Toyota Avalon (XX50): Hybrid/EV Battery Voltage System Isolation Internal Electronic Failure (P0AA649,P1C7C49-P1C7F49)

Toyota Avalon (XX50) 2019-2022 Service & Repair Manual / Engine / Hybrid / Battery Control / Hybrid Control System / Hybrid/EV Battery Voltage System Isolation Internal Electronic Failure (P0AA649,P1C7C49-P1C7F49)

DESCRIPTION

The hybrid vehicle control ECU monitors the battery voltage sensor and detects insulation malfunctions in the high-voltage system.

DTC No.	Detection Item	DTC Detection Condition	Trouble Area	MIL	Warning Indicate
P0AA649	Hybrid/EV Battery Voltage System Isolation Internal Electronic Failure	Insulation resistance between the high-voltage circuit and the body has decreased.*1 (1 trip detection logic)	Inverter with converter assembly HV floor under wire HV battery junction block assembly Battery voltage sensor Hybrid battery terminal block HV battery Hybrid vehicle transaxle assembly Motor cable Air conditioning system Air conditioning wire	Does not come on	Master Warning Light: Comes on
P1C7C49	Hybrid/EV Battery Voltage System Isolation (A/C Area) Internal Electronic Failure	Insulation resistance of the compressor with motor assembly or air conditioning inverter has decreased.*2 (1 trip detection logic)	Air conditioning system	Does not come on	Master Warning Light: Comes on
P1C7D49	Hybrid/EV Battery Voltage System Isolation (Hybrid/EV Battery Area) Internal Electronic Failure	Insulation resistance of the HV battery, battery voltage sensor or SMR has decreased.*2 (1 trip detection logic)	HV battery junction block assembly Battery voltage sensor Hybrid battery terminal block HV battery	Does not come on	Master Warning Light: Comes on
P1C7E49	Hybrid/EV Battery Voltage System Isolation (Transaxle Area) Internal Electronic Failure	Insulation resistance of the hybrid vehicle transaxle assembly or inverter for the generator (MG1) and motor (MG2) has decreased.*2 (1 trip detection logic)	Hybrid vehicle transaxle assembly Motor cable Inverter with converter assembly	Does not come on	Master Warning Light: Comes on
P1C7F49	Hybrid/EV Battery Voltage System Isolation (Direct Current Area) Internal Electronic Failure	Insulation resistance of the inverter for the generator (MG1) and motor (MG2), A/C inverter, SMR or No. 2 engine room wire has decreased.*2 (1 trip detection logic)	Inverter with converter assembly HV floor under wire HV battery junction block assembly Air conditioning system Air conditioning wire	Does not come on	Master Warning Light: Comes on

HINT:

*1: The insulation malfunction detection circuit in the battery voltage sensor monitors the insulation resistance between the high voltage circuits and body. If the insulation resistance decreases, the hybrid vehicle control ECU stores DTC P0AA649 and illuminates the master warning light first regardless of malfunction area.
Depending on the vehicle condition, the high voltage circuit insulation resistance may return to normal. So if DTC P0AA649 outputs, complete the following steps as soon as possible.
*2: If the following operations are performed within the same trip after DTC P0AA649 is stored, just one of the related DTCs (P1C7C49, P1C7D49, P1C7E49 or P1C7F49) will be stored.
1. Apply the parking brake firmly.
2. Wait for 1 minute or more with the vehicle stopped, the brake pedal firmly depressed, the power switch on (READY), shift lever in D and the air conditioning system on (Lo/MAX COOL, blower speed HI).
3. Turn the power switch off and wait for 2 minutes or more.
  HINT:
  - DTCs and freeze frame data are useful information in determining the malfunctioning part. Before performing diagnosis, make sure to check and make a note of all output DTCs and freeze frame data. (Even if a high-voltage insulation malfunction cannot be reproduced, once stored, DTCs of insulation will not be cleared unless the clear operation is performed.)
  - When the insulation resistance of the HV battery area decreases and the power switch is turned on (IG), DTC P1C7D49 is stored within 2 minutes.
When measuring insulation resistance using a megohmmeter, measure the resistance while jiggling the high voltage wire harness.

