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ON-BOARD DIAGNOSTIC [STANDARD DEPLOYMENT CONTROL SYSTEM]

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2016 – MX-5 – Restraints

ON-BOARD DIAGNOSTIC [STANDARD DEPLOYMENT CONTROL SYSTEM]

Outline

  • The air bag system has an on-board diagnostic function to facilitate the system diagnosis.

  • The on-board diagnostic function consists of the following functions:

    • A malfunction detection function, which detects overall malfunctions in the air bag system-related parts.

    • A memory function, which stores detected DTCs.

    • A display function, which indicates malfunction locations and status via DTC output.

    • A PID/data monitoring function, which reads out specific input/output signals and verifies the input/output condition.

  • Using the Mazda Modular Diagnostic System (M-MDS), DTCs can be read out and deleted, and the PID/data monitoring function can be activated.

Function

Self-diagnostic function
    Memory function

  • Stores malfunctions detected in the air bag system-related parts using the malfunction detection function, and the stored malfunction contents are not cleared even if the ignition is switched off or the negative battery cable is disconnected.

    Display function

  • When the malfunction detection function detects a malfunction, the air bag system warning light illuminates to advise the driver. Using the external tester communication function, DTCs can be output to the DLC-2 via the CAN.

X: Applicable—: Not applicable

DTC

System malfunction location

Fail-safe function

Drive cycle

Self test type*1

Memory function

M-MDS display

Air bag system warning light

Flashing pattern

Priority ranking

B0001:11

19

13

Driver-side air bag module circuit short to body ground

C, D

×

B0001:12

Driver-side air bag module circuit short to power supply

C, D

×

B0001:13

Driver-side air bag module circuit open circuit or resistance high

C, D

×

B0001:19

Short circuit to driver-side air bag module and other air bag module circuits

C, D

×

B0001:1A

Driver-side air bag module circuit short circuit or resistance low

C, D

×

B0001:55

54

6

Configuration setting error (driver-side air bag module structural malfunction)

C, D

×

B0003:53

Flashing

4

Operation (deployment) inhibited due to configuration setting

C, D

×

B0010:11

21

12

Passenger-side air bag module circuit short to body ground

C, D

×

B0010:12

Passenger-side air bag module circuit short to power supply

C, D

×

B0010:13

Passenger-side air bag module circuit open circuit or resistance high

C, D

×

B0010:19

Short circuit to passenger-side air bag module and other air bag module circuits

C, D

×

B0010:1A

Passenger-side air bag module circuit short circuit or resistance low

C, D

×

B0010:55

54

6

Configuration setting error (passenger-side air bag module structural malfunction)

C, D

×

B0094:11

42

9

Driver-side crash zone sensor circuit short to body ground

C, D

×

B0094:12

Driver-side crash zone sensor circuit short to power supply

C, D

×

B0094:29

Driver-side crash zone sensor internal data error

C, D

×

B0094:2B

Short circuit to driver-side crash zone sensor and other air bag sensor circuits

C, D

×

B0094:4A

Driver-side crash zone sensor ID error

C, D

×

B0094:87

Signal reception error from driver-side crash zone sensor

C, D

×

B0094:96

Driver-side crash zone sensor internal malfunction

C, D

×

B0094:55

54

6

Configuration setting error (driver-side crash zone sensor structural malfunction)

C, D

×

B00D2:01

Air bag system warning light malfunction

C, D

×

B00D2:29

Invalid signal to air bag system warning light

C, D

×

B1011:95

58

7

SAS control module connectors are poorly connected

C, D

×

B10FD:11

43

11

Driver-side side air bag sensor circuit short to body ground

C, D

×

B10FD:12

Driver-side side air bag sensor circuit short to power supply

C, D

×

B10FD:29

Driver-side side air bag sensor signal invalid

C, D

×

B10FD:2B

Driver-side side air bag sensor circuit short to other air bag sensor circuit

C, D

×

B10FD:4A

Driver-side side air bag sensor ID mismatch

C, D

×

B10FD:87

Driver-side side air bag sensor circuit open

C, D

×

B10FD:96

Driver-side side air bag sensor internal malfunction

C, D

×

B10FD:55

54

6

Configuration setting error (driver-side side air bag sensor structural malfunction)

