp6 14 txt stp7 14 txt stp8 14 txt stp9 14 txt Playback1 tst0 3 Capture File Function Block 1 1 True 1 5000 1 1 1 C:\Users\Andreas\IntrepidCloud\ICSShare\Demo\Demo - Datalogger TEX22\full trace 2022-06-10 06-54-10-290994 Partition 0.vsb True out1 1 Playback2 tst2 3 Capture File Function Block 3 1 True 1 5000 1 1 1 C:\Users\Andreas\IntrepidCloud\ICSShare\Demo\Demo - Datalogger TEX22\full trace 2022-06-10 10-26-01-291045 Partition 0.vsb True out1 1 Fulltrace_on_MIC_MsgCapture_VSSAL tst3 Fulltrace_on_MIC 1 True 1 5000 50000 1 1 1 True True True True 1 out1 3 1 OBDSim_RPM_greater_1000_MsgCapture_VSSAL tst4 OBDSim_RPM_greater_1000 1 True 1 1 10000 50000 1 1 1 True True True True True 5 out1 3 1 Report Message (Accelerometer)|neoVI dbs53 Report Message (Gyroscope)|neoVI dbs54 Report Message (Magnetometer)|neoVI dbs55 in133 in134 in145 in146 in147 in139 in140 in141 in148 in149 in150 in132 in6 in107 in3 in2 in102 in135 in136 in142 in143 in144 in137 in138 in227 in153 in152 in151 in228 Collect_DEWESoft_Power_on_Audio_MsgCapture_VSSAL tst5 Collect DEWESoft Power on Audio 1 True 1 1 15000 50000 1 1 1 True True True True 5 out1 3 1 ICS_Demo_XCP_INIT_VSSAL tst6 8 icsSpyDataFile.csv 1 True 1 5000 1 1 1 True 1 out1 1 stp0 6 Reset Command Counter txt 0 0 {ICS_Demo_MAIN_XCP_CMD_VSSAL :out17-sig1-0} {ICS_Demo_MAIN_XCP_CMD_VSSAL :out17-sig1-0} stp1 6 txt 8 8 {LENGTH_OF_XCP_CMD_VSSAL :sig6-index(0)} {LENGTH_OF_XCP_CMD_VSSAL :sig6-index(0)} stp2 6 txt 0 {LENGTH_OF_XCP_CMD_VSSAL :sig6-index(0)} {XCP_Length (Value):out17-sig0-0} stp3 6 txt 0 0 {BIN_INDEX_VSSAL :sig8-index(0)} stp4 19 131 0 START: Loop to connect to the XCP ECU txt stp5 24 16 7 out17,sig8,sig6,4,64 Load next XCP command 5 ICS_Demo_XCP_INIT_VSSAL stp6 6 Reset the Has Transmitted flag txt {ICS_Demo_MAIN_XCP_CMD_VSSAL (Has Transmitted) :out17-32} 0 {TIMEOUT (value) :sig9-0} {ICS_Demo_MAIN_XCP_CMD_VSSAL (Has Transmitted) :out17-32} stp7 6 XCPRSP PRESENT FLAG TO ZERO txt 0 0 {XCPRSP (Present) :in132-0} {XCPRSP (Present) :in132-0} stp8 1 16 out17 ICS_Demo_MAIN_XCP_CMD_VSSAL stp9 3 5000 Wait for the transmit to complete 1 txt {ICS_Demo_MAIN_XCP_CMD_VSSAL (Has Transmitted) :out17-32} {ICS_Demo_MAIN_XCP_CMD_VSSAL (Has Transmitted) :out17-32} stp10 15 14 14 if command didn't transmit txt {ICS_Demo_MAIN_XCP_CMD_VSSAL (Has Transmitted) :out17-32} = 0 stp11 6 Set TCP NOT connected txt 0 {ICS_Demo_MAIN_XCP_CMD_VSSAL (TCP Connected) :out17-74} stp12 restart init txt stp13 18 txt stp14 6 Save time for timeout txt TIME (ABS) {TIME (ABS)} {TIMEOUT (value) :sig9-0} {TIMEOUT (value) :sig9-0} stp15 6 Increment Command Counter txt {ICS_Demo_MAIN_XCP_CMD_VSSAL :out17-sig1-0}+1 {ICS_Demo_MAIN_XCP_CMD_VSSAL :out17-sig1-0}+1 {ICS_Demo_MAIN_XCP_CMD_VSSAL :out17-sig1-0} {ICS_Demo_MAIN_XCP_CMD_VSSAL :out17-sig1-0} stp16 6 txt {BIN_INDEX_VSSAL :sig8-index(0)}+8 {BIN_INDEX_VSSAL :sig8-index(0)}+8 {BIN_INDEX_VSSAL :sig8-index(0)} {BIN_INDEX_VSSAL :sig8-index(0)} stp17 3 Wait Until timeout or Rx Receive txt {XCPRSP (Present) :in132-0} or ({TIME (ABS)}-{TIMEOUT (value) :sig9-0}) > 0.5 {XCPRSP (Present) :in132-0} or ({TIME (ABS)}-{TIMEOUT (value) :sig9-0}) > 0.5 stp18 15 21 21 if