Terminal CONNECTIOR Identification

SFI SYSTEM

Fig 1: Identifying D1 & A76 SFI System Connectors

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

HINT:

The standard normal voltage 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 No. (Symbol)	Wiring Color	Terminal Description	Condition	Specified Condition
A76-3 (+B) - D1-46 (E1)	B - BR	Power source of ECM	Power switch on (IG)	11 to 14 V
A76-4 (+B2) - D1-46 (E1)	L - BR	Power source of ECM	Power switch on (IG)	11 to 14 V
A76-15 (BATT) - D1-46 (E1)	V - BR	Battery (for measuring the battery voltage and for the ECM memory)	Always	11 to 14 V
D1-30 (+BM) - D1-46 (E1)	L - BR	Power source of electronic throttle control system throttle motor	Always	11 to 14 V
A76-21 (MREL) - D1-46 (E1)	BE - BR	EFI MAIN relay operation signal	Power switch on (IG)	11 to 14 V
D1-118 (VCTA) - D1-119 (ETA)	R - LG	Power source for throttle position sensor (specific voltage)	Idling with warm engine	4.5 to 5.5 V
D1-78 (VCV1) - D1-46 (E1)	L - BR	Power source for VVT sensor (specific voltage)	Idling with warm engine	4.5 to 5.5 V
D1-79 (VCV2) - D1-46 (E1)	W-L - BR	Power source for VVT sensor (specific voltage)	Idling with warm engine	4.5 to 5.5 V
A76-1 (IGSW) - D1-46 (E1)	G - BR	Power switch signal	Power switch on (IG)	11 to 14 V
A76-8 (FC) - D1-46 (E1)	B - BR	C/OPN relay operation signal (fuel pump control)	Power switch on (IG)	11 to 14 V
A76-8 (FC) - D1-46 (E1)	B - BR	C/OPN relay operation signal (fuel pump control)	Idling with warm engine	0 to 1.5 V
A76-30 (VPMP) - D1-46 (E1)	G - BR	Vent valve (built into canister pump module)	Power switch on (IG)	11 to 14 V
A76-31 (MPMP) - D1-46 (E1)	V - BR	Leak detection pump (built into canister pump module)	Leak detection pump off	0 to 3.0 V
A76-31 (MPMP) - D1-46 (E1)	V - BR	Leak detection pump (built into canister pump module)	Leak detection pump on	11 to 14 V
A76-52 (PPMP) - D1-46 (E1)	BE - BR	Canister pressure sensor (built into canister pump module)	Power switch on (IG)	3.0 to 3.6 V
A76-54 (VCPP) - A76-53 (EPPM)	BR - R	Power source for canister pressure sensor (specific voltage)	Power switch on (IG)	4.5 to 5.5 V
A76-42 (TC) - D1-46 (E1)	L - BR	Terminal TC of DLC3	Power switch on (IG)	11 to 14 V
A76-16 (W) - D1-46 (E1)	BR - BR	Malfunction Indicator Lamp (MIL) operation signal	Power switch on (IG)	Below 3.0 V
A76-16 (W) - D1-46 (E1)	BR - BR	Malfunction Indicator Lamp (MIL) operation signal	Idling with warm engine	11 to 14 V
A76-12 (CANH) - D1-46 (E1)	G - BR	CAN communication line	Engine stopped and power switch on (IG)	Pulse generation (see waveform 10Fig 11)
A76-25 (CANL) - D1-46 (E1)	L - BR	CAN communication line	Engine stopped and power switch on (IG)	Pulse generation (see waveform 11Fig 12)
D1-46 (E1) - Body ground	BR - Body ground	Earth (ground) circuit of ECM	Always	Below 1 Ω
D1-19 (#10) - D1-57 (E01) D1-20 (#20) - D1-57 (E01) D1-53 (#30) - D1-57 (E01) D1-49 (#40) - D1-57 (E01) D1-21 (#50) - D1-57 (E01) D1-52 (#60) - D1-57 (E01)	L - W-B Y - W-B B - W-B W - W-B B-W - W-B G - W-B	Fuel injector assembly operation signal	Power switch on (IG)	11 to 14 V
	L - W-B Y - W-B B - W-B W - W-B B-W - W-B G - W-B	Fuel injector assembly operation signal	Idling with warm engine	Pulse generation (see waveform 3Fig 4)
D1-8 (OC2+) - D1-9 (OC2-)	P - L	Camshaft timing oil control valve assembly operation signal (bank 2)	Idling	Pulse generation (see waveform 1Fig 2)
