Terminals Of ECM

Fig 1: Identifying ECM Connector Terminals

Courtesy of © TOYOTA, LICENSE AGREEMENT TMS1002

HINT:

The standard voltage between each pair of ECM terminals is shown in the table below. The appropriate conditions for checking each pair of terminals is also indicated.

The result of checks should be compared with the standard voltage for that pair of terminals, displayed in the STD Voltage column.

The illustration above can be used as a reference to identify the ECM terminal locations.

SYMBOLS REFERENCE AND TERMINAL DESCRIPTION

Symbols (Terminals No.)

Wiring Color

Terminal Description

Conditions

STD Voltages

BATT (E6-3) - E1 (E3-5)

R-W - BR

Battery (for measuring battery voltage and for ECM memory)

Always

Between 9 V and 14 V

+BM (E5-6) - E1 (E3-5)

B-R - BR

Power source of throttle motor

Always

Between 9 V and 14 V

IGSW (E6-9) - E1 (E3-5)

B-0 - BR

Ignition switch

Ignition switch ON

Between 9 V and 14 V

+B (E6-1) - E1 (E3-5)

B - BR

Power source of ECM

Ignition switch ON

Between 9 V and 14 V

MREL (E6-8) - E1 (E3-5)

B-W - BR

EFI relay

Ignition switch ON

Between 9 V and 14 V

VC (E3-18) - E2 (E3-28)

Y - BR

Power source of sensor (specific voltage)

Ignition switch ON

Between 4.5 V and 5.5 V

VTA1 (E3-21) - E2 (E3-28)

LG - BR

Throttle position sensor (for engine control)

Ignition switch ON, Accelerator pedal fully released

Between 0.5 V and 1.1 V

VTA1 (E3-21) - E2 (E3-28)

LG - BR

Throttle position sensor (for engine control)

Ignition switch ON, Accelerator pedal fully depressed

Between 3.3 V and 4.9 V

VTA2 (E3-31) - E2 (E3-28)

LG - BR

Throttle position sensor (for sensor malfunction detection)

Ignition switch ON, Accelerator pedal fully released

Between 2.1 V and 3.1 V

VTA2 (E3-31) - E2 (E3-28)

LG - BR

Throttle position sensor (for sensor malfunction detection)

Ignition switch ON, Accelerator pedal fully depressed

Between 4.5 V and 5.5 V

VPA (E6-22) - EPA (E6-28)

G-Y

Accelerator pedal position sensor (for engine control)

Ignition switch ON, Accelerator pedal fully released

Between 0.5 V and 1.1 V

VPA (E6-22) - EPA (E6-28)

G-Y

Accelerator pedal position sensor (for engine control)

Ignition switch ON, Accelerator pedal fully depressed

Between 2.6 V and 4.5 V

VPA2 (E6-23) - EPA2 (E6-29)

W-Y

Accelerator pedal position sensor (for sensor malfunction detection)

Ignition switch ON, Accelerator pedal fully released

Between 1.2 V and 2.0 V

VPA2 (E6-23) - EPA2 (E6-29)

W-Y

Accelerator pedal position sensor (for sensor malfunction detection)

Ignition switch ON, Accelerator pedal fully depressed

Between 3.4 V and 5.3 V

VCPA (E6-26) - EPA (E6-28)

B-Y

Power source of accelerator pedal position sensor (for VPA)

Ignition switch ON

Between 4.5 V and 5.5 V

VCP2 (E6-27) - EPA2 (E6-29)

B-Y

Power source of accelerator pedal position sensor (for VPA2)

Ignition switch ON

Between 4.5 V and 5.5 V

VG (E3-30) - EVG (E3-29)

G - L-W

Mass air flow meter

Idling, Shift position P or N, A/C switch OFF

Between 0.5 V and 3.0 V

THA (E3-20) - E2 (E3-28)

Y-B - BR

Intake air temperature sensor

Idling, Intake air temperature 20°C (68°F)

Between 0.5 V and 3.4 V

THW (E3-19) - E2 (E3-28)

W - BR

Engine coolant temperature sensor

Idling, Engine coolant temperature 80°C (176°F)

Between 0.2 V and 1.0 V

#10 (E3-1) - E01 (E3-7)

Y - W-B

Injector

Ignition switch ON

Between 9 V and 14 V

#20 (E3-2) - E01 (E3-7)

B - W-B

#30 (E3-3) - E01 (E3-7)

W - W-B

#40 (E3-4) - E01 (E3-7)

L - W-B

#10 (E3-1) - E01 (E3-7)

Y - W-B

Injector

Idling

Pulse generation (see 1 waveform 1)

#20 (E3-2) - E01 (E3-7)

B - W-B

#30 (E3-3) - E01 (E3-7)

W - W-B

#40 (E3-4) - E01 (E3-7)

L - W-B

IGT1 (E3-8) - E1 (E3-5)

R-L - BR

Ignition coil with igniter (ignition signal)

Idling

Pulse generation (see 2 waveform 2)

IGT2 (E3-9) - E1 (E3-5)

Y-G - BR

IGT3 (E3-10) - E1 (E3-5)