C, D

×

B10FE:11

44

10

Passenger-side side air bag sensor circuit short to body ground

C, D

×

B10FE:12

Passenger-side side air bag sensor circuit short to power supply

C, D

×

B10FE:29

Passenger-side side air bag sensor signal invalid

C, D

×

B10FE:2B

Passenger-side side air bag sensor circuit short to other air bag sensor circuit

C, D

×

B10FE:4A

Passenger-side side air bag sensor ID mismatch

C, D

×

B10FE:87

Passenger-side side air bag sensor circuit open

C, D

×

B10FE:96

Passenger-side side air bag sensor internal malfunction

C, D

×

B10FE:55

54

6

Configuration setting error (passenger-side side air bag sensor structural malfunction)

C, D

×

B1126:11

22

17

Driver-side side air bag module circuit short to body ground

C, D

×

B1126:12

Driver-side side air bag module circuit short to power supply

C, D

×

B1126:13

Driver-side side air bag module circuit open circuit or resistance high

C, D

×

B1126:19

Short circuit to driver-side side air bag module and other air bag module circuits

C, D

×

B1126:1A

Driver-side side air bag module circuit short circuit resistance low

C, D

×

B1126:55

54

6

Configuration setting error (driver-side side air bag module structural malfunction)

C, D

×

B1127:11

23

16

Passenger-side side air bag module circuit short to body ground

C, D

×

B1127:12

Passenger-side side air bag module circuit short to power supply

C, D

×

B1127:13

Passenger-side side air bag module circuit open circuit or resistance high

C, D

×

B1127:19

Short circuit to passenger-side side air bag module and other air bag module circuits

C, D

×

B1127:1A

Passenger-side side air bag module circuit short circuit or resistance low

C, D

×

B1127:55

54

6

Configuration setting error (passenger-side side air bag module structural malfunction)

C, D

×

B1193:00

13

3

SAS control module operation (deployment)

C, D

×

B1206:00

SAS control module operation (deployment) (fuel cut signal output)

C, D

×

B1211:11

38

15

Driver-side pre-tensioner seat belt circuit short to body ground

C, D

×

B1211:12

Driver-side pre-tensioner seat belt circuit short to power supply

C, D

×

B1211:13

Driver-side pre-tensioner seat belt circuit open circuit or resistance high

C, D

×

B1211:19

Short circuit to driver-side pre-tensioner seat belt and other air bag module circuits

C, D

×

B1211:1A

Driver-side pre-tensioner seat belt circuit short circuit or resistance low

C, D

×

B1211:55

54

6

Configuration setting error (driver-side pre-tensioner seat belt structural malfunction)

C, D

×

B1214:11

39

14

Passenger-side pre-tensioner seat belt circuit short to body ground

C, D

×

B1214:12

Passenger-side pre-tensioner seat belt circuit short to power supply

C, D

×

B1214:13

Passenger-side pre-tensioner seat belt circuit open circuit or resistance high

C, D

×

B1214:19

Short circuit to passenger-side pre-tensioner seat belt and other air bag module circuits

C, D

×

B1214:1A

Passenger-side pre-tensioner seat belt circuit short circuit or resistance low

C, D

×

B1214:55

54

6

Configuration setting error (passenger-side pre-tensioner seat belt structural malfunction)

C, D

×

B143A:00

SAS control module operation (collision detection) signal output

C, D

×

B1417:11

41

8

Passenger-side crash zone sensor circuit short to body ground

C, D

×

B1417:12

Passenger-side crash zone sensor circuit short to power supply

C, D

×

B1417:29

Passenger-side crash zone sensor signal invalid

C, D

×

B1417:2B

Passenger-side crash zone sensor circuit short to other air bag sensor circuit

C, D

×

B1417:4A

Passenger-side crash zone sensor ID mismatch

C, D

×

B1417:87

Signal reception error from passenger-side crash zone sensor

C, D

×

B1417:96

Passenger-side crash zone sensor internal malfunction

C, D

×

B1417:55

54

7

Configuration setting error (passenger-side crash zone sensor structural malfunction)

C, D

×

C0061:29

Low-G sensor (lateral-G) in SAS control module (internal circuit disabled)

C, D

×

C0062:29

Low-G sensor (forward-G) in SAS control module (internal circuit disabled)

