Terminals Of ECM

Fig 1: Identifying ECM Terminals

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

NOTE:

The ECM has waterproof connectors. Therefore, voltage or waveforms cannot be checked with the connectors connected to the vehicle.
The standard normal voltage (reference values) between each pair of the ECM terminals is shown in the table below. The appropriate conditions for checking each pair of the terminals are also indicated. The result of checks should be compared with the standard normal voltage for that pair of terminals, displayed in the Specified Condition column. The illustration above can be used as a reference to identify the ECM terminal locations.

TERMINAL DESCRIPTION AND SPECIFIED CONDITION

Symbol (Terminal No.)	Wiring Color	Terminal Description	Condition	Specified Condition
BATT (A53-20) - E1 (E83-104)	L - BR	Battery (for measuring battery voltage and for ECM memory)	Always	9 to 14 V
+BM (E83-20) - E1 (E83-104)	P - BR	Power source of throttle actuator	Always	9 to 14 V
IGSW (A53-11) - E1 (E83-104)	B-W - BR	Power switch	Power switch ON (IG)	9 to 14 V
+B(A53-2) - E1 (E83-104)	B-R - BR	Power source of ECM	Power switch ON (IG)	9 to 14 V
+B1 (A53-1) - E1 (E83-104)	B-R - BR	Power source of ECM	Power switch ON (IG)	9 to 14 V
OC1+ (E83-8) - OC1- (E83-7)	W - Y-B	Camshaft timing oil control valve (OCV) (intake side [bank 1])	Power switch ON (IG)	Pulse generation (see 1waveform 1)
OC2+ (E83-4) - OC2- (E83-3)	LG - L-B	Camshaft timing oil control valve (OCV) (intake side [bank 2])	Power switch ON (IG)	Pulse generation (see 1waveform 1)
OE1+(E83-6) - OE1-(E83-5)	LG - L-W	Camshaft timing oil control valve (OCV) (exhaust side [bank 1])	Power switch ON (IG)	Pulse generation (see 1waveform 1)
OE2+ (E83-2) - OE2- (E83-1)	R-B - G-B	Camshaft timing oil control valve (OCV) (exhaust side [bank 2])	Power switch ON (IG)	Pulse generation (see 1waveform 1)
MREL (A53-12) - E1 (E83-104)	Y - BR	EFI MAIN relay	Power switch ON (IG)	9 to 14 V
VC (E83-125) - E2 (E83-103)	L - BR	Power source for sensor (specific voltage)	Power switch ON (IG)	4.5 to 5.0 V
VC2 (E83-120) - E3 (E83-97)	W-B - W-B	Power source for sensor (specific voltage)	Power switch ON (IG)	4.5 to 5.0 V
VG (E83-102) - E2G (E83-101)	G-B - B-W	Mass air flow meter	Idling, Shift lever position P or N, A/C switch OFF	0.5 to 3.0 V
THA (E83-55) - E3 (E83-97)	G - W-B	Intake air temperature sensor	Idling, Intake air temperature 20°C (68°F)	0.5 to 3.4 V