GR - BR

IGT4 (E3-11) - E1 (E3-5)

W - BR

IGF1 (E3-24) - E1 (E3-5)

L-Y - BR

Ignition coil with igniter (ignition confirmation signal)

Ignition switch ON

Between 4.5 V and 5.5 V

IGF1 (E3-24) - E1 (E3-5)

L-Y - BR

Ignition coil with igniter (ignition confirmation signal)

Idling

Pulse generation (see 2 waveform 2)

G2+ (E4-24) - NE- (E4-33)

B-W

Camshaft position sensor

Idling

Pulse generation (see 3 waveform 3)

NE+ (E4-25) - NE- (E4-33)

B-W

Crankshaft position sensor

Idling

Pulse generation (see 3 waveform 3)

FC (E6-10) - E1 (E3-5)

G-R - BR

Fuel pump control

Ignition switch ON

Between 9 V and 14 V

FC (E6-10) - E1 (E3-5)

G-R - BR

Fuel pump control

Idling

Below 1.5 V

M+ (E4-4) - ME01 (E4-2)

B - W-B

Throttle actuator

Ignition with warm engine

Pulse generation (see 4 waveform 4)

M- (E4-3) - ME01 (E4-2)

W - W-B

Throttle actuator

Ignition with warm engine

Pulse generation (see 5 waveform 5)

A1A+ (E4-23) - E1 (E3-5)

B - BR

A/F sensor

Always (Ignition switch ON)

3.3 V ⁽¹⁾

A1A- (E4-31) - E1 (E3-5)

W - BR

A/F sensor

Always (Ignition switch ON)

3.0 V ⁽¹⁾

OX1B (E4-29) - E2 (E3-28)

W - BR

Heated oxygen sensor

Engine speed maintained 2,500 rpm for 2 minutes after warming up sensor

Pulse generation (see 6 waveform 6)

HA1A (E4-5) - E04 (E4-7)

P - W-B

A/F sensor heater

Idling

Below 3.0 V

HA1A (E4-5) - E04 (E4-7)

P - W-B

A/F sensor heater

Ignition switch ON

Between 9 V and 14 V

HT1B (E4-21) - E03 (E4-6)

P-B - W-B

Heated oxygen sensor heater

Idling

Below 3.0 V

HT1B (E4-21) - E03 (E4-6)

P-B - W-B

Heated oxygen sensor heater

Ignition switch ON

Between 9 V and 14 V

KNK1 (E4-1) - EKNK (E4-28)

B-W

Knock sensor

Maintain engine speed 4,000 rpm after warming up engine

Pulse generation (see 7 waveform 7)

OC1+ (E3-13) - OC1- (E3-12)

Y - B-Y

Camshaft timing oil control valve (OCV)

Idling

Pulse generation (see 8 waveform 8)

PRG (E3-34) - E01 (E3-7)

L-B - W-B

EVAP VSV

Ignition switch ON

Between 9 V and 14 V

PRG (E3-34) - E01 (E3-7)

L-B - W-B

EVAP VSV

Idling

Pulse generation (see 9 waveform 9)

VPMP (E3-27) - E1 (E3-5)

R - BR

Vent valve (built into pump module)

Ignition switch ON

Between 9 V and 14 V

MPMP (E6-4) - E1 (E3-5)

GR - BR

Vacuum pump (built into pump module)

Vacuum pump OFF
Vacuum pump ON

Between 0 V and 3 V
Between 9 V and 14 V

PPMP (E6-21) - E2 (E3-28)

L - BR

Pressure sensor (built into pump module)

Ignition switch ON

Between 3 V and 3.6 V

STA (E3-17) - E1 (E3-5)

B - BR

Starter signal

Shift position N, Ignition switch START

5.5 V or more

STP (E5-19) - E1 (E3-5)

G-W - BR

Stop light switch

Brake pedal depressed

Between 7.5 V and 14 V

STP (E5-19) - E1 (E3-5)

G-W - BR

Stop light switch

Brake pedal released

Below 1.5 V

ST1- (E5-12) - E1(E3-5)

G-O - BR

Stop light switch

ignition switch ON, Brake pedal depressed

Below 1.5 V

ST1- (E5-12) - E1 (E3-5)

G-O - BR

Stop light switch

Ignition switch ON, Brake pedal released

Between 7.5 V and 14 V

W (E6-11) - E01 (E3-7)

R-Y - W-B

MIL

Idling

Between 9 V and 14 V

W (E6-11) - E01 (E3-7)

R-Y - W-B

MIL

Ignition switch ON

Below 3.5 V

ELS1 (E6-12) - E1 (E3-5)

G - BR

Electric load

Taillight switch ON

Between 7.5 V and 14 V

ELS1 (E6-12) - E1 (E3-5)

G - BR

Electric load

Taillight switch ON

Between 0 V and 1.5 V

ELS2 (E6-13) - E1 (E3-5)

W - BR

Electric load

Defogger switch ON

Between 7.5 V and 14 V

ELS2 (E6-13) - E1 (E3-5)

W - BR

Electric load

Defogger switch OFF

Between 0 V and 1.5 V

TACH (E6-5) - E1 (E3-5)

