Contents Wiring diagrams Section: Mode 6 All sections

Mode 6 - 2003 Acura Acura MDX I

Mode 6 ~752 words

INTRODUCTION

Mode 6 is designed to allow access to the results of onboard diagnostic monitoring tests of specific components/systems that are not continuously monitored. These systems include the catalytic converter, EVAP system, oxygen sensor, oxygen sensor heater, EGR system, secondary AIR system, and sometimes misfire.

Mode 6 data is output from the PCM/ECM in hexadecimal form. The $ sign indicates a hexadecimal number. Depending on the software in the scanner, the output could be displayed in hexadecimal numbers (no conversion), raw data (conversion to decimal numbers), or measurable values (applying conversion factor to raw data).

Before reading mode 6 information, ensure that the monitor for the information you are accessing has run to completion. If the monitor is not complete, the mode 6 data will not be accurate.

Mode $06 Test ID by Model

MonitorTest IDTest Limit Type and Comp. ID3.2 TL3.2 CL3.5 RLMDXNSXRSX
EGR Flow$01$80XXXX
$03$81X
Catalyst (Bank 1)$04$02X
$05/$06$81/$81XXXX
$62$04X
Catalyst (Bank 2)$07/$0A$81/$81X
$64$04X
A/F Sensor Heater (Bank 1)$70/$71/$72$80/$00/$00
PHO2S Heater (Bank 1)$10/$11$85/$05XXX
$10/$11$86/$06X
SHO2S Heater (Bank 1)$18/$19$85/$05X
$18/$19$86/$06XXXX
$18/$19$87/$07
$18/$19$89/$09X
THO2S Heater (Bank 1)$14/$15$87/$07
PHO2S Heater (Bank 2)$12/$13$85/$05X
$12/$13$86/$06X
SHO2S Heater (Bank 2)$1A/$1B$86/$06X
$1A/$1B$89/$09X
PCV$48$00
$48$01X
Thermostat$4D/$4E/$4F/$50$80/$80/$80/$00XX
$4D/$4E/$4F/$50$81/$81/$81/$01X
$5C/$5D/$5E/$5F$00/$00/$00/$00XXX
Secondary Air System$58/$59/$5A$80/$00/$80X
Lean Nox CAT$6A$01
EVAP System$21/$26/$27/$29/$2D/$2E/$2F$81/$81/$81/$81/$01/$81/$81X (1)X (1)X
$38$01X (1)X (1)
$21/$26/$27$38/$29/$2D/$2E/$2F/$3A/$3B/$3C/3E$82/$82/$82/$02/$82/$02/$82/$82/$82/$82/$02/$82X (2)X (3)XX
$81$82/$8F$80/$80/$80X
$83/$85/$86/$87/$98$00/$00/$00/$00/$00X
$88/$8B/$8D/$90/$91/$92/$93/$94/$95/$96/$97$00/$00/$00/$00/$80/$80/$00/$00/$80/$00/$00
(1) 37805-PJE-A610 (2) 37805-PJE-L610, 37805-PGE-A570 (3) 37805-PJE-L610, 37805-PGE-A570, 37805-PGE-A111
(1)37805-PJE-A610
(2)37805-PJE-L610, 37805-PGE-A570
(3)37805-PJE-L610, 37805-PGE-A570, 37805-PGE-A111

Mode $06 Test ID by Model

EGR Flow

Test ID$01Test Limit Type and Component ID$80
DTCP0401
Test DescriptionCheck EGR flow by monitoring the change in intake manifold pressure between EGR valve open and closed during fuel cut.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 1.34 (mmHg) The lowest limit value: Output value (Decimal) x 1.34 (mmHg) The highest limit value: Not applicable

DTC P0401: Test ID $01: Component ID $80

Test ID$03Test Limit Type and Component ID$81
DTCP0401
Test DescriptionCheck EGR flow by monitoring the change in intake manifold pressure between EGR valve open and closed during fuel cut.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.1 (%) The lowest limit value: Output value (Decimal) x 0.1 (%) The highest limit value: Not applicable

DTC P0401: Test ID $03: Component ID $81

Catalyst (Bank 1)