Related Data List (Reproduction of Phenomenon and Check)

DTC No.	Data List
P0AA649	Short Wave Highest Value Level Hybrid Battery Voltage VL-Voltage before Boosting VH-Voltage after Boosting Boost Ratio A/C Consumption Power SMRP Status SMRB Status SMRG Status Generator Inverter Shutdown Status Motor Inverter Shutdown Status Insulation Resistance Division Check Completion using MG Inv Insulation Resistance Division Check Completion using A/C Inv Insulation Resistance Division Check Completion using SMR Short Wave Highest Value Availability just after MG Inv On/Off Short Wave Highest Value Availability just after A/C Inv On/Off Short Wave Highest Value Availability just after SMR On/Off
P1C7C49
P1C7D49
P1C7E49
P1C7F49

Use the following items as a reference when duplicating the vehicle conditions at the time when the malfunction occurred.

Data List

Vehicle Speed
Engine Run Time
BATT Voltage
Distance from DTC Cleared
Ready Signal
Hybrid Battery SOC

CONFIRMATION DRIVING PATTERN

CONFIRMATION AFTER REPLACING PARTS

HINT:

After repair has been completed, clear the DTC and then check that the vehicle has returned to normal by performing the following All Readiness check procedure. (Do not turn the power switch off (READY off) during this inspection.)

Click here

Connect the Techstream to the DLC3.
Turn the power switch on (IG) and turn the Techstream on.
Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure).
Turn the power switch off and wait for 2 minutes or more.
Apply the parking brake and secure the wheels using chocks.
When the vehicle is stationary, turn the power switch on (READY) with shift lever in P and wait for 1 minute or more.
Turn the air conditioning system on (MAX COLD, blower speed HI).
While depressing the brake pedal without depressing the accelerator pedal, move the shift lever to D and wait for 5 minutes.
- If step A is performed within the same trip after DTC P0AA649 is stored, the parts with insufficient insulation resistance will be determined and a DTC (P1C7C49, P1C7D49, P1C7E49 or P1C7F49) will be stored.

- If no DTCs are output, proceed to the next step.
Drive the vehicle for approximately 5 minutes referring to the following freeze frame data items: "Vehicle Speed", "Shift Position", "Accelerator Position Sensor No.1 Voltage %", "Engine Speed", "Coolant Temperature", "Master Cylinder Control Torque", "Motor Temperature" and "Generator Temperature"
(If the freeze frame data item "Vehicle Speed" is 10 km/h (6 mph) or less, drive the vehicle at 10 km/h (6 mph) or more.)

- If step A is performed within the same trip after DTC P0AA649 is stored, the parts with insufficient insulation resistance will be determined and a DTC (P1C7C49, P1C7D49, P1C7E49 or P1C7F49) will be stored.

- If DTC P0AA649 is output, complete the Step A immediately as quickly as possible.
Wait for 1 minute or more with the vehicle stopped, the power switch on (READY), shift lever in P and the air conditioning system on (Lo/COOL MAX, blower speed HI), then turn the power switch off and wait for 2 minutes or more. (Step A)
Turn the power switch on (IG) and turn the Techstream on.
Enter the following menus: Powertrain / Hybrid Control / Utility / All Readiness.
Check the DTC judgment result.
HINT:
- If the judgment result shows NORMAL, the system is normal.
- If the judgment result shows ABNORMAL, the system has a malfunction.
- If the judgment result shows INCOMPLETE or N/A, perform driving pattern again.

WIRING DIAGRAM

*1	HV Battery	*2	Battery Voltage Sensor
*3	SMRB	*4	SMRG
*5	SMRP	*6	System Main Resistor
*7	Service Plug Grip	*8	Inverter with Converter Assembly
*9	Boost Converter	*10	Inverter
*11	Generator (MG1)	*12	Motor (MG2)
*13	Compressor with Motor Assembly	*14	A/C Inverter
*15	A/C Motor	-	-
*a	High-voltage Areas	*b	DTC P0AA649 Vehicle Insulation Resistance Reduction Area
*c	DTC P1C7C49 Air Conditioning System Area	*d	DTC P1C7D49 HV Battery Area
*e	DTC P1C7E49 Hybrid Vehicle Transaxle Assembly Area	*f	DTC P1C7F49 High Voltage Direct Current Area

SYSTEM DESCRIPTION

HINT:

If a decrease in insulation resistance cannot be confirmed using a megohmmeter, check "Short Wave Highest Value Level" in the Data List.

SHORT WAVE HIGHEST VALUE LEVEL

(a) "Short Wave Highest Value Level" shows a decrease in insulation resistance. When insulation resistance decreases, "Insulation Lower" will be displayed. However, even though the insulation resistance of the vehicle is normal, "Short Wave Highest Value Level" may decrease, so that "Not Judge" will be displayed for any of the following conditions.

