Transmission Control Module --, 8-SPD 0D5, 2019 MY

AL552-8Q 0D5
DTC	Fault Code Description	Monitor Strategy Description	Malfunction Criteria	Threshold Value	Secondary Parameters with Enable Conditions	Monitoring Time Length	Frequency of checks, MIL Illum
P0219	Engine Overspeed	The engine speed or calculated input speed signal is compared to a maximum allowable value to avoid an engine over speed condition.	Engine speed signal via CAN	> 7, 000 RPM	Gear position D or R = True 7th or 8th gear in Low Range Mode = False	0.09 s	2nd trip
P0219	Engine Overspeed		Output speed * gear ratio of target gear	> 7, 000 RPM	Gear position D or R = True Gear shift requested = True	0.09 s	2nd trip
P0601	Read Only Memory (Flash Memory)	A checksum is calculated for each memory block and compared with a stored reference checksum	The calculated checksum does not match the Stored reference checksum for any of the Memory blocks	= True	TCM powered = True TCM initialization has completed = True	0.0 s	2nd trip
P0606	Micro Controller Watchdog	Functional check of inhibit path	Inhibit path test failed	= True	TCM initialization = True	0.0 s	2nd trip
		Rationality check of the peripheral reset line	Peripheral reset line activated during normal operation	= True	No failure in watchdog monitoring or functional check of inhibit path = True
		Rationality check of the peripheral clock	(Peripheral clock activated Peripheral clock ASIC indicates failure in clocking the output stages	= False = False)	Functional check of inhibit path has successfully completed = True
		Rationality check of the peripheral clock	(Peripheral clock activated Peripheral clock ASIC indicates failure in clocking the output stages	= True = True)
		Rationality check of communication between watchdog ASIC and CPU	Failure in SPI communication between watchdog ASIC and CPU	= True
			Status of watchdog and expected status calculated by the CPU are unequal	= True
			Watchdog error counter	>= 5
		Rationality check of the monitored safety relevant software modules that are used for the calculation of the correct watchdog answer	Number of monitored safety relevant software modules not valid	= True
			Checksum of monitored safety relevant software module not valid
			Sequence of monitored safety relevant software modules not valid
P0607	Current Regulator Request	Transmission blocking.	Number of pressure regulators activated at the same time	> 3	Transmission oil temperature > -30° C No electrical limp home active = True Position valve monitoring not active = True	0.0 s	2nd trip
P060B	Position Valve	Rationality check between the activated pressure regulators and the selected driving position.	Three or more pressure regulators activated at the same time	= True	Position N or P requested = True The number of activated pressure regulators has been less than 3 >= 40.0 ms	0.06 s	2nd trip
P0613	Microcontroller Components	Rationality check of the analog to digital converted signals (ADC)	TCM internal voltage level 1 converted by ADC module A	< 4.6 V	TCM powered = True	0.03 s	2nd trip
			TCM internal voltage level 1 converted by ADC module A	> 5.4 V
			TCM internal voltage level 2 converted by ADC module A	< 3.0 V
			TCM internal voltage level 2 converted by ADC module A	> 3.6 V
			Absolute difference between the ADC output of different TCM internal reference voltages vand the expected reference value	> 1.22
			Absolute difference of the output of both ADC modules, using the same TCM internal reference voltage level 2	> 0.3 V
		Check of SPI communication	Feedback signal of sent SPI data is unequal to sent data	= True
			Control data sent back by the receiving SPI node not valid
			Status information of low level SPI driver indicates a hardware failure
		RAM and ROM and CPU register	Safety relevant data does not match its complement when reading the data from RAM
			Simulated ECC failure is not corrected by the ECC algorithm
			Expected interrupt service routine request is not called, if memory cell with invalid data content is read
			ECC failure detected on normal RAM or ROM
			Configuration registers of the CPU are unequal to their expected values
		Rationality check of safety functionality	Two independently calculated output commands are unequal
P0614	Transmission Configuration	Monitoring of the identification code from the engine and the transmission.	Failure detected in engine code	= True	Ignition is switched on = true Battery voltage < 17.0 V Battery voltage > 9.0 V No failure detected in signal of transmission output speed Output signal of transmission output speed < 75 1/min	1.5 s	2nd trip
P0614	Transmission Configuration		Failure detected in transmission code	= True		1.5 s	2nd trip
P061B	Transmission Torque Request	Monitor the positive engine torque request calculation and engine response resulting from the positive engine torque request	Actual engine torque request and delivered engine torque request sent via BUS	> KL_MMOTUEBPOSME 1 [ Gear Ratio]	Ignition is on = true Driver request is not in P or N = true Gearshift in progress = false	0.0 s	2nd trip
				> KL_MMOTUEBPOSME 2 [ Gear Ratio]		0.0 s
		The positive engine torque request calculation and engine response resulting from the positive engine torque request are monitored.	A positive engine torque request is sent via BUS and no positive torque request was calculated by the shift control software	= True	Ignition is on = true	0.25 s
			Actual input speed gradient - Actual output speed gradient * Actual gear ratio	< KF_NGPOSMEUEB [ Gear Ratio, Engine Torque]	Ignition is on = true Transmission position is not P or N = True Gearshift in progress = True Positive engine torque request active = True	0.25 s