Test ID$04Test Limit Type and Component ID$02
DTCP0420
Test DescriptionCatalyst capability, monitored by measuring the fluctuation of the secondary oxygen sensor output value.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: No unit The lowest limit value: Not applicable The highest limit value: No unit

DTC P0420: Test ID $04: Component ID $02

Test ID$05Test Limit Type and Component ID$81
DTCP0420
Test DescriptionCatalyst capability monitored by OSC index. OSC index is calculated from the secondary oxygen sensor signal during the secondary oxygen sensor feedback control.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: No unit The lowest limit value: No unit The highest limit value: Not applicable

DTC P0420: Test ID $05: Component ID $81

Test ID$06Test Limit Type and Component ID$81
DTCP0420
Test DescriptionCatalyst capability monitored by the secondary oxygen sensor signal during the secondary oxygen sensor feedback control.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 10 (msec.) The lowest limit value: Output value x 10 (msec.) The highest limit value: Not applicable

DTC P0420: Test ID $06: Component ID $81

Test ID$62Test Limit Type and Component ID$04
DTCP0420
Test DescriptionCatalyst capability, monitored by measuring the fluctuation of the secondary oxygen sensor.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: No unit The lowest limit value: Not applicable The highest limit value: No unit

DTC P0420: Test ID $62: Component ID $04

Catalyst (Bank 2)

Test ID$07Test Limit Type and Component ID$81
DTCP0420
Test DescriptionCatalyst capability monitored by the secondary oxygen sensor signal during the secondary oxygen sensor feedback control.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 10 (msec.) The lowest limit value: Output value x 10 (msec.) The highest limit value: Not applicable

DTC P0420: Test ID $07: Component ID $81

Test ID$0ATest Limit Type and Component ID$81
DTCP0430
Test DescriptionCatalyst capability monitored by measuring the fluctuation of the secondly oxygen sensor output value.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: No unit The lowest limit value: No unit The highest limit value: Not applicable

DTC P0430: Test ID $0A: Component ID $81

Test ID$64Test Limit Type and Component ID$04
DTCP0430
Test DescriptionCatalyst capability, monitored by measuring the fluctuation of the secondary oxygen sensor.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: No unit The lowest limit value: Not applicable The highest limit value: No unit

DTC P0430: Test ID $64: Component ID $04

PHO2S Heater (Bank 1)

Test ID$10Test Limit Type and Component ID$85
DTCP0135
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 26.7 (mA) The lowest limit value: Output value x 26.7 (mA) The highest limit value: Not applicable

DTC P0135: Test ID $10: Component ID $85

Test ID$11Test Limit Type and Component ID$05
DTCP0135
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 26.7 (mA) The lowest limit value: Not applicable The highest limit value: Output value x 26.7 (mA)

DTC P0135: Test ID $11: Component ID $05

Test ID$10Test Limit Type and Component ID$86
DTCP0135
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Output value x 7.23 (mA) The highest limit value: Not applicable

DTC P0135: Test ID $10: Component ID $86

Test ID$11Test Limit Type and Component ID$06
DTCP0135
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Not applicable The highest limit value: Output value x 7.23 (mA)

DTC P0135: Test ID $11: Component ID $06

SHO2S Heater (Bank 1)

Test ID$18Test Limit Type and Component ID$85
DTCP0141
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 26.7 (mA) The lowest limit value: Output value x 26.7 (mA) The highest limit value: Not applicable

DTC P0135: Test ID $10: Component ID $85

Test ID$19Test Limit Type and Component ID$05
DTCP0141
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 26.7 (mA) The lowest limit value: Not applicable The highest limit value: Output value x 26.7 (mA)

DTC P0141: Test ID $19: Component ID $05

Test ID$18Test Limit Type and Component ID$86
DTCP0141
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Output value x 7.23 (mA) The highest limit value: Not applicable

DTC P0141: Test ID $18: Component ID $86

Test ID$19Test Limit Type and Component ID$06
DTCP0141
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Not applicable The highest limit value: Output value x 7.23 (mA)

DTC P0141: Test ID $19: Component ID $06

Test ID$18Test Limit Type and Component ID$89
DTCP0141
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.01 (A) The lowest limit value: Output value (Decimal) x 0.01 (A) The highest limit value: Not applicable