B - BR

Engine speed

Idling

Pulse generation (see 10 waveform 10)

SPD (E5-17) - E1 (E3-5)

V-W - BR

Speed signal from combination meter

Driving at 12 mph (20 km/h)

Pulse generation (see 11 waveform 11)

TC (E6-20) - E1 (E3-5)

P-B - BR

Terminal TC of DLC3

Ignition switch ON

Between 9 V and 14 V

SIL (E6-18) - E1 (E3-5)

L-R - BR

Terminal SIL of DLC3

Connect intelligent tester or OBD II scan tool to DLC3

Pulse generation (see 12 waveform 12)

PSW (E4-8) - E1 (E3-5)

L-R - BR

Power steering oil pressure switch

While turning steering wheel

Between 1.5 V

F/PS (E6-14) - E1 (E3-5)

Y - BR

Airbag sensor assembly

Idling with warm engine

Pulse generation (see 13 waveform 13)

⁽¹⁾	The ECM terminal voltage is constant regardless of the output voltage from the sensor.

WAVEFORM 1

Fuel injector

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between #10 (to 40) and E01
Tester Ranges	20 V/DIV, 20 msec./DIV
Conditions	Idling

Fig 2: Identifying Waveform 1 Signal Reference

HINT:

The wavelength becomes shorter as the engine rpm increases.

WAVEFORM 2

Igniter IGT signal (from ECM to igniter)

Igniter IGF signal (from igniter to ECM)

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between IGT (1 to 4) and E1 Between IGF1 and E1
Tester Ranges	2 V/DIV, 20 msec./DIV
Conditions	Idling

Fig 3: Identifying Waveform 2 Signal Reference

HINT:

The wavelength becomes shorter as the engine rpm increases.

WAVEFORM 3

Camshaft position sensor

Crankshaft position sensor

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between G2+ and NE- Between NE+ and NE-
Tester Ranges	5 V/DIV, 20 msec./DIV
Conditions	Idling

Fig 4: Identifying Waveform 3 Signal Reference

HINT:

The wavelength becomes shorter as the engine rpm increases.

WAVEFORM 4

Throttle actuator positive terminal

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between M+ and ME01
Tester Ranges	5 V/DIV, 1 msec./DIV
Conditions	Idling with warm engine

HINT:

The duty ratio varies depending on the throttle actuator operation.

Fig 5: Identifying Waveform 4 Signal Reference

WAVEFORM 5

Throttle actuator negative terminal

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between M- and ME01
Tester Ranges	5 V/DIV, 1 msec./DIV
Conditions	Idling with warm engine

HINT:

The duty ratio varies depending on the throttle actuator operation.

Fig 6: Identifying Waveform 5 Signal Reference

WAVEFORM 6

Heated oxygen sensor

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between OX1B and E2
Tester Ranges	0.2 V/DIV, 200 msec./DIV
Conditions	Engine speed maintained 2,500 rpm for 2 minutes after warming up sensor

HINT:

In the DATA LIST, item O2S B1S2 shows the ECM input values from the heated oxygen sensor.

Fig 7: Identifying Waveform 6 Signal Reference

WAVEFORM 7

Knock sensor

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between KNK1 and EKNK
Tester Ranges	0.01 to 10 V/DIV, 0.01 to 10 msec./DIV
Conditions	Maintain engine speed 4,000 rpm after warming up engine

Fig 8: Identifying Waveform 7 Signal Reference

HINT:

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

WAVEFORM 8

Camshaft timing oil control valve (OCV)

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between OC1+ and OC1-
Tester Ranges	5 V/DIV, 1 msec./DIV
Conditions	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 9: Identifying Waveform 8 Signal Reference

WAVEFORM 9

EVAP VSV

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between PRG and E01
Tester Ranges	5 V/DIV, 50 msec./DIV
Conditions	Idling

HINT:

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

Fig 10: Identifying Waveform 9 Signal Reference

WAVEFORM 10

Engine speed signal

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	.Between TACH and E1
Tester Ranges	5 V/DIV, 10 msec./DIV
Conditions	Idling

HINT:

The wavelength becomes shorter as the engine rpm increases.

Fig 11: Identifying Waveform 10 Signal Reference

WAVEFORM 11

Vehicle speed signal

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between SPD and E1
Tester Ranges	5 V/DIV, 20 msec./DIV
Conditions	Driving at 12 mph (20 km/h)

HINT:

The wavelength becomes shorter as the vehicle speed increases.

Fig 12: Identifying Waveform 11 Signal Reference

WAVEFORM 12

Terminal SIL of DLC3

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between SIL and E1
Tester Ranges	5 V/DIV, 1 msec./DIV
Conditions	Connect intelligent tester or OBD II scan tool to DLC3

Fig 13: Identifying Waveform 12 Signal Reference

WAVEFORM 13

Airbag sensor assembly

WAVEFORM SIGNAL REFERENCE

ECM Terminal Names	Between F/PS and E1
Tester Ranges	5 V/DIV, 500 msec./DIV
Conditions	Idling with warm engine

Fig 14: Identifying Waveform 13 Signal Reference