Within approximately 1 minute since the power switch was turned on (IG).
When the system voltages ("Hybrid Battery Voltage", "VL-Voltage before Boosting" and "VH-Voltage after Boosting") are changing.
During boosting. If the Data List item "Boost Ratio" is not 0% or within a few seconds of it becoming 0%. (The values of "Hybrid Battery Voltage", "VL-Voltage before Boosting" and "VH-Voltage after Boosting" are about the same when not boosting.)
When "No" is displayed for any of the following Data List items:
- Short Wave Highest Value Availability just after MG Inv On/Off

- Short Wave Highest Value Availability just after A/C Inv On/Off

- Short Wave Highest Value Availability just after SMR On/Off

(b) When "Short Wave Highest Value Level" shows "Insulation Lower LV3", insulation resistance will be close to 0 Ω. In this case, damage to a high-voltage cable or hybrid component (high-voltage), or a short to body ground due to intrusion of foreign matter, such as metal particles, can be suspected.

If problem symptoms cannot be reproduced and a malfunction still exists after replacing a part as instructed, checking the following freeze frame data can help determine a trouble area.

Items to be Checked Using Freeze Frame Data:

Freeze Frame Data	Diagnostic Note
Short Wave Highest Value Level	Indicates that the insulation resistance has decreased.
VL-Voltage before Boosting VH-Voltage after Boosting Hybrid Battery Voltage Boost Ratio	During boosting (when "Boost Ratio" is not 0%), or when "VL-Voltage before Boosting", "VH-Voltage after Boosting" or "Hybrid Battery Voltage" is varying, "Short Wave Highest Value Level" may decrease even though the insulation resistance is normal.
SMRP Status SMRB Status SMRG Status	When "SMRP Status", "SMRB Status" and "SMRG Status" are all OFF, the insulation malfunction detection circuit detects a decrease in insulation resistance in the HV battery area ((*d) in the wiring diagram). Example: When the power switch is turned on (IG) (not on (READY)), all 3 system main relays are off and it is suspected that the HV battery assembly is disconnected from the high voltage circuits. If "Short Wave Highest Value Level" decreases a few minutes after the power switch is turned on (IG) (not on (READY)), the HV battery assembly may have an insulation malfunction.
Motor Inverter Shutdown Status	When "Motor Inverter Shutdown Status" is ON, the insulation malfunction detection circuit cannot detect a decrease in insulation resistance in the motor system AC (alternating current) section (motor (MG2) side of (*e) in the wiring diagram). The motor system AC (alternating current) section includes the motor (MG2) in the hybrid vehicle transaxle assembly, motor cables and the AC (alternating current) section of the motor drive circuit in the inverter with converter assembly.
Generator Inverter Shutdown Status	When "Generator Inverter Shutdown Status" is ON, the insulation malfunction detection circuit cannot detect a decrease in insulation resistance in the generator system AC (alternating current) section (generator (MG1) side of (*e) in the wiring diagram). The generator system AC (alternating current) section includes the generator (MG1) in the hybrid vehicle transaxle assembly, generator cables and the AC (alternating current) section of the generator drive circuit in the inverter with converter assembly.
A/C Consumption Power	The compressor with motor assembly AC (alternating current) section ((*c) in the wiring diagram) includes the air conditioning motor, wiring between the air conditioning motor and air conditioning inverter, and the AC (alternating current) section of the air conditioning motor drive circuit in the air conditioning inverter. With the vehicle stopped, turn on/off the air conditioning system and observe "Short Wave Highest Value Level" to use as a diagnosis reference.

RELATED FREEZE FRAME DATA

HINT:

Reproducing the vehicle conditions the moment a DTC was stored according to the freeze frame data and results of the customer problem analysis helps ensure that the same DTC is stored again. Driving Status

Item	Diagnostic Note
Vehicle Speed	-
Accelerator Position Sensor No.1 Voltage %	-
Engine Speed	-
Shift Position	-
Master Cylinder Control Torque	-
Coolant Temperature	-

Operation Conditions

Item	Diagnostic Note
Motor Temperature	If any liquid leaks into the ATF, insulation resistance may decrease only when the temperature is high. The motor temperature is likely to increase if the motor speed is low and output torque is high such as when cruising uphill slowly or accelerating from a low speed.
Generator Temperature	If any liquid leaks into the ATF, insulation resistance may decrease only when the temperature is high. The generator temperature is likely to increase under repeat acceleration and deceleration while the vehicle is driven in the mid speed range (60 to 80 km/h (37 to 50 mph)).