DTC P0141: Test ID $18: Component ID $89

Test ID$19Test Limit Type and Component ID$09
DTCP0141
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.01 (A) The lowest limit value: Not applicable The highest limit value: Output value (Decimal) x 0.01 (A)

DTC P0141: Test ID $19: Component ID $09

PHO2S Heater (Bank 2)

Test ID$12Test Limit Type and Component ID$85
DTCP0155
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 26.7 (mA) The lowest limit value: Output value x 26.7 (mA) The highest limit value: Not applicable

DTC P0155: Test ID $12: Component ID $85

Test ID$13Test Limit Type and Component ID$05
DTCP0155
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 26.7 (mA) The lowest limit value: Not applicable The highest limit value: Output value x 26.7 (mA)

DTC P0155: Test ID $13: Component ID $05

Test ID$12Test Limit Type and Component ID$86
DTCP0155
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Output value x 7.23 (mA) The highest limit value: Not applicable

DTC P0155: Test ID $12: Component ID $86

Test ID$13Test Limit Type and Component ID$06
DTCP0155
Test DescriptionCircuit check of A/F sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Not applicable The highest limit value: Output value x 7.23 (mA)

DTC P0155: Test ID $13: Component ID $06

SHO2S Heater (Bank 2)

Test ID$1ATest Limit Type and Component ID$86
DTCP0161
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Output value x 7.23 (mA) The highest limit value: Not applicable

DTC P0161: Test ID $1A: Component ID $86

Test ID$1BTest Limit Type and Component ID$06
DTCP0161
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 7.23 (mA) The lowest limit value: Not applicable The highest limit value: Output value x 7.23 (mA)

DTC P0161: Test ID $1B: Component ID $06

Test ID$1ATest Limit Type and Component ID$89
DTCP0161
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.01 (A) The lowest limit value: Output value (Decimal) x 0.01 (A) The highest limit value: Not applicable

DTC P0161: Test ID $1A: Component ID $89

Test ID$1BTest Limit Type and Component ID$09
DTCP0161
Test DescriptionCircuit check of secondary oxygen sensor heater by monitoring the sensor output current during heater on.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.01 (A) The lowest limit value: Not applicable The highest limit value: Output value (Decimal) x 0.01 (A)

DTC P0161: Test ID $1B: Component ID $09

PCV

Test ID$48Test Limit Type and Component ID$01
DTCP2279
Test DescriptionCheck of PCV system by comparing the estimated intake air volume with the actual intake air volume during idle condition.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.10 (l/min.) The lowest limit value: Not applicable The highest limit value: Output value x 0.10 (l/min.)

DTC P2279: Test ID $48: Component ID $01

Thermostat

Test ID$4DTest Limit Type and Component ID$80
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the time interval until ECT sensor signal reaches target value.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value - 48 (°C) The lowest limit value: Output value - 48 (°C) The highest limit value: Not applicable

DTC P0128, P1486: Test ID $4D: Component ID $80

Test ID$4ETest Limit Type and Component ID$80
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value - 48 (°C) The lowest limit value: Output value - 48 (°C) The highest limit value: Not applicable

DTC P0128, P1486: Test ID $4E: Component ID $80

Test ID$4FTest Limit Type and Component ID$80
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the time interval until ECT sensor signal reaches target value.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value - 48 (°C) The lowest limit value: Output value - 48 (°C) The highest limit value: Not applicable

DTC P0128, P1486: Test ID $4F: Component ID $80

Test ID$50Test Limit Type and Component ID$00
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 1 (°C) The lowest limit value: Not applicable The highest limit value: Output value x 1 (°C)

DTC P0128, P1486: Test ID $50: Component ID $00

Test ID$4DTest Limit Type and Component ID$81
DTCP0128
Test DescriptionCheck of thermostat by monitoring the time interval until ECT sensor signal reaches target value.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) - 40 (°C) The lowest limit value: Output value (Decimal) - 40 (°C) The highest limit value: Not applicable

DTC P0128: Test ID $4D: Component ID $81

Test ID$4ETest Limit Type and Component ID$81
DTCP0128
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) - 40 (°C) The lowest limit value: Output value (Decimal) - 40 (°C) The highest limit value: Not applicable

