3.9.8.10
True
C:\Users\umotz\Desktop\extracted data 2022-06-09 08-29-10-731009\Script 2022-06-09 08-29-06-211000\full trace 2022-06-10 10-26-01-291045 Partition 0.vsb
3
True
0
False
3
2
False
False
8000
False
False
False
34
10
14
0
0
0
0
0
8000
100
0
True
True
False
64
128
False
True
KBA_O2_1_Node_0x01
0
HS CAN2
False
KBA_NOx_1_Node_0x02
1
HS CAN2
False
KBA_NH3_3_Node_0x20
2
HS CAN2
False
THMM_38279
3
HS CAN2
False
ADMM_23692
4
HS CAN2
False
Testbed
5
HS CAN3
False
SystecTruckFlow
6
HS CAN3
False
Intecrio
7
HS CAN3
False
net0
CAN Terminal LogFile
0
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
ECU Detected
sig0
2
1
1
True
1
True
Buffer
sig1
1
0
0
0
True
Sleep
sig74
2
1
1
True
1
True
Backlight
sig3
1
0
0
0
0
0
True
True
dq0
DAQ 1
5
Collection 5
True
24
0
6
3309
0
3
10
30
False
10
icsSpyLogFile
icsSpyLogFile
C:\IntrepidCS\Vehicle Spy 3\Data Directory\KBA Demo\icsSpyLogFile 2020-12-14 12-21-54-552000.csv
0
icsSpyLogFile
True
1
True
True
60
True
True
10
icsSpyLogFile
icsSpyLogFile
C:\IntrepidCS\Vehicle Spy 3\Data Directory\EDAG\icsSpyLogFile 2021-04-13 16-20-11-154000.csv
icsSpyLogFile
True
True
50000
16777215
True
True
8
Courier New
0
0
(default)
0
0
1
62
1
1
2
90
2
5
3
25
3
6
4
25
4
7
5
178
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
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
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
8
7
90
7
51
8
90
8
37
9
25
9
9
10
162
10
11
11
90
11
12
12
62
12
60
13
31
13
57
14
25
14
58
15
31
15
59
16
31
16
56
17
25
17
55
18
25
18
50
19
50
19
52
20
75
20
53
21
62
21
35
22
62
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
MOST
9
0
1
62
1
1
2
90
2
6
3
25
3
62
4
43
4
63
5
43
5
70
6
43
6
71
7
43
7
64
8
62
8
65
9
56
9
66
10
37
10
67
11
37
11
68
12
50
12
7
13
152
13
9
14
206
14
69
15
37
15
74
16
37
16
75
17
37
17
11
18
90
18
39
19
175
Custom 1
Custom 2
Custom 3
Custom 4
Custom 5
Custom 6
1
Intrepid0
HS CAN
net0
HS CAN
500000
2000000
1
2
1
False
False
MS CAN
net1
MS CAN
500000
2000000
1
2
False
False
SW CAN
net2
SW CAN
33333
1
2
1
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
2000000
1
2
False
False
HS CAN3
net10
HS CAN3 (neoVI 3G)
500000
2000000
1
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
2000000
1
2
False
False
HS CAN5
net20
HS CAN5
500000
2000000
1
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
2000000
1
2
False
False
MS CAN (VNET A)
net30
MS CAN (VNET A)
500000
2000000
1
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
2000000
1
2
False
False
HS CAN3 (VNET A)
net37
HS CAN3 (VNET A)
500000
2000000
1
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
2000000
1
2
False
False
MS CAN (VNET B)
net48
MS CAN (VNET B)
500000
2000000
1
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
2000000
1
2
False
False
HS CAN3 (VNET B)
net55
HS CAN3 (VNET B)
500000
2000000
1
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
2000000
1
2
False
False
HS CAN5 (VNET A)
net66
HS CAN5 (VNET A)
500000
2000000
1
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
2000000
1
2
False
False
HS CAN5 (VNET B)
net69
HS CAN5 (VNET B)
500000
2000000
1
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
Ethernet 19 : Realtek USB GbE Family Controller #4
29
2
True
Ethernet PCAP
icsenet.dll
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
(Virtual)
31
2
False
False
TCP
net82
(Virtual)
32
2
False
False
HS CAN6
net83
HS CAN6
500000
2000000
1
2
False
False
HS CAN7
net84
HS CAN7
500000
2000000
1
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
2000000
1
2
False
False
HS CAN6 (VNET B)
net104
HS CAN6 (VNET B)
500000
2000000
1
2
False
False
HS CAN7 (VNET A)
net105
HS CAN7 (VNET A)
500000
2000000
1
2
False
False
HS CAN7 (VNET B)
net106
HS CAN7 (VNET B)
500000
2000000
1
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
I2C1
net113
I2C1
10417
21
2
False
False
I2C2
net114
I2C2
10417
21
2
False
False
I2C3
net115
I2C3
10417
21
2
False
False
I2C4
net116
I2C4
10417
21
2
False
False
Ethernet2
net117
Ethernet2
0
29
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
PID 02 Supported (PID 00)
sig1
2
bit6({B4})
True/False
PID 03 Supported (PID 00)
sig2
2
bit5({B4})
True/False
PID 04 Supported (PID 00)
sig3
2
bit4({B4})
True/False
PID 05 Supported (PID 00)
sig4
2
bit3({B4})
True/False
PID 06 Supported (PID 00)
sig5
2
bit2({B4})
True/False
PID 07 Supported (PID 00)
sig6
2
bit1({B4})
True/False
PID 08 Supported (PID 00)
sig7
2
bit0({B4})
True/False
PID 09 Supported (PID 00)
sig8
2
bit7({B5})
True/False
PID 0A Supported (PID 00)
sig9
2
bit6({B5})
True/False
PID 0B Supported (PID 00)
sig10
2
bit5({B5})
True/False
PID 0C Supported (PID 00)
sig11
2
bit4({B5})
True/False
PID 0D Supported (PID 00)
sig12
2
bit3({B5})
True/False
PID 0E Supported (PID 00)
sig13
2
bit2({B5})
True/False
PID 0F Supported (PID 00)
sig14
2
bit1({B5})
True/False
PID 10 Supported (PID 00)
sig15
2
bit0({B5})
True/False
PID 11 Supported (PID 00)
sig16
2
bit7({B6})
True/False
PID 12 Supported (PID 00)
sig17
2
bit6({B6})
True/False
PID 13 Supported (PID 00)
sig18
2
bit5({B6})
True/False
PID 14 Supported (PID 00)
sig19
2
bit4({B6})
True/False
PID 15 Supported (PID 00)
sig20
2
bit3({B6})
True/False
PID 16 Supported (PID 00)
sig21
2
bit2({B6})
True/False
PID 17 Supported (PID 00)
sig22
2
bit1({B6})
True/False
PID 18 Supported (PID 00)
sig23
2
bit0({B6})
True/False
PID 19 Supported (PID 00)
sig24
2
bit7({B7})
True/False
PID 1A Supported (PID 00)
sig25
2
bit6({B7})
True/False
PID 1B Supported (PID 00)
sig26
2
bit5({B7})
True/False
PID 1C Supported (PID 00)
sig27
2
bit4({B7})
True/False
PID 1D Supported (PID 00)
sig28
2
bit3({B7})
True/False
PID 1E Supported (PID 00)
sig29
2
bit2({B7})
True/False
PID 1F Supported (PID 00)
sig30
2
bit1({B7})
True/False
PID 20 Supported (PID 00)
sig31
2
bit0({B7})
True/False
(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
%
(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
(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
(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
(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
(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
(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
(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
(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
%
(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
O2 Sensor 2-3 Present (PID 13)
sig1
2
bit6({B4})
True/False
O2 Sensor 2-2 Present (PID 13)
sig2
2
bit5({B4})
True/False
O2 Sensor 2-1 Present (PID 13)
sig3
2
bit4({B4})
True/False
O2 Sensor 1-4 Present (PID 13)
sig4
2
bit3({B4})
True/False
O2 Sensor 1-3 Present (PID 13)
sig5
2
bit2({B4})
True/False
O2 Sensor 1-2 Present (PID 13)
sig6
2
bit1({B4})
True/False
O2 Sensor 1-1 Present (PID 13)
sig7
2
bit0({B4})
True/False
(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
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
%
(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
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
%
(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
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
%
(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
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
%
(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
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
%
(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
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
%
(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
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
%
(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
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
%
(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
(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
PID 22 Supported (PID 20)
sig1
2
bit6({B4})
True/False
PID 23 Supported (PID 20)
sig2
2
bit5({B4})
True/False
PID 24 Supported (PID 20)
sig3
2
bit4({B4})
True/False
PID 25 Supported (PID 20)
sig4
2
bit3({B4})
True/False
PID 26 Supported (PID 20)
sig5
2
bit2({B4})
True/False
PID 27 Supported (PID 20)
sig6
2
bit1({B4})
True/False
PID 28 Supported (PID 20)
sig7
2
bit0({B4})
True/False
PID 29 Supported (PID 20)
sig8
2
bit7({B5})
True/False
PID 2A Supported (PID 20)
sig9
2
bit6({B5})
True/False
PID 2B Supported (PID 20)
sig10
2
bit5({B5})
True/False
PID 2C Supported (PID 20)
sig11
2
bit4({B5})
True/False
PID 2D Supported (PID 20)
sig12
2
bit3({B5})
True/False
PID 2E Supported (PID 20)
sig13
2
bit2({B5})
True/False
PID 2F Supported (PID 20)
sig14
2
bit1({B5})
True/False
PID 30 Supported (PID 20)
sig15
2
bit0({B5})
True/False
PID 31 Supported (PID 20)
sig16
2
bit7({B6})
True/False
PID 32 Supported (PID 20)
sig17
2
bit6({B6})
True/False
PID 33 Supported (PID 20)
sig18
2
bit5({B6})
True/False
PID 34 Supported (PID 20)
sig19
2
bit4({B6})
True/False
PID 35 Supported (PID 20)
sig20
2
bit3({B6})
True/False
PID 36 Supported (PID 20)
sig21
2
bit2({B6})
True/False
PID 37 Supported (PID 20)
sig22
2
bit1({B6})
True/False
PID 38 Supported (PID 20)
sig23
2
bit0({B6})
True/False
PID 39 Supported (PID 20)
sig24
2
bit7({B7})
True/False
PID 3A Supported (PID 20)
sig25
2
bit6({B7})
True/False
PID 3B Supported (PID 20)
sig26
2
bit5({B7})
True/False
PID 3C Supported (PID 20)
sig27
2
bit4({B7})
True/False
PID 3D Supported (PID 20)
sig28
2
bit3({B7})
True/False
PID 3E Supported (PID 20)
sig29
2
bit2({B7})
True/False
PID 3F Supported (PID 20)
sig30
2
bit1({B7})
True/False
PID 40 Supported (PID 20)
sig31
2
bit0({B7})
True/False
(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
(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
%
(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
%
(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
(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
(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
(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
(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
(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
(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
PID 42 Supported (PID 40)
sig1
2
bit6({B4})
True/False
PID 43 Supported (PID 40)
sig2
2
bit5({B4})
True/False
PID 44 Supported (PID 40)
sig3
2
bit4({B4})
True/False
PID 45 Supported (PID 40)
sig4
2
bit3({B4})
True/False
PID 46 Supported (PID 40)
sig5
2
bit2({B4})
True/False
PID 47 Supported (PID 40)
sig6
2
bit1({B4})
True/False
PID 48 Supported (PID 40)
sig7
2
bit0({B4})
True/False
PID 49 Supported (PID 40)
sig8
2
bit7({B5})
True/False
PID 4A Supported (PID 40)
sig9
2
bit6({B5})
True/False
PID 4B Supported (PID 40)
sig10
2
bit5({B5})
True/False
PID 4C Supported (PID 40)
sig11
2
bit4({B5})
True/False
PID 4D Supported (PID 40)
sig12
2
bit3({B5})
True/False
PID 4E Supported (PID 40)
sig13
2
bit2({B5})
True/False
PID 4F Supported (PID 40)
sig14
2
bit1({B5})
True/False
PID 50 Supported (PID 40)
sig15
2
bit0({B5})
True/False
PID 51 Supported (PID 40)
sig16
2
bit7({B6})
True/False
PID 52 Supported (PID 40)
sig17
2
bit6({B6})
True/False
PID 53 Supported (PID 40)
sig18
2
bit5({B6})
True/False
PID 54 Supported (PID 40)
sig19
2
bit4({B6})
True/False
PID 55 Supported (PID 40)
sig20
2
bit3({B6})
True/False
PID 56 Supported (PID 40)
sig21
2
bit2({B6})
True/False
PID 57 Supported (PID 40)
sig22
2
bit1({B6})
True/False
PID 58 Supported (PID 40)
sig23
2
bit0({B6})
True/False
PID 59 Supported (PID 40)
sig24
2
bit7({B7})
True/False
PID 5A Supported (PID 40)
sig25
2
bit6({B7})
True/False
PID 5B Supported (PID 40)
sig26
2
bit5({B7})
True/False
PID 5C Supported (PID 40)
sig27
2
bit4({B7})
True/False
PID 5D Supported (PID 40)
sig28
2
bit3({B7})
True/False
PID 5E Supported (PID 40)
sig29
2
bit2({B7})
True/False
PID 5F Supported (PID 40)
sig30
2
bit1({B7})
True/False
PID 60 Supported (PID 40)
sig31
2
bit0({B7})
True/False
(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
(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
%
(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
(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
%
(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
(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
%
(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
%
(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
%
(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
%
(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
%
(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
%
(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
(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
%
(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
%
(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
(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
(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
(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
PID 62 Supported (PID 60)
sig1
2
bit6({B4})
True/False
PID 63 Supported (PID 60)
sig2
2
bit5({B4})
True/False
PID 64 Supported (PID 60)
sig3
2
bit4({B4})
True/False
PID 65 Supported (PID 60)
sig4
2
bit3({B4})
True/False
PID 66 Supported (PID 60)
sig5
2
bit2({B4})
True/False
PID 67 Supported (PID 60)
sig6
2
bit1({B4})
True/False
PID 68 Supported (PID 60)
sig7
2
bit0({B4})
True/False
PID 69 Supported (PID 60)
sig8
2
bit7({B5})
True/False
PID 6A Supported (PID 60)
sig9
2
bit6({B5})
True/False
PID 6B Supported (PID 60)
sig10
2
bit5({B5})
True/False
PID 6C Supported (PID 60)
sig11
2
bit4({B5})
True/False
PID 6D Supported (PID 60)
sig12
2
bit3({B5})
True/False
PID 6E Supported (PID 60)
sig13
2
bit2({B5})
True/False
PID 6F Supported (PID 60)
sig14
2
bit1({B5})
True/False
PID 70 Supported (PID 60)
sig15
2
bit0({B5})
True/False
PID 71 Supported (PID 60)
sig16
2
bit7({B6})
True/False
PID 72 Supported (PID 60)
sig17
2
bit6({B6})
True/False
PID 73 Supported (PID 60)
sig18
2
bit5({B6})
True/False
PID 74 Supported (PID 60)
sig19
2
bit4({B6})
True/False
PID 75 Supported (PID 60)
sig20
2
bit3({B6})
True/False
PID 76 Supported (PID 60)
sig21
2
bit2({B6})
True/False
PID 77 Supported (PID 60)
sig22
2
bit1({B6})
True/False
PID 78 Supported (PID 60)
sig23
2
bit0({B6})
True/False
PID 79 Supported (PID 60)
sig24
2
bit7({B7})
True/False
PID 7A Supported (PID 60)
sig25
2
bit6({B7})
True/False
PID 7B Supported (PID 60)
sig26
2
bit5({B7})
True/False
PID 7C Supported (PID 60)
sig27
2
bit4({B7})
True/False
PID 7D Supported (PID 60)
sig28
2
bit3({B7})
True/False
PID 7E Supported (PID 60)
sig29
2
bit2({B7})
True/False
PID 7F Supported (PID 60)
sig30
2
bit1({B7})
True/False
PID 80 Supported (PID 60)
sig31
2
bit0({B7})
True/False
(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
%
(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
%
(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
(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
PID 82 Supported (PID 80)
sig1
2
bit6({B4})
True/False
PID 83 Supported (PID 80)
sig2
2
bit5({B4})
True/False
PID 84 Supported (PID 80)
sig3
2
bit4({B4})
True/False
PID 85 Supported (PID 80)
sig4
2
bit3({B4})
True/False
PID 86 Supported (PID 80)
sig5
2
bit2({B4})
True/False
PID 87 Supported (PID 80)
sig6
2
bit1({B4})
True/False
PID 88 Supported (PID 80)
sig7
2
bit0({B4})
True/False
PID 89 Supported (PID 80)
sig8
2
bit7({B5})
True/False
PID 8A Supported (PID 80)
sig9
2
bit6({B5})
True/False
PID 8B Supported (PID 80)
sig10
2
bit5({B5})
True/False
PID 8C Supported (PID 80)
sig11
2
bit4({B5})
True/False
PID 8D Supported (PID 80)
sig12
2
bit3({B5})
True/False
PID 8E Supported (PID 80)
sig13
2
bit2({B5})
True/False
PID 8F Supported (PID 80)
sig14
2
bit1({B5})
True/False
PID 90 Supported (PID 80)
sig15
2
bit0({B5})
True/False
PID 91 Supported (PID 80)
sig16
2
bit7({B6})
True/False
PID 92 Supported (PID 80)
sig17
2
bit6({B6})
True/False
PID 93 Supported (PID 80)
sig18
2
bit5({B6})
True/False
PID 94 Supported (PID 80)
sig19
2
bit4({B6})
True/False
PID 95 Supported (PID 80)
sig20
2
bit3({B6})
True/False
PID 96 Supported (PID 80)
sig21
2
bit2({B6})
True/False
PID 97 Supported (PID 80)
sig22
2
bit1({B6})
True/False
PID 98 Supported (PID 80)
sig23
2
bit0({B6})
True/False
PID 99 Supported (PID 80)
sig24
2
bit7({B7})
True/False
PID 9A Supported (PID 80)
sig25
2
bit6({B7})
True/False
PID 9B Supported (PID 80)
sig26
2
bit5({B7})
True/False
PID 9C Supported (PID 80)
sig27
2
bit4({B7})
True/False
PID 9D Supported (PID 80)
sig28
2
bit3({B7})
True/False
PID 9E Supported (PID 80)
sig29
2
bit2({B7})
True/False
PID 9F Supported (PID 80)
sig30
2
bit1({B7})
True/False
PID A0 Supported (PID 80)
sig31
2
bit0({B7})
True/False
(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
NOx Sensor Concentration 2-1 Supported (PID 83)
sig2
2
bit2({B3})
True/False
NOx Sensor Concentration 1-2 Supported (PID 83)
sig3
2
bit1({B3})
True/False
NOx Sensor Concentration 1-1 Supported (PID 83)
sig4
2
bit0({B3})
True/False
NOx Sensor Concentration 1-1 (PID 83)
sig5
1
{Raw Value}|0,1,24,16
0
65535
0
ppm
NOx Sensor Concentration 1-2 (PID 83)
sig6
1
{Raw Value}|0,1,40,16
0
65535
0
ppm
NOx Sensor Concentration 2-1 (PID 83)
sig7
1
{Raw Value}|0,1,56,16
0
65535
0
ppm
NOx Sensor Concentration 2-2 (PID 83)
sig8
1
{Raw Value}|0,1,72,16
0
65535
0
ppm
(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
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
NOx Sensor Corrected Concentration 2-1 Supported (PID A1)
sig2
2
bit2({B3})
True/False
NOx Sensor Corrected Concentration 1-2 Supported (PID A1)
sig3
2
bit1({B3})
True/False
NOx Sensor Corrected Concentration 1-1 Supported (PID A1)
sig4
2
bit0({B3})
True/False
NOx Sensor Corrected Concentration 1-1 (PID A1)
sig5
1
{Raw Value}|0,1,24,16
0
65535
0
ppm
NOx Sensor Corrected Concentration 1-2 (PID A1)
sig6
1
{Raw Value}|0,1,40,16
0
65535
0
ppm
NOx Sensor Corrected Concentration 2-1 (PID A1)
sig7
1
{Raw Value}|0,1,56,16
0
65535
0
ppm
NOx Sensor Corrected Concentration 2-2 (PID A1)
sig8
1
{Raw Value}|0,1,72,16
0
65535
0
ppm
(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
PID A2 Supported
sig1
2
bit6({B3})
True/False
PID A3 Supported
sig2
2
bit5({B3})
True/False
PID A4 Supported
sig3
2
bit4({B3})
True/False
PID A5 Supported
sig4
2
bit3({B3})
True/False
PID A6 Supported
sig5
2
bit2({B3})
True/False
PID A7 Supported
sig6
2
bit1({B3})
True/False
PID A8 Supported
sig7
2
bit0({B3})
True/False
PID A9 Supported
sig8
2
bit7({B4})
True/False
PID AA Supported
sig9
2
bit6({B4})
True/False
PID AB Supported
sig10
2
bit5({B4})
True/False
PID AC Supported
sig11
2
bit4({B4})
True/False
PID AD Supported
sig12
2
bit3({B4})
True/False
PID AE Supported
sig13
2
bit2({B4})
True/False
PID AF Supported
sig14
2
bit1({B4})
True/False
PID B0 Supported
sig15
2
bit0({B4})
True/False
PID B1 Supported
sig16
2
bit7({B5})
True/False
PID B2 Supported
sig17
2
bit6({B5})
True/False
PID B3 Supported
sig18
2
bit5({B5})
True/False
PID B4 Supported
sig19
2
bit4({B5})
True/False
PID B5 Supported
sig20
2
bit3({B5})
True/False
PID B6 Supported
sig21
2
bit2({B5})
True/False
PID B7 Supported
sig22
2
bit1({B5})
True/False
PID B8 Supported
sig23
2
bit0({B5})
True/False
PID B9 Supported
sig24
2
bit7({B6})
True/False
PID BA Supported
sig25
2
bit6({B6})
True/False
PID BB Supported
sig26
2
bit5({B6})
True/False
PID BC Supported
sig27
2
bit4({B6})
True/False
PID BD Supported
sig28
2
bit3({B6})
True/False
PID BE Supported
sig29
2
bit2({B6})
True/False
PID BF Supported
sig30
2
bit1({B6})
True/False
PID C0 Supported
sig31
2
bit0({B6})
True/False
(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
(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
Request PIDs Supported
tst0
8
Capture File Function Block 1
1
True
1
5000
1
1
1
False
True
out1
1
stp0
6
This step clears the *present* value of the RECEIVE portion of "Supported PIDs (1-20)". This is so that we can tell if a return message has been received or not later in the program
txt
{CAN Supported PIDs (1-20) Response (Present) :in0-0}
0
{CAN Supported PIDs (1-20) Response (Present) :in0-0}
{CAN Supported PIDs (1-20) Response (Present) :in0-0}
stp38
14
txt
{i (Value) :sig55-0}
6000
0
{i (Value) :sig55-0}
{i (Value) :sig55-0}
stp37
14
0
0
-1
txt
i (Value)
{i (Value) :sig55-0}
0
stp10
3
50
This is where step 1 comes in handy. The program will WAIT UNTIL the *present* value of RECEIVE message "Supported PIDs (1-20)" changes to 1 (true), indicating the return message was received **OR** it will time out after 50ms if a return message is not received and will proceed to the next step (NOTE: Timeout use is OPTIONAL and can be turned OFF)
1
txt
CAN Supported PIDs (1-20) Response (Present)
{CAN Supported PIDs (1-20) Response (Present) :in0-0}
stp40
5
9
txt
(PID 00) CAN Supported PIDs (1-20) Response (Present)
{(PID 00) CAN Supported PIDs (1-20) Response (Present) :in0-0}
stp42
14
txt
{i (Value) :sig55-0}
{i (Value) :sig55-0}+1
0
{i (Value) :sig55-0}
{i (Value) :sig55-0}
stp41
14
2
0
txt
stp39
5
tst6
STOP
stp3
5
25
This step is checking whether PID 20 is supported. If it is NOT (ie, PID 20 (value) = 0), the statement evaluates as TRUE and jumps to the final step of this function block. If PID 20 IS supported (ie, PID 20 (value) = 1), the statement is FALSE and will proceed to the next step
txt
PID 20 Supported (Value)
{PID 20 Supported (Value) :in0-sig31-0}=0
True=1/False=0
True
True
stp12
14
txt
stp4
6
This step clears the *present* value of the RECEIVE portion of "Supported PIDs (21-40)".