D1-10 (OC1+) - D1-11 (OC1-)	W - B	Camshaft timing oil control valve assembly operation signal (bank 1)	Idling	Pulse generation (see waveform 1Fig 2)
D1-112 (VV2+) - D1-111 (VV2-)	B - Y	VVT sensor signal (bank 2)	Idling with warm engine	Pulse generation (see waveform 5Fig 6)
D1-109 (VV1+) - D1-110 (VV1-)	P - LG	VVT sensor signal (bank 1)	Idling with warm engine	Pulse generation (see waveform 5Fig 6)
D1-76 (NE+) - D1-77 (NE-)	R - G	Crankshaft position sensor signal	Idling with warm engine	Pulse generation (see waveform 5Fig 6)
D1-29 (M-) - D1-60 (ME01)	W - W-B	Throttle actuator operation signal (negative terminal)	Idling with warm engine	Pulse generation (see waveform 9Fig 10)
D1-28 (M+) - D1-60 (ME01)	B - W-B	Throttle actuator operation signal (positive terminal)	Idling with warm engine	Pulse generation (see waveform 8Fig 9)
D1-58 (E02) - Body ground	BR - Body ground	Earth (ground) circuit of ECM	Always	Below 1 Ω
D1-138 (IGT1) - D1-46 (E1) D1-106 (IGT2) - D1-46 (E1) D1-139 (IGT3) - D1-46 (E1) D1-107 (IGT4) - D1-46 (E1) D1-105 (IGT5) - D1-46 (E1) D1-137 (IGT6) - D1-46 (E1)	L - BR P - BR P - BR L - BR Y - BR W-L - BR	Ignition coil assembly (ignition signal)	Idling with warm engine	Pulse generation (see waveform 6Fig 7)
D1-108 (GE01) - D1-46 (E1)	BR - BR	Shield earth (ground) circuit of throttle actuator	Always	Below 1 V
D1-130 (OX1B) - D1-129 (EX1B) D1-98 (OX2B) - D1-97 (EX2B)	W - BR B - BR	Heated oxygen sensor signal	Engine speed is maintained at 2500 rpm for 2 minutes after warming up engine	Pulse generation (see waveform 2Fig 3)
D1-86 (VTA2) - D1-119 (ETA)	L - LG	Throttle position sensor signal (for sensor malfunction detection)	Power switch on (IG), throttle valve fully closed	2.1 to 3.1 V
D1-85 (VTA1) - D1-119 (ETA)	Y - LG	Throttle position sensor signal (for engine control)	Power switch on (IG), throttle valve fully closed	0.5 to 1.1 V
D1-90 (THW) - D1-122 (ETHW)	G - BR	Engine coolant temperature sensor signal	Idling, engine coolant temperature 60 to 120°C (140 to 248°F)	0.2 to 1.0 V
D1-96 (THA) - D1-128 (ETHA)	L - B	Intake air temperature sensor signal	Idling, intake air temperature 0 to 80°C (32 to 176°F)	0.5 to 3.4 V
D1-54 (IGF1) - D1-46 (E1)	W - BR	Ignition coil assembly (ignition confirmation signal)	Power switch on (IG)	4.5 to 5.0 V
D1-54 (IGF1) - D1-46 (E1)	W - BR	Ignition coil assembly (ignition confirmation signal)	Idling with warm engine	Pulse generation (see waveform 6Fig 7)
D1-121 (VG) - D1-120 (E2G)	R - G	Mass air flow meter sub-assembly signal	Idling, shift lever in P or N, A/C switch off	0 to 3.0 V
D1-140 (PRG) - D1-46 (E1)	G - BR	Purge VSV for EVAP system operation signal	Power switch on (IG)	11 to 14 V
D1-140 (PRG) - D1-46 (E1)	G - BR	Purge VSV for EVAP system operation signal	Idling with warm engine	Pulse generation (see waveform 7Fig 8)
D1-22 (HA2A) - D1-23 (E05)	R - W-B	Air fuel ratio sensor heater operation signal	Idling	Pulse generation (see waveform 12Fig 13)
D1-24 (HA1A) - D1-25 (E04)	B-W - W-B	Air fuel ratio sensor heater operation signal	Idling	Pulse generation (see waveform 12Fig 13)
D1-17 (HT2B) - D1-16 (E03)	W - W-B	Heated oxygen sensor heater operation signal	Idling	Pulse generation (see waveform 12Fig 13)