DTC P0128: Test ID $4E: Component ID $81

Test ID$4FTest Limit Type and Component ID$81
DTCP0128
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) - 40 (°C) The lowest limit value: Output value (Decimal) - 40 (°C) The highest limit value: Not applicable

DTC P0128: Test ID $4F: Component ID $81

Test ID$50Test Limit Type and Component ID$01
DTCP0128
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 1 (°C) The lowest limit value: Not applicable The highest limit value: Output value (Decimal) x 1 (°C)

DTC P0128: Test ID $50: Component ID $01

Test ID$5CTest Limit Type and Component ID$00
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.0195 (V) The lowest limit value: Not applicable The highest limit value: Output value x 0.0195 (V)

DTC P0128, P1486: Test ID $5C: Component ID $00

Test ID$5DTest Limit Type and Component ID$00
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.0195 (V) The lowest limit value: Not applicable The highest limit value: Output value x 0.0195 (V)

DTC P0128, P1486: Test ID $5D: Component ID $00

Test ID$5ETest Limit Type and Component ID$00
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.0195 (V) The lowest limit value: Not applicable The highest limit value: Output value x 0.0195 (V)

DTC P0128, P1486: Test ID $5E: Component ID $00

Test ID$5FTest Limit Type and Component ID$00
DTCP0128, P1486
Test DescriptionCheck of thermostat by monitoring the difference between actual ECT and predicted ECT.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 1 (°C) The lowest limit value: Not applicable The highest limit value: Output value x 1 (°C)

DTC P0128, P1486: Test ID $5F: Component ID $00

Secondary Air System

Test ID$58Test Limit Type and Component ID$80
DTCP0410
Test DescriptionCheck of secondary air system by monitoring the air pump electric current sensor output while the air pump is operated.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.2930 (A) The lowest limit value: Output value x 0.2930 (A) The highest limit value: Not applicable

DTC P0410: Test ID $58: Component ID $80

Test ID$59Test Limit Type and Component ID$00
DTCP1410
Test DescriptionCheck of secondary air system by monitoring the air pump electric current sensor output while the air pump is operated.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.2930 (A) The lowest limit value: Not applicable The highest limit value: Output value x 0.2930 (A)

DTC P1410: Test ID $59: Component ID $00

Test ID$5ATest Limit Type and Component ID$80
DTCP0411
Test DescriptionCheck of secondary air system by monitoring the air pump electric current sensor output after the secondary air valve is opened.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.2930 (A) The lowest limit value: Output value x 0.2930 (A) The highest limit value: Not applicable

DTC P0411: Test ID $5A: Component ID $80

EVAP System

Test ID$21Test Limit Type and Component ID$81
DTCP1456
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor output before and after the two-way bypass valve is opened after engine starting with cold condition.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.488281 (mmHg) The lowest limit value: Output value (Decimal) x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $21: Component ID $81

Test ID$26Test Limit Type and Component ID$81
DTCP1456
Test DescriptionMonitoring either the difference between maximum and minimum of fuel tank pressure sensor output value in certain time after engine starting with cold condition or the difference between the sensor output value when valve is opened to air and that of monitoring.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.488281 (mmHg) The lowest limit value: Output value (Decimal) x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $26: Component ID $81

Test ID$27Test Limit Type and Component ID$81
DTCP1456
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor output value. It should be monitored before and after the two-way bypass valve is opened, after fuel tank pressure is checked in certain time after engine starting with cold condition.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.488281 (mmHg) The lowest limit value: Output value (Decimal) x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $27: Component ID $81

Test ID$29Test Limit Type and Component ID$81
DTCP1457
Test DescriptionMonitoring the fuel tank pressure sensor output value when vent shut valve is closed while fuel tank pressure is equalized to same as atmospheric pressure before canister leak monitoring.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 - 62.500000 (mmHg) The lowest limit value: Output value x 0.488281 - 62.500000 (mmHg) The highest limit value: Not applicable

DTC P1457: Test ID $29: Component ID $81

Test ID$2DTest Limit Type and Component ID$01
DTCP1457
Test DescriptionMonitoring the fuel tank pressure sensor during decompressing pressure in EVAP vapor line
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 - 62.500000 (mmHg) The lowest limit value: Not applicable The highest limit value: Output value x 0.488281 - 62.500000 (mmHg)