		Monitor the positive engine torque request signal	Positive engine torque is transmitted	= True	TCM powered = true	0.0 s
			No positive engine torque commanded by the shift control software	= True
			The difference between the transmitted engine torque request and the engine torque request commanded by the shift control software	> 50 Nm
P062F	Electrically Erasable Programmable Read-Only Memory	The diagnostic is monitoring EEPROM checksums and hardware failures of the Flash Control Unit	Number of sector groups with valid checksum	< 2	An EEPROM read or write operation has occurred = true	0.05 s	1st trip
P062F	Electrically Erasable Programmable Read-Only Memory		Read or write operation not possible (Flash Control Unit defective)	= True	An EEPROM read or write operation has occurred = true	0.05 s	1st trip
P0634	TCM Temperature	Detect an over temperature shutdown of the TCM to protect the TCM hardware	Chip 1 temperature	> 145° C	Power supply voltage < 20.0 V	0.0 s	2nd trip
P0634	TCM Temperature		Chip 2 temperature	> 145° C	Power supply voltage < 20.0 V	0.0 s	2nd trip
P0642	Sensor Supply Voltage	Electrical short circuit and open circuit monitoring	Sensor supply voltage	<= 6.5 V	Battery supply voltage > 9.0 V	0.3 s	2nd trip
P0642	Sensor Supply Voltage	Electrical short circuit and open circuit monitoring	Both the input and output speed sensors are reporting a "short-circuit ground" and/or "break" failure during a time window	< 600.0 ms	Battery supply voltage > 9.0 V	0.3 s	2nd trip
P0643	Sensor Supply Voltage	Electrical short circuit and open circuit monitoring	Sensor supply voltage	>= 10.1 V	Battery supply voltage > 9.0 V	0.3 s	2nd trip
P0643	Sensor Supply Voltage	Electrical short circuit and open circuit monitoring	Both the input and output speed sensors are reporting a "short-circuit ground" and/or "break" failure during a time window	< 600.0 ms	Battery supply voltage > 9.0 V	0.3 s	2nd trip
P0667	TCM Internal Temperature Sensor	Rationality check	(System is in thermodynamical steady state The difference between the oil temperature sensor value and the chip 2 temperature sensor value The difference between the chip 1 temperature sensor value and the chip 2 temperature sensor value	= False > 30° C > 10° C)	No failure detected in engine speed and turbine speed signal = True No failure detected in the chip 2 temperature sensor monitoring = True (Engine speed > 400 1/min Or Turbine speed > 400 1/min) Time where engine or turbine speed is above calibrated threshold >= 300.0 s Ignition on = True	1.5 s	2nd trip
			(System is in thermodynamical steady state The difference between the oil temperature sensor value and the chip 2 temperature sensor value The difference between the chip 1 temperature sensor value and the chip 2 temperature sensor value	= True > 15° C > 10° C)
			(System is in thermodynamical steady state The difference between the oil temperature sensor value and the chip 2 temperature sensor value The difference between the chip 1 temperature sensor value and the chip 2 temperature sensor value	= False > 30° C > 10° C)	No failure detected in engine speed and turbine speed signal = True No failure detected in the chip 1 temperature sensor monitoring = True (Engine speed > 400 1/min Or Turbine speed > 400 1/min) Time where engine or turbine speed is above calibrated threshold >= 300.0 s Ignition on = True
			(System is in thermodynamical steady state The difference between the oil temperature sensor value and the chip 2 temperature sensor value The difference between the chip 1 temperature sensor value and the chip 2 temperature sensor value	= True > 15° C > 10° C)
P0668	TCM Internal Temperature Sensor	Signal range check	Sensor temperature	< -45° C	TCM powered = True	1.5 s	2nd trip
P0669	TCM Internal Temperature Sensor	Signal range check	Sensor temperature	> 168° C	TCM powered = True	1.5 s	2nd trip
P0700	Main Processor	Detect a main microprocessor calculation failure	Results of two independently performed calculations are not equal	= True	TCM powered = True	0.0 s	2nd trip
		Detect a communication failure of the 2nd microprocessor.	Communication problems between the main microprocessor and the 2nd microprocessor detected			0.1 s
		Detect an internal failure of the 2nd microprocessor	An internal failure of the 2nd microprocessor occurs			0.0 s
P0711	Transmission Oil Temperature Sensor	Rationality check	(System is in thermodynamical steady state The difference between the oil temperature sensor value and the chip 1 temperature sensor value The difference between the oil temperature sensor value and the chip 2 temperature sensor value	= False > 30° C > 30° C)	No failure detected in engine speed and turbine speed signal = True No failure detected in the oil temperature sensor monitoring = True (Engine speed > 400 1/min Or Turbine speed > 400 1/min) Time where engine or turbine speed is above calibrated threshold >= 300.0 s Ignition on = True	1.5 s	2nd trip
			(System is in thermodynamical steady state The difference between the oil temperature sensor value and the chip 1 temperature sensor value The difference between the oil temperature sensor value and the chip 2 temperature sensor value	= True > 15° C > 15° C)
			Transmission oil temperature delta between 2 measurements	> 20° C	No failure detected in the oil temperature sensor monitoring = True
P0712	Transmission Oil Temperature Sensor	Signal range check	U_pin_lo U_pin_hi	< InpPAtfL2_uAtfLoMin_C <= InpPAtfL2_uAtfHiMax_C	TCM powered = True	1.5 s	2nd trip