Item

Diagnostic Note

Motor Temperature

If any liquid leaks into the ATF, insulation resistance may decrease only when the temperature is high.

The motor temperature is likely to increase if the motor speed is low and output torque is high such as when cruising uphill slowly or accelerating from a low speed.

Generator Temperature

If any liquid leaks into the ATF, insulation resistance may decrease only when the temperature is high.

The generator temperature is likely to increase under repeat acceleration and deceleration while the vehicle is driven in the mid speed range (60 to 80 km/h (37 to 50 mph)).

Customer Problem Analysis

Ask the customer about the operating conditions and environment when the malfunction occurred.

Item	Diagnostic Note
Driving Condition (acceleration, deceleration, turning, etc.)	Changes in the insulation of the parts with insufficient insulation due to changes in G force or vibration is suspected.
Road Condition (unpaved, etc.)
Weather (rain, snow, etc.)	Water intrusion is suspected
Washing the vehicle (Whether the malfunction occurred after washing the vehicle?)	Water intrusion is suspected

CAUTION / NOTICE / HINT

CAUTION:

When troubleshooting DTC P0AA649, use either a tool wrapped with vinyl insulation tape or an insulated tool. (It is extremely dangerous when a high-voltage charge passes through a non-insulated tool causing a short.)
Before the following operations are conducted, take precautions to prevent electric shock by turning the power switch off, wearing insulated gloves, and removing the service plug grip from HV battery.
- Inspecting the high-voltage system
- Disconnecting the low voltage connector of the inverter with converter assembly
- Disconnecting the low voltage connector of the HV battery
To prevent electric shock, make sure to remove the service plug grip to cut off the high voltage circuit before servicing the vehicle.
After removing the service plug grip from the HV battery, put it in your pocket to prevent other technicians from accidentally reconnecting it while you are working on the high-voltage system.
After removing the service plug grip, wait for at least 10 minutes before touching any of the high-voltage connectors or terminals. After waiting for 10 minutes, check the voltage at the terminals in the inspection point in the inverter with converter assembly. The voltage should be 0 V before beginning work.
Click here

*a

Without waiting for 10 minutes

HINT:

Waiting for at least 10 minutes is required to discharge the high-voltage capacitor inside the inverter with converter assembly.
Make sure to insulate the high-voltage connectors and terminals of the HV battery with insulating tape after removing it.
If the HV battery stored without insulating the connectors and terminals, electric shock or fire may result.
When disposing of an HV battery, make sure to return it through an authorized collection agent who is capable of handling it safely. If the HV battery is returned via the manufacturer specified route, it will be returned properly and in a safe manner by an authorized collection agent.

*a

Dealer

*b

Battery Collection Agent
Before returning the HV battery, make sure to perform a recovery inspection.
Make a note of the output DTCs as some of them may be necessary for recovery inspection of the HV battery.

NOTICE:

After turning the power switch off, waiting time may be required before disconnecting the cable from the negative (-) auxiliary battery terminal. Therefore, make sure to read the disconnecting the cable from the negative (-) auxiliary battery terminal notices before proceeding with work.

Click here

HINT:

When measuring insulation resistance using a megohmmeter, set the megohmmeter to 500 V.

PROCEDURE

1.	CHECK DTC OUTPUT (HYBRID CONTROL)

(a) Connect the Techstream to the DLC3.

(b) Turn the power switch on (IG).

(d) Check for DTCs.

Powertrain > Hybrid Control > Trouble Codes

Result	Proceed to
P0AA649, P1C7C49, P1C7D49, P1C7E49 or P1C7F49 only is output, or DTCs except the ones in the table below are also output.	A
Any of the following DTCs are also output.	B