txt
{CAN Supported PIDs (21-40) Response (Present) :in32-0}
0
{CAN Supported PIDs (21-40) Response (Present) :in32-0}
{CAN Supported PIDs (21-40) Response (Present) :in32-0}
stp14
3
50
The program will WAIT UNTIL the *present* value of RECEIVE message "Supported PIDs (21-40)" changes to 1 (true), indicating the return message was received **OR** it will time out after 50ms if a return message is not received and will proceed to the next step
1
txt
CAN Supported PIDs (21-40) Response (Present)
{CAN Supported PIDs (21-40) Response (Present) :in32-0}
stp15
5
25
Same as step 4. This step checks whether or not PID 40 is supported. If it is NOT (ie, PID 40 (value) = 0), the statement is TRUE and jumps to the final step of the function block. If PID 40 IS supported (ie, PID 40 (value) = 1), the statement is FALSE and will proceed to the next step
txt
PID 40 Supported (Value)
{PID 40 Supported (Value) :in32-sig31-0}=0
True=1/False=0
True
True
stp17
14
txt
stp16
6
This step clears the *present* value of the RECEIVE portion of "Supported PIDs (41-60)".
txt
{CAN Supported PIDs (41-60) Response (Present) :in64-0}
0
{CAN Supported PIDs (41-60) Response (Present) :in64-0}
{CAN Supported PIDs (41-60) Response (Present) :in64-0}
stp19
3
50
The program will WAIT UNTIL the *present* value of RECEIVE message "Supported PIDs (41-60)" changes to 1 (true), indicating the return message was received **OR** it will time out after 50ms if a return message is not received and will proceed to the next step
1
txt
CAN Supported PIDs (41-60) Response (Present)
{CAN Supported PIDs (41-60) Response (Present) :in64-0}
stp20
5
25
This step checks whether or not PID 60 is supported. If it is NOT (ie, PID 40 (value) = 0), the statement is TRUE and jumps to the final step of the function block. If PID 60 IS supported (ie, PID 60 (value) = 1), the statement is FALSE and will proceed to the next step
txt
PID 60 Supported (Value)
{PID 60 Supported (Value) :in64-sig31-0}=0
True=1/False=0
True
True
stp22
14
txt
stp21
6
Clears the *present* value of the RECEIVE portion of "Supported PIDs (61-80)".
txt
{CAN Supprted PIDs (61-80) Response (Present) :in96-0}
0
{CAN Supprted PIDs (61-80) Response (Present) :in96-0}
{CAN Supprted PIDs (61-80) Response (Present) :in96-0}
stp24
3
50
The program will WAIT UNTIL the *present* value of RECEIVE message "Supported PIDs (61-80)" changes to 1 (true), indicating the return message was received **OR** it will time out after 50ms if a return message is not received and will proceed to the next step
1
txt
CAN Supprted PIDs (61-80) Response (Present)
{CAN Supprted PIDs (61-80) Response (Present) :in96-0}
stp25
5
25
This step checks whether or not PID 80 is supported. If it is NOT (ie, PID 80 (value) = 0), the statement is TRUE and jumps to the final step of the function block. If PID 80 IS supported (ie, PID 80 (value) = 1), the statement is FALSE and will proceed to the next step
txt
PID 80 Supported (Value)
{PID 80 Supported (Value) :in96-sig31-0}=0
True=1/False=0
True
True
stp27
14
txt
stp26
6
out128
Clears the *present* value of the RECEIVE portion of "Supported PIDs (81-A0)".
CAN Supported PIDs (81-A0) req
{(PID 80) CAN Supported PIDs (81-A0) Response (Present) :in128-0}
0
{(PID 80) CAN Supported PIDs (81-A0) Response (Present) :in128-0}
{(PID 80) CAN Supported PIDs (81-A0) Response (Present) :in128-0}
stp29
3
50
The program will WAIT UNTIL the *present* value of RECEIVE message "Supported PIDs (81-A0)" changes to 1 (true), indicating the return message was received **OR** it will time out after 50ms if a return message is not received and will proceed to the next step
1
txt
(PID 80) CAN Supported PIDs (81-A0) Response (Present)
{(PID 80) CAN Supported PIDs (81-A0) Response (Present) :in128-0}
stp43
14
txt
stp26
6
out128
Clears the *present* value of the RECEIVE portion of "Supported PIDs (81-A0)".
CAN Supported PIDs (81-A0) req
{(PID A0) CAN Supported PIDs (A0-BF) Response (Present) :in77-0}
0
{(PID A0) CAN Supported PIDs (A0-BF) Response (Present) :in77-0}
{(PID A0) CAN Supported PIDs (A0-BF) Response (Present) :in77-0}
stp29
3
50
The program will WAIT UNTIL the *present* value of RECEIVE message "Supported PIDs (81-A0)" changes to 1 (true), indicating the return message was received **OR** it will time out after 50ms if a return message is not received and will proceed to the next step
1
txt
(PID A0) CAN Supported PIDs (A0-BF) Response (Present)
{(PID A0) CAN Supported PIDs (A0-BF) Response (Present) :in77-0}
stp30
4
0
tst1
Now that the supported PIDs are known, we can send the inquiries to the vehicle. This starts the next block, which reads which PIDs are supported and sends those requests until such time as the program is stopped.
Request Service Information (01-1F)
stp30
4
0
9
tst41
Now that the supported PIDs are known, we can send the inquiries to the vehicle. This starts the next block, which reads which PIDs are supported and sends those requests until such time as the program is stopped.
Sound
stp5
8
This is just to make sure that the function block is completely stopped
txt
stp6
14
txt
stp7
14
txt
stp8
14
txt
stp9
14
txt
Request Service Information (01-1F)
tst1
8
Capture File Function Block 2
1
True
1
5000
1
1
1
False
True
out1
1
stp5
14
txt
stp10
15
5
5
Checks whether or not PID 04 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 04 Supported (Value)
{PID 04 Supported (Value) :in0-sig3-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Calculated Load Value" to 0 so we can identify whether or not the message was received this cycle
txt
{CAN Calculated Load Value Response (Present) :in4-0}
0
{CAN Calculated Load Value Response (Present) :in4-0}
{CAN Calculated Load Value Response (Present) :in4-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Calculated Load Value Response (Present)
{CAN Calculated Load Value Response (Present) :in4-0}
stp4
18
txt
stp5
14
txt
stp10
15
10
10
Checks whether or not PID 05 is supported
txt
PID 05 Supported (Value)
{PID 05 Supported (Value) :in0-sig4-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Engine Coolant Temp" to 0
txt
{CAN Engine Coolant Temp Response (Present) :in5-0}
0
{CAN Engine Coolant Temp Response (Present) :in5-0}
{CAN Engine Coolant Temp Response (Present) :in5-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Engine Coolant Temp Response (Present)
{CAN Engine Coolant Temp Response (Present) :in5-0}
stp4
18
txt
stp5
14
txt
stp5
14
txt
stp10
15
16
16
Checks for support of PID 0A
txt
PID 0A Supported (Value)
{PID 0A Supported (Value) :in0-sig9-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Fuel Pressure" to 0
txt
{CAN Fuel Pressure Response (Present) :in10-0}
0
{CAN Fuel Pressure Response (Present) :in10-0}
{CAN Fuel Pressure Response (Present) :in10-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Fuel Pressure Response (Present)
{CAN Fuel Pressure Response (Present) :in10-0}
stp4
18
txt
stp5
14
txt
stp10
15
21
21
Checks for support of PID 0B
txt
PID 0B Supported (Value)
{PID 0B Supported (Value) :in0-sig10-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Intake Manifold Absolute Pressure" to 0
txt
{CAN Intake Manifold Absolute Pressure Response (Present) :in11-0}
0
{CAN Intake Manifold Absolute Pressure Response (Present) :in11-0}
{CAN Intake Manifold Absolute Pressure Response (Present) :in11-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Intake Manifold Absolute Pressure Response (Present)
{CAN Intake Manifold Absolute Pressure Response (Present) :in11-0}
stp4
18
txt
stp5
14
txt
stp10
15
26
26
Checks for support of PID 0C
txt
PID 0C Supported (Value)
{PID 0C Supported (Value) :in0-sig11-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Engine RPM" to 0
txt
{CAN Engine RPM Response (Present) :in12-0}
0
{CAN Engine RPM Response (Present) :in12-0}
{CAN Engine RPM Response (Present) :in12-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Engine RPM Response (Present)
{CAN Engine RPM Response (Present) :in12-0}
stp4
18
txt
stp5
14
txt
stp1
15
30
33
txt
(PID 0C) CAN Engine RPM Response (Present)
{(PID 0C) CAN Engine RPM Response (Present) :in12-0}
stp5
6
txt
{ECU Detected (Value) :sig0-0}
1
1=1/0=0
0
1
True
{ECU Detected (Value) :sig0-0}
{ECU Detected (Value) :sig0-0}
stp26
17
33
txt
stp5
6
txt
{ECU Detected (Value) :sig0-0}
0
1=1/0=0
0
1
True
{ECU Detected (Value) :sig0-0}
{ECU Detected (Value) :sig0-0}
stp35
8
0
5
tst6
STOP
stp27
18
txt
stp189
14
txt
stp10
15
38
38
Checks for support of PID 0D
txt
PID 0D Supported (Value)
{PID 0D Supported (Value) :in0-sig12-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Vehicle Speed" to 0
txt
{CAN Vehicle Speed Response (Present) :in13-0}
0
{CAN Vehicle Speed Response (Present) :in13-0}
{CAN Vehicle Speed Response (Present) :in13-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Vehicle Speed Response (Present)
{CAN Vehicle Speed Response (Present) :in13-0}
stp4
18
txt
stp5
14
txt
stp10
15
43
43
Checks for support of PID 0F
txt
PID 0F Supported (Value)
{PID 0F Supported (Value) :in0-sig14-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Intake Air Temperature" to 0
txt
{CAN Intake Air Temperature Response (Present) :in15-0}
0
{CAN Intake Air Temperature Response (Present) :in15-0}
{CAN Intake Air Temperature Response (Present) :in15-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Intake Air Temperature Response (Present)
{CAN Intake Air Temperature Response (Present) :in15-0}
stp4
18
txt
stp5
14
txt
stp10
15
48
48
Checks for support of PID 10
txt
PID 10 Supported (Value)
{PID 10 Supported (Value) :in0-sig15-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "MAF Sensor Air Flow Rate" to 0
txt
{CAN MAF Sensor Air Flow Rate Response (Present) :in16-0}
0
{CAN MAF Sensor Air Flow Rate Response (Present) :in16-0}
{CAN MAF Sensor Air Flow Rate Response (Present) :in16-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN MAF Sensor Air Flow Rate Response (Present)
{CAN MAF Sensor Air Flow Rate Response (Present) :in16-0}
stp4
18
txt
stp5
14
txt
stp10
15
53
53
Checks for support of PID 11
txt
PID 11 Supported (Value)
{PID 11 Supported (Value) :in0-sig16-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Absolute Throttle Position" to 0
txt
{CAN Absolute Throttle Position Response (Present) :in17-0}
0
{CAN Absolute Throttle Position Response (Present) :in17-0}
{CAN Absolute Throttle Position Response (Present) :in17-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Absolute Throttle Position Response (Present)
{CAN Absolute Throttle Position Response (Present) :in17-0}
stp4
18
txt
stp5
14
txt
stp10
15
58
58
Checks for support of PID 13
txt
PID 13 Supported (Value)
{PID 13 Supported (Value) :in0-sig18-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Oxygen Sensors Response" to 0
txt
{CAN Oxygen Sensors Response (Present) :in19-0}
0
{CAN Oxygen Sensors Response (Present) :in19-0}
{CAN Oxygen Sensors Response (Present) :in19-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensors Response (Present)
{CAN Oxygen Sensors Response (Present) :in19-0}
stp4
18
txt
stp5
14
txt
stp10
15
63
63
Checks for support of PID 14
txt
PID 14 Supported (Value)
{PID 14 Supported (Value) :in0-sig19-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Oxygen Sensor 1-1" to 0
txt
{CAN Oxygen Sensor 1-1 Response (Present) :in20-0}
0
{CAN Oxygen Sensor 1-1 Response (Present) :in20-0}
{CAN Oxygen Sensor 1-1 Response (Present) :in20-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 1-1 Response (Present)
{CAN Oxygen Sensor 1-1 Response (Present) :in20-0}
stp4
18
txt
stp5
14
txt
stp10
15
68
68
Checks for support of PID 15
txt
PID 15 Supported (Value)
{PID 15 Supported (Value) :in0-sig20-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Oxygen Sensor 1-2" to 0
txt
{CAN Oxygen Sensor 1-2 Response (Present) :in21-0}
0
{CAN Oxygen Sensor 1-2 Response (Present) :in21-0}
{CAN Oxygen Sensor 1-2 Response (Present) :in21-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 1-2 Response (Present)
{CAN Oxygen Sensor 1-2 Response (Present) :in21-0}
stp4
18
txt
stp5
14
txt
stp10
15
73
73
Checks for support of PID 16
txt
PID 16 Supported (Value)
{PID 16 Supported (Value) :in0-sig21-0}
True=1/False=0
True
True
stp0
6
Sets the *present* value of RECEIVE message "Oxygen Sensor 1-3 OR 2-1" to 0
txt
{CAN Oxygen Sensor 1-3 OR 2-1 Response (Present) :in22-0}
0
{CAN Oxygen Sensor 1-3 OR 2-1 Response (Present) :in22-0}
{CAN Oxygen Sensor 1-3 OR 2-1 Response (Present) :in22-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 1-3 OR 2-1 Response (Present)
{CAN Oxygen Sensor 1-3 OR 2-1 Response (Present) :in22-0}
stp4
18
txt
stp5
14
txt
stp10
15
78
78
Checks for support of PID 17
txt
PID 17 Supported (Value)
{PID 17 Supported (Value) :in0-sig22-0}
True=1/False=0
True
True
stp0
6
Sets the *present value of RECEIVE message "Oxygen Sensor 1-4 OR 2-2" to 0
txt
{CAN Oxygen Sensor 1-4 OR 2-2 Response (Present) :in23-0}
0
{CAN Oxygen Sensor 1-4 OR 2-2 Response (Present) :in23-0}
{CAN Oxygen Sensor 1-4 OR 2-2 Response (Present) :in23-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 1-4 OR 2-2 Response (Present)
{CAN Oxygen Sensor 1-4 OR 2-2 Response (Present) :in23-0}
stp4
18
txt
stp5
14
txt
stp10
15
83
83
Checks for support of PID 18
txt
PID 18 Supported (Value)
{PID 18 Supported (Value) :in0-sig23-0}
True=1/False=0
True
True
stp0
6
Sets the *present value of RECEIVE message "Oxygen Sensor 2-1 OR 3-1" to 0
txt
{CAN Oxygen Sensor 2-1 OR 3-1 Response (Present) :in24-0}
0
{CAN Oxygen Sensor 2-1 OR 3-1 Response (Present) :in24-0}
{CAN Oxygen Sensor 2-1 OR 3-1 Response (Present) :in24-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 2-1 OR 3-1 Response (Present)
{CAN Oxygen Sensor 2-1 OR 3-1 Response (Present) :in24-0}
stp4
18
txt
stp5
14
txt
stp10
15
88
88
Checks for support of PID 19
txt
PID 19 Supported (Value)
{PID 19 Supported (Value) :in0-sig24-0}
True=1/False=0
True
True
stp0
6
Sets the *present value of RECEIVE message "Oxygen Sensor 2-2 OR 3-2" to 0
txt
{CAN Oxygen Sensor 2-2 OR 3-2 Response (Present) :in25-0}
0
{CAN Oxygen Sensor 2-2 OR 3-2 Response (Present) :in25-0}
{CAN Oxygen Sensor 2-2 OR 3-2 Response (Present) :in25-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 2-2 OR 3-2 Response (Present)
{CAN Oxygen Sensor 2-2 OR 3-2 Response (Present) :in25-0}
stp4
18
txt
stp5
14
txt
stp10
15
93
93
Checks for support of PID 1A
txt
PID 1A Supported (Value)
{PID 1A Supported (Value) :in0-sig25-0}
True=1/False=0
True
True
stp0
6
Sets the *present value of RECEIVE message "Oxygen Sensor 2-3 OR 4-1" to 0
txt
{CAN Oxygen Sensor 2-3 OR 4-1 Response (Present) :in26-0}
0
{CAN Oxygen Sensor 2-3 OR 4-1 Response (Present) :in26-0}
{CAN Oxygen Sensor 2-3 OR 4-1 Response (Present) :in26-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 2-3 OR 4-1 Response (Present)
{CAN Oxygen Sensor 2-3 OR 4-1 Response (Present) :in26-0}
stp4
18
txt
stp5
14
txt
stp10
15
98
98
Checks for support of PID 1B
txt
PID 1B Supported (Value)
{PID 1B Supported (Value) :in0-sig26-0}
True=1/False=0
True
True
stp0
6
Sets the *present value of RECEIVE message "Oxygen Sensor 2-4 OR 4-2" to 0
txt
{CAN Oxygen Sensor 2-4 OR 4-2 Response (Present) :in27-0}
0
{CAN Oxygen Sensor 2-4 OR 4-2 Response (Present) :in27-0}
{CAN Oxygen Sensor 2-4 OR 4-2 Response (Present) :in27-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
CAN Oxygen Sensor 2-4 OR 4-2 Response (Present)
{CAN Oxygen Sensor 2-4 OR 4-2 Response (Present) :in27-0}
stp4
18
txt
stp5
14
txt
stp10
15
103
103
Checks for support of PID 1F
txt
PID 1F Supported (Value)
{PID 1F Supported (Value) :in0-sig30-0}
True=1/False=0
True
True
stp0
6
Sets the *present value of RECEIVE message "Time Since Engine Start" to 0
txt
{CAN Time Since Engine Start Response (Present) :in31-0}
0
{CAN Time Since Engine Start Response (Present) :in31-0}
{CAN Time Since Engine Start Response (Present) :in31-0}
stp3
3
100
Waits for the message OR times out after 100ms
1
txt
Time Since Engine Start (PID 1F) (Value [sec])
{Time Since Engine Start (PID 1F) (Value [sec]) :in31-sig0-0}
0
0
65535
sec
stp4
18
txt
stp5
14
txt
stp113
4
0
2
tst2