timeout, jump to next command txt (({TIME (ABS)}-{TIMEOUT (value) :sig9-0}) > 0.5) and ({BIN_INDEX_VSSAL :sig8-index(0)} <> 8) (({TIME (ABS)}-{TIMEOUT (value) :sig9-0}) > 0.5) and ({BIN_INDEX_VSSAL :sig8-index(0)} <> 8) stp19 Timeout, jump to re-init txt stp20 18 txt stp21 20 4 0 END: Loop to init the XCP ECU txt stp22 6 Reset the semaphore. txt 0 0 {(Semaphore Signal) :sig7-index(0)} {(Semaphore Signal) :sig7-index(0)} stp23 4 0 7 tst7 Start the watchdog ICS_Demo_XCP_Watchdog_VSSAL stp24 8 txt ICS_Demo_XCP_Watchdog_VSSAL tst7 8 icsSpyDataFile.csv 1 True 1 5000 1 1 1 True out1 1 stp0 6 Sample the current count of PID0 txt {ICS_Demo_XCPDAQ_PID_0_VSSAL (Count) :in133-5} {ICS_Demo_XCP_WatchdogLastSampledRxCount_VSSAL :sig11-0} stp1 2 5000 0 Wait for messages to get received txt stp2 15 7 7 Has the count of PID0 changed? txt {ICS_Demo_XCP_WatchdogLastSampledRxCount_VSSAL :sig11-0} = {ICS_Demo_XCPDAQ_PID_0_VSSAL (Count) :in133-5} stp3 6 Set TCP NOT Connected txt 0 0 {ICS_Demo_MAIN_XCP_CMD_VSSAL (TCP Connected) :out17-74} {ICS_Demo_MAIN_XCP_CMD_VSSAL (TCP Connected) :out17-74} stp4 4 0 6 tst6 Re-do init ICS_Demo_XCP_INIT_VSSAL stp5 8 Terminate watchdog, will be restarted when init is successful txt stp6 18 txt stp7 watchdog loop txt DAQStart_VSSAL tst8 8 icsSpyDataFile.csv 1 True 1 5000 1 1 1 True out1 1 stp0 4 0 6 tst6 Start each DAQStart block in parallel ICS_Demo_XCP_INIT_VSSAL stp1 8 txt Fulltrace_on_MIC_MasterControl_VSSAL tst9 8 icsSpyDataFile.csv 1 True 1 5000 1 1 1 True out1 1 stp0 4 0 8 tst8 Always DAQ = true DAQStart_VSSAL stp1 6 Clear the manual trigger txt 0 {Manual Trigger} stp2 3 Collection Start Predicate txt (0) or ({Manual Trigger}) stp3 6 Clear Force Upload Signal txt 0 {Force_Upload_Trigger_VSSAL :sig4-0} stp4 6 Save the start sector address txt {Current Sector Address} {Fulltrace_on_MIC_MsgCapture_VSSAL :tst3-6} stp5 6 Clear the end sector address txt 0 {Fulltrace_on_MIC_MsgCapture_VSSAL :tst3-7} stp6 6 Inform Wireless NeoVI client that the capture started txt 1 {Fulltrace_on_MIC_MsgCapture_VSSAL :tst3-9} stp7 4 0 3 tst3 Start capturing Fulltrace_on_MIC_MsgCapture_VSSAL stp8 6 Increment the number of conditional captures active txt {Conditional_Captures_Active_VSSAL :sig12-0} + 1 {Conditional_Captures_Active_VSSAL :sig12-0} stp9 3 Wait for capture to finish txt {Fulltrace_on_MIC_MsgCapture_VSSAL :tst3-0} = 0 or {Force_Upload_Trigger_VSSAL :sig4-0} stp10 6 Save the end sector address txt {Current Sector Address} {Fulltrace_on_MIC_MsgCapture_VSSAL :tst3-7} stp11 6 Create upload txt 1 {Fulltrace_on_MIC_MsgCapture_VSSAL :tst3-8} stp12 6 Decrement the number of conditional captures active txt {Conditional_Captures_Active_VSSAL :sig12-0} - 1 {Conditional_Captures_Active_VSSAL :sig12-0} stp13 2 Restart capture txt OBDSim_RPM_greater_1000_MasterControl_VSSAL tst10 8 icsSpyDataFile.csv 1 True 1 5000 1 1 1 True out1 1 stp0 6 Clear the semaphore to the triggered message txt 0 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp1 6 Clear the post trigger flag txt 0 {OBDSim_RPM_greater_1000_TRIGGERED_DoingPost_VSSAL :sig2-0} stp2 4 0 4 tst4 Start capturing OBDSim_RPM_greater_1000_MsgCapture_VSSAL