DTC P1457: Test ID $2D: Component ID $01

Test ID$2ETest Limit Type and Component ID$81
DTCP1457
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor output value before and after two-way bypass valve is opened. In this time canister side whose pressure is decreased and fuel tank whose pressure is not decreased are connected with.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Output value x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1457: Test ID $2E: Component ID $81

Test ID$2FTest Limit Type and Component ID$81
DTCP1457
Test DescriptionMonitoring the fuel tank pressure sensor output value when evaporative purge control solenoid valve is closed, two-way bypass valve and vent shut valve are opened before canister part decreasing.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 - 62.500000 (mmHg) The lowest limit value: Output value x 0.488281 - 62.500000 (mmHg) The highest limit value: Not applicable

DTC P1457: Test ID $2F: Component ID $81

Test ID$38Test Limit Type and Component ID$01
DTCP1456
Test DescriptionMonitoring the difference of fuel tank pressure sensor output in pressure retention mode after decompressing the fuel tank.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.488282 (mmHg) The lowest limit value: Not applicable The highest limit value: Output value (Decimal) x 0.488282 (mmHg)

DTC P1456: Test ID $38: Component ID $01

Test ID$21Test Limit Type and Component ID$82
DTCP1456
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor output before and after EVAP bypass solenoid valve is opened after engine starting with cold condition.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Output value x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $21: Component ID $82

Test ID$26Test Limit Type and Component ID$82
DTCP1456
Test DescriptionMonitoring either of: The difference between maximum and minimum of fuel tank pressure sensor output in predetermined time after engine starting with cold condition, or the difference between the sensor output when EVAP control canister vent shut and EVAP bypass solenoid valves are opened before performing tank leak check, and the sensor output during tank leak check.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Output value x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $26: Component ID $82

Test ID$27Test Limit Type and Component ID$82
DTCP1456
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor output before and after the EVAP bypass solenoid valve is opened, after fuel tank pressure check is completed in predetermined time after engine starting with cold condition
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Output value x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $27: Component ID $82

Test ID$38Test Limit Type and Component ID$02
DTCP1456
Test DescriptionMonitoring the difference of fuel tank pressure sensor output in pressure retention mode after decompressing the fuel tank.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Not applicable The highest limit value: Output value x 0.488281 (mmHg)

DTC P1456: Test ID $38: Component ID $02

Test ID$29Test Limit Type and Component ID$82
DTCP1457
Test DescriptionMonitoring the fuel tank pressure sensor output when EVAP control canister vent shut valve is closed after releasing the pressure in EVAP vapor line.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.488281 - 62.500000 (mmHg) The lowest limit value: Output value (Decimal) x 0.488281 - 62.500000 (mmHg) The highest limit value: Not applicable

DTC P1457: Test ID $29: Component ID $82

Test ID$2DTest Limit Type and Component ID$02
DTCP1457
Test DescriptionMonitoring the fuel tank pressure sensor during decompressing pressure in EVAP vapor line.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 - 62.500000 (mmHg) The lowest limit value: Not applicable The highest limit value: Output value x 0.488281 - 62.500000 (mmHg)

DTC P1457: Test ID $2D: Component ID $02

Test ID$2ETest Limit Type and Component ID82$
DTCP1457
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor output after opening EVAP bypass solenoid valve while maintaining decompressed pressure in EVAP vapor line.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.488281 (mmHg) The lowest limit value: Output value (Decimal) x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1457: Test ID $2E: Component ID $82

Test ID$2FTest Limit Type and Component ID$82
DTCP1457
Test DescriptionMonitoring the fuel tank pressure sensor output when EVAP canister purge valve is closed. and EVAP bypass solenoid and EVAP canister vent shut valves are opened before decompressing pressure in EVAP vapor line.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 - 62.500000 (mmHg) The lowest limit value: Output value x 0.488281 - 62.500000 (mmHg) The highest limit value: Not applicable

DTC P1457: Test ID $2F: Component ID $82

Test ID$3ATest Limit Type and Component ID$82
DTCP1456
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor before and after the EVAP bypass solenoid valve is opened after engine starting with cold condition.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Output value x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $3A: Component ID $82