This step begins the next FUNCTION BLOCK in the cycle, in this case, "Request Service Information (21-3F)"
Request Service Information (21-3F)
stp264
8
This just marks the definitive END of this FUNCTION BLOCK
txt
Request Service Information (21-3F)
tst2
8
Capture File Function Block 2
1
True
1
5000
1
1
1
False
True
out1
1
stp10
15
4
4
Checks whether or not PID 23 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 23 Supported (Value)
{PID 23 Supported (Value) :in32-sig2-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Fuel Rail Pressure" to 0
txt
{CAN Fuel Rail Pressure Response (Present) :in35-0}
0
{CAN Fuel Rail Pressure Response (Present) :in35-0}
{CAN Fuel Rail Pressure Response (Present) :in35-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Fuel Rail Pressure Response (Present)
{CAN Fuel Rail Pressure Response (Present) :in35-0}
stp4
18
txt
stp5
14
txt
stp10
15
9
9
Checks for support of PID 2C
txt
PID 2C Supported (Value)
{PID 2C Supported (Value) :in32-sig11-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Commanded EGR" to 0
txt
{CAN Commanded EGR Response (Present) :in44-0}
0
{CAN Commanded EGR Response (Present) :in44-0}
{CAN Commanded EGR Response (Present) :in44-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Commanded EGR Response (Present)
{CAN Commanded EGR Response (Present) :in44-0}
stp4
18
txt
stp5
14
txt
stp10
15
14
14
Checks for support of PID 2D
txt
PID 2D Supported (Value)
{PID 2D Supported (Value) :in32-sig12-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "EGR Error" to 0
txt
{CAN EGR Error Response (Present) :in45-0}
0
{CAN EGR Error Response (Present) :in45-0}
{CAN EGR Error Response (Present) :in45-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN EGR Error Response (Present)
{CAN EGR Error Response (Present) :in45-0}
stp4
18
txt
stp5
14
txt
stp10
15
19
19
Checks for support of PID 33
txt
PID 33 Supported (Value)
{PID 33 Supported (Value) :in32-sig18-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Barometric Pressure" to 0
txt
{CAN Barometric Pressure Response (Present) :in51-0}
0
{CAN Barometric Pressure Response (Present) :in51-0}
{CAN Barometric Pressure Response (Present) :in51-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Barometric Pressure Response (Present)
{CAN Barometric Pressure Response (Present) :in51-0}
stp4
18
txt
stp5
14
txt
stp10
15
24
24
Checks for support of PID 3C
txt
PID 3C Supported (Value)
{PID 3C Supported (Value) :in32-sig27-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Catalyst Temperature 1-1" to 0
txt
{CAN Catalyst Temperature 1-1 Response (Present) :in60-0}
0
{CAN Catalyst Temperature 1-1 Response (Present) :in60-0}
{CAN Catalyst Temperature 1-1 Response (Present) :in60-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Catalyst Temperature 1-1 Response (Present)
{CAN Catalyst Temperature 1-1 Response (Present) :in60-0}
stp4
18
txt
stp5
14
txt
stp10
15
29
29
Checks for support of PID 3D
txt
PID 3D Supported (Value)
{PID 3D Supported (Value) :in32-sig28-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Catalyst Temperature 2-1" to 0
txt
{CAN Catalyst Temperature 2-1 Response (Present) :in61-0}
0
{CAN Catalyst Temperature 2-1 Response (Present) :in61-0}
{CAN Catalyst Temperature 2-1 Response (Present) :in61-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Catalyst Temperature 2-1 Response (Present)
{CAN Catalyst Temperature 2-1 Response (Present) :in61-0}
stp4
18
txt
stp5
14
txt
stp10
15
34
34
Checks for support of PID 3E
txt
PID 3E Supported (Value)
{PID 3E Supported (Value) :in32-sig29-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Catalyst Temperature 1-2" to 0
txt
{CAN Catalyst Temperature 1-2 Response (Present) :in62-0}
0
{CAN Catalyst Temperature 1-2 Response (Present) :in62-0}
{CAN Catalyst Temperature 1-2 Response (Present) :in62-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Catalyst Temperature 1-2 Response (Present)
{CAN Catalyst Temperature 1-2 Response (Present) :in62-0}
stp4
18
txt
stp5
14
txt
stp10
15
39
39
Checks for support of PID 3F
txt
PID 3F Supported (Value)
{PID 3F Supported (Value) :in32-sig30-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Catalyst Temperature 2-2" to 0
txt
{CAN Catalyst Temperature 2-2 Response (Present) :in63-0}
0
{CAN Catalyst Temperature 2-2 Response (Present) :in63-0}
{CAN Catalyst Temperature 2-2 Response (Present) :in63-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Catalyst Temperature 2-2 Response (Present)
{CAN Catalyst Temperature 2-2 Response (Present) :in63-0}
stp4
18
txt
stp5
14
txt
stp113
4
0
3
tst3
This step starts the next FUNCTION BLOCK, in this case, "Request Service Information (41-5F)"
Request Service Information (41-5F)
stp51
8
This marks the definitive END of this FUNCTION BLOCK for this cycle
txt
Request Service Information (41-5F)
tst3
8
Capture File Function Block 2
1
True
1
5000
1
1
1
False
True
out1
1
stp10
15
4
4
Checks whether or not PID 42 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 42 Supported (Value)
{PID 42 Supported (Value) :in64-sig1-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Control Module Voltage" to 0 so that we can identify later whether or not this message was received in this cycle
txt
{CAN Control Module Voltage Response (Present) :in66-0}
0
{CAN Control Module Voltage Response (Present) :in66-0}
{CAN Control Module Voltage Response (Present) :in66-0}
stp3
3
100
Waits for the message to be received (indicated by *present* value changing to 1) OR times out and continues after 100ms.
1
txt
CAN Control Module Voltage Response (Present)
{CAN Control Module Voltage Response (Present) :in66-0}
stp4
18
txt
stp5
14
txt
stp10
15
9
9
Checks whether or not PID 43 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 43 Supported (Value)
{PID 43 Supported (Value) :in64-sig2-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Absolute Load Value Response" to 0
txt
{CAN Absolute Load Value Response (Present) :in67-0}
0
{CAN Absolute Load Value Response (Present) :in67-0}
{CAN Absolute Load Value Response (Present) :in67-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Absolute Load Value Response (Present)
{CAN Absolute Load Value Response (Present) :in67-0}
stp4
18
txt
stp5
14
txt
stp10
15
14
14
Checks whether or not PID 44 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 44 Supported (Value)
{PID 44 Supported (Value) :in64-sig3-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Fuel/Air Commanded Equivalence Ratio" to 0
txt
{CAN Fuel/Air Commanded Equivalence Ratio Response (Present) :in68-0}
0
{CAN Fuel/Air Commanded Equivalence Ratio Response (Present) :in68-0}
{CAN Fuel/Air Commanded Equivalence Ratio Response (Present) :in68-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Fuel/Air Commanded Equivalence Ratio Response (Present)
{CAN Fuel/Air Commanded Equivalence Ratio Response (Present) :in68-0}
stp4
18
txt
stp5
14
txt
stp10
15
19
19
Checks for support of PID 45
txt
PID 45 Supported (Value)
{PID 45 Supported (Value) :in64-sig4-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Relative Throttle" to 0
txt
{CAN Relative Throttle Position Response (Present) :in69-0}
0
{CAN Relative Throttle Position Response (Present) :in69-0}
{CAN Relative Throttle Position Response (Present) :in69-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Relative Throttle Position Response (Present)
{CAN Relative Throttle Position Response (Present) :in69-0}
stp4
18
txt
stp5
14
txt
stp10
15
24
24
Checks for support of PID 46
txt
PID 46 Supported (Value)
{PID 46 Supported (Value) :in64-sig5-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Ambient Air Temperature" to 0
txt
{CAN Ambient Air Temperature Response (Present) :in70-0}
0
{CAN Ambient Air Temperature Response (Present) :in70-0}
{CAN Ambient Air Temperature Response (Present) :in70-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Ambient Air Temperature Response (Present)
{CAN Ambient Air Temperature Response (Present) :in70-0}
stp4
18
txt
stp5
14
txt
stp10
15
29
29
Checks for support of PID 47
txt
PID 47 Supported (Value)
{PID 47 Supported (Value) :in64-sig6-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Absolute Throttle Position B" to 0
txt
{CAN Absolute Throttle Position B Response (Present) :in71-0}
0
{CAN Absolute Throttle Position B Response (Present) :in71-0}
{CAN Absolute Throttle Position B Response (Present) :in71-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Absolute Throttle Position B Response (Present)
{CAN Absolute Throttle Position B Response (Present) :in71-0}
stp4
18
txt
stp5
14
txt
stp10
15
34
34
Checks for support of PID 48
txt
PID 48 Supported (Value)
{PID 48 Supported (Value) :in64-sig7-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Absolute Throttle Position C" to 0
txt
{CAN Absolute Throttle Position C Response (Present) :in72-0}
0
{CAN Absolute Throttle Position C Response (Present) :in72-0}
{CAN Absolute Throttle Position C Response (Present) :in72-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Absolute Throttle Position C Response (Present)
{CAN Absolute Throttle Position C Response (Present) :in72-0}
stp4
18
txt
stp5
14
txt
stp10
15
39
39
Checks for support of PID 49
txt
PID 49 Supported (Value)
{PID 49 Supported (Value) :in64-sig8-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Accelerator Pedal Position D" to 0
txt
{CAN Accelerator Pedal Position D Response (Present) :in73-0}
0
{CAN Accelerator Pedal Position D Response (Present) :in73-0}
{CAN Accelerator Pedal Position D Response (Present) :in73-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Accelerator Pedal Position D Response (Present)
{CAN Accelerator Pedal Position D Response (Present) :in73-0}
stp4
18
txt
stp5
14
txt
stp10
15
44
44
Checks for support of PID 4A
txt
PID 4A Supported (Value)
{PID 4A Supported (Value) :in64-sig9-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Accelerator Pedal Position E" to 0
txt
{CAN Accelerator Pedal Position E Response (Present) :in74-0}
0
{CAN Accelerator Pedal Position E Response (Present) :in74-0}
{CAN Accelerator Pedal Position E Response (Present) :in74-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Accelerator Pedal Position E Response (Present)
{CAN Accelerator Pedal Position E Response (Present) :in74-0}
stp4
18
txt
stp5
14
txt
stp10
15
49
49
Checks for support of PID 4B
txt
PID 4B Supported (Value)
{PID 4B Supported (Value) :in64-sig10-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Accelerator Pedal Position F" to 0
txt
{CAN Accelerator Pedal Position F Response (Present) :in75-0}
0
{CAN Accelerator Pedal Position F Response (Present) :in75-0}
{CAN Accelerator Pedal Position F Response (Present) :in75-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Accelerator Pedal Position F Response (Present)
{CAN Accelerator Pedal Position F Response (Present) :in75-0}
stp4
18
txt
stp5
14
txt
stp10
15
54
54
Checks for support of PID 4C
txt
PID 4C Supported (Value)
{PID 4C Supported (Value) :in64-sig11-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Commanded Throttle Actuator Control" to 0
txt
{CAN Commanded Throttle Actuator Control Response (Present) :in76-0}
0
{CAN Commanded Throttle Actuator Control Response (Present) :in76-0}
{CAN Commanded Throttle Actuator Control Response (Present) :in76-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Commanded Throttle Actuator Control Response (Present)
{CAN Commanded Throttle Actuator Control Response (Present) :in76-0}
stp4
18
txt
stp5
14
txt
stp10
15
59
59
Checks for support of PID 59
txt
PID 59 Supported (Value)
{PID 59 Supported (Value) :in64-sig24-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Fuel Rail Pressure (Absolute) Response" to 0
txt
{CAN Fuel Rail Pressure (Absolute) Response (Present) :in89-0}
0
{CAN Fuel Rail Pressure (Absolute) Response (Present) :in89-0}
{CAN Fuel Rail Pressure (Absolute) Response (Present) :in89-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Fuel Rail Pressure (Absolute) Response (Present)
{CAN Fuel Rail Pressure (Absolute) Response (Present) :in89-0}
stp4
18
txt
stp5
14
txt
stp10
15
64
64
Checks for support of PID 5A
txt
PID 5A Supported (Value)
{PID 5A Supported (Value) :in64-sig25-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Relative Accelerator Pedal Position" to 0
txt
{CAN Relative Accelerator Pedal Position Response (Present) :in90-0}
0
{CAN Relative Accelerator Pedal Position Response (Present) :in90-0}
{CAN Relative Accelerator Pedal Position Response (Present) :in90-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Relative Accelerator Pedal Position Response (Present)
{CAN Relative Accelerator Pedal Position Response (Present) :in90-0}
stp4
18
txt
stp5
14
txt
stp10
15
69
69
Checks for support of PID 5B
txt
PID 5B Supported (Value)
{PID 5B Supported (Value) :in64-sig26-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Hybrid/EV Battery Pack Remaining Charge" to 0
txt
{CAN Hybrid/EV Battery Pack Remaining Charge Response (Present) :in91-0}
0
{CAN Hybrid/EV Battery Pack Remaining Charge Response (Present) :in91-0}
{CAN Hybrid/EV Battery Pack Remaining Charge Response (Present) :in91-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Hybrid/EV Battery Pack Remaining Charge Response (Present)
{CAN Hybrid/EV Battery Pack Remaining Charge Response (Present) :in91-0}
stp4
18
txt
stp5
14
txt
stp10
15
74
74
Checks for support of PID 5C
txt
PID 5C Supported (Value)
{PID 5C Supported (Value) :in64-sig27-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Engine Oil Temperature" to 0
txt
{CAN Engine Oil Temperature Response (Present) :in92-0}
0
{CAN Engine Oil Temperature Response (Present) :in92-0}
{CAN Engine Oil Temperature Response (Present) :in92-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Engine Oil Temperature Response (Present)
{CAN Engine Oil Temperature Response (Present) :in92-0}
stp4
18
txt
stp5
14
txt
stp10
15
79
79
Checks for support of PID 5D
txt
PID 5D Supported (Value)
{PID 5D Supported (Value) :in64-sig28-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Fuel Injection Timing" to 0
txt
{CAN Fuel Injection Timing Response (Present) :in93-0}
0
{CAN Fuel Injection Timing Response (Present) :in93-0}
{CAN Fuel Injection Timing Response (Present) :in93-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Fuel Injection Timing Response (Present)
{CAN Fuel Injection Timing Response (Present) :in93-0}
stp4
18
txt
stp5
14
txt
stp10
15
84
84
Checks for support of PID 5E
txt
PID 5E Supported (Value)
{PID 5E Supported (Value) :in64-sig29-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Engine Fuel Rate" to 0
txt
{CAN Engine Fuel Rate Response (Present) :in94-0}
0
{CAN Engine Fuel Rate Response (Present) :in94-0}
{CAN Engine Fuel Rate Response (Present) :in94-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Engine Fuel Rate Response (Present)
{CAN Engine Fuel Rate Response (Present) :in94-0}
stp4
18
txt
stp5
14
txt
stp113
4
0
4
tst4
Starts the next FUNCTION BLOCK, in this case, "Request Service Information (61-7F)"
Request Service Information (61-7F)
stp188
8
Marks the definitive END of this FUNCTION BLOCK for this cycle
txt
Request Service Information (61-7F)
tst4
8
Capture File Function Block 2
1
True
1
5000
1
1
1
False
True
out1
1
stp10
15
4
4
Checks whether the value of the SIGNAL "PID 61 Supported" is 1 or 0 (Supported or Not Supported). If it IS (value of 1), the program steps into the IF LOOP. If it IS NOT, the program will skip down to the next IF block.
txt
PID 61 Supported (Value)
{PID 61 Supported (Value) :in96-sig0-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Driver's Demand Engine - Percent Torque" to 0 so that we can identify later whether or not this message was received in this cycle
txt
{CAN Driver's Demand Engine - Percent Torque Response (Present) :in97-0}
0
{CAN Driver's Demand Engine - Percent Torque Response (Present) :in97-0}
{CAN Driver's Demand Engine - Percent Torque Response (Present) :in97-0}
stp3
3
100
Waits for the message to be received (indicated by *present* value changing to 1) OR times out and continues after 100ms.