stp3 3 Wait for trigger txt UPM (Value [1/min]) ({UPM (Value [1/min]) :in102-sig0-0}>1000) 0.0 0 16383.75 1/min stp4 6 Clear Force Upload Signal txt 0 {Force_Upload_Trigger_VSSAL :sig4-0} stp5 6 Save the start sector address txt {Current Sector Address} {OBDSim_RPM_greater_1000_MsgCapture_VSSAL :tst4-6} stp6 6 Clear the end sector address txt 0 {OBDSim_RPM_greater_1000_MsgCapture_VSSAL :tst4-7} stp7 6 Inform Wireless NeoVI client that the capture started txt 1 {OBDSim_RPM_greater_1000_MsgCapture_VSSAL :tst4-9} stp8 6 Increment the number of conditional captures active txt {Conditional_Captures_Active_VSSAL :sig12-0} + 1 {Conditional_Captures_Active_VSSAL :sig12-0} stp9 6 Increment the number of triggers active txt {Active Trigger Count} + 1 {Active Trigger Count} stp10 36 20 22 Attempt to atomically acquire the triggered message semaphore, or keep it if we already own it. txt {Triggered_Message_Semaphore_VSSAL :sig13-0} = 0 or {Triggered_Message_Semaphore_VSSAL :sig13-0} = 10 10 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp11 6 txt 0 {Pre-Trigger_Size :out18-sig1-0} stp12 6 Identify the trigger to this collection txt 1 {Collection Index :out18-sig2-0} stp13 6 Set virtual triggered signal to false txt 0 {Logger_Triggered :out18-sig0-0} stp14 1 17 out18 Send virtual triggered message Trigger_VSSAL stp15 6 txt 10000 {Pre-Trigger_Size :out18-sig1-0} stp16 6 Set virtual triggered signal to true txt 2 {Logger_Triggered :out18-sig0-0} stp17 1 17 out18 Send virtual triggered message Trigger_VSSAL stp18 6 Release the semaphore for the triggered message. txt 0 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp19 17 22 We didn't get the semaphore txt stp20 11 Try, try again! txt stp21 18 End if we got the triggered semaphore txt stp22 6 Set that we're currently triggered txt 1 {OBDSim_RPM_greater_1000_TRIGGERED_DoingPost_VSSAL :sig2-0} stp23 6 Get the current time txt {TIME (ABS)} {OBDSim_RPM_greater_1000_Messages Captured At Trigger_VSSAL :sig14-0} stp24 3 20000 Wait for post-trigger 1 txt {Force_Upload_Trigger_VSSAL :sig4-0} stp25 6 Set that we're currently not triggered txt 0 {OBDSim_RPM_greater_1000_TRIGGERED_DoingPost_VSSAL :sig2-0} stp26 36 35 37 Attempt to atomically acquire the triggered message semaphore, or keep it if we already own it.. txt {Triggered_Message_Semaphore_VSSAL :sig13-0} = 0 or {Triggered_Message_Semaphore_VSSAL :sig13-0} = 10 10 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp27 6 Identify the trigger to this collection txt 1 {Collection Index :out18-sig2-0} stp28 6 txt 0 {Pre-Trigger_Size :out18-sig1-0} stp29 6 Set virtual triggered signal to true txt 2 {Logger_Triggered :out18-sig0-0} stp30 1 17 out18 Send virtual triggered message Trigger_VSSAL stp31 6 Set virtual triggered signal to false txt 0 {Logger_Triggered :out18-sig0-0} stp32 1 17 out18 Send virtual triggered message Trigger_VSSAL stp33 6 Release the semaphore for the triggered message.. txt 0 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp34 17 37 We didn't get the semaphore txt stp35 27 Try, try again! txt stp36 18 End if we got the triggered semaphore txt stp37 6 Save the end sector