THW (E83-114) - E2 (E83-103)	R - BR	Engine coolant temperature sensor	Idling, Engine coolant temperature 80°C(176°F)	0.2 to 1.0 V
TAM (A53-53) - E3 (E83-97)	R - W-B	Ambient temperature sensor	Power switch ON (IG) at 25°C (77°F)	1.8 to 2.2 V
TAM (A53-53) - E3 (E83-97)	R - W-B	Ambient temperature sensor	Power switch ON (IG) at 40°C(104°F)	1.2 to 1.6 V
VTA1 (E83-80) - E3 (E83-97)	R-B - W-B	Throttle position sensor (for engine control)	Idling, Accelerator pedal released	0.5 to 1.2 V
VTA1 (E83-80) - E3 (E83-97)	R-B - W-B	Throttle position sensor (for engine control)	2,500 rpm (Depress accelerator pedal fully)	0.6 to 1.2 V
VTA2 (E83-79) - E3 (E83-97)	L-B - W-B	Throttle position sensor (for sensor malfunction detection)	Idling, Accelerator pedal released	2.1 to 3.1 V
VTA2 (E83-79) - E3 (E83-97)	L-B - W-B	Throttle position sensor (for sensor malfunction detection)	2,500 rpm (Depress accelerator pedal fully)	2.2 to 3.2 V
HA1A (E83-86) - E1 (E83-104)	V - BR	A/F sensor heater	Idling	Below 3.0 V
HA2A (E83-109) - E1 (E83-104)	B-L - BR	A/F sensor heater	Idling	Below 3.0 V
HA1A (E83-86) - E1 (E83-104)	V - BR	A/F sensor heater	Power switch ON (IG)	9 to 14 V
HA2A (E83-109) - E1 (E83-104)	B-L - BR	A/F sensor heater	Power switch ON (IG)	9 to 14 V
A1A+ (E83-67) - E1 (E83-104)	R - BR	A/F sensor	Power switch ON (IG)	3.3 V*
A2A+ (E83-65) - E1 (E83-104)	B - BR	A/F sensor	Power switch ON (IG)	3.3 V*
A1A-(E83-66) - E1 (E83-104)	G - BR	A/F sensor	Power switch ON (IG)	3.0 V*
A2A- (E83-64) - E1 (E83-104)	W - BR	A/F sensor	Power switch ON (IG)	3.0 V*
HT1B (E83-63) - E03 (E83-107)	Y-B - W-B	Heated oxygen sensor heater	Idling	Below 3.0 V
HT2B (E83-62) - E03 (E83-107)	V - W-B	Heated oxygen sensor heater	Idling	Below 3.0 V
HT1B (E83-63) - E03 (E83-107)	Y-B - W-B	Heated oxygen sensor heater	Power switch ON (IG)	9 to 14 V
HT2B (E83-62) - E03 (E83-107)	V - W-B	Heated oxygen sensor heater	Power switch ON (IG)	9 to 14 V
OX1B (A53-57) - O1B - (A53-58)	R-G	Heated oxygen sensor	Maintain engine speed at 2,500 rpm for 2 minutes after warming up sensor	Pulse generation (see 2waveform 2)
OX2B (A53-55) - O2B - (A53-54)	B-W	Heated oxygen sensor		Pulse generation (see 2waveform 2)
#1D (E83-40) - E1 (E83-104)	G-W - BR	Fuel injector (for direct injection)	Power switch ON (IG)	0 to 5 V
#2D (E83-37) - E1 (E83-104)	B-Y - BR
#3D (E83-39) - E1 (E83-104)	P-L - BR
#4D (E83-36) - E1 (E83-104)	LG-B - BR
#5D (E83-38) - E1 (E83-104)	V - BR
#6D (E83-35) - E1 (E83-104)	R-B - BR
#1D (E83-40) - E1 (E83-104)	G-W - BR	Fuel injector (for direct injection)	Idling	Pulse generation (see 3waveform 3)