C, D

×

C0063:29

Yaw rate sensor in SAS control module (internal circuit disabled)

C, D

×

U0001:88

Continuously illuminated

1

Module communication error (HS-CAN)

C, D

×

U0155:00

14

5

Instrument cluster communication error

C, D

×

U0100:00

PCM communication error or invalid value reception

C, D

×

U2100:00

Flashing

4

Configuration not set

C, D

×

U2107:00

SAS control module operation (deployment) signal output

C, D

×

U3000:49

12

2

SAS control module internal malfunction

C, D

×

Continuously illuminated

1

U3003:16

Continuously illuminated

1

SAS control module power supply voltage decreases (8 V or less)

C, D

×

U3003:17

SAS control module power supply voltage increases (16 V or more)

C, D

×

*1
C: CMDTC self test, D: ODDTC self test
    DTC 7-digit code definition

  • When related systems or components have failed, the CM stores the DTC of the malfunctioning part in the CM memory, and allows for the retrieval of the stored data using the scanning tool when necessary. The DTCs are indicated using seven digits. Each digit indicates the following.

    Status byte for DTC

  • The two digits (after hyphen) after the 7-digit DTC.

  • A code which indicates the pending code, current/past malfunction status, or warning illumination status.

  • Can be read by performing a CMDTC self-test using the Mazda Modular Diagnostic System (M-MDS).

  • For details on the status byte, refer to the explanation on the Mazda Modular Diagnostic System (M-MDS) when reading the DTC.

Snapshot data

NOTE:

  • The SAS control module stores the following two types of information when a DTC is detected and displays snap shot data in the Mazda Modular Diagnostic System (M-MDS).

    • Vehicle information detected by SAS control module

    • Vehicle information detected by instrument cluster and received by SAS control module via CAN signal

  • The data for all DTCs currently detected is stored.

Snapshot data item

Unit

Definition

Data read/use method

Corresponding PID data monitor item

AAT

°C

Ambient temperature

APP_STATUS

Accelerator Pedal Off/

Under20%/

Over20%/

FAIL

Accelerator pedal position status

CFG_STATUS

Config Complete/

Not Configured/

Config Error

Instrument cluster configuration status

FAULT_CNT

Number of malfunction detections

FIRST_DET_IG

ss*1

Time when initial malfunction occurs (IG-ON counter)

  • Elapsed time from when ignition is switched ON (engine off or on) until SAS control module detects first malfunction*3

IC_VPWR

V

Instrument cluster power supply voltage

  • The SAS control module constantly receives the power supply voltage value of the instrument cluster sent via CAN signal from the instrument cluster.

  • If a DTC is detected, the SAS control module records the power supply voltage of the instrument cluster when the DTC was detected, and it is displayed in the Mazda Modular Diagnostic System (M-MDS).

VPWR*2

IG-ON_TIMER

ss*1

Elapsed time since ignition was switched ON (engine off or on)

NOTE:

  • The instrument cluster records the elapsed time since the ignition was switched ON (engine off or on).

  • The SAS control module constantly receives the elapsed time since the ignition was switched ON (engine off or on) sent via CAN signal from the instrument cluster.

  • If a DTC is detected, the SAS control module records the elapsed time since the ignition was switched ON (engine off or on) when the DTC was detected, and it is displayed in the Mazda Modular Diagnostic System (M-MDS).

LAST_CLR

ss*1

Repair time for last malfunction (B+ counter)

  • Elapsed time from when battery is connected until SAS control module detects that last malfunction is repaired*3

LAST_CLR_IG

ss*1

Repair time for last malfunction (IG-ON counter)

  • Elapsed time from when ignition is switched ON (engine off or on) until SAS control module detects that last malfunction is repaired*3

LAST_DET

ss*1

Time when last malfunction occurs (B+ counter)

  • Elapsed time from when battery is connected until SAS control module detects last malfunction*3

LAST_DET_IG

ss*1

Time when last malfunction occurs (IG-ON counter)

  • Elapsed time from when ignition is switched ON (engine off or on) until SAS control module detects last malfunction*3

PWR_MODE_KEY

Key Out/

Key Recently Out (Position 0)/

Accessory (Position 1)/

Post Ignition (Position 2)/

Ignition On (Position 2)/

Running (Position 2)/

Running – Starting

  • Key Out: Ignition switched off

  • Key Recently Out (Position 0): Elapsed time within 3 s since ignition was switched off

  • Accessory (Position 1): Ignition is switched to ACC

  • Post Ignition (Position 2): Elapsed time within 3 s since ignition was switched ON (engine off or on)

  • Ignition On (Position 2): Ignition switched ON (engine off)

  • Running (Position 2): Ignition switched ON (engine on)

  • Running – Starting: Cranking condition

  • The SAS control module constantly receives the ignition switch status sent via CAN signal from the instrument cluster.