D1-18 (HT1B) - D1-16 (E03)	B - W-B	Heated oxygen sensor heater operation signal	Idling	Pulse generation (see waveform 12Fig 13)
D1-83 (KNK2) - D1-84 (EKN2)	R - G	Knock control sensor signal (bank 2)	Engine speed maintained at 2500 rpm after warming up engine	Pulse generation (see waveform 4Fig 5)
D1-116 (KNK1) - D1-117 (EKNK)	B - W	Knock control sensor signal (bank 1)	Engine speed maintained at 2500 rpm after warming up engine	Pulse generation (see waveform 4Fig 5)
D1-100 (A1A+) - D1-46 (E1)	BR - BR	Air fuel ratio sensor	Power switch on (IG)	3.3 V*
D1-132 (A1A-) - D1-46 (E1)	Y - BR	Air fuel ratio sensor	Power switch on (IG)	3.0 V*
D1-99 (A2A+) - D1-46 (E1)	P - BR	Air fuel ratio sensor	Power switch on (IG)	3.3 V*
D1-131 (A2A-) - D1-46 (E1)	L - BR	Air fuel ratio sensor	Power switch on (IG)	3.0 V*
A76-29 (FPR) - D1-46 (E1)	LG - BR	Fuel pump control	Cranking	11 to 14 V
A76-29 (FPR) - D1-46 (E1)	LG - BR	Fuel pump control	Idling	11 to 14 V
D1-13 (CAN+) - D1-46 (E1)	B - BR	CAN communication line	Engine stopped and power switch on (IG)	Pulse generation (see waveform 10Fig 11)
D1-26 (CAN-) - D1-46 (E1)	W - BR	CAN communication line	Engine stopped and power switch on (IG)	Pulse generation (see waveform 11Fig 12)
D1-14 (EGR1) - D1-46 (E1)	G - BR	EGR valve assembly signal	Racing engine	Pulse generation (see waveform 13Fig 14)
D1-13 (EGR2) - D1-46 (E1)	W-L - BR
D1-12 (EGR3) - D1-46 (E1)	G-R - BR
D1-15 (EGR4) - D1-46 (E1)	LG - BR
D1-88 (VPIM) - D1-87 (EPIM)	Y - BR	Manifold absolute pressure sensor	Power switch on (IG)	4.5 to 5.0 V
D1-89 (PIM) - D1-87 (EPIM)	P - BR	Manifold absolute pressure sensor	Power switch on (IG)	4.0 to 5.0 V
A76-9 (GO1) - D1-46 (E1)	W - BR	Power management control ECU (HV CPU) (camshaft revolution signal)	Idling	Pulse generation (see waveform 14Fig 15)
A76-22 (GO2) - D1-46 (E1)	B - BR	MG ECU (camshaft revolution signal)	Idling	Pulse generation (see waveform 14Fig 15)
A76-14 (EC) - Body ground	W-B - Body ground	Earth (ground) circuit of ECM	Always	Below 1 Ω
A76-55 (VC) - A76-56 (E2)	G - Y	Power source for fuel tank pressure sensor (specific voltage)	Power switch on (IG)	4.5 to 5.5 V
A76-50 (PTNK) - A76-56 (E2)	B - Y	Fuel tank pressure sensor signal	Power switch on (IG)	0.5 to 4.5 V
A76-5 (CCV2) - D1-46 (E1)	GR - BR	Fuel vapor-containment valve	Close valve on (open)	Below 1.0 V
A76-5 (CCV2) - D1-46 (E1)	GR - BR	Fuel vapor-containment valve	Close valve off (closed)	11 to 14 V
A76-2 (FUEL) - D1-46 (E1)	Y - BR	Fuel filler door opener switch	Fuel filler door opener switch on	Below 1.0 V
A76-2 (FUEL) - D1-46 (E1)	Y - BR	Fuel filler door opener switch	Fuel filler door opener switch off	11 to 14 V
A76-17 (LIDO) - D1-46 (E1)	LG - BR	Fuel lid courtesy switch	Fuel filler door opener switch on	Below 1.0 V
A76-17 (LIDO) - D1-46 (E1)	LG - BR	Fuel lid courtesy switch	Fuel filler door opener switch off	11 to 14 V
A76-7 (FUO) - D1-46 (E1)	W-B - BR	Fuel lid opener motor	Fuel filler door opener switch on	Below 1.0 V
A76-7 (FUO) - D1-46 (E1)	W-B - BR	Fuel lid opener motor	Fuel filler door opener switch off	11 to 14 V
A76-19 (LST1) - D1-46 (E1)	R - BR	Fuel lid opener switch signal	Power switch on (IG), fuel lid opener switch off → on	11 to 14 V → Below 1.0 V
A76-20 (LST2) - D1-46 (E1)	P - BR	Fuel lid courtesy switch signal	Power switch on (IG), fuel lid opener switch off → on	11 to 14 V → Below 1.0 V