1
txt
CAN Driver's Demand Engine - Percent Torque Response (Present)
{CAN Driver's Demand Engine - Percent Torque Response (Present) :in97-0}
stp4
18
txt
stp5
14
txt
stp10
15
9
9
Checks whether or not PID 62 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 62 Supported (Value)
{PID 62 Supported (Value) :in96-sig1-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Actual Engine - Percent Torque" to 0 so that we can identify later whether or not this message was received in this cycle
txt
{CAN Actual Engine - Percent Torque Response (Present) :in98-0}
0
{CAN Actual Engine - Percent Torque Response (Present) :in98-0}
{CAN Actual Engine - Percent Torque Response (Present) :in98-0}
stp3
3
100
Waits for the message to be received (indicated by *present* value changing to 1) OR times out and continues after 100ms
1
txt
CAN Actual Engine - Percent Torque Response (Present)
{CAN Actual Engine - Percent Torque Response (Present) :in98-0}
stp4
18
txt
stp5
14
txt
stp10
15
14
14
Checks whether or not PID 63 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 63 Supported (Value)
{PID 63 Supported (Value) :in96-sig2-0}
True=1/False=0
True
True
stp0
6
This step sets the *present* value of RECEIVE message "Engine Reference Torque" to 0
txt
{CAN Engine Reference Torque Response (Present) :in99-0}
0
{CAN Engine Reference Torque Response (Present) :in99-0}
{CAN Engine Reference Torque Response (Present) :in99-0}
stp3
3
100
Waits for the message to be received OR times out after 100ms
1
txt
CAN Engine Reference Torque Response (Present)
{CAN Engine Reference Torque Response (Present) :in99-0}
stp4
18
txt
stp5
14
txt
stp113
4
0
6
tst27
Starts the next FUNCTION BLOCK, in this case, "Request Service Information (81-9C)"
Request Service Information (81-9F)
stp188
8
Definitive END for this FUNCTION BLOCK in this cycle
txt
Main
tst8
8
Capture File Function Block 9
True
1
5000
1
1
1
True
True
True
out1
1
stp16
6
txt
{ECU Detected (Value) :sig0-0}
1
1=1/0=0
0
1
True
{ECU Detected (Value) :sig0-0}
{ECU Detected (Value) :sig0-0}
stp17
6
txt
{DistanceMILOn (Value) :in82-sig0-0}
1
0
0
65535
km
{DistanceMILOn (Value) :in82-sig0-0}
{DistanceMILOn (Value) :in82-sig0-0}
stp34
2
0
-1
txt
200
stp14
4
0
0
tst0
Request PIDs Supported
stp14
4
0
10
tst12
Backlight
stp9
8
txt
stp1
14
txt
stp2
14
txt
stp3
14
txt
stp4
14
txt
stp23
14
txt
stp6
14
txt
stp7
14
txt
stp8
14
txt
stp9
14
txt
Request Service Information (81-9F)
tst27
8
Capture File Function Block 2
1
True
1
5000
1
1
1
False
True
out1
1
stp10
15
4
4
Checks whether the value of the SIGNAL "PID 61 Supported" is 1 or 0 (Supported or Not Supported). If it IS (value of 1), the program steps into the IF LOOP. If it IS NOT, the program will skip down to the next IF block.
txt
PID 83 Supported (PID 80) (Value)
{PID 83 Supported (PID 80) (Value) :in128-sig2-0}
True=1/False=0
0
1
True
stp0
6
This step sets the *present* value of RECEIVE message "Driver's Demand Engine - Percent Torque" to 0 so that we can identify later whether or not this message was received in this cycle
txt
{(PID 83) CAN NOx Sensor Response (Present) :in131-0}
0
{(PID 83) CAN NOx Sensor Response (Present) :in131-0}
{(PID 83) CAN NOx Sensor Response (Present) :in131-0}
stp3
3
100
Waits for the message to be received (indicated by *present* value changing to 1) OR times out and continues after 100ms.
1
txt
(PID 83) CAN NOx Sensor Response (Present)
{(PID 83) CAN NOx Sensor Response (Present) :in131-0}
stp4
18
txt
stp5
14
txt
stp10
15
9
9
Checks whether or not PID 62 is supported. If it IS, the program steps into the IF loop. If it is NOT, the program moves on
txt
PID 9E Supported (PID 80) (Value)
{PID 9E Supported (PID 80) (Value) :in128-sig29-0}
True=1/False=0
0
1
True
stp0
6
This step sets the *present* value of RECEIVE message "Actual Engine - Percent Torque" to 0 so that we can identify later whether or not this message was received in this cycle
txt
{(Pid 9E) CAN Engine Exhaust Flow Rate (Present) :in58-0}
0
{(Pid 9E) CAN Engine Exhaust Flow Rate (Present) :in58-0}
{(Pid 9E) CAN Engine Exhaust Flow Rate (Present) :in58-0}
stp3
3
100
Waits for the message to be received (indicated by *present* value changing to 1) OR times out and continues after 100ms
1
txt
(Pid 9E) CAN Engine Exhaust Flow Rate (Present)
{(Pid 9E) CAN Engine Exhaust Flow Rate (Present) :in58-0}
stp4
18
txt
stp5
14
txt
stp113
4
0
7
tst28
Starts the next FUNCTION BLOCK, in this case, "Request Service Information (81-9C)"
Request Service Information (A1-BF)
stp188
8
Definitive END for this FUNCTION BLOCK in this cycle
txt
Request Service Information (A1-BF)
tst28
8
Capture File Function Block 2
1
True
1
5000
1
1
1
False
True
out1
1
stp10
15
4
4
Checks whether the value of the SIGNAL "PID 61 Supported" is 1 or 0 (Supported or Not Supported). If it IS (value of 1), the program steps into the IF LOOP. If it IS NOT, the program will skip down to the next IF block.
txt
PID A1 Supported (Value)
{PID A1 Supported (Value) :in77-sig0-0}
True=1/False=0
0
1
True
stp0
6
This step sets the *present* value of RECEIVE message "Driver's Demand Engine - Percent Torque" to 0 so that we can identify later whether or not this message was received in this cycle
txt
{(PID A1) CAN NOx-Sensor Corrected (Present) :in65-0}
0
{(PID A1) CAN NOx-Sensor Corrected (Present) :in65-0}
{(PID A1) CAN NOx-Sensor Corrected (Present) :in65-0}
stp3
3
100
Waits for the message to be received (indicated by *present* value changing to 1) OR times out and continues after 100ms.
1
txt
(PID A1) CAN NOx-Sensor Corrected (Present)
{(PID A1) CAN NOx-Sensor Corrected (Present) :in65-0}
stp4
18
txt
stp5
14
txt
stp5
14
txt
stp113
4
0
tst1
Starts the next FUNCTION BLOCK, in this case, "Request Service Information (81-9C)"
Request Service Information (01-1F)
stp188
8
Definitive END for this FUNCTION BLOCK in this cycle
txt
Sleep Control
tst39
8
Capture File Function Block 11
3
True
1
5000
1
1
1
True
out1
1
stp1
2
10000
-1
txt
10000
stp2
3
Wait for user timeout in milliseconds
txt
{TIME SINCE MESSAGE (MS)} >= 10000
stp31
14
--- Sleep detected ----
txt
stp3
4
3
0
tst0
Request PIDs Supported
stp3
4
3
2
tst2
Request Service Information (21-3F)
stp3
4
3
tst1
Request Service Information (01-1F)
stp3
4
3
5
tst8
Main
stp3
4
3
3
tst3
Request Service Information (41-5F)
stp3
4
3
4
tst4
Request Service Information (61-7F)
stp3
4
3
6
tst27
Request Service Information (81-9F)
stp3
4
3
7
tst28
Request Service Information (A1-BF)
stp6
2
10000
-1
Wait for DPID / CCP / XCP Time outs on the net to stop tx'ing data
txt
10000
stp4
35
txt
stp3
4
0
5
tst8
Main
stp5
txt
stp6
14
txt
stp7
14
txt
stp8
14
txt
stp9
14
txt
Sound
tst41
8
Capture File Function Block 42
1
True
1
5000
1
1
1
True
out1
1
stp0
6
TODO: Add step commands here
txt
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
400
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
stp1
2
150
-1
txt
duration (Value)
150
stp0
6
TODO: Add step commands here
txt
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
0
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
stp1
2
300
-1
txt
duration (Value)
300
stp0
6
TODO: Add step commands here
txt
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
400
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
stp1
2
150
-1
txt
duration (Value)
150
stp0
6
TODO: Add step commands here
txt
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
0
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
{PWM Output 1 (PWM Frequency (Hz)) :neo0-po0-1-index(0)}
stp1
8
txt
stp2
14
txt
stp3
14
txt
stp4
14
txt
stp5
14
txt
stp6
14
txt
stp7
14
txt
stp8
14
txt
stp9
14
txt
Backlight
tst12
8
Capture File Function Block 12
1
True
1
5000
1
1
1
True
out1
1
stp11
6
txt
{VividCAN Backlight}
100
{VividCAN Backlight}
{VividCAN Backlight}
stp11
6
txt
{Backlight (Value) :sig6-0}
100
{Backlight (Value) :sig3-0}
{Backlight (Value) :sig3-0}
stp13
2
200
-1
txt
200
stp10
6
txt
{VividCAN Backlight}
{Backlight (Value) :sig3-0}
{VividCAN Backlight}
{VividCAN Backlight}
stp3
3
txt
stp4
14
txt
stp5
14
txt
stp6
14
txt
stp7
14
txt
stp8
14
txt
stp9
14
txt
$09 Request Vehicle Info
dgn0
True
net0
7e0
7e8
Number of data items
sig0
1
{Raw Value}*1+0|0,1,16,8
0
255
0
0
Vehicle Identification Number
sig1
4
B4 Length: 17 |3,16
0
2
New Group 2
sgr1
True
spc0
False
10
icsSpyLogFile
icsSpyLogFile
0
icsSpyLogFile
True
_CNV_S_2_RANGE______33_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170
2
0
0
1
1
_CNV_S_5_EGCP_RANGE_72
5
0: INIT
0
1: WAIT
1
2: PURGE
2
3: ACQ
3
4: ADAPT
4
_CNV_S_4_EGCP_RANGE_73
4
0: in_range
0
1: low_limit
1
2: high_limit
2
3: impossible
3
_CNV_S_6_EGCP_RANGE_78
6
OFF
0
COND_LEAN
1
COND_RICH
2
MEAS_LEAN
3
MEAS_RICH
4
CAT_PURGE
5
_CNV_S_7_EGCP_RANGE_82
7
LSH_OFF
0
LSH_POW_RISE
1
LSH_POW_RED
2
LSH_POW_FALL
3
LSH_POW_CTL
4
LSH_VB_PROT
5
LSH_TEMP_PROT
6
_CNV_S_5_EGCP_RANGE_85
5
0: WAIT
0
1: PREPARE
1
2: ADJUST_H
2
3: ADJUST_L
3
4: RETURN
4
_CNV_S_3_EGCP_RANGE_86
3
NO_FAULT
0
SCG
1
SCB
2
_CNV_S_3_EGCP_RANGE_87
3
NO_FAULT
0
CURRENT_LOW
1
CURRENT_HIGH
2
_CNV_S_2_EGCP_RANGE_88
2
NO_FAULT
0
FAULT
1
_CNV_S_5_EGCP_RANGE_90
5
OFF
0
MES_OFS
1
ADJ_OFS
2
ADJ_GAIN
3
MES
4
_CNV_S_11_EGCP_RANGE_91
11
NO_FAULT
0
SCG_LINE_RCD
1
SCG_LINE_VIP
2
SCG_LINE_VG
3
SCG_LINE_VN
4
SCG
5
SCBAT_LINE_RCD
6
SCBAT_LINE_VIP
7
SCBAT_LINE_VG
8
SCBAT_LINE_VN
9
SCBAT
10
_CNV_S_4_EGCP_RANGE_92
4
NO_SYM
0
TTIP_ERR
1
READY_ERR
2
TTIP_MES_ERR
4
_CNV_S_9_EGCP_RANGE_94
9
DIAG_OFF
0
DIAG_INIT
1
LS_READY
2
OBD1_DLY
3
OBD1_CHK
4
TEG_THD
5
POW_INT
6
DIAG_ACT
7
DIAG_END
8
_CNV_S_5_EGCP_RANGE_99
5
NO_SYM
0
SYM_0
1
SYM_1
2
SYM_2
4
SYM_3
8
_CNV_S_4_EGCP_RANGE_105
4
PASSIVE
0
WAIT
1
ACQUISITION
2
END
3
_CNV_S_4_EGCP_RANGE_106
4
VLS_OK
0
VLS_L
1
VLS_H_OC
2
VLS_AFS_OC
4
_CNV_S_2_RANGE______33_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170_2_2641902170
16
NO_SYM
0
SYM_0
1
SYM_1
2
SYM_0, SYM_1
3
SYM_2
4
SYM_0, SYM_2
5
SYM_1, SYM_2
6
SYM_0, SYM_1, SYM_2
7
SYM_3
8
SYM_0, SYM_3
9
SYM_1, SYM_3
10
SYM_0, SYM_1,SYM_3
11
SYM_2, SYM_3
12
SYM_0, SYM_2, SYM_3
13
SYM_1, SYM_2, SYM_3
14
SYM_0, SYM_1, SYM_2, SYM_3
15
_CNV_S_4_EGCP_RANGE_108
4
PASSIVE
0
RICH CHECK
1
LEAN CHECK
2
CHECK FINISHED
3
_CNV_S_4_EGCP_RANGE_110
4
PASSIVE
0
CALC_LEAN
1
CALC_RICH
2
CALC_RESULT
3
_CNV_S_3_EGCP_RANGE_111
3
PASSIVE
0
ACTIVE
1
END
2
_CNV_S_3_EGCP_RANGE_116
3
NONE
0
DYN_DIAG
1
DLY_DIAG
2
_CNV_S_7_EGTR_RANGE_128
7
PLS_OFF
0
PLS_LSH_DIAG
1
PLS_CAT_DIAG
2
PLS_CAT_DIAG_TRAN
3
PLS_EXT
4
PLS_IS
5
PLS_NOM
6
_CNV_S_7_EGTR_RANGE_132
7
OFF
0
COND_LEAN
1
COND_RICH
2
MEAS_LEAN
3
MEAS_RICH
4
CAT_PURGE
5
END
6
_CNV_S_6_EGTR_RANGE_136
6
PASSIVE
0
WAIT
1
CYC_LEAN
2
CYC_RICH
3
END
4
RAMP_UP
5
_CNV_S_3_EGTR_RANGE_145
3
OFF
0
AFL
1
AFR
2
_CNV_S_6_EGTR_RANGE_146
6
CAT_PURGE_OFF
0
CAT_PURGE_PUC
1
CAT_PURGE_SA
2
CAT_PURGE_HST
3
CAT_PURGE_CH
4
CAT_PURGE_GS_SCC
5
_CNV_S_5_ENSC_RANGE_150
5
ISC_PASSIVE
0
AFTER_START
1
NORMAL
2
TRAILING_THR
3
PART_LOAD
4
_CNV_S_4_ENSC_RANGE_152
4
I_PASSIVE
0
I_NORMAL
1
RAMP_TO_PAS
2
RAMP_TO_LIM
3
_CNV_S_3_ENSC_RANGE_153
3
P_D_PASSIVE
0
P_D_NORMAL
1
RAMP_TO_ZERO
2
_CNV_S_4_ENSL_RANGE_163
4
NO_INTV
0
IGA_INTV
1
IGA_SCC_INTV
2
SCC_INTV
3
_CNV_S_3_ERRM_RANGE_170
3
OFF
0
ON
1
LAMP BLINKING
2
_CNV_S_532_ERRM_RANGE_172
532
NO_ERROR
0
IMMO
1
ECU_4
2
EL_TIA_IM_CYL
3
INTM_TIA
4
DYN_TIA
5
VS
6
VS_CAN
7
VS_PLAUS
8
BLS_BTS
9
PVS_BLS_BTS
10
PVS_H_1
11
PVS_H_2
12
PVS_L_1
13
PVS_L_2
14
PVS_MPL
15
ECU_IRPT
16
ISC
17
ISC_CST
18