#2D (E83-37) - E1 (E83-104)	B-Y - BR
#3D (E83-39) - E1 (E83-104)	P-L - BR
#4D (E83-36) - E1 (E83-104)	LG-B - BR
#5D (E83-38) - E1 (E83-104)	V - BR
#6D (E83-35) - E1 (E83-104)	R-B - BR
#1P (E83-45) - E1 (E83-104)	Y-B - BR	Fuel injector (for port injection)	Power switch ON (IG)	9 to 14 V
#2P (E83-44) - E1 (E83-104)	B-Y - BR
#3P (E83-85) - E1 (E83-104)	L-W - BR
#4P (E83-84) - E1 (E83-104)	LG - BR
#5P (E83-83) - E1 (E83-104)	R-W - BR
#6P (E83-82) - E1 (E83-104)	R - BR
#1P (E83-45) - E1 (E83-104)	Y-B - BR	Fuel injector (for port injection)	Idling	Pulse generation (see 16waveform 16)
#2P (E83-44) - E1 (E83-104)	B-Y - BR
#3P (E83-85) - E1 (E83-104)	L-W - BR
#4P (E83-84) - E1 (E83-104)	LG - BR
#5P (E83-83) - E1 (E83-104)	R-W - BR
#6P (E83-82) - E1 (E83-104)	R - BR
KNK1 (E83-88) - EKNK (E83-87)	B - W	Knock sensor (bank 1)	Engine speed at 4,000 rpm after warming up engine	Pulse generation (see 4waveform 4)
KNK2 (E83-111) - EKN2 (E83-110)	R - G	Knock sensor (bank 2)	Engine speed at 4,000 rpm after warming up engine	Pulse generation (see 4waveform 4)
VV1+ (E83-77) - VV1- (E83-76)	Y - L-Y	Variable valve timing (VVT) sensor (intake side [bank 1])	Idling	Pulse generation (see 5waveform 5)
VV2+ (E83-90) - VV2- (E83-89)	R - L-W	Variable valve timing (VVT) sensor (intake side [bank 2])	Idling	Pulse generation (see 5waveform 5)
NE+ (E83-69) - NE- (E83-68)	R - G	Crankshaft position sensor	Idling	Pulse generation (see 5waveform 5, 66)
EV1+ (E83-100) - EV1- (E83-99)	B - W	Variable valve timing (VVT) sensor (exhaust side [bank 1])	Idling	Pulse generation (see 6waveform 6)
EV2+ (E83-113) - EV2- (E83-112)	G - R	Variable valve timing (VVT) sensor (exhaust side [bank 2])	Idling	Pulse generation (see 6waveform 6)
IGT1 (E83-17) - E1 (E83-104)	L-R - BR	Ignition coil (ignition signal)	Idling	Pulse generation (see 7waveform 7)
IGT2 (E83-14) - E1 (E83-104)	L-B - BR
IGT3 (E83-16) - E1 (E83-104)	V - BR
IGT4 (E83-13) - E1 (E83-104)	P-L - BR
IGT5 (E83-15) - E1 (E83-104)	W-L - BR
IGT6 (E83-12) - E1 (E83-104)	W-L - BR
IGF1 (E83-11) - E1 (E83-104)	G - BR	Ignition coil (ignition confirmation signal)	Power switch ON (IG)	4.5 to 5.0 V
IGF2 (E83-10) - E1 (E83-104)	G-B - BR	Ignition coil (ignition confirmation signal)	Power switch ON (IG)	4.5 to 5.0 V
IGF1 (E83-11) - E1 (E83-104)	G - BR	Ignition coil (ignition confirmation signal)	Idling	Pulse generation (see 7waveform 7)
IGF2 (E83-10) - E1 (E83-104)	G-B - BR	Ignition coil (ignition confirmation signal)	Idling	Pulse generation (see 7waveform 7)