Malfunction Content	Relevant DTC
Microcomputer malfunction	P060647	Hybrid/EV Powertrain Control Module Processor Watchdog / Safety MCU Failure
	P060687	Hybrid/EV Powertrain Control Module Processor to Monitoring Processor Missing Message
	P060A29	Hybrid/EV Powertrain Control Module Monitoring Processor Signal Invalid
	P060A44	Hybrid/EV Powertrain Control Module Monitoring Processor Data Memory Failure
	P060A45	Hybrid/EV Powertrain Control Module Monitoring Processor Program Memory Failure
	P060A47	Hybrid/EV Powertrain Control Module Monitoring Processor Watchdog / Safety MCU Failure
	P060A49	Hybrid/EV Powertrain Control Module Monitoring Processor Internal Electronic Failure
	P060A87	Hybrid/EV Powertrain Control Module Processor from Monitoring Processor Missing Message
	P060B1C	Hybrid/EV Powertrain Control Module A/D Processing Voltage Out of Range
	P060B49	Hybrid/EV Powertrain Control Module A/D Processing Internal Electronic Failure
	P060B71	Hybrid/EV Powertrain Control Module A/D Processing Actuator Stuck
	P1CE31C	Hybrid/EV Powertrain Control Module Monitoring Processor A/D Processing Voltage Out of Range
	P1CE349	Hybrid/EV Powertrain Control Module Monitoring Processor A/D Processing Internal Electronic Failure
	P1CE371	Hybrid/EV Powertrain Control Module Monitoring Processor A/D Processing Actuator Stuck
	P0AFC96	Hybrid/EV Battery Sensor Module Component Internal Failure
	P0AFC00	Hybrid/EV Battery Sensor Module
	P0AFC49	Hybrid/EV Battery Sensor Module Internal Electronic Failure
	P0AFC62	Hybrid/EV Battery Sensor Module Signal Compare Failure
Power Source Circuit Malfunction	P06881F	ECM/PCM Power Relay Sense Circuit Intermittent
Power Source Circuit Malfunction	P0AFC16	Hybrid/EV Battery Sensor Module Circuit Voltage Below Threshold
System malfunction	P1C9E9F	Hybrid/EV System Reset Stuck Off

HINT:

P0AA649 may be output as a result of the malfunction indicated by the DTCs above.
1. The chart above is listed in inspection order of priority.
2. Check DTCs that are output at the same time by following the listed order. (The main cause of the malfunction can be determined without performing unnecessary inspections.)

(e) Turn the power switch off.

GO TO DTC CHART (HYBRID CONTROL SYSTEM)

2.	CHECK DTC OUTPUT (HYBRID CONTROL)

(a) Connect the Techstream to the DLC3.

(b) Turn the power switch on (IG).

(d) Check for DTCs.

Powertrain > Hybrid Control > Trouble Codes

NOTICE:

DTC P1C7C49, P1C7D49, P1C7E49 and P1C7F49 are not stored with P0AA649 at the same time. If a drop in insulation resistance is detected and DTC P0AA649 is output, wait for 1 minute with the power switch on (READY), the shift lever in D and the air conditioning system on within the same trip, then turn the power switch off and wait for 2 minutes to determine the DTC (P1C7C49, P1C7D49, P1C7E49 or P1C7F49).
If only DTC P0AA649 is output, perform the diagnostic procedure for DTC P0AA649 to inspect all of the high voltage circuits.
When any other DTC indicating parts which the insulation resistance dropped are output, perform the diagnostic procedure for each DTC.

Result	Proceed to
P0AA649 (decrease in the insulation resistance of the high-voltage circuit) only is output.	A
P0AA649 and P1C7C49 (decrease in the insulation resistance of the air conditioning system area) are output.	B
P0AA649 and P1C7D49 (decrease in the insulation resistance of the HV battery area) are output.	C
P0AA649 and P1C7E49 (decrease in the insulation resistance of the hybrid vehicle transaxle assembly area) are output.	D
P0AA649 and P1C7F49 (decrease in the insulation resistance of the high-voltage direct current area) are output.	E

(e) Turn the power switch off.

GO TO STEP 11

GO TO STEP 8

GO TO STEP 19

GO TO STEP 25

3.	CHECK HYBRID VEHICLE TRANSAXLE ASSEMBLY (MOTOR CABLE (FOR MG2))

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the motor cable from the inverter with converter assembly.

HINT:

Make sure that no foreign matter, coolant or water enters the inverter with converter assembly.

HINT:

As the insulation resistance may vary when motor (MG2) rotates, perform this inspection while rotating the front wheels.

(d) Turn the power switch on (IG).

NOTICE:

Turning the power switch on (IG) with the service plug grip removed causes DTCs to be stored. Clear the DTCs after performing this inspection.

(e) Move the shift lever to N and lift the vehicle.

(f) Turn the power switch off.

(g) Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below while rotating the front wheels 2 revolutions in the same direction simultaneously.