PVS_RATIO
19
VCV
20
ETC_CTL
21
ETC_PWM
22
TPS_RATIO
23
TPS_1
24
TPS_2
25
TPS_MAF_1
26
TPS_MAF_2
27
TPS_AD
28
TPS_ST_CHK
29
TPS_AD_SPR
30
TPS_AD_GAIN
31
TPS_JAM_DET
32
IGC_SCP_0
33
IGC_SCP_1
34
IGC_SCP_2
35
IGC_SCP_3
36
IGC_SCP_4
37
IGC_SCP_5
38
IGC_SCG_0
39
IGC_SCG_1
40
IGC_SCG_2
41
IGC_SCG_3
42
IGC_SCG_4
43
IGC_SCG_5
44
IGC_OL_0
45
IGC_OL_1
46
IGC_OL_2
47
IGC_OL_3
48
IGC_OL_4
49
IGC_OL_5
50
IGC_SDN_0
51
IGC_SDN_1
52
IGC_SDN_2
53
IGC_SDN_3
54
IGC_SDN_4
55
IGC_SDN_5
56
IGC_LOSS_PWR
57
MIS_0
58
MIS_1
59
MIS_2
60
MIS_3
61
MIS_4
62
MIS_5
63
MIS_MPL
64
T_SEG_ER
65
SEG_AD_ER
66
PBSU_EL
67
BSU
68
PBSU_PLAUS
69
PBSU_CAN
70
BSU_VAC_PIPE_DVG
71
BSU_VAC_PIPE
72
CRASH
73
PWM_CRASH
74
TOIL_EL
75
TOIL_GRD
76
TOIL_PLAUS_L
77
TOIL_PLAUS_H
78
VARCOD
79
VARCOD_TCU
80
MON_3
81
MON_3_VD
82
ECU_2
83
ECU_5
84
ECU_6
85
ALTER_COM
86
ALTER_EL
87
ALTER_MEC
88
BSD_COM_OFF
89
ALTER_CHA_LBG
90
TCU1
91
TCU_NPLAU
92
CRU_SWI
93
CRU_SWI_PLAU
94
SCG_LS_DOWN_1
95
SCP_LS_DOWN_1
96
OC_LS_DOWN_1
97
PUC_LS_DOWN_1
98
FL_LS_DOWN_1
99
LSL_UP_IF_1
100
EL_LSL_UP_1
101
LSH_UP_1
102
LSH_DOWN_1
103
AIR_LSL_UP_1
104
PUE_LS_DOWN_1
105
GRD_R2L_LS_DOWN_1
106
OBD_LSH_DOWN_1
107
DYN_VLD_LS_UP_1
108
PUC_VLD_LS_UP_1
109
OBD_VLD_LSH_UP_1
110
CHK_LS_DOWN_1
111
SHIFT_AFL_LSL_UP_1
112
SHIFT_AFR_LSL_UP_1
113
OC_LSL_UP_1
114
DELTA_I_LAM_1
115
VLS_DOWN_DIF_1
116
TTIP_MES_LSH_UP_1
117
DLY_L2R_LS_DOWN_1
118
DLY_R2L_LS_DOWN_1
119
PEAK_MAX_LS_DOWN_1
120
PEAK_MIN_LS_DOWN_1
121
CHG_LS_UP
122
OFS_LSL_UP_1
123
CTL_LSL_UP_1
124
OFS_LSL_UP_2
125
CTL_LSL_UP_2
126
SCG_LS_DOWN_2
127
SCP_LS_DOWN_2
128
OC_LS_DOWN_2
129
PUC_LS_DOWN_2
130
FL_LS_DOWN_2
131
LSL_UP_IF_2
132
EL_LSL_UP_2
133
LSH_UP_2
134
LSH_DOWN_2
135
AIR_LSL_UP_2
136
PUE_LS_DOWN_2
137
GRD_R2L_LS_DOWN_2
138
OBD_LSH_DOWN_2
139
DYN_VLD_LS_UP_2
140
PUC_VLD_LS_UP_2
141
OBD_VLD_LSH_UP_2
142
CHK_LS_DOWN_2
143
SHIFT_AFL_LSL_UP_2
144
SHIFT_AFR_LSL_UP_2
145
OC_LSL_UP_2
146
DELTA_I_LAM_2
147
VLS_DOWN_DIF_2
148
TTIP_MES_LSH_UP_2
149
DLY_L2R_LS_DOWN_2
150
DLY_R2L_LS_DOWN_2
151
PEAK_MAX_LS_DOWN_2
152
PEAK_MIN_LS_DOWN_2
153
CHG_LS_DOWN
154
CLU_SWI_TOP_OPEN
155
CLU_SWI_TOP_CLOSE
156
CLU_SWI_2_SCG
157
CLU_SWI_2_SCP
158
PV_CLU
159
CAN_4WD
160
CAN_BOFF
161
CAN_TCS
162
CAN_TCU
163
CAN_ACU
164
CAN_CCU
165
CAN_ICL
166
CAN_SMLS
167
CAN_DCC
168
CAN_BEM
169
CAN_TOT
170
CAN_IF_CFT
171
CAN_EILU
172
CAN_PSTE
173
CAN_EPB
174
CAN_ICH
175
CAN_LAMP_RE
176
CAN_SPT
177
CAN_TRLCU
178
CCU_SENS_2_MSG_OOD
179
DRIV_DOOR_1_MSG_OOD
180
TCS_7_MSG_OOD
181
VECU_1_1_MSG_OOD
182
VECU_1_2_MSG_OOD
183
CCU_8_MSG_OOD
184
TCS_11_MSG_OOD
185
CTOP_CTL1_MSG_OOD
186
PARK_ASI_1_MSG_OOD
187
CAN_CRUL
188
ICL_2_MSG_OOD
189
DATE_MSG_OOD
190
AC_LGT_TCS_2
191
PSTE_2_MSG_OOD
192
TCS_13_MSG_OOD
193
PLAUS_TIA_IM_CYL
194
INTM_TAM
195
PLAUS_TAM
196
STR_RLY
197
ST_REQ_SCP
198
ST_REQ_SCG
199
ST_RESP_SCP
200
ST_RESP_SCG
201
ST_RESP_OC
202
MOT_ST
203
STR_RLY_1
204
STR_RLY_2
205
PN
206
CRU_DVC_CAN
207
EMS_SMLS_COD
208
CRU_OFF
209
TQI_REQ_DCC_PIN
210
DCC_ACT_BLS
211
RST_CHK
212
PWL
213
WRST
214
CONV_PLAUS
215
ECU_1
216
SPI_ATIC_29
217
SPI_ATIC_94
218
ADD_CWP
219
TCHA_PROT
220
PUT_WG_OPEN_AD
221
PRS_DIF_WG_SP_AD
222
PLAUS_OPEN_RCL
223
PLAUS_CLOSE_RCL
224
CAP_H
225
CAP_L
226
CAP_L_BAS
227
EL_RCL_ACR
228
SAF_FLOW
229
SA_SAV
230
ACQ_KNK
231
REL_KNK_0
232
BAS_KNK_0
233
REL_KNK_1
234
BAS_KNK_1
235
TCO_EL
236
TCO_PLAUS
237
TCO_GRD
238
TCO_STUCK
239
TCO_STUCK_H
240
TH
241
TCO_STUCK_RNG
242
RAS_1
243
RAS_2
244
TCO_2_EL
245
TCO_2_PLAUS
246
TCO_2_GRD
247
ECT_EL
248
ECP_CST_PLAUS
249
ECP_HAST_PLAUS
250
POIL
251
POIL_PWM_PUMP
252
TEG_MES_EL_1
253
TEG_MES_CST_1
254
TEG_MES_INC_1
255
TEG_MES_GRD_1
256
TEG_MES_FIL_1
257
TEG_MES_EL_2
258
TEG_MES_CST_2
259
TEG_MES_INC_2
260
TEG_MES_GRD_2
261
TEG_MES_FIL_2
262
NVMCRYPT
263
TFU_HPP_EL
264
TFU_HPP_GRD
265
TFU_HPP_PLAUS
266
EL_PWM_PUMP_OIL
267
EL_PUMP_OIL_H_SWI
268
ECF_1
269
ECF_2
270
ECFPWM_FB_B_1
271
ECFPWM_FB_B_2
272
ECFPWM_FB_A_1
273
ECFPWM_FB_A_2
274
EFPPWM_FB_A
275
EFPPWM_FB_B
276
EFPPWM_FB_C
277
MIS_CST_0
278
MIS_CST_1
279
BRAKE_REQ_DRIV
280
ESP
281
AC_LGT_TCS_OFS
282
AC_TRV_TCS_OFS
283
ANG_PSTE
284
BRAKE_LAMP
285
BRAKE_LAMP_TRL
286
BRAKE_TEMP_MAX
287
DCC_MSG_NOT_OK
288
DECE_CTL_EMS
289
DT_MNG_MSG_NOT_OK
290
GEAR_RATIO_CAN
291
GLV_PSN_CAN
292
STATE_CTL_DECE
293
STATE_CTL_DECE_TRL
294
TAM_CAN
295
TAM_CAN_RAW
296
TAM_CAN_CONF
297
TAM_CAN_SRC_RST
298
TAM_CAN_EL
299
GEN_LOAD_CAN
300
GEN_LOAD_PLAUS_CAN
301
CRCV_HEAT
302
V_TOIL_GB
303
TUR_ACR_PLAUS_1
304
TUR_ACR_PLAUS_2
305
TUR_ACR_DR_1
306
TUR_ACR_FCT_1
307
TUR_ACR_FCT_2
308
TUR_ACR_SENS_1
309
TUR_ACR_DR_2
310
PSN_TUR_SP_H
311
PSN_TUR_SP_L
312
FAC_PUT_AD
313
TUR_ACR_SENS_2
314
IAF_0
315
IAF_1
316
IAF_2
317
WHEEL_GRD_FR_RI
318
WHEEL_GRD_FR_LE
319
WHEEL_GRD_RE_RI
320
WHEEL_GRD_RE_LE
321
SOF_ECP
322
FUP
323
RLY_EFP
324
RLY_EFP_2
325
EFPPWM
326
WKUL_DOOR
327
WKUL_ICH_OC
328
WKUL_ICH_SCP
329
ER_BAL_HOM_RNG_0
330
ER_BAL_HOM_RNG_1
331
ER_BAL_HOM_RNG_2
332
ER_BAL_HOM_RNG_3
333
ER_BAL_HOM_RNG_4
334
ER_BAL_HOM_RNG_5
335
AMP
336
map
337
LOAD_TPS_AR_IS_MAX
338
LOAD_TPS_AR_PL_MAX
339
LOAD_TPS_AR_IS_MIN
340
LOAD_TPS_AR_PL_MIN
341
LOAD_TPS_PUT_MAX
342
LOAD_TPS_PUT_MIN
343
LOAD_TPS_PLAUS
344
LOAD_TPS_CRCV_IS
345
PUT
346
FUP_MFP_PLAUS
347
CUR_VCV_NOT_PLAUS
348
FUP_OSC
349
H_PRS_SYS
350
FUP_ORNG
351
FUP_ST
352
FUP_NOT_PLAUS
353
FUP_HPP_SYS
354
VCV_PLAUS
355
EFP_PLAUS
356
FUP_STOP
357
MAF_SCP_1
358
MAF_SCP_2
359
MAF_PLAUS_DIAG_1
360
MAF_PLAUS_DIAG_2
361
MAF_SCG_OC_1
362
MAF_SCG_OC_2
363
FUP_SENS_ST
364
FUP_SENS_STUCK
365
FUP_SENS_STUCK_ST
366
FUP_CH
367
FPS_DE
368
AMP_PLAUS
369
MAP_PLAUS
370
PUT_PLAUS
371
AMP_ORNG
372
MAP_ORNG
373
PUT_ORNG
374
FTL_STUCK_1
375
FTL_GRD_1
376
FTL_EL_1
377
SLV_IVVT_IN_1
378
MEC_IVVT_IN_1
379
CAM_STAT_IVVT_IN_1
380
CAM_DYN_IVVT_IN_1
381
CAM_CST_IVVT_IN_1
382
SLV_IVVT_IN_2
383
MEC_IVVT_IN_2
384
CAM_STAT_IVVT_IN_2
385
CAM_DYN_IVVT_IN_2
386
CAM_CST_IVVT_IN_2
387
CAT_DIAG_1
388
CAT_DIAG_2
389
COC_EPC_1
390
COC_EPC_2
391
COC_EPC_3
392
EPC_3_CLOSE
393
EPC_3_OPEN
394
EPC_TH_CLOSE
395
CFA_ECP_EL_1
396
CFA_ECP_EL_2
397
MON
398
TQI_MON
399
N_MAX_MON
400
STST_MON
401
VLFT_STND_ER_0
402
VLFT_1_ER_0
403
VLFT_STND_ER_1
404
VLFT_1_ER_1
405
VLFT_STND_ER_2
406
VLFT_1_ER_2
407
VLFT_STND_ER_3
408
VLFT_1_ER_3
409
VLFT_STND_ER_4
410
VLFT_1_ER_4
411
VLFT_STND_ER_5
412
VLFT_1_ER_5
413
VLFT_CAM_1
414
VLFT_1_EL_1
415
VLFT_1_LAM_CBK_1
416
VLFT_STND_EL_1
417
VLFT_CAM_2
418
VLFT_1_EL_2
419
VLFT_1_LAM_CBK_2
420
VLFT_STND_EL_2
421
CFA_ECP_FKT
422
VP_CFA_ECP_FB_LE
423
VP_CFA_ECP_FB_OFF
424
VP_CFA_ECP_FB_RI
425
TEMP_ECP_EL
426
SAP_1
427
FSD_1
428
FSD_LAM_LIM_1
429
FSD_2
430
FSD_LAM_LIM_2
431
CSERS_INJ
432
IV_0
433
IV_1
434
IV_2
435
IV_3
436
IV_4
437
IV_5
438
ATIC_124
439
VBOOST
440
MEC_OPEN_CPS
441
SMALL_LEAK_NVLD
442
SWI_NVLD
443
SWI_EL_NVLD
444
SMT_EL_NVLD
445
REQ_REP_EL_NVLD
446
RESP_REP_COMC_NVLD
447
SMT_RST_NVLD
448
T_SMT_NVLD
449
TAM_SMT_PLAUS
450
TAM_SMT_CHK
451
TAM_SMT_RNG_H
452
TAM_SMT_RNG_L
453
T_ES_RST
454
T_ES_RST_ON
455
T_ES_PWL
456
T_ES_PWL_ON
457
GS
458
KD_AD
459
BLS_EL
460
N_MAX_HOT_ENG
461
VIM
462
EFF_IGA_CST_IS
463
EFF_IGA_CST_PL
464
OIL_SENS_PLAUS
465
OIL_SENS_EL
466
TQ_LIM_INTV
467
MSR_PLAU
468
SIG_NEUT_GEAR_H
469
SIG_NEUT_GEAR_L
470
PLAUS_NEUT_GEAR_H
471
PLAUS_NEUT_GEAR_L
472
PLAUS_NEUT_GEAR_MID
473
ANG_NEUT_GEAR
474
NEUT_GEAR_ACT
475
NEUT_GEAR_PU
476
NEUT_GEAR_COAST
477
GEAR_RLS_SCP
478
GEAR_RLS_SCG
479
GEAR_RLS_OC
480
FRQ_NEUT_GEAR_L
481
FRQ_NEUT_GEAR_H
482
TOUT_NEUT_GEAR
483
TOIL_GB_MAX
484
TIA_CST_PLAUS
485
TCO_CST_PLAUS
486
TAM_CST_PLAUS
487
TOIL_CST_PLAUS
488
TOIL_GB_STUCK
489
TOIL_GB_CST_PLAUS
490
N_GB_INP_MISS
491
N_GB_INP_N_DIF
492
N_GB_INP_RND
493
CRK_NO_SIG
494
CRK_RUN_OUT
495
CAM_NO_SIG_IN_1
496
CAM_SYN_CRK_IN_1
497
CAM_PER_IN_1
498
CAM_SYN_IN_1
499
CAM_REF_CRK_IN_1
500
CAM_TOOTH_OFF_IN_1
501
CAM_NO_SIG_IN_2
502
CAM_SYN_CRK_IN_2
503
CAM_PER_IN_2
504
CAM_SYN_IN_2
505
CAM_REF_CRK_IN_2
506
CAM_TOOTH_OFF_IN_2
507
CRK_TOOTH_NR
508
CRK_TOOTH_PER
509
CRK_SYN
510
CRK_SHO_LEVEL
511
CRK_SYN_STST
512
CRK_TOOTH_NR_STST
513
EL_CPS_OC
514
EL_CPS_SCG
515
EL_CPS_SCP
516
TEST
517
ETC_DR_OC
518
ETC_DR_OHP
519
ETC_DR_SC
520
RLY_MAIN_PLAUS_ON
521
RLY_MAIN_PLAUS_OFF
522
RLY_MAIN_DLY
523
VCC_L_0
524
VCC_L_1
525
VCC_H_0
526
VCC_H_1
527
VP_PWR_H_0
528
VP_PWR_H_1
529
VP_PWR_L_0
530
VP_PWR_L_1
531
_CNV_S_3_INJR_RANGE_173
3
NO
0
SEL_CYL
1
TQ
2
_CNV_S_6_INJR_RANGE_178
6
DISABLED
0
INI
1
CONF
2
WAIT
3
WAIT2RUN
4
RUN
5
_CNV_S_4_INJR_RANGE_179
4
INIT_PENDING
0
REINIT_PENDING
1
INIT_ACTIVE
2
INIT_FINISHED
3
_CNV_S_5_MISF_RANGE_193
5
Init Phase
0
Prepa. 0 delay
1
0 delay monit.
2
Prepa nominal
3
Nominal monit.
4
_CNV_S_17_RANGE_IDX__199
17
TQ_OPP_1
0
TQ_OPP_2
1
TQ_OPP_3
2
TEG_CH_1
3
TEG_CH_2
4
TEG_CH_3
5
ST_L_PRS
6
ST_H_PRS_1
7
ST_H_PRS_2
8
ST_H_PRS_3
9
STST_H_PRS_1
10
STST_H_PRS_2
11
STST_H_PRS_3
12
STST_INTR
13
ST_AST_1
14
STST_AST_1
15
STST_AST_2
16
_CNV_S_5_MISF_RANGE_206
5
NO_ACTION
0
LOW_PASS
1
FREEZE
2
READ_MEM
4
FREEZE_MPS
5
_CNV_S_5_VVLI_RANGE_213
5
DEAC
0
EOL
1
ER_VLFT_STND
2
ER_VLFT_1
3
VLFT_CAM
4
_CNV_S_5_AS_RANGE_223
5
NONE
0
ETK
1
CCP
2
CCP on PT
3
ETK_FLASH
4
_CNV_S_16_STATE_DIAG_228
16
NO_ERROR
0
SCG
1
SCP
2
OC
3
OOR_H
4
OOR_L
5
RC_H
6
RC_L
7
SCP_OC
8
SCG_OC
9
SCG_SCP
10
SCG_SCP_OC
11
NOT_DEFINED
12
NOT_DEFINED
13
NOT_DEFINED
14
NOT_DEFINED
15
_CNV_S_4_STATE_STST_230
4
STOP_ENA
0
STOP_INH
1
ST_REQ
2
ERR
3
_CNV_S_4_STATE_TEMP_232
4
MAX_HEAT_REQ
0
SMALL_TMM_ENA
1
FULL_TMM_ENA
2
NO_HEAT_REQ
3
_CNV_S_4_STATE_BELT_233
4
INACTIVE
0
ERROR
1
NOT_STUCK
2
STUCK
3
_CNV_S_8_STATE_4WD_234
8
Init
0
High unlock
1
low unlock
2
unused
3
neutral
4
High lock
5
Low lock
6
Error
7
_CNV_S_3_STATE_4WD__235
3
No
0
Slow
1
Fast
2
_CNV_S_4_STATE_STST_267
4
STST_DEAC
0
STST_INH__SECU__SPT
1
STST_STND_OPM
2
STST_INH__EMS__CUS
3
_CNV_S_5_ENG_TYP_CA_274
5
DIESEL
0
GASOLINE
1
CNG
2
NATURAL GAS
3
HYDROGEN
4
_CNV_S_4_STATE_COAS_278
4
NO_REQ
0
NMIN_COAST_1
1
NMIN_COAST_2
2
COAST_INH
3
_CNV_S_8_STATE_DCC_279
8
DCC_OFF
0
DCC_INI
1
DCC_STB
2
DCC_ACT
3
DCC_OVERRIDE
4
unused
5
DCC_ERR_TEMP
6
DCC_ERR
7
_CNV_S_16_GEAR_CAN_R_285
16
P/N_DISENGAGED_CLUTCH
0
GEAR_1
1
GEAR_2
2
GEAR_3
3
GEAR_4
4
GEAR_5
5
GEAR_6
6
GEAR_7
7
R
8
NOT_DEFINED
9
NOT_DEFINED
10
GEAR_8
11
GEAR_9
12
NOT_DEFINED
13
NOT_DEFINED
14
ERROR
15
_CNV_S_16_SEL_PSN_RA_288
16
INTER
0
POS_1
1
POS_2
2
POS_3
3
POS_4
4
D
5
N
6
R
7
P
8
RSP
9
Z1
10
Z2
11
S
12
L
13
TIP
14
ERROR
15
_CNV_S_4_STATE_CC_R_289
4
OPEN
0
CONTROLLED
1
CLOSED
2
ERROR
3
_CNV_S_16_STATE_TCU__290
16
TQ_CLU_LOW_DRI
0
RACE_ST_PREP
1
LAUNCH
2
CREEP
3
WHL_SLIP
4
LAUNCH_RV
5
CREEP_RV
6
RACE_ST
7
LAUNCH_CFT
8
LAUNCH_CFT_RV
9
DROF_NOT_CFT
10
DROF_CFT
11
COAST_ACT
12
ST_DLY_REQ
13
INACTIVE
14
ERROR
15
_CNV_S_4_STATE_TQI__291
4
NO REQUEST
0
INCREASE
1
DECREASE
2
INVALID
3
_CNV_S_4_STATE_TQI__292
4
NO_REQ
0
INC
1
DEC
2
NOT_VLD
3
_CNV_S_3_STATE_ICH__298
3
NO_HEATING
0
INTERIEUR
1
ENGINE
2
_CNV_S_4_RANGE_TAM__302
4
INTC_TAM_VALID
0
INTC_TAM_NOT_CONNECTED
1
INTC_TAM_INIT
2
INTC_TAM_NOT_VALID
3
_CNV_S_3_STATE_STST_305
3
ST_ENA
0
ST_DLY
1
ERR
3
_CNV_S_5_STATE_VS_T_320
5
NOT VALID
0
VALID
1
INIT
2
USPG
4
ERROR
8
_CNV_S_16_CAN_STATE__321
16
INACTIVE
0
RACE_ST_PREP
1
LAUNCH
2
CREEP
3
WHL_SLIP
4
LAUNCH_RV
5
CREEP_RV
6
RACE_ST
7
LAUNCH_CFT
8
LAUNCH_CFT_RV
9
DROF_NOT_CFT
10
DROF_CFT
11
COAST_ACT
12
ST_DLY_REQ
13
TQ_CLU_LOW_W_DRI
14
ERROR
15
_CNV_S_16_STATE_TCU__324
16
NO_LIH
0
UNUSED
1
UNUSED
2
UNUSED
3
UNUSED
4
UNUSED
5
UNUSED
6
UNUSED
7
UNUSED
8
UNUSED
9
SEL_NOT_ENNG
10
SEL_NOT_ENNG_BRAKE
11
TRANS_TRO
12
TRANS_OVH
13
TRANS_ERR_DISP
14
TRANS_LIH
15