P0713	Transmission Oil Temperature Sensor	Signal range check	U_pin_lo U_pin_hi	< InpPAtfL2_uAtfLoMin_C <= InpPAtfL2_uAtfHiMax_C	TCM powered = True	1.5 s	2nd trip
P0714	Transmission Oil Temperature Sensor	Signal range check	U_pin_lo U_pin_hi	< InpPAtfL2_uAtfLoMin_C <= InpPAtfL2_uAtfHiMax_C	TCM powered = True	1.5 s	2nd trip
P0716	Input Speed Sensor	To perform an out of range high monitoring	Input speed	> 14, 000 1/min	No failure detected for P07C0 [ Input/Turbine Speed Sensor "A" Circuit High ] = True No failure detected for P07BF [ Input/Turbine Speed Sensor "A" Circuit Low ] = True	0.7 s	2nd trip
P0716	Input Speed Sensor	Rationality check	The difference between the input speed measured by the TCM and the calculated input speed from the wheel speed signal from vehicle bus The difference between the input speed measured by the TCM and the calculated input speed from the output speed measured by the TCM	> 250 1/min > 250 1/min	No failure detected in sensor supply voltage = True No electrical sensor failure of any internal sensor signal used for the rationality monitoring = True No BUS failure of any speed signal received via BUS used for the rationality monitoring = True	0.6 s	2nd trip
P0717	Input Speed Sensor	Irrational negative gradient in fixed gear	The input speed gradient	> 500 1/min	No failure detected in sensor supply voltage = True No electrical sensor failure of any internal sensor signal used for the rationality monitoring = True No BUS failure of any speed signal received via BUS used for the rationality monitoring = True Transmission is in fixed gear = True	0.3 s	2nd trip
P0721	Output Speed Sensor	To perform an out of range high monitoring	Output speed	> 10, 000 1/min		0.6 s	2nd trip
P0721	Output Speed Sensor	Rationality check	The difference between the output speed measured by the TCM and the calculated output speed from the wheel speed signal from vehicle bus The difference between the output speed measured by the TCM and the calculated output speed from the input speed measured by the TCM	> 350 1/min > 250 1/min	No failure detected in sensor supply voltage = True No electrical sensor failure of any internal sensor signal used for the rationality monitoring = True No BUS failure of any speed signal received via BUS used for the rationality monitoring = True	1.0 s	2nd trip
P0727	BUS Signal	Monitoring of engine speed signal from FR	Failure detected in engine speed signal value	= True	No failure detected for U0080 [Vehicle Communication Bus F] = True Ignition is switched on = True Battery voltage < 17.0 V Battery voltage > 9.0 V No failure detected in engine speed signal = True	0.6 s	2nd trip
P0730	Gear Ratio	Detect ratio failure of clutches.	Fault symptom counters of the clutches A and B	>= 3	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM (Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals output speed or engine speed = True No clutch slip control functions active = True No ratio monitoring failure for one clutch defective is detected = True	0.0 s	2nd trip
			Fault symptom counters of the clutches A and D
			Fault symptom counters of the clutches B and D


			Fault symptom counters of the clutches B and E


			Fault symptom counters of the clutches C and D
			Fault symptom counters of the clutches A and E
			Fault symptom counters of the clutches A and C
			Fault symptom counters of the clutches B and C
			Fault symptom counters of the clutches C and E
			Fault symptom counters of the clutches D and E
			Fault symptom counters of the clutches A, B and C
			Fault symptom counters of the clutches A, B and E
			Fault symptom counters of the clutches B, C and E
			Fault symptom counters of the clutches B, D and E
			Fault symptom counters of the clutches B, C and D
			Fault symptom counters of the clutches C, D and E
			Fault symptom counters the clutches A, C and D
			Fault symptom counters of the clutches A, D and E
			Fault symptom counters of the clutches A, B and D
P073D	Power Flow	Rationality check of the ratio of input to engine speed.	Ratio of input speed to engine speed	< KF_NUECGNAB1POWERFLOW[Gearbox Temperature, Output speed]	No failure in input speed signal = True No failure in engine speed signal = True Engine speed > 500 RPM Mechanical limp home mode active = False No power flow requested = True No failure in output speed signal = True Position N is requested = True	2.4 s	2nd trip
P073D	Power Flow	Rationality check of the ratio of input to engine speed.	Ratio of input speed to engine speed	< KF_NUECGNAB1POWERFLOW[Gearbox Temperature, Output speed]	No failure in input speed signal = True No failure in engine speed signal = True Engine speed > 500 RPM Mechanical limp home mode active = False No power flow requested = True No failure in output speed signal = True Position P is requested = True	4.5 s	2nd trip
P0740	Torque Converter Clutch (TCC)	The actual slip and the target slip are compared.	Absolute difference between the actual slip and target slip Engine torque via BUS (from ECM) TCC pressure (based on a software model)	> KL_XDSWKDEFEKT[EngineTorque Filtered and Delayed < 1, 000 Nm > 3.5 bar	Torque converter clutch closed or in closed loop control mode = True	60.0 s	2nd trip
P0745	Pressure Control Solenoid Out0	Current monitoring	Calculated current from software model based on PWM feedback signal at output stage	<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] -	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True	0.08 s	2nd trip