  • If a DTC is detected, the SAS control module records the ignition switch status when the DTC was detected, and it is displayed in the Mazda Modular Diagnostic System (M-MDS).

RPM_STATUS

Engine Stop/

Under1500rpm/

Over1500rpm/

FAIL

Engine speed status

  • The SAS control module constantly receives the engine speed sent via CAN signal from the instrument cluster.

  • If a DTC is detected, the SAS control module records the engine speed when the DTC was detected, and it is displayed in the Mazda Modular Diagnostic System (M-MDS).

TACHOMTR*2

SHIFT_STATUS

P/N/

D/

R/

FAIL

Selector lever position status

  • The SAS control module constantly receives the selector lever position sent via CAN signal from the instrument cluster.

  • If a DTC is detected, the SAS control module records the selector lever position when the DTC was detected, and it is displayed in the Mazda Modular Diagnostic System (M-MDS).

TOTAL_DIST

km

Accumulated total traveled distance from completion of vehicle until SAS control module detects DTC (Odometer value in instrument cluster)

The total traveled distance from which the SAS control module detects DTCs to the present can be calculated by performing the following procedure.

  • Verify the odometer value in the instrument cluster.

  • Verify the snapshot data item TOTAL_DIST.

  • Subtract 2 from 1.

TOTAL_TIME

ss*1

Accumulated total elapsed time since vehicle completion until SAS control module detects a DTC*3

NOTE:

  • When the ROOM fuse is removed, and the ignition is switched off, the time is not included in the elapsed time.

The elapsed time from which the SAS control module detects DTCs to the present can be calculated by performing the following procedure.

  • Verify the instrument cluster PID item TOTAL_TIME.

  • Verify the snapshot data item TOTAL_TIME.

  • Subtract 2 from 1.

TOTAL_TIME*2

VPWR

V

SAS control module power supply malfunction

VPWR_IGA

VSPD_STATUS

Stop/

0-10km/h/

Over10km/h/

FAIL

Vehicle speed status

  • The SAS control module constantly receives the vehicle speed sent via CAN signal from the instrument cluster.

  • If a DTC is detected, the SAS control module records the vehicle speed when the DTC was detected, and it is displayed in the Mazda Modular Diagnostic System (M-MDS).

SPEEDOMTR*2

*1
The seconds may be indicated after the decimal point.
*2
Instrument cluster PID (See ON-BOARD DIAGNOSTIC [INSTRUMENT CLUSTER].)
*3
The snap shot data of the number of stored malfunction detections, B+ counters, or IG ON counters is combined with the DTC detection conditions of the SAS control module, and the point-in-time data in the following table is stored.

SAS control module DTC detection period

Snapshot data

FAULT_CNT

(Number of malfunction detections)

TOTAL_TIME

FIRST_DET_IG

LAST_DET

LAST_DET_IG

LAST_CLR

LAST_CLR_IG

Number of malfunction detections

Time when first malfunction occurs (B+ counter)

Time when initial malfunction occurs (IG-ON counter)

Time when last malfunction occurs (B+ counter)

Time when last malfunction occurs (IG-ON counter)

Repair time for last malfunction (B+ counter)

Repair time for last malfunction (IG-ON counter)

(1)

1

A

G

A

G

(2)

1

A

G

A

G

B

H

(3)

2

A

G

C

I

B

H

(4)

2

A

G

C

I

D

J

(5)

3

A

G

E

K

D

J

(6)

3

A

G

E

K

F

L

PID/Data monitoring function

  1. By using the PID/data monitoring function, the monitored item of the input/output signal, as set on the SAS control module, can be freely selected and read out in real-time.