_CNV_S_9_STATE_CRU__331
9
IDLE
0
HARD_OFF
1
SOFT_OFF
2
TIP_UP
3
TIP_DOWN
4
RESU
5
AC
6
SET
7
DECE
8
_CNV_S_8_CRU_SP_MEM_332
8
PASSIVE
0
CONST
1
TIP_UP
2
TIP_DOWN
3
AC
4
RESU
5
DECE
6
SOFT_OFF
7
_CNV_S_3_STATE_CRU__350
3
OFF
0
SOFT_OFF
1
ON
2
_CNV_S_5_STATE_CONF_351
5
MT
0
AT
1
AMT
2
CVT
3
DCT
4
_CNV_S_3_TRSM_RANGE_365
3
CLOSE
0
CHG
1
OPEN
2
_CNV_S_3_CYBL_RANGE_372
3
Wait
0
Request
1
Adaptation
2
_CNV_S_8_CYBL_RANGE_373
8
ZERO
0
ON
1
RNG_L
2
RNG_H
3
CDN_MAN
4
CDN_EXT
5
REQ
6
REQ_CDN
7
_CNV_S_4_CYBL_RANGE_375
4
INITIALIZATION
0
LOCK
1
WAIT
2
CYLINDER_BALANCING
3
_CNV_S_4_CYBL_RANGE_376
4
NO
0
LOW
1
HIGH
2
IS
3
_CNV_S_5_CYBL_RANGE_382
5
EGY_ADD
0
MFF_ADD
1
FAC_TI
2
FAC_MFF
3
RATIO
4
_CNV_S_4_CYBL_RANGE_383
4
EGY_ADD
0
MFF_ADD
1
FAC_TI
2
FAC_MFF
3
_CNV_S_3_CYBL_RANGE_386
3
NEUTRAL
0
ENABLE
1
DISABLE
2
_CNV_S_21_ECOP_RANGE_389_R
108
NO
0
DET_ERROR
1
DISABLED
2
PORST_UNINTENDED
16
PORST_CPL_FAIL
17
PORST_INTENDED
18
PORST_VDD_ERROR
19
EXTRST_UNINTENDED
32
WDTRST_UNINTENDED
48
LLRST_UNINTENDED
64
LCRST_UNINTENDED
80
CSRST_UNINTENDED
96
SWRST_UNINTENDED
160
SWRST_CPL_FAIL
161
SWRST_INTENDED
162
SWRST_VDD_ERROR
163
SWRST_EXCEPTION
164
SWRST_NMI
165
SWRST_ERROR
166
SWRST_UNHANDLED
167
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
Reserved
168
_CNV_S_4_ECOP_RANGE_390_R
256
NO_ERR
0
PFLS_ERR
1
DFLS_ERR
2
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
UNDEFINED
3
_CNV_S_17_STATE_RST__391
17
0000_UNDEFINED
0
000F_DBG
15
0100_IMOB
256
0200_REPROG
512
0201_REPROG_KWP
513
0202_REPROG_LRN
514
0301_ECM3_MC
769
0302_ECM3_MU
770
0400_SUPRAM
1024
0401_NVMY
1025
0500_VDD_IGK
1280
0501_VDD_IGK_K
1281
0502_VDD_IGK_M
1282
0503_VDD_IGK_U
1283
0600_CCP
1536
0700_5VR
1792
0800_ADC
2048
_CNV_S_6_STATE_ID_S_393
6
ENA__NO_SYM
0
ENA__SYM_0
1
ENA__SYM_1
2
ENA__SYM_2
3
ENA__SYM_3
4
DIS__NO_SYM
128
_CNV_S_7_ECU_STATE__395
7
ENG_STOP
0
RUN_ENG
1
SYN_ENG_IGK_ON
2
SYN_ENG_IGK_OFF
3
PWL
4
ENG_LOCK
5
WAKE_UP
6
_CNV_S_5_RANGE_STAT_399
5
READY
0
WAIT
1
EXEC_1
2
EXEC_2
3
FAILURE
4
_CNV_S_6_STATE_STAT_401
6
Nicht belegt
0
Automatikstart codiert
1
Handstart codiert
2
Kupplung nicht bet¦tigt (MT)
4
Bremse nicht bet¦tigt
6
W¦hlhebelstellung P oder N nicht eingelegt (AT)
8
_CNV_S_3_STATE_EOL__404
3
DEFAULT
0
RUN_MAN
3
RUN_AUT
4
_CNV_S_8_STATE_EOL__405
8
NO_ERR
0
CTR_MSG
1
CHECKSUM
2
VAR_CODE
4
TIMEOUT
8
N_INVALID
16
NOT_PLAUS
32
MVB_INVALID
64
_CNV_S_4_STATE_EOL__406
4
TOUT_DIS
0
TOUT_ENA
1
TOUT_START
2
TOUT_END
4
_CNV_S_9_STATE_EOL__407
9
ACT
0
FMY
1
ERR
2
END
4
DIS
8
BREAK
16
PEDAL
32
NOTST
64
UNDEF
255
_CNV_S_4_STATE_EOL__408
4
DEFAULT
0
STARTED
1
FINISHED
2
WAIT
3
_CNV_S_6_RANGE_STAT_426
6
Low pressure state
0
Fast pressure increase
1
Pressure_control
2
Over_pressure
3
Open loop
4
Emergency
5
_CNV_S_9_RANGE_STAT_427
9
Emergency
0
LP
1
LP-FPln
2
FPln-PCtl
3
Opl
4
PCtl-OvP
5
OvP-PCtl
6
Opl_PCtl
7
PCtl-FPln
8
_CNV_S_4_FUSL_RANGE_449
4
FLOW_CONTROL
0
FLOW2PRS
1
PRESSURE_CONTROL
2
PRS2FLOW
3
_CNV_S_4_FUSL_RANGE_450
4
FLOW_REQ
0
FLOW2PRS_REQ
1
PRS_REQ
2
PRS2FLOW_REQ
3
_CNV_S_3_FUSL_RANGE_452
3
AUTOMATIC
0
FLOW_CONTROL
1
PRESSURE_CONTROL
2
_CNV_S_4_STATE_CRCV_455
4
OFF
0
MAN
1
START
2
REGULAR
3
_CNV_S_4_RANGE_ERR__456
4
NO_SYM
0
SYM_0
1
SYM_1
2
SYM_2
4
_CNV_S_3_AIRT_RANGE_460
3
NO
0
COLD
1
HOT
2
_CNV_S_2_AIRT_RANGE_464
2
MDL_1
0
MDL_2
1
_CNV_S_16_RANGE_ERR__466
16
NO_SYM
0
SYM_0
1
SYM_1
2
SYM_0, SYM_1
3
SYM_2
4
SYM_0, SYM_2
5
SYM_1, SYM_2
6
SYM_0, SYM_1, SYM_2
7
SYM_3
8
SYM_0, SYM_3
9
SYM_1, SYM_3
10
SYM_0, SYM_1,SYM_3
11
SYM_2, SYM_3
12
SYM_0, SYM_2, SYM_3
13
SYM_1, SYM_2, SYM_3
14
SYM_0, SYM_1, SYM_2, SYM_3
15
_CNV_S_3_AIRT_RANGE_467
3
NO_CHK
0
COLD_CHK
1
HOT_CHK
2
_CNV_S_2_AIRT_RANGE_471
2
INC_CHK
0
DEC_CHK
1
_CNV_S_3_AIRT_RANGE_473
3
CON
0
INC
1
DEC
2
_CNV_S_2_AIRT_RANGE_474
2
TIA_TMP
0
TAM
1
_CNV_S_8_FSD_STATE__476
8
NO_SDR
0
NO_ERR
1
ADD_MAX
2
ADD_MIN
3
FAC_L_MAX
4
FAC_L_MIN
5
FAC_H_MAX
6
FAC_H_MIN
7
_CNV_S_4_FSD_LAM_LI_477
4
NO_SDR
0
NO_ERR
1
LAM_MAX
2
LAM_MIN
3
_CNV_S_17_RANGE_IDX__478
17
TQ_OPP_1
0
TQ_OPP_2
1
TQ_OPP_3
2
TEG_CH_1
3
TEG_CH_2
4
TEG_CH_3
5
ST_L_PRS
6
ST_H_PRS_1
7
ST_H_PRS_2
8
ST_H_PRS_3
9
STST_H_PRS_1
10
STST_H_PRS_2
11
STST_H_PRS_3
12
STST_INTR
13
ST_AST_1
14
STST_AST_1
15
STST_AST_2
16
_CNV_S_12_STATE_VLS__481
12
OFF
0
STEP_1
1
STEP_2
2
FINISHED
16
ERR_UP
17
ERR_DOWN
18
ERR_UP_DOWN
19
ERR_UP_1
20
ERR_UP_2
21
ERR_DOWN_1
22
ERR_DOWN_2
23
NO_RESULT
24
_CNV_S_8_FUSL_RANGE_488
8
VCV_TEST
0
START
1
MFP_CTL
2
VCV_CLOSE
3
VCV_CRASH
4
MFP_MAX
5
VCV_LIH
6
STST_STOP
7
_CNV_S_9_FUSL_RANGE_489
9
CRASH
0
OPEN
1
CLOSE
2
CONTROL
3
MANUAL
4
MANUAL_OPEN
5
MAXIMUM
6
VCV_LIH
7
STST_STOP
8
_CNV_S_6_FUSL_RANGE_490
6
PASSIVE
0
READY
1
START
2
ACTIVE
3
END
4
PASSIVE_READY
5
_CNV_S_9_STATE_DIAG_502
9
SA_DIAG_INACT
0
SA_DIAG_DLY
1
SA_DIAG_INTR
2
SA_MIN_DIAG
3
SAV_DIAG_DLY
4
SA_DIAG_SAV
5
SA_DIAG_CHK
6
SA_DIAG_END
7
SA_DIAG_CNL
8
_CNV_S_3_NR_CONF_DI_503
3
NO_SAV_DIAG
0
SAV_DIAG_Bank_1
1
SAV_DIAG_Bank_2
2
_CNV_S_2_RANGE_STAT_509
2
passive
0
active
1
_CNV_S_12_STATE_SA_R_521
12
SA_INACTIVE
0
SA_DELAY
1
SA_ACTIVE
2
INTERRUPT
3
SAP_DELAY
4
FINISHED
5
CANCELLED
6
EXT_ADJ
7
EXT_ADJ_FIN
8
EOL_SA_ACT
9
EOL_SA_SAP_ACT
10
EOL_SA_FIN
11
_CNV_S_6_OVB_STATE__536
6
OVB_PAS
0
OVB_NORM
1
OVB_READY
2
OVB_HOLD
3
OVB_DOWN
4
OVB_LOCK
5
_CNV_S_2_STATE_ECF__551
2
nicht belegt
0
Luefter geschaltet
1
_CNV_S_4_STATE_ECF__552
4
kein ECF
1
300 W
2
400 W
3
600 W
4
_CNV_S_3_STATE_ECFP_553
3
nicht belegt
0
Luefter geschaltet
1
Luefter PWM
2
_CNV_S_7_STATE_VAR__554
7
ECF nicht gesteuert
0
1 ECF geschaltet
1
2 ECF geschaltet
2
1 ECF PWM
3
2 ECF PWM
4
3 ECF PWM
5
2 ECF PWM, 1 ECF geschaltet
6
_CNV_S_4_STATE_VAR__555
4
1 EFP niedrige Leistung
0
1 EFP hohe Leistung
1
2 EFP niedrige Leistung
2
2 EFP hohe Leistung
3
_CNV_S_9_STATE_VAR__556
9
EU2
0
EU2 Brasilien
1
EU3
2
EU4
3
EU4 Japan
4
TLEV
5
LEV
6
ULEV
7
SULEV
8
_CNV_S_4_STATE_RECU_557
4
RECU_OFF
0
INC_VB
1
DEC_VB
2
RECU_ON_VB_VAR_OFF
3
_CNV_S_10_STATE_VS_C_560
10
NO_ERR
0
TCS1_TOUT
1
TCS1_VS_ERR
2
TCS3_TOUT
3
TCS3_VS_ERR_FN
4
TCS3_VS_ERR_FN_LE
5
TCS3_VS_ERR_FN_RI
6
TCS3_VS_ERR_RE
7
TCS3_VS_ERR_RE_LE
8
TCS3_VS_ERR_RE_RI
9
_CNV_S_2_RANGE_NC_N_568
2
TQ_SLOW
0
TQ_ADD
1
_CNV_S_23_RANGE_IDX__569
23
REQ_TQ_OPP_1
0
REQ_TQ_OPP_2
1
REQ_TQ_OPP_3
2
REQ_TEG_CH_1
3
REQ_TEG_CH_2
4
REQ_TEG_CH_3
5
REQ_VVL_OPP_2
6
REQ_VVL_OPP_3
7
REQ_ST_L_PRS
8
REQ_ST_H_PRS_1
9
REQ_ST_H_PRS_2
10
REQ_ST_H_PRS_3
11
REQ_STST_H_PRS_1
12
REQ_STST_H_PRS_2
13
REQ_STST_H_PRS_3
14
REQ_STST_INTR
15
REQ_ST_AST_1
16
REQ_STST_AST_1
17
REQ_STST_AST_2
18
REQ_ER_BAL_H_1_INJ
19
REQ_ER_BAL_H_2_INJ
20
REQ_ER_BAL_L_1_INJ
21
REQ_ER_BAL_L_2_INJ
22
_CNV_S_4_RANGE_STAT_571
4
STATE_REACHED
0
TRAN_2_REQ_MOD
1
TRAN_3_NOM
2
TRAN_NEW_REQ
3
_CNV_S_10_CHRG_RANGE_580
10
DIAG_MOD
0
PWM_ERR
1
CTL_ERR
2
BOL_CHK
3
CTL_MOD
4
TOL_CHK
5
TOL_ERR
6
PROT_MOD
7
AD_REQ
8
AD_CLR
9
_CNV_S_5_CHRG_RANGE_581
5
EXT_MOD
0
LIH_MOD
1
IGK_OFF_MOD
2
TESTER_MOD
3
IGK_ON_MOD
4
_CNV_S_6_CHRG_RANGE_582
6
INIT_MOD
0
BOL_MOD
1
CTL_MOD
2
TOL_MOD
3
RST_MOD
4
SLP_MOD
5
_CNV_S_2_CHRG_RANGE_588
2
TIA_THR_TCO
0
TAM_TCO
1
_CNV_S_5_CHRG_RANGE_613
5
AMP
1
PRS_CHRG_DOWN
2
PRS_CHA_DOWN_1
3
MAP
4
PRS_CHA_DOWN_2
5
_CNV_S_3_CHRG_RANGE_615
3
CON
0
FALL
1
RISE
2
_CNV_S_6_STATE_KD_A_629
6
NO_AD
0
AD_ERROR
1
AD_OK
2
AD_ACTIVE
4
AD_RUN
8
AD_DISABLE
16
_CNV_S_4_DRVB_RANGE_632
4
AJ_OFF
1
AJ_ON
2
AJ_HOM_AFS
3
AJ_HOM
4
_CNV_S_3_DRVB_RANGE_637
3
TQ_PHA_CONST
0
TQ_PHA_INC
1
TQ_PHA_DEC
2
_CNV_S_3_DRVB_RANGE_638
3
TQ_RANGE_1
1
TQ_RANGE_2
2
TQ_RANGE_3
3
_CNV_S_3_STATE_TQ_R_642
3
TQ_RANGE_1
1
TQ_RANGE_2
2
TQ_RANGE_3
3
_CNV_S_16_RANGE_STAT_643
16
INTER
0
POS_1
1
POS_2
2
POS_3
3
POS_4
4
D
5
N
6
R
7
P
8
RSP
9
Z1
10
Z2
11
S
12
L
13
TIP
14
ERROR
15
_CNV_S_31_ECM3_ERR_C_656
31
NOT_ERR
0
COM_HD
1
COM_CKS
2
COM_PAR
3
CONF_DIF
4
SOPC(MC) or CONF_CPL(MU)
5
COMP_NR
6
ROM_LEVEL_1(MC) or TOUT_MAX(MU)
7
RAM_LEVEL_1(MC) or TOUT_MIN(MU)
8
ROM_LEVEL_2(MC) or IGK_MON(MU)
9
RAM_LEVEL_2(MC) or EOLT(MU)
10
WRG_IDX(MC) or FCT_SPC_IST(MU)
11
WRG_RESP(MC) or DR_OFF(MU)
12
NOT_DEC(MC) or V_L(MU)
13
V_H(MU)
14
V_L_H(MU)
15
PFM_0_TOG(MC) or PFM_0(MU)
16
PFM_1_TOG(MC) or PFM_1(MU)
17
PFM_2_TOG(MC) or PFM_2(MU)
18
PFM_3_TOG(MC) or PFM_3(MU)
19
PFM_4_TOG(MC) or PFM_4(MU)
20
PFM_5_TOG(MC) or PFM_5(MU)
21
PFM_6_TOG(MC) or PFM_6(MU)
22
NOT_VLD_TRAN
23
PFM_0_RESP(MC)
24
PFM_1_RESP(MC)
25
PFM_2_RESP(MC)
26
PFM_3_RESP(MC)
27
PFM_4_RESP(MC)
28
PFM_5_RESP(MC)
29
PFM_6_RESP(MC)
30
_CNV_S_4_ECM3_STATE_657
4
NOT_PRES
0
REST_REQ
1
DI_REQ
2
PREV_REST
3
_CNV_S_2_ECM3_LV_MC_658
2
MU
0
MC
1
_CNV_S_30_ECM3_ERR_C_659
30
NOT_ERR
0
COM_HD
1
COM_CKS
2
COM_PAR
3
CONF_DIF
4
SOPC
5
COMP_NR
6
ROM_LEVEL_1
7
RAM_LEVEL_1
8
ROM_LEVEL_2
9
RAM_LEVEL_2
10
WRG_IDX
11
WRG_RESP
12
NOT_DEC
13
MU_READY
14
PFM_0_TOG
16
PFM_1_TOG
17
PFM_2_TOG
18
PFM_3_TOG
19
PFM_4_TOG
20
PFM_5_TOG
21
PFM_6_TOG
22
NOT_VLD_TRAN
23
PFM_0_RESP
24
PFM_1_RESP
25
PFM_2_RESP
26
PFM_3_RESP
27
PFM_4_RESP
28
PFM_5_RESP
29
PFM_6_RESP
30
_CNV_S_4_ECM3_MU_DI_660
4
MU_DI_NOT_REQ
0
MU_DI_BUSY
1
MU_DI_ERR
2
MU_DI_OK
3
_CNV_S_6_ENOS_RANGE_671
6
ES
0
ST
1
IS
2
PL
3
PU
4
PUC
5
_CNV_S_5_ENSD_STATE_691
5
AD_REF_MNG_PASSIVE
0
AD_REF_MNG_ON_GOING
1
AD_REF_MNG_WAIT_DIS_IVVT
2
AD_REF_MNG_WAIT_ENA_IVVT
3
AD_REF_MNG_WAIT_STOP
4
_CNV_S_3_ENSD_AD_RE_694
3
AD_REF_CAM_ALWAYS
0
AD_REF_CAM_AFTER_DI_IVVT
1
AD_REF_CAM_AFTER_STOP
2
_CNV_S_4_ENSD_RANGE_695
4
NO_EVE
0
PASS
1
FAIL
2
INTM
3
_CNV_S_3_ENSD_STATE_697
3
BACK_PAS
0
BACK_DET
1
BACK_CFM
2
_CNV_S_4_ENSD_RANGE_699
4
ENG_BACK_DET_ALL
0
ENG_BACK_DET_T_TOOTH
1
ENG_BACK_DET_CPDD
2
ENG_BACK_DET_NONE
3
_CNV_S_5_ENSD_STATE_703
5
SYN_NO_INFO
0
SYN_CAM_EDGE_FALL
1
SYN_CAM_EDGE_RISE
2
SYN_CAM_INI_LEVEL_LOW
3
SYN_CAM_INI_LEVEL_HIGH
4
_CNV_S_9_ENSD_STATE_704
9
SYN_CAM_IN_1
0
SYN_CAM_IN_2
1
SYN_CAM_EX_1
2
SYN_CAM_EX_2
3
SYN_GAP
4
SYN_CRK_ANG_POST_CAM
5
SYN_CRK_ANG_POST_ST
6
SYN_NO_EVE
7
SYN_EVE_LOST
8
_CNV_S_15_ENSD_STATE_705
15
SYN_DISABLE
0
ENG_STOP_NOMINAL
1
RUN_ENG_NOMINAL
2
SYN_ENG_NOMINAL
3
SYN_DISABLE_NOMINAL
4
SYN_DISABLE_ENG_STOP
5
SYN_DISABLE_RUN_ENG
6
ENG_STOP_LIH_ERR_CRK
7
RUN_ENG_LIH_ERR_CRK
8
SYN_ENG_LIH_ERR_CRK
9
SYN_DISABLE_LIH_ERR_CRK
10
ENG_STOP_LIH_ERR_CAM
11
RUN_ENG_LIH_ERR_CAM
12
SYN_ENG_LIH_ERR_CAM
13
SYN_DISABLE_LIH_ERR_CAM
14
_CNV_S_3_ENSD_STATE_706
3
STST_PAS
0
STST_ACT
1
STST_GAP_DET_INH
2
_CNV_S_6_ENSD_STATE_707
6
CAM_ACQ_HW_CONF
0
CAM_ACQ_FUNC_CONF
1
CAM_ACQ_PAS
2
CAM_ACQ_WAIT_FIRST_EDGE
3
CAM_ACQ_WAIT_CAM_RUN
4
CAM_ACQ_RUN
5
_CNV_S_2_ENSD_CAM_E_708
2
CAM_EDGE_FALLING
1
CAM_EDGE_RISING
2
_CNV_S_3_ENSD_STATE_709
3
CAM_SYN_WAIT_SYN
0
CAM_SYN_OK_WAIT_RATIO
1
CAM_SYN_OK_RATIO_CHK
2
_CNV_S_12_ENSD_STATE_710
12
CRK_ACQ_EPO_HW_CONF
0
CRK_ACQ_EPO_FUNC_CONF
1
CRK_ACQ_PAS
2
CRK_ACQ_WAIT_FIRST_EDGE
3
CRK_ACQ_SENS_DLY
4
CRK_ACQ_WAIT_VLD_EDGE
5
CRK_ACQ_WAIT_VLD_TOOTH
6
CRK_ACQ_FIRST_VLD_TOOTH
7
CRK_ACQ_RUN_ENG
8
CRK_ACQ_SYN_TMP
9
CRK_ACQ_SYN_VLD
10
CRK_ACQ_SYN_VLD_GAP
11
_CNV_S_4_ENSD_STATE_711
4
CRK_STST_PAS
0
CRK_STST_ACQ_SHO_LEVEL
1
CRK_STST_ACT
2
CRK_STST_GAP_DET_INH
3
_CNV_S_6_ENSD_STATE_712
6
EPO_FUNC_CONF
0
EPO_PAS
1
EPO_PRE_CRK_SYN
2
EPO_CRK_SYN
3
EPO_PRE_CAM_SYN
4
EPO_CAM_SYN
5
_CNV_S_12_ENSS_RANGE_716
12
INTER
0
D_FLASH
1
N_FLASH
2
R_FLASH
3
P_FLASH
4
D
5
N
6
R
7
P
8
TIP_SHORT
13
TIP
14
ERROR
15
_CNV_S_7_ENSS_RANGE_718
7
IGK_OFF
0
IGK_ON__ENG_NOT_RUN
1
ENG_RUN
2
ENG_RUN__STOP_INH
3
ENG_STOP
4
ENG_STOP__ST_INH
5
STST_DEAC
6
_CNV_S_7_ENSS_RANGE_719
7
IGK_OFF
0
IGK_ON__ENG_NOT_RUN
1
ENG_RUN
2
ENG_RUN__STOP_INH
3
ENG_STOP
4
ENG_STOP__ST_INH
5
RT_OPM_STST_DI
6
_CNV_S_18_ENSS_RANGE_723
18
NO_DEAC
0