address txt {Current Sector Address} {OBDSim_RPM_greater_1000_MsgCapture_VSSAL :tst4-7} stp38 6 Create upload txt 1 {OBDSim_RPM_greater_1000_MsgCapture_VSSAL :tst4-8} stp39 6 Decrement the number of conditional captures active txt {Conditional_Captures_Active_VSSAL :sig12-0} - 1 {Conditional_Captures_Active_VSSAL :sig12-0} stp40 6 Decrement the number of triggers active txt {Active Trigger Count} - 1 {Active Trigger Count} stp41 3 Wait for trigger to go away txt not (({UPM (Value [1/min]) :in102-sig0-0}>1000)) stp42 4 Wait for trigger again txt Collect_DEWESoft_Power_on_Audio_MasterControl_VSSAL tst11 8 icsSpyDataFile.csv 1 True 1 5000 1 1 1 True out1 1 stp0 6 Clear the post trigger flag txt 0 {Collect_DEWESoft_Power_on_Audio_TRIGGERED_DoingPost_VSSAL :sig3-0} stp1 4 0 5 tst5 Start capturing Collect_DEWESoft_Power_on_Audio_MsgCapture_VSSAL stp2 3 Wait for trigger txt Audio_in1_LAeq_t (Value [dBA]) ({Audio_in1_LAeq_t (Value [dBA]) :in133-sig0-0}>60 and ({ICS_Demo_XCPDAQ_PID_0_VSSAL (Count) :in133-5} > 0)) dBA True stp3 6 Clear Force Upload Signal txt 0 {Force_Upload_Trigger_VSSAL :sig4-0} stp4 6 Save the start sector address txt {Current Sector Address} {Collect_DEWESoft_Power_on_Audio_MsgCapture_VSSAL :tst5-6} stp5 6 Clear the end sector address txt 0 {Collect_DEWESoft_Power_on_Audio_MsgCapture_VSSAL :tst5-7} stp6 6 Inform Wireless NeoVI client that the capture started txt 1 {Collect_DEWESoft_Power_on_Audio_MsgCapture_VSSAL :tst5-9} stp7 6 Increment the number of conditional captures active txt {Conditional_Captures_Active_VSSAL :sig12-0} + 1 {Conditional_Captures_Active_VSSAL :sig12-0} stp8 6 Increment the number of triggers active txt {Active Trigger Count} + 1 {Active Trigger Count} stp9 36 19 21 Attempt to atomically acquire the triggered message semaphore, or keep it if we already own it. txt {Triggered_Message_Semaphore_VSSAL :sig13-0} = 0 or {Triggered_Message_Semaphore_VSSAL :sig13-0} = 11 11 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp10 6 txt 0 {Pre-Trigger_Size :out18-sig1-0} stp11 6 Identify the trigger to this collection txt 2 {Collection Index :out18-sig2-0} stp12 6 Set virtual triggered signal to false txt 0 {Logger_Triggered :out18-sig0-0} stp13 1 17 out18 Send virtual triggered message Trigger_VSSAL stp14 6 txt 15000 {Pre-Trigger_Size :out18-sig1-0} stp15 6 Set virtual triggered signal to true txt 2 {Logger_Triggered :out18-sig0-0} stp16 1 17 out18 Send virtual triggered message Trigger_VSSAL stp17 6 Release the semaphore for the triggered message. txt 0 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp18 17 21 We didn't get the semaphore txt stp19 10 Try, try again! txt stp20 18 End if we got the triggered semaphore txt stp21 6 Set that we're currently triggered txt 1 {Collect_DEWESoft_Power_on_Audio_TRIGGERED_DoingPost_VSSAL :sig3-0} stp22 6 Get the current time txt {TIME (ABS)} {Collect_DEWESoft_Power_on_Audio_Messages Captured At Trigger_VSSAL :sig15-0} stp23 3 15000 Wait for post-trigger 1 txt {Force_Upload_Trigger_VSSAL :sig4-0} stp24 6 Set that we're currently not triggered txt 0 {Collect_DEWESoft_Power_on_Audio_TRIGGERED_DoingPost_VSSAL :sig3-0} stp25 36 