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] - OutMCrntMon_iOfsCtlChngInc_C[x] * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] - OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
		SPI communication monitoring and PWM frequency check	Checkbyte of SPI message indicates failure	= True	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Read back message and sent out message unequal	= True
			PWM feedback signal at output stage	> (sync-period + 20 μs)
			PWM feedback signal at output stage	< sync-period - 20 μs
P0749	Pressure Control Solenoid Out0	Open circuit	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates open circuit	= True = True)	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0749	Pressure Control Solenoid Out0	Open circuit	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates open circuit	= 100.0% = True)		0.08 s	2nd trip
P0754	On/Off-Solenoid Out7	Open circuit	Voltage of output signal during PWM duty or no duty phase	<= OutPLssMon_uTstOP_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle = 0.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0;1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0;1: Out1; 2: Out6; 3: Out7; 4: not used]	0.08 s	2nd trip
			Voltage of output signal during PWM duty phase	<= OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Commanded output PWM duty cycle <= 95.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0;1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0;1: Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM no duty phase	> OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM no duty phase	< OutPLssMon_uTstOP_C[0: Out0; 1:Out1; 2: Out6; 3: Out7; 4: not used]
P0775	Pressure Control Solenoid Out1	Current monitoring	Calculated current from software model based on PWM feedback signal at output stage	<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True	0.08 s	2nd trip
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] - OutMCrntMon_iOfsCtlChngInc_C[x] * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] - OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
		SPI communication monitoring and PWM frequency check	Checkbyte of SPI message indicates failure	= True	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Read back message and sent out message unequal	= True
			PWM feedback signal at output stage	> (sync-period + 20 μs)
			PWM feedback signal at output stage	< sync-period - 20 μs
P0779	Pressure Control Solenoid Out1	Open circuit	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates open circuit	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5:Out0 - Out5; 6-7: not used] Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5:Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0779	Pressure Control Solenoid Out1	Open circuit	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates open circuit	= 100.0% = True)		0.08 s	2nd trip
P077C	Output Speed Sensor	ASIC signal monitoring	Short to ground or open circuit detected (cannot be distinguished), if sensor supply voltage	< 0.18 V	No failure detected in sensor supply voltage = True	0.6 s	2nd trip
P077D	Output Speed Sensor	ASIC signal monitoring	Short to battery detected, if sensor supply voltage	> 4.0 V	No failure detected in sensor supply voltage = True	0.6 s	2nd trip
P0780	Gear Ratio	Detect general ratio failure.	Ratio failure for a single clutch X detected Further symptom detected in a gear where clutch X is not involved	= True = True	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM (Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals output speed or engine speed = True No clutch slip control functions active = True (Fixed gear engaged = True Output speed >= 50 RPM) Or Fixed gear engaged = True Output speed < 50 RPM))	0.0 s	2nd trip
P0795	Pressure Control Solenoid Out4	Current monitoring	Calculated current from software model based on PWM feedback signal at output stage	<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True	0.08 s	2nd trip
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] - OutMCrntMon_iOfsCtlChngInc_C[x] * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] - OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
		SPI communication monitoring and PWM frequency check	Checkbyte of SPI message indicates failure	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Read back message and sent out message unequal	= True
			PWM feedback signal at output stage	> (sync-period + 20 μs)
			PWM feedback signal at output stage	< sync-period - 20 μs
P0799	Pressure Control Solenoid Out4	Open circuit	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates open circuit	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0799	Pressure Control Solenoid Out4	Open circuit	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates open circuit	= 100.0% = True)		0.08 s	2nd trip
P07BF	Input Speed Sensor	ASIC signal monitoring	Short to ground or open circuit detected (cannot be distinguished), if sensor supply voltage	< 0.18 V	No failure detected in sensor supply voltage = True	0.2 s	2nd trip
P07C0	Input Speed Sensor	ASIC signal monitoring	Short to battery detected, if sensor supply voltage	> 4.0 V	No failure detected in sensor supply voltage = True	0.2 s	2nd trip