Test ID$3BTest Limit Type and Component ID$82
DTCP1456
Test DescriptionMonitoring the difference between the sensor output when EVAP control canister vent shut and EVAP bypass solenoid valves are opened before performing tank leak check, and the sensor output during tank leak check.
Store TimingNormal judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Output value x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1456: Test ID $3B: Component ID $82

Test ID$3CTest Limit Type and Component ID$02
DTCP1456
Test DescriptionMonitoring the valve calculated by dividing the difference of fuel tank pressure sensor output in pressure retention mode after decompressing the fuel tank by EVAP leak monitoring time.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: No unit The lowest limit value: Not applicable The highest limit value: No unit

DTC P1456: Test ID $3C: Component ID $02

Test ID$3ETest Limit Type and Component ID$82
DTCP1457
Test DescriptionMonitoring the fluctuation of fuel tank pressure sensor output after opening EVAP bypass solenoid valve while maintaining decompressing pressure in EVAP vapor line.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value x 0.488281 (mmHg) The lowest limit value: Output value x 0.488281 (mmHg) The highest limit value: Not applicable

DTC P1457: Test ID $3E: Component ID $82

Test ID$81Test Limit Type and Component ID$80
DTCP0496
Test DescriptionEVAP canister purge valve "stuck open" check by monitoring fuel tank pressure sensor while the engine is running.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The lowest limit value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The highest limit value: Not applicable

DTC P0496: Test ID $81: Component ID $80

Test ID$82Test Limit Type and Component ID$80
DTCP2422
Test DescriptionEVAP canister purge valve "stuck close" check by monitoring fuel tank pressure sensor while the engine is running.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The lowest limit value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The highest limit value: Not applicable

DTC P2422: Test ID $82: Component ID $80

Test ID$8FTest Limit Type and Component ID$80
DTCP2422
Test DescriptionEVAP canister purge valve "stuck close" check by monitoring fuel tank pressure sensor at engine start.
Store TimingFailure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The lowest limit value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The highest limit value: Not applicable

DTC P2422: Test ID $8F: Component ID $80

Test ID$83Test Limit Type and Component ID$00
DTCP0497
Test DescriptionMonitoring the difference of fuel tank pressure sensor value when integrated value of purge flow rate reaches more than certain level after engine starts with cold condition and then the tank is decompressed to certain level, and intake air is opened.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The lowest limit value: Not applicable The highest limit value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg)

DTC P0497: Test ID $83: Component ID $00

Test ID$85Test Limit Type and Component ID$00
DTCP0457
Test DescriptionGross leak check of EVAP system by monitoring the fuel tank pressure sensor value while the engine is running.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg) The lowest limit value: Not applicable The highest limit value: Output value (Decimal) x 0.1 (mmHg) - 3276.8 (mmHg)

DTC P0457: Test ID $85: Component ID $00

Test ID$86Test Limit Type and Component ID$00
DTCP0455
Test DescriptionLeak check of EVAP system by monitoring the fuel tank pressure sensor signal while EVAP system is decompression.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) x 0.1 (mmHg) The lowest limit value: Not applicable The highest limit value: Output value (Decimal) x 0.1 (mmHg)

DTC P0455: Test ID $86: Component ID $00

Test ID$87Test Limit Type and Component ID$00
DTCP0456
Test DescriptionLeak check of EVAP system by monitoring the fuel tank pressure sensor value during the soak period after the engine is turned off. (EONV)
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) / 16384 The lowest limit value: Not applicable The highest limit value: Output value (Decimal) / 16384

DTC P0456: Test ID $87: Component ID $00

Test ID$98Test Limit Type and Component ID$00
DTCP0456
Test DescriptionMonitoring 0.02 inch leak based on change of evaporative pressure after engine stops and an index indicated air opening failure including aberration of PTANK 0 point.
Store TimingNormal judgement/Failure judgement
Conversion to Engineering UnitsMeasured value: Output value (Decimal) / 16384 The lowest limit value: Not Applicable The highest limit value: Output value (Decimal) / 16384

DTC P0456: Test ID $98: Component ID $00