*: The ECM terminal voltage is constant regardless of the output voltage from the sensor.

WAVEFORM 1

Fig 2: Identifying Waveform 1

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Camshaft timing oil control valve assembly operation signal

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

HINT:

The wavelength becomes shorter as the engine speed increases.

WAVEFORM 2

Fig 3: Identifying Waveform 2

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Heated oxygen sensor signal

ECM Terminal Name	Between OX1B and EX1B, or OX2B and EX2B
Tester Range	0.2 V/DIV., 200 ms./DIV.
Condition	Engine speed is maintained at 2500 rpm for 2 minutes after warming up engine

HINT:

In the Data List, item O2S B1S2 and O2S B2S2 shows the ECM values from the heated oxygen sensor.

WAVEFORM 3

Fig 4: Identifying Waveform 3

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Fuel injector assembly operation signal

ECM Terminal Name	Between #10 (to #60) and E01
Tester Range	30 V/DIV., 20 ms./DIV.
Condition	Idling with warm engine

HINT:

The wavelength becomes shorter as the engine speed increases.

WAVEFORM 4

Fig 5: Identifying Waveform 4

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Knock control sensor signal

ECM Terminal Name	Between KNK1 and EKNK, or KNK2 and EKN2
Tester Range	1 V/DIV., 1 ms./DIV.
Condition	Engine speed maintained at 2500 rpm after warming up engine

HINT:

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

WAVEFORM 5

Fig 6: Identifying Waveform 5

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Variable Valve Timing (VVT) sensor (A)

Crankshaft position sensor signal (B)

ECM Terminal Name	(A) Between VV1+ and VV1-, VV2+ and VV2- (B) Between NE+ and NE-
Tester Range	5 V/DIV., 20 ms./DIV.
Condition	Idling with warm engine

HINT:

The wavelength becomes shorter as the engine speed increases.

WAVEFORM 6

Fig 7: Identifying Waveform 6

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

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

ECM Terminal Name	(1) Between IGT (1 to 6) and E1 (2) Between IGF1 and E1
Tester Range	2 V/DIV., 20 ms./DIV.
Condition	Idling with warm engine

HINT:

The wavelength becomes shorter as the engine speed increases.

WAVEFORM 7

Fig 8: Identifying Waveform 7

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Purge VSV for EVAP system operation signal

ECM Terminal Name	Between PRG and E1
Tester Range	5 V/DIV., 50 ms./DIV.
Condition	Idling with warm engine

HINT:

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

WAVEFORM 8

Fig 9: Identifying Waveform 8

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Throttle actuator operation signal (positive terminal)

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

HINT:

The duty ratio varies depending on the throttle actuator operation.

WAVEFORM 9

Fig 10: Identifying Waveform 9

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

Throttle actuator operation signal (negative terminal)

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

HINT:

The duty ratio varies depending on the throttle actuator operation.

WAVEFORM 10

Fig 11: Identifying Waveform 10

CAN communication signal

ECM Terminal Name	Between CANH and E1 or CAN+ and E1
Tester Range	1 V/DIV., 10 μsec./DIV.
Condition	Engine stopped and power switch on (IG)

HINT:

The waveform varies depending on the CAN communication signal.

WAVEFORM 11

Fig 12: Identifying Waveform 11

CAN communication signal

ECM Terminal Name	Between CANL and E1 or CAN- and E1
Tester Range	1 V/DIV., 10 μsec./DIV.
Condition	Engine stopped and power switch on (IG)

HINT:

The waveform varies depending on the CAN communication signal.

WAVEFORM 12

Fig 13: Identifying Waveform 12

Air fuel ratio sensor and heated oxygen sensor heater operation signal

ECM Terminal Name	Between HA1A and E04, HA2A and E05, HT1B and E03 or HT2B and E03
Tester Range	5 V/DIV., 10 ms./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine speed increases.

WAVEFORM 13

Fig 14: Identifying Waveform 13

EGR valve assembly signal

ECM Terminal Name	Between EGR1, EGR2, EGR3, EGR4 and E1
Tester Range	20 V/DIV., 50 ms./DIV.
Condition	Racing engine

WAVEFORM 14

Fig 15: Identifying Waveform 14

Camshaft revolution signal from ECM to power management control ECU (HV CPU) or MG ECU

ECM Terminal Name	Between GO1 and E1 or GO2 and E1
Tester Range	5 V/DIV., 20 ms./DIV.
Condition	Idling

HINT:

The wavelength becomes shorter as the engine speed increases.