NOTICE:

Carefully perform this inspection as the motor (MG2) may generate current when the front wheels are rotated by hand.
Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
W2-2 (U) - Body ground and shield ground	Power switch off	100 MΩ or higher
W2-3 (V) - Body ground and shield ground	Power switch off	100 MΩ or higher
W2-1 (W) - Body ground and shield ground	Power switch off	100 MΩ or higher

Shield Ground

Motor Cable (for MG2)

(Inverter with Converter Assembly Side)

(h) Lower the vehicle and move the shift lever to P.

(i) Disconnect the cable from the negative (-) auxiliary battery terminal.

GO TO STEP 12

4.	CHECK HYBRID VEHICLE TRANSAXLE ASSEMBLY (MOTOR CABLE (FOR MG1))

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Connect the cable to the negative (-) auxiliary battery terminal.

HINT:

As the insulation resistance may vary when generator (MG1) rotates, perform this inspection while rotating the front wheels.

NOTICE:

Turning the power switch on (IG) with the service plug grip removed causes DTCs to be stored. Clear the DTCs after performing this inspection.

(d) Move the shift lever to N and lift the vehicle.

(e) Turn the power switch off.

(f) Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below while rotating the front wheels 2 revolutions in the same direction simultaneously.

NOTICE:

Carefully perform this inspection as the generator (MG1) may generate current when the front wheels are rotated by hand.
Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
W2-5 (U) - Body ground and shield ground	Power switch off	100 MΩ or higher
W2-6 (V) - Body ground and shield ground	Power switch off	100 MΩ or higher
W2-4 (W) - Body ground and shield ground	Power switch off	100 MΩ or higher

Shield Ground

Motor Cable (for MG1)

(Inverter with Converter Assembly Side)

(g) Lower the vehicle and move the shift lever to P.

(h) Disconnect the cable from the negative (-) auxiliary battery terminal.

GO TO STEP 13

5.	CHECK HV AIR CONDITIONING WIRE

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the HV air conditioning wire connector from the inverter with converter assembly.

HINT:

Make sure that no foreign matter has entered or contaminated the HV air conditioning wire.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.
Be sure to inspect with connecting the tester probes to the tips of the terminal.

Standard Resistance:

Tester Connection	Condition	Specified Condition
T2-1 (ACPB) - Body ground and shield ground	Power switch off	3 MΩ or higher
T2-2 (ACPE) - Body ground and shield ground	Power switch off	3 MΩ or higher

Shield Ground

HV air conditioning wire

(Inverter with Converter Assembly Side)

Tip of Terminal

GO TO STEP 30

6.	CHECK HV FLOOR UNDER WIRE

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the HV floor under wire connector from the inverter with converter assembly.

HINT:

Make sure that no foreign matter has entered or contaminated the HV floor under wire.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.
Be sure not to damage or deform the terminal being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
S1-1 (CBI) - Body ground and shield ground	Power switch off	10 MΩ or higher
S1-2 (CEI) - Body ground and shield ground	Power switch off	10 MΩ or higher

HINT:

Visually inspect the HV floor under wire for damage. If there is any damage, then this is the likely cause of low insulation resistance.

Shield Ground

HV Floor Under Wire

(Inverter with Converter Assembly Side)

GO TO STEP 28

7.	CHECK INVERTER WITH CONVERTER ASSEMBLY

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Connect the HV floor under wire connector to the inverter with converter assembly.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
High voltage terminal - Body ground	Power switch off	1 MΩ or higher

HINT:

Perform this inspection with the motor cable and air conditioning wire disconnected from the inverter with converter assembly.

*a	High Voltage Terminal

GO TO STEP 27

8.	CHECK HV BATTERY JUNCTION BLOCK ASSEMBLY

CAUTION:

Be sure to wear insulated gloves.

HINT:

Make sure that no foreign matter or water has entered the HV battery.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Remove the No. 1 HV battery cover panel RH.

Click here

NOTICE:

Insulate each disconnected high-voltage connector with insulating tape. Wrap the connector from the wire harness side to the end of the connector.

(d) Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
y5-1 (+) - Body ground	Power switch off	10 MΩ or higher
y3-1 (-) - Body ground	Power switch off	10 MΩ or higher

*a	Component without harness connected (HV Battery Junction Block Assembly)

GO TO STEP 29

9.	CHECK HV BATTERY (HIGH VOLTAGE CABLE)

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
2 - Body ground	Power switch off	10 MΩ or higher

*a	Service Plug Grip Removed (Service Plug Grip Connecting Terminals)

GO TO STEP 23

10.	CHECK HV BATTERY

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
1 - Body ground	Power switch off	10 MΩ or higher

*a	Service Plug Grip Removed (Service Plug Grip Connecting Terminals)

GO TO STEP 18

GO TO STEP 14

11.	GO TO AIR CONDITIONING SYSTEM (P1C7C49)

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

12.	CHECK MOTOR CABLE (FOR MG2)

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Remove the motor cable from the hybrid vehicle transaxle assembly.