P07DC	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 1 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P07DD	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 2 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P07DE	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 3 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P07DF	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 4 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P07E0	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 5 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P07E1	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 6 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P07E2	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 7 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P07E3	Gear Ratio	Detect ratio failure of gear shifting.	Fault symptom counter of gearshift from gear 8 to gear X	> MAX_SYM_UWIG_SCHALT	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals Output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P0888	Actuator Supply Voltage	Output stage power supply short to battery	Power supply voltage	> 4.0 V	Output stage power supply is switched OFF = True Battery voltage >= 6.5 V Time since last switching of the power supply > 30.0 ms	0.03 s	2nd trip
		Output stage power supply short to ground	Power supply voltage	> 1.5 V
		Output stage power supply open circuit
		Output stage power supply open circuit
		Output stage power supply activation monitoring	Activation of output stage power supply failed	> 4.0 V	TCM in initialization = True
P093A	On/Off-Solenoid Ou10	Open circuit	Voltage of output signal during PWM duty or no duty phase	<= OutPLssMon_uTstOP_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle = 0.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	0.08 s	2nd trip
			Voltage of output signal during PWM duty phase	<= OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Commanded output PWM duty cycle <= 95.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM no duty phase	> OutPLssMon_uTstSG_C[0: Out0; 1:Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM no duty phase	< OutPLssMon_uTstOP_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
P093B	On/Off-Solenoid Ou10	Short to ground	Voltage of output signal during PWM duty or no duty phase	<= OutPLssMon_uTstSG_C[0: Out0;1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle = 0.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	0.08 s	2nd trip
			Voltage of output signal during PWM duty	<= OutPLssMon_uTstSB_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM duty phase	<= OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Commanded output PWM duty cycle <= 95.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
		Short to ground or open circuit	Output stage switched off	= True	Output stages power supply activated = True Commanded output PWM duty cycle = 100.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
P093C	On/Off-Solenoid Ou10	Short to battery	Voltage of output signal during PWM duty phase	>= OutPLssMon_uTstSB_C[0: Out0;1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	0.08 s	2nd trip
P0962	Pressure Control Solenoid Out0	Short to ground	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates short to ground	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0962	Pressure Control Solenoid Out0	Short to ground	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates short to ground	= 100.0% = True)		0.08 s	2nd trip
P0963	Pressure Control Solenoid Out0	Short to battery	ASIC indicates short to battery voltage	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0963	Pressure Control Solenoid Out0	Short to battery	PWM feedback signal at output stage	= 0.0%		0.08 s	2nd trip
P0966	Pressure Control Solenoid Out1	Short to ground	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates short to ground	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0966	Pressure Control Solenoid Out1	Short to ground	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates short to ground	= 100.0% = True)		0.08 s	2nd trip
P0967	Pressure Control Solenoid Out1	Short to battery	ASIC indicates short to battery voltage	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0967	Pressure Control Solenoid Out1	Short to battery	PWM feedback signal at output stage	= 0.0%		0.08 s	2nd trip
P0970	Pressure Control Solenoid Out4	Short to ground or open circuit	ASIC indicates short to ground or open circuit	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0970	Pressure Control Solenoid Out4	Short to ground or open circuit	PWM feedback signal at output stage	= 100.0%		0.08 s	2nd trip
P0971	Pressure Control Solenoid Out4	Short to battery	ASIC indicates short to battery voltage	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P0971	Pressure Control Solenoid Out4	Short to battery	PWM feedback signal at output stage	= 0.0%		0.08 s	2nd trip
P0973	On/Off-Solenoid Out7	Short to ground	Voltage of output signal during PWM duty or no duty phase	<= OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle = 0.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	0.08 s	2nd trip
			Voltage of output signal during PWM duty phase]	<= OutPLssMon_uTstSB_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM duty phase]		Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Commanded output PWM duty cycle <= 95.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
		Short to ground or open circuit	Output stage switched off	= True	Output stages power supply activated = True Commanded output PWM duty cycle = 100.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
P0974	On/Off-Solenoid Out7	Short to battery	Voltage of output signal during PWM duty phase	>= OutPLssMon_uTstSB_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	0.08 s	2nd trip