CCU
1
VEH_LEVEL
2
POW_MNG
3
TCS
4
TCU
5
PARK_ASI
6
BCM
7
BELT_OPEN
8
HOOD_OPEN
9
DOOR_OPEN
10
EMS
11
CAN_SIG_ERR
12
TRL_MODE
13
STR_DFCT
14
DCC
15
MON
16
CLR_FMY
17
_CNV_S_5_ENSS_RANGE_724
5
NO_STST_MOD_DET
0
STST_STOP
1
STST_DEAC
2
STST_ST_INH
3
STST_INH
5
_CNV_S_16_ENSS_RANGE_725
16
NO_ST_REQ
0
ENVD__DRIV
1
CCU
2
VEH_LEVEL
3
POW_MNG
4
TCS
5
TCU
6
PARK_ASI
7
BCM
8
PBSU
9
SPT_MOD
10
DCC
11
OFRD_MOD
12
EXT_SWI
13
ESP_OFF
14
TEMP_MAX
15
_CNV_S_42_ENSS_RANGE_726
42
NO
0
CCU
1
VEH_LEVEL
2
POW_MNG
3
TCS
4
TCU
5
PARK_ASI
6
BCM
7
SPT_MODE
8
DRIV_STG_ACT
9
FTL_LOW
10
VEH_PARK_MOD
11
HILL_MOD
12
VEH_STGO_MOD
13
ESP_OFF
14
OFRD_MOD
15
STST_EXT_SWI
16
PBSU
17
HOOD_OPEN
18
BELT_OPEN
19
DOOR_OPEN
20
REQ_CCU
21
REQ_VEH_LEVEL
22
REQ_POW_MNG
23
REQ_TCS
24
REQ_TCU
25
REQ_PARK_ASI
26
REQ_BCM
27
EMS_ERR
28
EMS_AD
29
EMS_ENVD
30
VB_LOW
31
DIAG_NGS
32
CP
33
MIS
34
TEMP_MAX
35
DCC
36
REQ_DCC
37
MON
38
UNUSED1
39
UNUSED2
40
UNUSED3
41
_CNV_S_5_ENSS_RANGE_727
5
STST_DEAC
0
STST_INH_SECU
1
STST_STND_OPM
2
STST_INH__EMS__CUS
3
STST_INH_DRIV
4
_CNV_S_5_ENSS_RANGE_728
5
NO_MOD_DET
0
PARK_MOD
1
HILL_MOD
2
STGO_MOD
3
COAST_MOD
4
_CNV_S_3_ENSS_RANGE_731
3
ST_HPRS_1
1
ST_HPRS_2
2
ST_HPRS_3
3
_CNV_S_3_ENSS_RANGE_732
3
STST_HPRS_1
1
STST_HPRS_2
2
STST_HPRS_3
3
_CNV_S_4_STATE_POP__735
4
NO_POP_COC
0
PHASE_1
1
PHASE 2
2
Ramp down
3
_CNV_S_6_STATE_ECT_739
6
ECT_PAS
0
ECT_WUP
1
ECT_RUN
2
ECT_STOP
3
ECT_POP
4
ECT_LIH
5
_CNV_S_4_ENTE_STATE_741
4
MAX_HEAT_REQ
0
SMALL_TMM_ENA
1
FULL_TMM_ENA
2
NO_HEAT_REQ
3
_CNV_S_4_ENTE_CONV__744
4
ST
0
END
1
CNL
2
INH
3
_CNV_S_7_ENTE_CONV__745
7
INIT
0
CHK_CDN_TEST_1
1
TEST_1
2
END_TEST_1
3
CHK_CDN_TEST_2
4
TEST_2
5
END_TEST_2
6
_CNV_S_10_ERR_ECFPWM_751
10
no failure feedback
0
failure 1
1
failure 2
2
failure 3
4
failure 4
8
failure 5
16
failure 6
32
failure 7
64
failure 8
128
init value / feedback possible
255
_CNV_S_5_STATE_ECFP_753
5
no SCG failure detected
0
SCG failure detected, failure feedback from ECF possible
1
no SCG failure detected, failure feedback from ECF possible
2
failure feedback recognition (this STATE is a temporary state calculated from 2->0/1/4)
3
SCG failure detected, no failure feedback from ECF possible
4
_CNV_S_8_ID_ERR_ECF_754
8
FB_A_SYM0
1
FB_A_SYM1
2
FB_A_SYM2
4
FB_A_SYM3
8
FB_B_SYM0
16
FB_B_SYM1
32
FB_B_SYM2
64
FB_B_SYM3
128
_CNV_S_7_STATE_VEH__755
7
A000
0
A00
1
A0
2
A
3
B
4
C
5
D
6
_CNV_S_8_STATE_DIAG_756
8
PASSIVE
0
PHA_1
1
PHA_2
2
PHA_3
3
PHA_4
4
FINISHED
5
CNL_EOL_TH
6
ERR_EOL_TH
7
_CNV_S_12_RANGE_CONV_758
12
WAIT_SUSP_CLOSE
0
SUSP_CLOSE
1
CHK_OPEN
2
WAIT_CHK_OPEN
3
CFM_PASS
4
CFM_CLOSE
5
WAIT_CFM_CLOSE
6
EPC_PASS
7
EPC_3_CLOSE
8
EPC_3_OPEN
9
EPC_TH_CLOSE
10
END
11
_CNV_S_2_ERRM_DTC_R_761
2
OBD
0
CUS
1
_CNV_S_6_ERRM_DTC_R_762
6
SYM0
0
SYM1
1
SYM2
2
SYM3
3
GLOBAL
4
CUS
5
_CNV_S_532_ERRM_RANGE_763
532
NO_ERROR
0
IMMO
1
ECU_4
2
EL_TIA_IM_CYL
3
INTM_TIA
4
DYN_TIA
5
VS
6
VS_CAN
7
VS_PLAUS
8
BLS_BTS
9
PVS_BLS_BTS
10
PVS_H_1
11
PVS_H_2
12
PVS_L_1
13
PVS_L_2
14
PVS_MPL
15
ECU_IRPT
16
ISC
17
ISC_CST
18
PVS_RATIO
19
VCV
20
ETC_CTL
21
ETC_PWM
22
TPS_RATIO
23
TPS_1
24
TPS_2
25
TPS_MAF_1
26
TPS_MAF_2
27
TPS_AD
28
TPS_ST_CHK
29
TPS_AD_SPR
30
TPS_AD_GAIN
31
TPS_JAM_DET
32
IGC_SCP_0
33
IGC_SCP_1
34
IGC_SCP_2
35
IGC_SCP_3
36
IGC_SCP_4
37
IGC_SCP_5
38
IGC_SCG_0
39
IGC_SCG_1
40
IGC_SCG_2
41
IGC_SCG_3
42
IGC_SCG_4
43
IGC_SCG_5
44
IGC_OL_0
45
IGC_OL_1
46
IGC_OL_2
47
IGC_OL_3
48
IGC_OL_4
49
IGC_OL_5
50
IGC_SDN_0
51
IGC_SDN_1
52
IGC_SDN_2
53
IGC_SDN_3
54
IGC_SDN_4
55
IGC_SDN_5
56
IGC_LOSS_PWR
57
MIS_0
58
MIS_1
59
MIS_2
60
MIS_3
61
MIS_4
62
MIS_5
63
MIS_MPL
64
T_SEG_ER
65
SEG_AD_ER
66
PBSU_EL
67
BSU
68
PBSU_PLAUS
69
PBSU_CAN
70
BSU_VAC_PIPE_DVG
71
BSU_VAC_PIPE
72
CRASH
73
PWM_CRASH
74
TOIL_EL
75
TOIL_GRD
76
TOIL_PLAUS_L
77
TOIL_PLAUS_H
78
VARCOD
79
VARCOD_TCU
80
MON_3
81
MON_3_VD
82
ECU_2
83
ECU_5
84
ECU_6
85
ALTER_COM
86
ALTER_EL
87
ALTER_MEC
88
BSD_COM_OFF
89
ALTER_CHA_LBG
90
TCU1
91
TCU_NPLAU
92
CRU_SWI
93
CRU_SWI_PLAU
94
SCG_LS_DOWN_1
95
SCP_LS_DOWN_1
96
OC_LS_DOWN_1
97
PUC_LS_DOWN_1
98
FL_LS_DOWN_1
99
LSL_UP_IF_1
100
EL_LSL_UP_1
101
LSH_UP_1
102
LSH_DOWN_1
103
AIR_LSL_UP_1
104
PUE_LS_DOWN_1
105
GRD_R2L_LS_DOWN_1
106
OBD_LSH_DOWN_1
107
DYN_VLD_LS_UP_1
108
PUC_VLD_LS_UP_1
109
OBD_VLD_LSH_UP_1
110
CHK_LS_DOWN_1
111
SHIFT_AFL_LSL_UP_1
112
SHIFT_AFR_LSL_UP_1
113
OC_LSL_UP_1
114
DELTA_I_LAM_1
115
VLS_DOWN_DIF_1
116
TTIP_MES_LSH_UP_1
117
DLY_L2R_LS_DOWN_1
118
DLY_R2L_LS_DOWN_1
119
PEAK_MAX_LS_DOWN_1
120
PEAK_MIN_LS_DOWN_1
121
CHG_LS_UP
122
OFS_LSL_UP_1
123
CTL_LSL_UP_1
124
OFS_LSL_UP_2
125
CTL_LSL_UP_2
126
SCG_LS_DOWN_2
127
SCP_LS_DOWN_2
128
OC_LS_DOWN_2
129
PUC_LS_DOWN_2
130
FL_LS_DOWN_2
131
LSL_UP_IF_2
132
EL_LSL_UP_2
133
LSH_UP_2
134
LSH_DOWN_2
135
AIR_LSL_UP_2
136
PUE_LS_DOWN_2
137
GRD_R2L_LS_DOWN_2
138
OBD_LSH_DOWN_2
139
DYN_VLD_LS_UP_2
140
PUC_VLD_LS_UP_2
141
OBD_VLD_LSH_UP_2
142
CHK_LS_DOWN_2
143
SHIFT_AFL_LSL_UP_2
144
SHIFT_AFR_LSL_UP_2
145
OC_LSL_UP_2
146
DELTA_I_LAM_2
147
VLS_DOWN_DIF_2
148
TTIP_MES_LSH_UP_2
149
DLY_L2R_LS_DOWN_2
150
DLY_R2L_LS_DOWN_2
151
PEAK_MAX_LS_DOWN_2
152
PEAK_MIN_LS_DOWN_2
153
CHG_LS_DOWN
154
CLU_SWI_TOP_OPEN
155
CLU_SWI_TOP_CLOSE
156
CLU_SWI_2_SCG
157
CLU_SWI_2_SCP
158
PV_CLU
159
CAN_4WD
160
CAN_BOFF
161
CAN_TCS
162
CAN_TCU
163
CAN_ACU
164
CAN_CCU
165
CAN_ICL
166
CAN_SMLS
167
CAN_DCC
168
CAN_BEM
169
CAN_TOT
170
CAN_IF_CFT
171
CAN_EILU
172
CAN_PSTE
173
CAN_EPB
174
CAN_ICH
175
CAN_LAMP_RE
176
CAN_SPT
177
CAN_TRLCU
178
CCU_SENS_2_MSG_OOD
179
DRIV_DOOR_1_MSG_OOD
180
TCS_7_MSG_OOD
181
VECU_1_1_MSG_OOD
182
VECU_1_2_MSG_OOD
183
CCU_8_MSG_OOD
184
TCS_11_MSG_OOD
185
CTOP_CTL1_MSG_OOD
186
PARK_ASI_1_MSG_OOD
187
CAN_CRUL
188
ICL_2_MSG_OOD
189
DATE_MSG_OOD
190
AC_LGT_TCS_2
191
PSTE_2_MSG_OOD
192
TCS_13_MSG_OOD
193
PLAUS_TIA_IM_CYL
194
INTM_TAM
195
PLAUS_TAM
196
STR_RLY
197
ST_REQ_SCP
198
ST_REQ_SCG
199
ST_RESP_SCP
200
ST_RESP_SCG
201
ST_RESP_OC
202
MOT_ST
203
STR_RLY_1
204
STR_RLY_2
205
PN
206
CRU_DVC_CAN
207
EMS_SMLS_COD
208
CRU_OFF
209
TQI_REQ_DCC_PIN
210
DCC_ACT_BLS
211
RST_CHK
212
PWL
213
WRST
214
CONV_PLAUS
215
ECU_1
216
SPI_ATIC_29
217
SPI_ATIC_94
218
ADD_CWP
219
TCHA_PROT
220
PUT_WG_OPEN_AD
221
PRS_DIF_WG_SP_AD
222
PLAUS_OPEN_RCL
223
PLAUS_CLOSE_RCL
224
CAP_H
225
CAP_L
226
CAP_L_BAS
227
EL_RCL_ACR
228
SAF_FLOW
229
SA_SAV
230
ACQ_KNK
231
REL_KNK_0
232
BAS_KNK_0
233
REL_KNK_1
234
BAS_KNK_1
235
TCO_EL
236
TCO_PLAUS
237
TCO_GRD
238
TCO_STUCK
239
TCO_STUCK_H
240
TH
241
TCO_STUCK_RNG
242
RAS_1
243
RAS_2
244
TCO_2_EL
245
TCO_2_PLAUS
246
TCO_2_GRD
247
ECT_EL
248
ECP_CST_PLAUS
249
ECP_HAST_PLAUS
250
POIL
251
POIL_PWM_PUMP
252
TEG_MES_EL_1
253
TEG_MES_CST_1
254
TEG_MES_INC_1
255
TEG_MES_GRD_1
256
TEG_MES_FIL_1
257
TEG_MES_EL_2
258
TEG_MES_CST_2
259
TEG_MES_INC_2
260
TEG_MES_GRD_2
261
TEG_MES_FIL_2
262
NVMCRYPT
263
TFU_HPP_EL
264
TFU_HPP_GRD
265
TFU_HPP_PLAUS
266
EL_PWM_PUMP_OIL
267
EL_PUMP_OIL_H_SWI
268
ECF_1
269
ECF_2
270
ECFPWM_FB_B_1
271
ECFPWM_FB_B_2
272
ECFPWM_FB_A_1
273
ECFPWM_FB_A_2
274
EFPPWM_FB_A
275
EFPPWM_FB_B
276
EFPPWM_FB_C
277
MIS_CST_0
278
MIS_CST_1
279
BRAKE_REQ_DRIV
280
ESP
281
AC_LGT_TCS_OFS
282
AC_TRV_TCS_OFS
283
ANG_PSTE
284
BRAKE_LAMP
285
BRAKE_LAMP_TRL
286
BRAKE_TEMP_MAX
287
DCC_MSG_NOT_OK
288
DECE_CTL_EMS
289
DT_MNG_MSG_NOT_OK
290
GEAR_RATIO_CAN
291
GLV_PSN_CAN
292
STATE_CTL_DECE
293
STATE_CTL_DECE_TRL
294
TAM_CAN
295
TAM_CAN_RAW
296
TAM_CAN_CONF
297
TAM_CAN_SRC_RST
298
TAM_CAN_EL
299
GEN_LOAD_CAN
300
GEN_LOAD_PLAUS_CAN
301
CRCV_HEAT
302
V_TOIL_GB
303
TUR_ACR_PLAUS_1
304
TUR_ACR_PLAUS_2
305
TUR_ACR_DR_1
306
TUR_ACR_FCT_1
307
TUR_ACR_FCT_2
308
TUR_ACR_SENS_1
309
TUR_ACR_DR_2
310
PSN_TUR_SP_H
311
PSN_TUR_SP_L
312
FAC_PUT_AD
313
TUR_ACR_SENS_2
314
IAF_0
315
IAF_1
316
IAF_2
317
WHEEL_GRD_FR_RI
318
WHEEL_GRD_FR_LE
319
WHEEL_GRD_RE_RI
320
WHEEL_GRD_RE_LE
321
SOF_ECP
322
FUP
323
RLY_EFP
324
RLY_EFP_2
325
EFPPWM
326
WKUL_DOOR
327
WKUL_ICH_OC
328
WKUL_ICH_SCP
329
ER_BAL_HOM_RNG_0
330
ER_BAL_HOM_RNG_1
331
ER_BAL_HOM_RNG_2
332
ER_BAL_HOM_RNG_3
333
ER_BAL_HOM_RNG_4
334
ER_BAL_HOM_RNG_5
335
AMP
336
map
337
LOAD_TPS_AR_IS_MAX
338
LOAD_TPS_AR_PL_MAX
339
LOAD_TPS_AR_IS_MIN
340
LOAD_TPS_AR_PL_MIN
341
LOAD_TPS_PUT_MAX
342
LOAD_TPS_PUT_MIN
343
LOAD_TPS_PLAUS
344
LOAD_TPS_CRCV_IS
345
PUT
346
FUP_MFP_PLAUS
347
CUR_VCV_NOT_PLAUS
348
FUP_OSC
349
H_PRS_SYS
350
FUP_ORNG
351
FUP_ST
352
FUP_NOT_PLAUS
353
FUP_HPP_SYS
354
VCV_PLAUS
355
EFP_PLAUS
356
FUP_STOP
357
MAF_SCP_1
358
MAF_SCP_2
359
MAF_PLAUS_DIAG_1
360
MAF_PLAUS_DIAG_2
361
MAF_SCG_OC_1
362
MAF_SCG_OC_2
363
FUP_SENS_ST
364
FUP_SENS_STUCK
365
FUP_SENS_STUCK_ST
366
FUP_CH
367
FPS_DE
368
AMP_PLAUS
369
MAP_PLAUS
370
PUT_PLAUS
371
AMP_ORNG
372
MAP_ORNG
373
PUT_ORNG
374
FTL_STUCK_1
375
FTL_GRD_1
376
FTL_EL_1
377
SLV_IVVT_IN_1
378
MEC_IVVT_IN_1
379
CAM_STAT_IVVT_IN_1
380
CAM_DYN_IVVT_IN_1
381
CAM_CST_IVVT_IN_1
382
SLV_IVVT_IN_2
383
MEC_IVVT_IN_2
384
CAM_STAT_IVVT_IN_2
385
CAM_DYN_IVVT_IN_2
386
CAM_CST_IVVT_IN_2
387
CAT_DIAG_1
388
CAT_DIAG_2
389
COC_EPC_1
390
COC_EPC_2
391
COC_EPC_3
392
EPC_3_CLOSE
393
EPC_3_OPEN
394
EPC_TH_CLOSE
395
CFA_ECP_EL_1
396
CFA_ECP_EL_2
397
MON
398
TQI_MON
399
N_MAX_MON
400
STST_MON
401
VLFT_STND_ER_0
402
VLFT_1_ER_0
403
VLFT_STND_ER_1
404
VLFT_1_ER_1
405
VLFT_STND_ER_2
406
VLFT_1_ER_2
407
VLFT_STND_ER_3
408
VLFT_1_ER_3
409
VLFT_STND_ER_4
410
VLFT_1_ER_4
411
VLFT_STND_ER_5
412
VLFT_1_ER_5
413
VLFT_CAM_1
414
VLFT_1_EL_1
415
VLFT_1_LAM_CBK_1
416
VLFT_STND_EL_1
417
VLFT_CAM_2
418
VLFT_1_EL_2
419
VLFT_1_LAM_CBK_2
420
VLFT_STND_EL_2
421
CFA_ECP_FKT
422
VP_CFA_ECP_FB_LE
423
VP_CFA_ECP_FB_OFF
424
VP_CFA_ECP_FB_RI
425
TEMP_ECP_EL
426
SAP_1
427
FSD_1
428
FSD_LAM_LIM_1
429
FSD_2
430
FSD_LAM_LIM_2
431
CSERS_INJ
432
IV_0
433
IV_1
434
IV_2
435
IV_3
436
IV_4
437
IV_5
438
ATIC_124
439
VBOOST
440
MEC_OPEN_CPS
441
SMALL_LEAK_NVLD
442
SWI_NVLD
443
SWI_EL_NVLD
444
SMT_EL_NVLD
445
REQ_REP_EL_NVLD
446
RESP_REP_COMC_NVLD
447
SMT_RST_NVLD
448
T_SMT_NVLD
449
TAM_SMT_PLAUS
450
TAM_SMT_CHK
451
TAM_SMT_RNG_H
452
TAM_SMT_RNG_L
453
T_ES_RST
454
T_ES_RST_ON
455
T_ES_PWL
456
T_ES_PWL_ON
457
GS
458
KD_AD
459
BLS_EL
460
N_MAX_HOT_ENG
461
VIM
462
EFF_IGA_CST_IS
463
EFF_IGA_CST_PL
464
OIL_SENS_PLAUS
465
OIL_SENS_EL
466
TQ_LIM_INTV
467
MSR_PLAU
468
SIG_NEUT_GEAR_H
469
SIG_NEUT_GEAR_L
470
PLAUS_NEUT_GEAR_H
471
PLAUS_NEUT_GEAR_L
472
PLAUS_NEUT_GEAR_MID
473
ANG_NEUT_GEAR
474
NEUT_GEAR_ACT
475
NEUT_GEAR_PU
476
NEUT_GEAR_COAST
477
GEAR_RLS_SCP
478
GEAR_RLS_SCG
479
GEAR_RLS_OC
480
FRQ_NEUT_GEAR_L
481
FRQ_NEUT_GEAR_H
482
TOUT_NEUT_GEAR
483
TOIL_GB_MAX
484
TIA_CST_PLAUS
485
TCO_CST_PLAUS
486
TAM_CST_PLAUS
487
TOIL_CST_PLAUS
488
TOIL_GB_STUCK
489
TOIL_GB_CST_PLAUS
490
N_GB_INP_MISS
491
N_GB_INP_N_DIF
492
N_GB_INP_RND
493
CRK_NO_SIG
494
CRK_RUN_OUT
495
CAM_NO_SIG_IN_1
496
CAM_SYN_CRK_IN_1
497
CAM_PER_IN_1
498
CAM_SYN_IN_1
499
CAM_REF_CRK_IN_1
500
CAM_TOOTH_OFF_IN_1
501
CAM_NO_SIG_IN_2
502
CAM_SYN_CRK_IN_2
503
CAM_PER_IN_2
504
CAM_SYN_IN_2
505
CAM_REF_CRK_IN_2
506
CAM_TOOTH_OFF_IN_2
507
CRK_TOOTH_NR
508
CRK_TOOTH_PER
509
CRK_SYN
510
CRK_SHO_LEVEL
511
CRK_SYN_STST
512
CRK_TOOTH_NR_STST
513
EL_CPS_OC
514
EL_CPS_SCG
515
EL_CPS_SCP
516
TEST
517
ETC_DR_OC
518
ETC_DR_OHP
519
ETC_DR_SC
520
RLY_MAIN_PLAUS_ON
521
RLY_MAIN_PLAUS_OFF
522
RLY_MAIN_DLY
523
VCC_L_0
524
VCC_L_1
525
VCC_H_0
526
VCC_H_1
527
VP_PWR_H_0
528
VP_PWR_H_1
529
VP_PWR_L_0
530
VP_PWR_L_1
531
_CNV_S_10_ETK_DEVICE_809_R
256
Calibration device error (device passive)
0
EXT RAM used as calibration device
1
ED device used as calibration device
2
Calibration device cannot be evaluated. Invalid value !