Click here

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
W2-2 (U) - Shield ground	Power switch off	100 MΩ or higher
W2-3 (V) - Shield ground	Power switch off	100 MΩ or higher
W2-1 (W) - Shield ground	Power switch off	100 MΩ or higher

Shield Ground

Motor Cable (for MG2)

(Inverter with Converter Assembly Side)

GO TO STEP 22

GO TO STEP 24

13.	CHECK MOTOR CABLE (FOR MG1)

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Remove the motor cable from the hybrid vehicle transaxle assembly.

Click here

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
W2-5 (U) - Shield ground	Power switch off	100 MΩ or higher
W2-6 (V) - Shield ground	Power switch off	100 MΩ or higher
W2-4 (W) - Shield ground	Power switch off	100 MΩ or higher

Shield Ground

Motor Cable (for MG1)

(Inverter with Converter Assembly Side)

GO TO STEP 22

GO TO STEP 24

14.	CHECK HV BATTERY (HIGH VOLTAGE CABLE)

CAUTION:

Be sure to wear insulated gloves and protective goggles.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Remove the No. 1 HV battery shield panel.

Click here

(d) Disconnect the high voltage connector.

NOTICE:

Insulate each disconnected high-voltage connector with insulating tape. Wrap the connector from the wire harness side to the end of the connector.

(e) Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
y4-1 - HV battery carrier	Power switch off	10 MΩ or higher

High Voltage Cable

(Hybrid Battery Terminal Block Side)

HV Battery Carrier

GO TO STEP 23

15.	CHECK HV BATTERY (HIGH VOLTAGE CABLE)

CAUTION:

Be sure to wear insulated gloves and protective goggles.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the high voltage connector.

NOTICE:

Insulate each disconnected high-voltage connector with insulating tape. Wrap the connector from the wire harness side to the end of the connector.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
y1-1 - HV battery carrier	Power switch off	10 MΩ or higher

High Voltage Cable

(Hybrid Battery Terminal Block Side)

HV Battery Carrier

GO TO STEP 17

16.	REPLACE HYBRID BATTERY TERMINAL BLOCK

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

17.	CHECK HV BATTERY (HIGH VOLTAGE CABLE)

CAUTION:

Be sure to wear insulated gloves and protective goggles.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the y2 battery voltage sensor connector.

NOTICE:

Insulate each disconnected high-voltage connector with insulating tape. Wrap the connector from the wire harness side to the end of the connector.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
y1-1 - HV battery carrier	Power switch off	10 MΩ or higher

High Voltage Cable

(Hybrid Battery Terminal Block Side)

HV Battery Carrier

GO TO STEP 23

18.	REPLACE BATTERY VOLTAGE SENSOR

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

19.	CHECK INVERTER WITH CONVERTER ASSEMBLY

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the motor cable from the inverter with converter assembly.

HINT:

Make sure that no foreign matter, coolant or water enters the inverter with converter assembly.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
High voltage terminal - Body ground	Power switch off	1 MΩ or higher

HINT:

Perform this inspection with the motor cable disconnected from the inverter with converter assembly.

*a	High Voltage Terminal

GO TO STEP 27

20.	CHECK MOTOR CABLE (FOR MG2)

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Remove the motor cable from the hybrid vehicle transaxle assembly.

Click here

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
W2-2 (U) - Shield ground	Power switch off	100 MΩ or higher
W2-3 (V) - Shield ground	Power switch off	100 MΩ or higher
W2-1 (W) - Shield ground	Power switch off	100 MΩ or higher

Shield Ground

Motor Cable (for MG2)

(Inverter with Converter Assembly Side)

GO TO STEP 24

21.	CHECK MOTOR CABLE (FOR MG1)

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Remove the motor cable from the hybrid vehicle transaxle assembly.