P1727	Driving direction	A rationality check between the measured directions of input speed and output speed signal and the calculated driving direction.	Input speed and output speed directions are different	= True	No failure in input speed sensor = True No failure in output speed sensor = True Input speed and output speed > 50 ROM No clutch slip control functions active = True No shifting in progress = True Calculated driving direction is forward = True	0.45 s	2nd trip
P1727	Driving direction		Input speed and output speed directions are the same	= True	No failure in input speed sensor = True No failure in output speed sensor = True Input speed and output speed > 50 ROM No clutch slip control functions active = True No shifting in progress = True Calculated driving direction is backward = True	0.45 s	2nd trip
P17F2	Output Speed Gradient	Check if the output speed difference is greater than a threshold.	Output speed deviation	> 300 RPM	Gear position D = True Hand brake not put on = True Braking pressure < 100.0 bar Transverse acceleration < 6.0 m/s² No failure in vehicle stability programs = True No failure in output speed signal = True No failure in transverse acceleration signal = True No failure in braking pressure signal = True Requested braking pressure > 35.0 bar No failure in requested braking pressure signal = True Braking torque > -1, 400.0 Nm No failure in braking torque signal = True Timer > 200.0 [-]	0.0 s	2nd trip
P17F2	Output Speed Gradient	Detect an excessive negative gradient in transmission output speed	Excessive negative gradient of transmission output speed detected by 2nd microprocessor	= True	TCM powered = True	0.0 s	2nd trip
P215B	Speed Sensors	Rationality check	The absolute difference between the output speed measured by the TCM and the output speed calculated from the wheel speed signal	> 350 1/min	No failure detected in sensor supply voltage = True No BUS failure of any speed signal received via BUS used for the rationality monitoring = True No electrical sensor failure of any internal sensor signal used for the rationality monitoring = True Gear shift in progress = True (Engine speed > 430 1/min Or Ignition on = True)	0.3 s	2nd trip
P2162	Speed Sensors	Double failure monitoring	Electrical sensor failure of any internal sensor signal used for the rationality monitoring	= True	No failure detected in sensor supply voltage = True No electrical sensor failure of any internal sensor signal used for the rationality monitoring Ignition on = True Engine speed >= 430 1/min	0.3 s	2nd trip
			Rational failure is detected for input speed sensor
			Rational failure is detected for output speed sensor
			Rational failure is detected for wheel speed sensor
P2637	Bus Signal	Signal check	Engine torque signal value is imprecise	= True	No failure detected for U0080 [Vehicle Communication Bus F] = True Ignition is switched on = True Battery voltage < 17.0 V Battery voltage > 9.0 V No failure detected in signal for engine torque precision = True	2.5 s	2nd trip
			(Failure detected in target engine torque signal No failure detected in target engine torque signal	= True = True)	No failure detected for U0080 [Vehicle Communication Bus F] = True Ignition is switched on = True Battery voltage < 17.0 V Battery voltage > 9.0 V	0.5 s
			(Failure detected in engine torque signal No failure detected in engine torque signal
			(Failure detected in engine crank signal No failure detected in engine crank signal
			(Failure detected in friction engine torque signal No failure detected in friction engine torque signal
P267F	Transmission Oil Temperature Sensor	Rationality check	The failure is detected if chip 1 and chip 2 temperature sensor indicates malfunction	= True	TCM powered = True	1.8 s	2nd trip
			The failure is detected if oil and chip 2 temperature sensor indicates malfunction
			The failure is detected if oil and chip 1 temperature sensor indicates malfunction
P2700	Gear Ratio	Detect ratio failure of clutches.	Fault symptom counters of the clutches A	>= 3	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM (Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P2701	Gear Ratio	Detect ratio failure of clutches.	Fault symptom counters of the clutches B	>= 3	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM (Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P2702	Gear Ratio	Detect ratio failure of clutches.	Fault symptom counters of the clutches C	>= 3	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM (Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P2703	Gear Ratio	Detect ratio failure of clutches.	Fault symptom counters of the clutches D	>= 3	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM (Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P2704	Gear Ratio	Detect ratio failure of clutches.	Fault symptom counters of the clutches E	>= 3	(Oil-temperature (fixed gear) > -10° C Or Oil-temperature (gear shifts) > -10° C) (Engine speed > 430 RPM Or Output speed > 2, 500 RPM) Input speed > 0 RPM (Transmission lever position = D Or Transmission lever position = R) No malfunction in input speed signal = True No malfunction in at least one of the signals output speed or engine speed = True No clutch slip control functions active = True Fixed gear engaged = True	0.0 s	2nd trip
P2713	Pressure Control Solenoid Out2	Current monitoring	Calculated current from software model based on PWM feedback signal at output stage	<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True	0.08 s	2nd trip
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C[x] * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