34 36 Attempt to atomically acquire the triggered message semaphore, or keep it if we already own it.. txt {Triggered_Message_Semaphore_VSSAL :sig13-0} = 0 or {Triggered_Message_Semaphore_VSSAL :sig13-0} = 11 11 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp26 6 Identify the trigger to this collection txt 2 {Collection Index :out18-sig2-0} stp27 6 txt 0 {Pre-Trigger_Size :out18-sig1-0} stp28 6 Set virtual triggered signal to true txt 2 {Logger_Triggered :out18-sig0-0} stp29 1 17 out18 Send virtual triggered message Trigger_VSSAL stp30 6 Set virtual triggered signal to false txt 0 {Logger_Triggered :out18-sig0-0} stp31 1 17 out18 Send virtual triggered message Trigger_VSSAL stp32 6 Release the semaphore for the triggered message.. txt 0 {Triggered_Message_Semaphore_VSSAL :sig13-0} stp33 17 36 We didn't get the semaphore txt stp34 26 Try, try again! txt stp35 18 End if we got the triggered semaphore txt stp36 6 Save the end sector address txt {Current Sector Address} {Collect_DEWESoft_Power_on_Audio_MsgCapture_VSSAL :tst5-7} stp37 6 Create upload txt 1 {Collect_DEWESoft_Power_on_Audio_MsgCapture_VSSAL :tst5-8} stp38 6 Decrement the number of conditional captures active txt {Conditional_Captures_Active_VSSAL :sig12-0} - 1 {Conditional_Captures_Active_VSSAL :sig12-0} stp39 6 Decrement the number of triggers active txt {Active Trigger Count} - 1 {Active Trigger Count} stp40 3 Wait for trigger to go away txt not (({Audio_in1_LAeq_t (Value [dBA]) :in133-sig0-0}>60 and ({ICS_Demo_XCPDAQ_PID_0_VSSAL (Count) :in133-5} > 0))) stp41 3 Wait for trigger again txt PowerManagement_VSSAL tst12 8 icsSpyDataFile.csv 3 True 1 5000 1 1 1 True out1 True 255 1 stp0 6 Set the upload connection timeout txt 10 {WiVI Connection Timeout} stp1 6 Disable SMS Wakeup txt 0 {SmsWakeupEnable} stp2 6 Set power management mode to manual txt 0 {Pwr Man Mode} stp3 6 Set Backup Battery Enable to ON txt 1 {Backup Power Enable} stp4 6 Init Force Upload Signal txt 0 {Force_Upload_Trigger_VSSAL :sig4-0} stp5 22 5 Power Management: Waiting for no bus activity to occur in 120 secs True stp6 3 Wait for user timeout in milliseconds txt {TIME SINCE MESSAGE (MS)} >= 120000 stp7 6 Signal that we'd like to go to sleep now txt 1 {WiVI Sleep Request} stp8 6 Force End of All Triggers and Upload txt 1 {Force_Upload_Trigger_VSSAL :sig4-0} stp9 22 5 Power Management: Entering upload timeout. Waiting for APK to finish uploading or 60 mins to elapse True stp10 3 3600000 Wait for the overall timeout to expire, APK to finish, voltage to drop too low or network traffic 1 txt ({WiVI Sleep Request} <> 1) or ({Pwr Supply Voltage} < 10.5) or ({TIME SINCE MESSAGE (MS)} < 120000) stp11 15 14 20 Has the APK finished uploading? txt {WiVI Sleep Request} <> 1 stp12 22 5 Power Management: APK has finished uploading, exiting upload timeout True stp13 16 16 20 Has the voltage dropped too low? txt {Pwr Supply Voltage} < 10.5 stp14 22 5 Power Management: Voltage dropped below 10.5 volts, exiting upload timeout True stp15 16 18 20 Have there been new messages on the network? txt {TIME SINCE MESSAGE (MS)} < 120000 stp16 22 5 Power Management: New network