Click here

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
W2-5 (U) - Shield ground	Power switch off	100 MΩ or higher
W2-6 (V) - Shield ground	Power switch off	100 MΩ or higher
W2-4 (W) - Shield ground	Power switch off	100 MΩ or higher

Shield Ground

Motor Cable (for MG1)

(Inverter with Converter Assembly Side)

GO TO STEP 24

22.	REPLACE HYBRID VEHICLE TRANSAXLE ASSEMBLY

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

23.	REPLACE HV BATTERY

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

24.	REPLACE MOTOR CABLE

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

25.	CHECK HIGH VOLTAGE DIRECT CURRENT AREA

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the HV floor under wire connector from the inverter with converter assembly.

HINT:

Make sure that no foreign matter has entered or contaminated the HV floor under wire.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.
Be sure not to damage or deform the terminal being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
S1-1 (CBI) - Body ground and shield ground	Power switch off	10 MΩ or higher
S1-2 (CEI) - Body ground and shield ground	Power switch off	10 MΩ or higher

HINT:

Visually inspect the HV floor under wire for damage. If there is any damage, then this is the likely cause of low insulation resistance.

Shield Ground

HV Floor Under Wire

(Inverter with Converter Assembly Side)

GO TO STEP 28

26.	CHECK HV AIR CONDITIONING WIRE

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the HV air conditioning wire connector from the inverter with converter assembly.

HINT:

Make sure that no foreign matter has entered or contaminated the HV air conditioning wire.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.
Be sure to inspect with connecting the tester probes to the tips of the terminal.

Standard Resistance:

Tester Connection	Condition	Specified Condition
T2-1 (ACPB) - Body ground and shield ground	Power switch off	3 MΩ or higher
T2-2 (ACPE) - Body ground and shield ground	Power switch off	3 MΩ or higher

Shield Ground

HV air conditioning wire

(Inverter with Converter Assembly Side)

Tip of Terminal

GO TO STEP 30

27.	REPLACE INVERTER WITH CONVERTER ASSEMBLY

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

28.	CHECK HV FLOOR UNDER WIRE

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Remove the No. 1 HV battery cover panel RH.

Click here

HINT:

Make sure that no foreign matter has entered or contaminated the HV floor under wire.

(d) Using a megohmmeter set to 500 V, measure the resistance according to the value(s) in the table below.

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.
Be sure not to damage or deform the terminal being inspected.

Standard Resistance:

Tester Connection	Condition	Specified Condition
S1-1 (CBI) - Body ground and shield ground	Power switch off	10 MΩ or higher
S1-2 (CEI) - Body ground and shield ground	Power switch off	10 MΩ or higher

HINT:

Visually inspect the HV floor under wire for damage. If there is any damage, then this is the likely cause of low insulation resistance.

Shield Ground

HV Floor Under Wire

(Inverter with Converter Assembly Side)

GO TO STEP 32

29.	REPLACE HV BATTERY JUNCTION BLOCK ASSEMBLY

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

30.	CHECK HV AIR CONDITIONING WIRE

CAUTION:

Be sure to wear insulated gloves.

(a) Check that the service plug grip is not installed.

NOTICE:

After removing the service plug grip, do not turn the power switch on (READY), unless instructed by the repair manual because this may cause a malfunction.

(b) Disconnect the HV air conditioning wire from the compressor with motor assembly.

Click here

NOTICE:

Be sure to set the megohmmeter to 500 V when performing this test. Using a setting higher than 500 V can result in damage to the component being inspected.
Be sure to inspect with connecting the tester probes to the tips of the terminal.

Standard Resistance:

Tester Connection	Condition	Specified Condition
T2-1 (ACPB) - Body ground and shield ground	Power switch off	10 MΩ or higher
T2-2 (ACPE) - Body ground and shield ground	Power switch off	10 MΩ or higher

Shield Ground

HV air conditioning wire

(Inverter with Converter Assembly Side)

Tip of Terminal

GO TO STEP 33

31.	GO TO AIR CONDITIONING SYSTEM (P1C7C49)

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

32.	REPLACE HV FLOOR UNDER WIRE

Click here

PERFORM CONFIRMATION AFTER REPLACING PARTS

33.	REPLACE HV AIR CONDITIONING WIRE

PERFORM CONFIRMATION AFTER REPLACING PARTS

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DESCRIPTION The ATF temperature sensor converts the automatic transaxle fluid (ATF) temperature into a resistance value for use by the ECM. The ECM applies a voltage to the temperature sensor through terminal THO1 of the ECM. The sensor resistance changes with the ATF temperature. As the temperature ...

*a	Dealer
*b	Battery Collection Agent