3
ETK used as calibration device
4
Calibration device cannot be evaluated. Invalid value !
5
Calibration device cannot be evaluated. Invalid value !
6
Calibration device cannot be evaluated. Invalid value !
7
Internal Overlay RAM used as calibration device
8
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
Calibration device cannot be evaluated. Invalid value !
9
_CNV_S_6_ETK_SER_CO_810
6
Negativ Response: No coldstart due to ETK not detected
0
Negativ Response: Timeout wait
1
Negativ Response: Timeout ready
2
Positiv Response: Initial ready detected
16
Positiv Response: Wait_loop ready detected
17
Positiv Response: Ready_loop ready detected
18
_CNV_S_4_STATE_CLL__817
4
CP_NO_DEAC
0
RAMP_OPEN_DEAC
1
MAX_PURGE_DEAC
2
RAMP_OPEN_FAST_DEAC
3
_CNV_S_12_STATE_CP_R_818
12
CP_NOT_ACT
0
NO_PURGE
1
RAMP_TO_NO_PURGE
2
WAIT_RAMP_OPEN
3
MIN_PURGE
4
UNUSED
5
UNUSED
6
UNUSED
7
RAMP_OPEN
8
RAMP_OPEN_FAST
9
MAX_PURGE
10
RAMP_CLOSE
11
_CNV_S_4_EVAC_ERR_S_820
4
NO_SYM
0
SYM_0
1
SYM_1
2
SYM_2
3
_CNV_S_6_STATE_CDN__821
6
NO_CDN
0
CDN_NO_PURGE
1
CDN_MIN_PURGE
2
CDN_RAMP_OPEN
3
CDN_RAMP_FAST
4
CDN_NO_FAST
5
_CNV_S_3_STATE_TRAN_823
3
NONE
0
NO_PURGE
1
MIN_PURGE
2
_CNV_S_3_STATE_OPM__824
3
ENG_MODE_0
0
ENG_MODE_1
1
ENG_MODE_2
2
_CNV_S_3_EVAC_RANGE_825
3
CP_FIXED
1
LAM_FIXED
2
DYN_SDL
3
_CNV_S_9_STATE_T_SD_826
9
PASSIVE
0
CP_FIXED
1
LAM_FIXED
2
WAIT_LAM
3
LAM_DYN
4
CP_DYN
5
WAIT_CP
6
OFF_CP
7
EXT_REQ
8
_CNV_S_4_STATE_MAN__827
4
AUTOMATIC
0
SDL_NONE
1
SDL_CP
2
LAM_AD
3
_CNV_S_5_EVAM_RANGE_829
5
INIT
0
NO_CTL
1
PWM_CTL
2
FLOW_CTL
3
CLOSE_CPS
4
_CNV_S_3_STATE_ERR__830
3
NO_SYM
0
SYM_0
1
SYM_1
2
_CNV_S_4_EVAM_RANGE_832
4
STEP_0_RBM
0
STEP_1_RBM
1
STEP_2_RBM
2
END
3
_CNV_S_6_EVAM_RANGE_835
6
NO_CDN
0
WAIT
1
CL_CHK
2
CPS_CHK
3
EOL_CDN
4
INH_CDN
5
_CNV_S_4_EVAM_RANGE_836
4
INIT
0
AFS
1
HOM_AFL
2
STRAT
3
_CNV_S_6_EVAM_RANGE_837
6
WAIT
0
REQ
1
RESP
2
READY
3
DIAG_MOD
4
COMC_ERR
5
_CNV_S_18_EVAM_RANGE_838
18
NO_REQ
0
WAKE_UP
1
INI_1
2
INI_2
3
TAM_SMT_1
4
TAM_SMT_2
5
SWI_PSN
6
T_CLOSE_RNG
7
T_SWI_CLOSE
8
SWI_EL_DIAG
9
T_SMT_1
10
T_SMT_2
11
START
12
STOP
13
EOL_READ
14
EOL_WRITE
15
SW_READ_1
16
SW_READ_2
17
_CNV_S_6_EVAM_RANGE_839
6
SECU_DET_WAIT
0
SECU_DET_STEP_1
1
SECU_DET_STEP_2_L
2
SECU_DET_STEP_2_H
3
SECU_DET_STEP_3
4
SECU_DET_END
5
_CNV_S_5_EVAM_RANGE_841
5
INIT
0
WAIT
1
CL_CHECK
2
CPS_CHECK
3
END_DIAG
4
_CNV_S_13_EVAM_RANGE_842
13
INI
0
READ_INI
1
TAM_SWI_DIAG
2
SMALL_LEAK_DIAG
3
COMPLETE_DIAG
4
CPS_CHECK
5
WAIT
6
STOP
7
ERROR
8
OFF
9
SLEEP
10
SW_VERSION
11
EOL
12
_CNV_S_13_EVAM_RANGE_843
13
INI
0
READ_INI
1
TAM_SWI_DIAG
2
SMALL_LEAK_DIAG
3
COMPLETE_DIAG
4
CPS_CHECK
5
WAIT
6
STOP
7
ERROR
8
OFF
9
SLEEP
10
SW_VERSION
11
EOL
12
_CNV_S_3_EXTC_RANGE_844
3
CH_OFF
0
CH_AST
1
CH_L_LOAD
2
_CNV_S_3_EXTC_RANGE_849
3
CH_MOD_OFF
0
CH_MOD_HOM
1
CH_MOD_MPLH
2
_CNV_S_4_STATE_VVL__878
4
STND
0
LFT_1
1
LFT_1_STND
2
STND_LFT_1
3
_CNV_S_4_FMSP_IDY_M_882
4
STND
0
LFT_1
1
LFT_2
2
LFT_ALL
3
_CNV_S_3_FUTL_RANGE_888
3
NONE
0
REFUELING
1
DEFUELING
2
_CNV_S_11_STATE_IMMO_894
11
nicht definiert!
0
VW
1
Audi
3
Seat
5
Skoda
6
VW Nutzfahrzeuge
7
Lamborghini
10
Porsche
13
Industriemotoren VW
14
Industriemotoren Audi
15
TestTool Entwicklung
16
_CNV_S_10_INJR_RANGE_895
10
SNGS
1
MPLS
2
MPLS+PLS3
3
HOMS-SNG
65
HOMS
66
HOMS+PLS3
67
DISABLE
128
SNGH
129
MPLH
130
MPLH+PLS3
131
_CNV_S_4_INJR_RANGE_896
4
EOI_TI
0
SOI_TI
1
T_TI
2
TI_T
3
_CNV_S_4_INJR_RANGE_897
4
NONE
0
UPDATE
1
AUTONOMOUS
2
IMMEDIATE
3
_CNV_S_4_INJR_RANGE_904
4
Single
0
Double
1
Ramp2Single
2
Ramp2Double
3
_CNV_S_4_INSY_RANGE_905
4
STATE_AMP_AD_no_AMP_AD
0
STATA_AMP_AD_AMP_AD_via_model
1
STATE_AMP_AD_waiting_for_AMP_AD_via_MAP_MES
2
STATE_AMP_AD_AMP_AD_via_MAP_MES
3
_CNV_S_4_INSY_RANGE_908
4
PASSIVE
0
RST_OR_STOPPED
1
ACTIVE_NORMAL
2
ACTIVE_FOR_CAM_OFS_AD
3
_CNV_S_5_INSY_RANGE_916
5
INSY_SEG_DEAC
0
INSY_SEG_HALF
1
INSY_SEG_1
2
INSY_SEG_2
3
INSY_SEG_4
4
_CNV_S_5_INSY_RANGE_927
5
INSY_MAF_AR_CTL
0
INSY_MAF_PUT_CTL
1
INSY_MAP_AR_CTL
2
INSY_MAP_PUT_CTL
3
INSY_OPL_CTL
4
_CNV_S_6_INSY_RANGE_934
6
DIAG_NOT_ACT
0
PRS_AIR_PLAUS_ES
1
PRS_AIR_PLAUS_PWL
2
PRS_AIR_PLAUS_FL
3
PRS_AIR_PLAUS_PU
4
PRS_AIR_PLAUS_IS
5
_CNV_S_15_THRO_RANGE_935
15
ST_CHK_LIH
0
ST_GO_TOL
1
ST_SPR_CHK
2
ST_CHK_END
3
AD_INIT
4
AD_LIH_POS
5
AD_GO_BOL
6
AD_BOL_POS
7
AD_GO_LIH
8
AD_SPR_CHK_1
9
AD_GO_TOL_1
10
AD_TOL_POS
11
AD_GO_TOL_2
12
AD_SPR_CHK_2
13
AD_END
14
_CNV_S_6_RANGE______957
6
INIT
0
TRIGGER
1
DELAY
2
ACTIVE
3
RAMP
4
WAIT
5
_CNV_S_8_LACO_RANGE_970
8
INIT
0
WAIT
1
CDN_FAC_L
2
CDN_FAC_H
3
CDN_ADD
4
ADAPT_FAC_L
5
ADAPT_FAC_H
6
ADAPT_ADD
7
_CNV_S_4_LACO_RANGE_976
4
0:OFF
0
1:ON
1
2:STOP_SHO_PER
2
3:STOP
3
_CNV_S_3_LACO_RANGE_980
3
STND
0
L2R
1
R2L
2
_CNV_S_6_LACO_RANGE_983
6
0:NORMAL
0
1:DYN_DIAG
1
2:DLY_DIAG
2
3:BAL_HOM
3
4:CAT_DIAG
4
5:AC_MODE
5
_CNV_S_6_LACO_RANGE_984
6
0:INI
0
1:OL_CDN
1
2:CL
2
4:OL_INTR
4
8:OL_ERR
8
10:CL_ERR
16
_CNV_S_3_STATE_AE_R_993
3
TRIG (trigger calculation active)
0
ENR (enrichment calculation active)
1
INH (inhibit-state for runtime improvement)
2
_CNV_S_3_STATE_DLO__994
3
TRIG
0
DLO
1
INH
2
_CNV_S_2_RANGE______996
2
0
0
1
1
_CNV_S_2_ECM3_POW_U_1000
2
0
90
1
165
_CNV_S_4_THRO_RANGE_1001
4
BOL_RESET
0
BOL_WAIT
1
BOL_INC
2
BOL_DEC
3
_CNV_S_3_THRO_RANGE_1007
3
INIT
0
UP
1
DOWN
2
_CNV_S_3_THRO_RANGE_1009
3
INIT
0
ICE_BREAK
1
SP_LIMIT
2
_CNV_S_5_THRO_RANGE_1011
5
TPS_NO_ERROR
0
TPS_1_ERROR
1
TPS_2_ERROR
2
TPS_RATIO_ERR
4
TPS_DBL_ERROR
8
_CNV_S_5_THRO_RANGE_1013
5
INIT
0
RATIO_CHK
1
TPS_1_CHK
2
TPS_2_CHK
4
DBL_ERROR
8
_CNV_S_3_THRO_RANGE_1015
3
N_NOT_LIM
0
N_LIM_CON
1
N_LIM_PVS
2
_CNV_S_3_RANGE_NC_N_1019
3
SNG
0
CH
1
OPP
2
_CNV_S_4_TQDR_RANGE_1020
4
VVL_LFT_1
0
VVL_TRAN_STND
1
VVL_STND
2
VVL_TRAN_LFT_1
3
_CNV_S_6_TQSP_RANGE_1034
6
DTM_PASSIVE
0
DTM_ECONOMY
1
DTM_HIGH_DYNAMIC
2
DTM_TRANSITION
3
DTM_CONVERGENCE
4
DTM_TQ_RESERVE
5
_CNV_S_3_TRSM_RANGE_1040
3
NOT
0
DOWN
1
UP
2
_CNV_S_3_TRSM_RANGE_1041
3
NO_REQ
0
DEC_REQ
1
INC_REQ
2
_CNV_S_4_TRSM_RANGE_1042
4
NOT
0
BFR
1
PWR
2
AFT
3
_CNV_S_16_RANGE_GEAR_1049
16
NEUTRAL
0
GEAR_1
1
GEAR_2
2
GEAR_3
3
GEAR_4
4
GEAR_5
5
GEAR_6
6
NOT_DEF
7
NOT_DEF
8
NOT_DEF
9
NOT_DEF
10
NOT_DEF
11
INTER
12
GEAR_R
13
INIT
14
ERROR
15
_CNV_S_5_STATE_GS_I_1052
5
INI
0
AST
1
DIS
2
ENA
3
ACT
4
_CNV_S_5_VVLI_RANGE_1055
5
PASSIVE
0
SWI_COR
1
RGL_SWI
2
LNG_CTL
3
LIH
4
_CNV_S_4_VVLI_RANGE_1056
4
ALL_CBK
0
CBK_1
1
CBK_2
2
NEXT_CBK
3
_CNV_S_3_VVLI_RANGE_1057
3
NO_TRAN
0
TRAN_CBK
1
TRAN_ALL_CYL
2
_CNV_S_6_VVLI_RANGE_1076
6
VLFT_STND
0
PREP_VLFT_1
1
TRAN_VLFT_1
2
VLFT_1
3
PREP_VLFT_STND
4
TRAN_VLFT_STND
5
_CNV_S_6_VVLI_RANGE_1077
6
VVL_H
0
VVL_H_TO_L
1
VVL_TRAN_L
2
VVL_L
3
VVL_L_TO_H
4
VVL_TRAN_H
5
_CNV_S_3_VVLI_RANGE_1078
3
NO_REQ
0
SOFT_REQ
1
HARD_REQ
2
_CNV_S_4_VVLI_RANGE_1079
4
NO_FAILURE
0
STND_B
1
LFT_1_B
2
MISHMASH
3
_CNV_S_5_VVTI_RANGE_1087
5
PASSIVE
0
READY
1
ACT_ADAPT
2
ENABLE
3
LIMP HOME
4
_CNV_S_5_VVTI_RANGE_1090
5
SP_NOT
0
SP_HOM_AFS
1
SP_HOM_AFL
2
SP_S
3
SP_MAN
4
_CNV_S_4_VVTI_RANGE_1093
4
INIT
0
HLD_DLY
1
HLD_ADAP
2
ADJ
3
_CNV_S_3_VVTI_RANGE_1094
3
HLD
0
RTD
1
ADC
2
1
1
19521790591520000
3449
0
1
7
42976
False
Engine RPM Response (Value)
0
0.00
0
16256.25
RPM
True
tcp0
00:00:00:00:00:00
net72
-256
0
255
86400
False
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
0
Longitude (Value [degrees])
{Longitude (Value) :db5-sig0-0}
0.0000000
degrees
Latitude (Value [degrees])
{Latitude (Value) :db4-sig0-0}
0.0000000
degrees
1
Gateway 1
True
Desktop 1
0
51
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1297364694
3
0
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