PRG (E83-81) - E1 (E83-104)	W - BR	Purge VSV	Power switch ON (IG)	9 to 14 V
PRG (E83-81) - E1 (E83-104)	W - BR	Purge VSV	Idling	Pulse generation (see 8waveform 8)
M+ (E83-19) - ME01 (E83-43)	B - B	Throttle actuator	Idling with warm engine	Pulse generation (see 9waveform 9)
M- (E83-18) - ME01 (E83-43)	W - B	Throttle actuator	Idling with warm engine	Pulse generation (see 10waveform 10)
FC (A53-7) - E1 (E83-104)	R-G - BR	Fuel pump control	Power switch ON (IG)	9 to 14 V
FC (A53-7) - E1 (E83-104)	R-G - BR	Fuel pump control	Idling	0 to 3 V
FPR (A53-6) - E1 (E83-104)	R-W - BR	Fuel pump control	Cranking	9 to 14 V
FPR (A53-6) - E1 (E83-104)	R-W - BR	Fuel pump control	Idling	0 to 3 V
W (A53-24) - E1 (E83-104)	R-L - BR	MIL	Power switch ON (IG)	Below 3.0 V
W (A53-24) - E1 (E83-104)	R-L - BR	MIL	Idling	0 to 3 V
TC (A53-27) - E1 (E83-104)	V - BR	Terminal TC of DLC3	Power switch ON (IG)	9 to 14 V
TACH (A53-15) - E1 (E83-104)	W-L - BR	Engine speed	Idling	Pulse generation (see 11waveform 11)
VPMP (A53-17) - E1 (E83-104)	LG - BR	Vent valve (built into canister pump module)	Power switch ON (IG)	9 to 14 V
MPMP (A53-16) - E1 (E83-104)	P - BR	Leak detection pump (built into pump module)	Leak detection pump OFF	Below 3 V
MPMP (A53-16) - E1 (E83-104)	P - BR	Leak detection pump (built into canister pump module)	Leak detection pump ON	9 to 14 V
PPMP (A53-60) - E1 (E83-104)	V - BR	Canister pressure sensor (built into canister pump module)	Power switch ON (IG)	3 to 3.6 V
PTNK (A53-59) - E1 (E83-104)	GR - BR	Fuel tank pressure sensor	Power switch ON (IG)	0.5 to 4.5 V
CCV2 (A53-50) - E1 (E83-104)	W - BR	Fuel vapor-containment valve	Close valve ON (Open)	Below 1.0 V
CCV2 (A53-50) - E1 (E83-104)	W - BR	Fuel vapor-containment valve	Close valve OFF (Close)	10 to 14 V
INJF (E83-34) - E1 (E83-104)	GR - BR	Fuel injector for direct injection confirmation signal	Idling	Pulse generation (see 12waveform 12)
IJF2 (E83-33) - E1 (E83-104)	R - BR	Fuel injector for direct injection confirmation signal	Idling	Pulse generation (see 12waveform 12)
IJF3 (E83-32) - E1 (E83-104)	R-W - BR	Fuel injector for direct injection confirmation signal	Idling	Pulse generation (see 12waveform 12)
FPF1 (E83-52) - E1 (E83-104)	W-L - BR	Fuel pump for high pressure (spill control valve)	Idling	Pulse generation (see 13waveform 13)
FPD (E83-53) - E1 (E83-104)	R-L - BR	Fuel pump for high pressure (spill control valve)	Idling	Pulse generation (see 13waveform 13)