  2. The Mazda Modular Diagnostic System (M-MDS) is used to read out PID/data monitor information.

PID/data monitor table

PID

Unit/Condition

Data contents

SAS control module terminal

AB_WL

(Air bag system warning light status)

Lamp_Off/Lamp_On/Plant_Mode/Unknown

  • Air bag system warning light off: Lamp_Off

  • Air bag system warning light on: Lamp_On

  • Air bag system warning light status: Plant_Mode

  • Air bag system warning light status: Unknown

3Q, 3S

OCS_DTC_CLR

(Occupant classification sensor DTC cleared status)

NOTE:

  • Displays in the M-MDS but it does not operate.

P_OCS_ST

(Occupant classification sensor status)

NOTE:

  • Displays in the M-MDS but it does not operate.

P_SEAT_M_S

(Occupancy sensor)

Off/On

  • Not occupant seated in passenger-side seat: Off

  • Occupant seated in passenger-side seat: On

2AA

PAD_SW

(Passenger air bag deactibation (PAD) switch status)

NOTE:

  • Displays in the M-MDS but it does not operate.

PAD_SW_FLT

(Passenger air bag deactibation (PAD) switch malfunction status)

NOTE:

  • Displays in the M-MDS but it does not operate.

RES_F_AB1_D

(Driver-side air bag module (inflatorNo.1) resistance nominal)

ohm

Continuous: 1.37–6.33 ohms

3C, 3G

RES_F_AB1_P

(Passenger-side air bag module (inflatorNo.1) resistance nominal)

ohm

Continuous: 0.88–6.33 ohms

3K, 3N

RES_F_AB2_D

(Driver-side air bag module (inflatorNo.2) resistance nominal)

NOTE:

  • Displays in the M-MDS but it does not operate.

RES_F_AB2_P

(Passenger-side air bag module (inflator No.2) resistance nominal)

NOTE:

  • Displays in the M-MDS but it does not operate.

RES_S_AB_D

(Driver-side side air bag module resistance nominal)

ohm

Continuous: 0.88–10.53 ohms

1C, 1G

RES_S_AB_P

(Passenger-side side air bag module resistance nominal)

ohm

Continuous: 0.88–10.53 ohms

1K, 1N

RES_SB_LP_D

(Driver-side lap pre-tensioner seat belt resistance nominal)

NOTE:

  • Displays in the M-MDS but it does not operate.

RES_SB_LP_P

(Passenger-side lap pre-tensioner seat belt resistance nominal)

NOTE:

  • Displays in the M-MDS but it does not operate.

RES_SB_P_D

(Driver-side pre-tensioner seat belt resistance nominal)

ohm

Continuous: 0.88–6.33 ohms

2C, 2G

RES_SB_P_P

(Passenger-side pre-tensioner seat belt resistance nominal)

ohm

Continuous: 0.88–6.33 ohms

2K, 2N

RES_R_PR_D

(Rear pre-tensioner seat belt status)

NOTE:

  • Displays in the M-MDS but it does not operate.

RES_R_PR_P

(Rear pre-tensioner seat belt status)

NOTE:

  • Displays in the M-MDS but it does not operate.

PCD_A

(Poorly connected detector bar terminal voltage nominal (SAS control module connector A))

V

  • Normal connected: 0.27 V or less

  • Poor connected: 3.17 V or more

1a, 1b

PCD_B

(Poorly connected detector bar terminal voltage nominal (SAS control module connector B))

V

  • Normal connected: 0.27 V or less

  • Poor connected: 3.17 V or more

2a, 2b

PCD_C

(Poorly connected detector bar terminal voltage nominal (SAS control module connector C))

V

  • Normal connected: 0.27 V or less

  • Poor connected: 3.17 V or more

3a, 3b

SEAT_B_D

(Driver-side buckle switch status)

Unbuckled/Buckled

  • Driver-side seat belt fastened (Driver-side buckle switch off): Buckled

  • Driver-side seat belt not fastened (Driver-side buckle switch on): Unbuckled

2U

SEAT_B_P

(Passenger-side buckle switch status)

Unbuckled/Buckled

  • Passenger-side seat belt fastened (Passenger-side buckle switch off): Buckled

  • Passenger-side seat belt not fastened (Passenger-side buckle switch on): Unbuckled

2W

VPWR_IGA

(SAS control module power voltage)

V

Ignition is switched ON: IG1 voltage

2AD

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