		SPI communication monitoring and PWM frequency check	Checkbyte of SPI message indicates failure	= True	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Read back message and sent out message unequal	= True
			PWM feedback signal at output stage	> (sync-period + 20 μs)
			PWM feedback signal at output stage	< sync-period - 20 μs
P2717	Pressure Control Solenoid Out2	Open circuit	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates open circuit	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2717	Pressure Control Solenoid Out2	Open circuit	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates open circuit	= 100.0% = True)		0.08 s	2nd trip
P2720	Pressure Control Solenoid Out2	Short to ground	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates short to ground	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2720	Pressure Control Solenoid Out2	Short to ground	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates short to ground	= 100.0% = True)		0.08 s	2nd trip
P2721	Pressure Control Solenoid Out2	Short to battery	ASIC indicates short to battery voltage	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2721	Pressure Control Solenoid Out2	Short to battery	PWM feedback signal at output stage	= 0.0%		0.08 s	2nd trip
P2722	Pressure Control Solenoid Out3	Current monitoring	Calculated current from software model based on PWM feedback signal at output stage	<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True	0.08 s	2nd trip
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C[x] * current gradient	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C * current gradient	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
		SPI communication monitoring and PWM frequency check	Checkbyte of SPI message indicates failure	= True = True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Read back message and sent out message unequal	= True = True
			PWM feedback signal at output stage	> (sync-period + 20 μs)
			PWM feedback signal at output stage	< sync-period - 20 μs
P2726	Pressure Control Solenoid Out3	Open circuit	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates open circuit	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2726	Pressure Control Solenoid Out3	Open circuit	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates open circuit	= 100.0% = True)		0.08 s	2nd trip
P2729	Pressure Control Solenoid Out3	Short to ground or open circuit	ASIC indicates short to ground or open circuit	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2729	Pressure Control Solenoid Out3	Short to ground or open circuit	PWM feedback signal at output stage	= 100.0%		0.08 s	2nd trip
P2730	Pressure Control Solenoid Out3	Short to battery	ASIC indicates short to battery voltage	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2730	Pressure Control Solenoid Out3	Short to battery	PWM feedback signal at output stage	= 0.0%		0.08 s	2nd trip
P2731	Pressure Control Solenoid Out5	Current monitoring	Calculated current from software model based on PWM feedback signal at output stage	<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True	0.08 s	2nd trip
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C[x] * current gradient	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
				>= 0.050 A +OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C * current gradient	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
		SPI communication monitoring and PWM frequency check	Checkbyte of SPI message indicates failure	= True = True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Read back message and sent out message unequal	= True = True
			PWM feedback signal at output stage	> (sync-period + 20 μs)
			PWM feedback signal at output stage	< sync-period - 20 μs
P2735	Pressure Control Solenoid Out5	Open circuit	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates open circuit	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2735	Pressure Control Solenoid Out5	Open circuit	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates open circuit	= 100.0% = True)		0.08 s	2nd trip
P2738	Pressure Control Solenoid Out5	Short to ground	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates short to ground	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2738	Pressure Control Solenoid Out5	Short to ground	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates short to ground	= 100.0% = True)		0.08 s	2nd trip
P2739	Pressure Control Solenoid Out5	Short to battery	ASIC indicates short to battery voltage	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2739	Pressure Control Solenoid Out5	Short to battery	PWM feedback signal at output stage	= 0.0%		0.08 s	2nd trip
P2753	On/Off-Solenoid Out13	Open circuit	Voltage of output signal during PWM duty or no duty phase	<= OutPLssMon_uTstOP_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle = 0.0% Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
			Voltage of output signal during PWM duty phase	<= OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Commanded output PWM duty cycle <= 95.0% Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Voltage of output signal during PWM no duty phase	> OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM no duty phase	< OutPLssMon_uTstOP_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
P2754	On/Off-Solenoid Out13	Short to ground	Voltage of output signal during PWM duty or no duty phase	<= OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle = 0.0% Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