PR(E83-115) - E2 (E83-103)	L-B - BR	Fuel pressure sensor	Idling	1.8 to 2.3 V
DSVR (A53-3) - E1 (E83-104)	B - BR	Fuel relief valve relay	Fuel relief valve relay OFF	9 to 14 V
DSVR (A53-3) - E1 (E83-104)	B - BR	Fuel relief valve relay	Fuel relief valve relay ON	0 to 3 V
CANH (A53-52) - E1 (E83-104)	W - BR	CAN communication line	Power switch ON (IG)	Pulse generation (see 14waveform 14)
CANL (A53-33) - E1 (E83-104)	B - BR	CAN communication line	Power switch ON (IG)	Pulse generation (see 15waveform 15)
CAN+ (A53-22) - E1 (E83-104)	W - BR	CAN communication line	Power switch ON (IG)	Pulse generation (see 14waveform 14)
CAN- (A53-21) - E1 (E83-104)	B - BR	CAN communication line	Power switch ON (IG)	Pulse generation (see 15waveform 15)
IREL (A53-13) - E1 (E83-104)	GR - BR	INJ relay	Power switch ON (IG)	9 to 14 V
RDEF (A53-14) - E1 (E83-104)	G-B - BR	DEFOG relay	DEFOG relay OFF	9 to 14 V
			DEFOG relay ON	Below 1.5 V
FUO (A53-51) - E1 (E83-104)	W-B - BR	Fuel lid opener motor	Fuel filler door opener switch ON	Below 1 V
FUO (A53-51) - E1 (E83-104)	W-B - BR	Fuel lid opener motor	Fuel filler door opener switch OFF	10 to 14 V
RFC (A53-43) - E1 (E83-104)	G-Y - BR	Cooling fan ECU	Idling with A/C ON	Pulse generation (see 17waveform 17)
KSW (A53-28) - E1 (E83-104)	L - BR	Power source control ECU	Power switch OFF → ON (IG)	0 to 3 V
GO1 (A53-40) - E1 (E83-104)	W - BR	Hybrid vehicle control ECU	Camshaft revolution signal	Pulse generation (see 18waveform 18)
NEO1 (A53-41) - E1 (E83-104)	B - BR	Hybrid vehicle control ECU	Crankshaft revolution signal	Pulse generation (see 19waveform 19)
LIDO (A53-18) - E1 (E83-104)	BR - BR	Fuel lid courtesy switch	Fuel filler door opener switch ON	0 to 3 V
LIDO (A53-18) - E1 (E83-104)	BR - BR	Fuel lid courtesy switch	Fuel filler door opener switch OFF	9 to 14 V
MOPS (E83-47) - E1 (E83-104)	LG-B - BR	Engine oil pressure switch	Power switch ON (IG)	9 to 14 V
MOPS (E83-47) - E1 (E83-104)	LG-B - BR	Engine oil pressure switch	Idling	9 to 14 V
FUEL (A53-19) - E1 (E83-104)	R - BR	Fuel filler door opener switch	Fuel filler door opener switch ON	Below 3 V
FUEL (A53-19) - E1 (E83-104)	R - BR	Fuel filler door opener switch	Fuel filler door opener switch OFF	10 to 14 V
MOL (E83-48) - E1 (E83-104)	G-R - BR	Engine oil level sensor	Power switch ON (IG)	0 to 3 V
GO2 (A53-48) - E1 (E83-104)	W - BR	MG ECU	Camshaft revolution signal	Pulse generation (see 18waveform 18)
HINT: *: The ECM terminal voltage is constant regardless of the output voltage from the sensor.