traffic, exiting upload timeout True stp17 17 20 Upload timeout has elapsed txt stp18 22 5 Power Management: Upload timeout elapsed True stp19 18 txt stp20 6 Clear the sleep signal txt 0 {WiVI Sleep Request} stp21 15 25 25 Were messages received while uploading? txt {TIME SINCE MESSAGE (MS)} < 120000 stp22 22 5 Power Management: Messages received while uploading, restarting power management block True stp23 Wait for new sleep condition txt stp24 18 txt stp25 4 3 13 tst13 Stop the entry point function block EntryPoint_VSSAL stp26 4 3 11 tst11 Stop overall program flow Collect_DEWESoft_Power_on_Audio_MasterControl_VSSAL stp27 4 3 10 tst10 Stop overall program flow OBDSim_RPM_greater_1000_MasterControl_VSSAL stp28 4 3 9 tst9 Stop overall program flow Fulltrace_on_MIC_MasterControl_VSSAL stp29 4 3 3 tst3 Stop capturing Fulltrace_on_MIC_MsgCapture_VSSAL stp30 4 3 6 tst6 Stop DAQ ICS_Demo_XCP_INIT_VSSAL stp31 4 3 7 tst7 Stop DAQ ICS_Demo_XCP_Watchdog_VSSAL stp32 3 10000 Wait for DPID / CCP / XCP / neoMote timeouts on the net to stop tx'ing data 1 txt {TIME SINCE MESSAGE (MS)} < 120000 stp33 15 36 36 Make sure no messages were received while shutting down txt {TIME SINCE MESSAGE (MS)} >= 120000 stp34 35 Go to sleep. お休みなさい! txt stp35 18 txt stp36 6 Init Force Upload Sig txt 0 {Force_Upload_Trigger_VSSAL :sig4-0} stp37 6 Reset the conditional capture count to 0 txt 0 {Conditional_Captures_Active_VSSAL :sig12-0} stp38 4 0 13 tst13 Restart overall program flow EntryPoint_VSSAL stp39 22 5 Power Management: Woke, restarting power management block True stp40 Start power management over txt EntryPoint_VSSAL tst13 8 icsSpyDataFile.csv 3 True 1 5000 1 1 1 True out1 1 stp0 14 This is the main entry point for VSSAL. All function blocks controlling collections and DAQing start as a consequence of logic following from here. txt stp1 4 0 11 tst11 Start each collection control block in parallel Collect_DEWESoft_Power_on_Audio_MasterControl_VSSAL stp2 4 0 10 tst10 Start each collection control block in parallel OBDSim_RPM_greater_1000_MasterControl_VSSAL stp3 4 0 9 tst9 Start each collection control block in parallel Fulltrace_on_MIC_MasterControl_VSSAL stp4 8 txt VSGW_SETVALUES_VSSAL tst14 8 icsSpyDataFile.csv 3 True 1 5000 1 1 1 True out1 1 stp0 6 Set Value of Breakepedal_sw txt {Breakepedal_sw (Value):in198-sig0-0} {Breakepedal_sw (Value):out16-sig5-0} stp1 6 Set Value of Peadl_force txt {Peadl_force (Value):in199-sig0-0} {Peadl_force (Value):out15-sig3-0} stp2 6 Set Value of Break txt {Break (Value):in200-sig0-0} {Break (Value):out16-sig4-0} stp3 6 Set Value of Zuendung txt {Zuendung (Value):in200-sig1-0} {Zuendung (Value):out16-sig3-0} stp4 6 Set Value of UPM txt {UPM (Value):in201-sig0-0} {UPM (Value):out15-sig1-0} stp5 6 Set Value of Handbraek_switch_on txt {Handbraek_switch_on (Value):in202-sig0-0} {Handbraek_switch_on (Value):out16-sig2-0} stp6 6 Set Value of Handbraek_swtch_off txt {Handbraek_swtch_off (Value):in202-sig1-0} {Handbraek_swtch_off (Value):out16-sig1-0} stp7 6 Set Value of Locked txt {Locked (Value):in202-sig2-0} {Locked (Value):out16-sig0-0} stp8 6 Set Value of Magnetometer X txt {Magnetometer X (Value):in203-sig0-0} {Magnetometer X (Value):out15-sig0-0} stp9 6 Set Value of Magnetometer Y txt {Magnetometer Y (Value):in203-sig1-0} {Magnetometer Y (Value):out14-sig1-0} stp10 6 Set Value of Magnetometer Z txt {Magnetometer Z (Value):in203-sig2-0} {Magnetometer Z (Value):out14-sig0-0} stp11 6 Set Value of Accelerometer X txt {Accelerometer X (Value):in204-sig0-0} {Accelerometer X (Value):out13-sig1-0} stp12 6 Set Value of Accelerometer Y txt {Accelerometer Y (Value):in204-sig1-0} {Accelerometer Y (Value):out13-sig0-0} stp13 6 Set Value of Accelerometer Z txt {Accelerometer Z (Value):in204-sig2-0} {Accelerometer Z (Value):out12-sig1-0} stp14 6 Set Value of Gyroscope X txt {Gyroscope X (Value):in205-sig0-0} {Gyroscope X (Value):out12-sig0-0} stp15 6 Set Value of Gyroscope Y txt {Gyroscope Y (Value):in205-sig1-0} {Gyroscope Y (Value):out11-sig1-0} stp16 6 Set Value of Gyroscope Z txt {Gyroscope Z (Value):in205-sig2-0} {Gyroscope Z (Value):out11-sig0-0} stp17 6 Set Value of cos_phi_L1_H1 txt {cos_phi_L1_H1 (Value):in206-sig0-0} {cos_phi_L1_H1 (Value):out10-sig1-0} stp18 6 Set Value of DH_L1 txt {DH_L1 (Value):in207-sig0-0} {DH_L1 (Value):out10-sig0-0} stp19 6 Set Value of D_L1 txt {D_L1 (Value):in208-sig0-0} {D_L1 (Value):out9-sig1-0} stp20 6 Set Value of Frequency txt {Frequency (Value):in209-sig0-0} {Frequency (Value):out9-sig0-0} stp21 6 Set Value of I_L1_H1 txt {I_L1_H1 (Value):in210-sig0-0} {I_L1_H1 (Value):out8-sig1-0} stp22 6 Set Value of I_rms_L1 txt {I_rms_L1 (Value):in211-sig0-0} {I_rms_L1 (Value):out8-sig0-0} stp23 6 Set Value of I_rm_L1 txt {I_rm_L1 (Value):in212-sig0-0} {I_rm_L1 (Value):out7-sig1-0} stp24 6 Set Value of PF_L1 txt {PF_L1 (Value):in213-sig0-0} {PF_L1 (Value):out7-sig0-0} stp25 6 Set Value of phi_L1_H1 txt {phi_L1_H1 (Value):in214-sig0-0} {phi_L1_H1 (Value):out6-sig1-0} stp26 6 Set Value of P_L1 txt {P_L1 (Value):in215-sig0-0} {P_L1 (Value):out6-sig0-0} stp27 6 Set Value of P_L1_H1 txt {P_L1_H1 (Value):in216-sig0-0} {P_L1_H1 (Value):out5-sig1-0} stp28 6 Set Value of QH_L1 txt {QH_L1 (Value):in217-sig0-0} {QH_L1 (Value):out5-sig0-0} stp29 6 Set Value of Q_L1 txt {Q_L1 (Value):in218-sig0-0} {Q_L1 (Value):out4-sig1-0} stp30 6 Set Value of Q_L1_H1 txt {Q_L1_H1 (Value):in219-sig0-0} {Q_L1_H1 (Value):out4-sig0-0} stp31 6 Set Value of Status txt {Status (Value):in220-sig0-0} {Status (Value):out15-sig2-0} stp32 6 Set Value of S_L1 txt {S_L1 (Value):in221-sig0-0} {S_L1 (Value):out3-sig1-0} stp33 6 Set Value of S_L1_H1 txt {S_L1_H1 (Value):in222-sig0-0} {S_L1_H1 (Value):out3-sig0-0} stp34 6 Set Value of U_L1_H1 txt {U_L1_H1 (Value):in223-sig0-0} {U_L1_H1 (Value):out2-sig1-0} stp35 6 Set Value of U_rms_L1 txt {U_rms_L1 (Value):in224-sig0-0} {U_rms_L1 (Value):out2-sig0-0} stp36 6 Set Value of U_rm_L1 txt {U_rm_L1 (Value):in225-sig0-0} {U_rm_L1 (Value):out1-sig1-0} stp37 6 Set Value of Audio_in1_LAeq_t txt {Audio_in1_LAeq_t (Value):in226-sig0-0} {Audio_in1_LAeq_t (Value):out1-sig0-0} stp38 2 5 0 Wait for new sig txt stp39 Jump to Step 1 txt Default sgr0 False 10 icsSpyLogFile icsSpyLogFile 0 icsSpyLogFile True

Panel 1 dia0

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