			Voltage of output signal during PWM duty phase	<= OutPLssMon_uTstSB_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]
			Voltage of output signal during PWM duty phase	<= OutPLssMon_uTstSG_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Commanded output PWM duty cycle <= 95.0% Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
		Short to ground or open circuit	Output stage switched off	= True	Output stages power supply activated = True Commanded output PWM duty cycle = 100.0% Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
P2755	On/Off-Solenoid Out13	Short to battery	Voltage of output signal during PWM duty phase	>= OutPLssMon_uTstSB_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used]	Output stages power supply activated = True Commanded output PWM duty cycle >= 5.0% Power supply voltage >= OutPLssMon_uTstLo_C[0: Out0; 1: Out1; 2: Out6; 3: Out7; 4: not used] Power supply voltage <= OutPLssMon_uTstHi_C[0: Out0;1: Out1; 2: Out6; 3: Out7; 4: not used]	0.08 s	2nd trip
P2784	Speed Sensors	Double failure monitoring	Any engine speed fault occurs on the engine speed BUS signal while the input speed signal is also invalid because of an electrical or rationality failure	= True	No failure detected in sensor supply voltage = True No BUS failure of any speed signal received via BUS used for the rationality monitoring No electrical sensor failure of any internal sensor signal used for the rationality monitoring Ignition on = True	0.3 s	2nd trip
P2807	On/Off-Solenoid Out6	Current monitoring	Calculated current from software model based on PWM feedback signal at output stage	<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True	0.08 s	2nd trip
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C[x] * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.850 A - OutMCrntMon_iOfsHi_C[0 - 5: Out0 - Out5; 6-7: not used] OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used]	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True
				>= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C * current gradient	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = True
				<= 0.050 A + OutMCrntMon_iOfsLo_C[0 - 5: Out0 - Out5; 6-7: not used] + OutMCrntMon_iOfsCtlChngInc_C	Output stages power supply activated = True Power supply voltage >= OutMCrntMon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutMCrntMon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used] No shifting in progress = True Clutch involved in shifting = False
		SPI communication monitoring and PWM frequency check	Checkbyte of SPI message indicates failure	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]
			Read back message and sent out message	= True
			PWM feedback signal at output stage	> (sync-period + 20 μs)
			PWM feedback signal at output stage	< sync-period - 20 μs
P2811	On/Off-Solenoid Out6	Open circuit	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates open circuit	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2811	On/Off-Solenoid Out6	Open circuit	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates open circuit	= 100.0% = True)		0.08 s	2nd trip
P2814	Pressure Control Solenoid Out6	Short to ground	(ASIC indicates short to ground or open circuit After shutoff of output stage ASIC indicates short to ground	= True = True)	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2814	Pressure Control Solenoid Out6	Short to ground	(PWM feedback signal at output stage After shutoff of output stage ASIC indicates short to ground	= 100.0% = True)		0.08 s	2nd trip
P2815	Pressure Control Solenoid Out6	Short to battery	ASIC indicates short to battery voltage	= True	Output stages power supply activated = True Power supply voltage >= OutPCc40Mon_uTstLo_C[0 - 5: Out0 - Out5; 6-7: not used] Power supply voltage < OutPCc40Mon_uTstHi_C[0 - 5: Out0 - Out5; 6-7: not used]	0.08 s	2nd trip
P2815	Pressure Control Solenoid Out6	Short to battery	PWM feedback signal at output stage	= 0.0%		0.08 s	2nd trip
U0080	Bus Communication	State of the bus-controller(s) from the hardware	Bus 1 state "bus off" or " error passive"	= True	Ignition on = True Battery voltage > 9.0 V Battery voltage < 17.0 V	0.3 s	2nd trip
U0100	Bus Message	Time out monitoring.	Message specific time out expired Time out expired for message from PDU Motor_07, Motor_11, Motor_12, Motor_14, Motor_16, Motor_17, Motor_20, Motor_27, Motor_35, Motor_Code_01, Motor_Hybrid_11 or Motor_28	= True = True	Battery voltage > 9.0 V Battery voltage < 17.0 V Ignition on = True No Flexray bus failure detected = True Time expired after ignition is on > 1, 160.0 ms	65.535 s	2nd trip
U0100	Bus Message	Time out monitoring.	Message specific time out expired Time out expired for message from PDU OBD_01	= True = True	Battery voltage > 9.0 V Battery voltage < 17.0 V Ignition on = True No Flexray bus failure detected = True Time expired after ignition on > 680.0 ms	65.535 s	1st trip
U0302	Transmission Configuration	A rationality check between mechatronic hardware and software is carried out.	Hydraulic identification number does not match the expected value in the TCM software	= True	Ignition is on = True	0.0 s	2nd trip
U0401	Bus Message	Rationality checks.	Alive counter incremented on each received message of PDU Motor_11, Motor_12, Motor_14, Motor_20 or Motor_Code_01	= False	Battery voltage > 9.0 V Battery voltage < 17.0 V Ignition on = True No Flexray bus failure detected = True Time expired after ignition is switched on > 1, 160.0 ms	65.535 s	2nd trip
U0401	Bus Message	Rationality checks.		= False		65.535 s	2nd trip