WAVEFORM 1

Camshaft timing oil control valve (OCV):

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between OC1+ and OC1- or OC2+ and OC2- Between OE1+ and OE1- or OE2+ and OE2-
Tester Range	5 V/DIV., 1 msec./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 2: Waveform 1 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 2

Heated oxygen sensor:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between OX1B and 01B- or OX2B and O2B-
Tester Range	0.2 V/DIV., 200 msec./DIV.
Condition	Engine speed maintained at 2,500 rpm for 2 minutes after warming up engine

HINT:

In Data List, item O2S B1 S2, O2S B2 S2 shows the ECM input values from the heated oxygen sensor.

Fig 3: Waveform 2 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 3

Fuel injector (for direct injection) No. 1 (to No. 6) injection signal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between #1D (to #6D) and E1
Tester Range	2 V/DIV., 20 msec./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 4: Waveform 3 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 4

Knock sensor:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between KNK1 and EKNK Between KNK2 and EKN2
Tester Range	0.01 to 10 V/DIV, 0.01 to 10 msec./DIV.
Condition	Engine speed maintained at 4,000 rpm after warming up engine

HINT:

The wavelength becomes shorter as the engine rpm increases.
The waveforms and amplitudes displayed differ slightly depending on the vehicle.

Fig 5: Waveform 4 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 5

Crankshaft position sensor and VVT sensor for intake camshaft:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between NE+ and NE- Between VV1+ and VV1- or VV2+ and VV2-
Tester Range	5 V/DIV., 20 msec./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 6: Waveform 5 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 6

Crankshaft position sensor and VVT sensor for exhaust camshaft:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between NE+ and NE- Between EV1+ and EV1- or EV2+ and EV2-
Tester Range	5 V/DIV., 20 msec./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 7: Waveform 6 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 7

Igniter IGT signal (from ECM to igniter) and Igniter IGF signal (from igniter to ECM):

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between IGT (1 to 6) and E1 Between IGF1 and E1 or IGF2 and E1
Tester Range	2 V/DIV., 20 msec./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 8: Waveform 7 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 8

Purge VSV:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between PRG and E1
Tester Range	5 V/DIV., 50 msec./DIV.
Condition	Idling

HINT:

If the waveform is not similar to the illustration, check the waveform again after idling for 10 minutes or more.

Fig 9: Waveform 8 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 9

Throttle actuator positive terminal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between M+ and ME01
Tester Range	5 V/DIV., 1 msec./DIV.
Condition	Idling with warm engine

HINT:

The duty ratio varies depending on the throttle actuator operation.

Fig 10: Waveform 9 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 10

Throttle actuator negative terminal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between M- and ME01
Tester Range	5 V/DIV., 1 msec./DIV.
Condition	Idling with warm engine

HINT:

The duty ratio varies depending on the throttle actuator operation.

Fig 11: Waveform 10 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 11

Engine speed signal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between TACH and E1
Tester Range	5 V/DIV., 10 msec./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 12: Waveform 11 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 12

Fuel injector (for direct injection) No. 1 (to No. 6) injection signal and injection confirmation signal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	CH1: Between #1D (to #6D) and E1 CH2: Between INJF, IJF2, IJF3 and E1
Tester Range	2 V/DIV., 20 msec./DIV.
Condition	Idling with warm engine

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 13: Waveform 12 Reference Graph

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

WAVEFORM 13

Fuel pump for high pressure (spill control valve):

WAVEFORM REFERENCE CHART

ECM Terminal Name	CH1: Between FPD and E1 CH2: Between FPF1 and E1
Tester Range	2 V/DIV., 5 msec./DIV.
Condition	Idling with warm engine

Fig 14: Waveform 13 Reference Graph

WAVEFORM 14

CAN communication signal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between CANH and E1 Between CAN+ and E1
Tester Range	1 V/DIV., 10 μsec./DIV.
Condition	Stop engine and power switch ON (IG)

HINT:

The waveform varies depending on the CAN communication signal.

Fig 15: Waveform 14 Reference Graph

WAVEFORM 15

CAN communication signal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between CANL and E1 Between CAN- and E1
Tester Range	1 V/DIV., 10 μsec/DIV.
Condition	Stop engine and power switch ON (IG)

HINT:

The waveform varies depending on the CAN communication signal.

Fig 16: Waveform 15 Reference Graph

WAVEFORM 16

Fuel injector (for port injection) No. 1 (to No. 6) injection signal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between #1P (to #6P) and E1
Tester Range	50 V/DIV., 400 μsec/DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 17: Waveform 16 Reference Graph

WAVEFORM 17

Cooling fan ECU signal:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between RFC and E1
Tester Range	1 V/DIV., 20 msec./DIV.
Condition	Idling with A/C ON

Fig 18: Waveform 17 Reference Graph

WAVEFORM 18

Camshaft revolution signal from ECM to HV Control ECU or MG ECU:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between GO1 and E1 Between GO2 and E1
Tester Range	5 V/DIV., 20 msec./DIV.
Condition	Power switch ON (READY) with engine running

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 19: Waveform 18 Reference Graph

WAVEFORM 19

Crankshaft revolution signal from ECM to HV Control ECU:

WAVEFORM REFERENCE CHART

ECM Terminal Name	Between NEO1 and E1
Tester Range	5 V/DIV, 1 msec./DIV.
Condition	Power switch ON (READY) with engine running

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 20: Waveform 19 Reference Graph