Cal. Code Regs. tit. 13 § 1968.2
Current through Register 2024 Notice Reg. No. 43, October 25, 2024
The purpose of this regulation is to reduce motor vehicle and motor vehicle engine emissions by establishing emission standards and other requirements for onboard diagnostic systems (OBD II systems) that are installed on 2004 and subsequent model-year passenger cars, light-duty trucks, and medium-duty vehicles and engines certified for sale in California. The OBD II systems, through the use of an onboard computer(s), shall monitor emission systems in-use for the actual life of the vehicle and shall be capable of detecting malfunctions of the monitored emission systems, illuminating a malfunction indicator light (MIL) to notify the vehicle operator of detected malfunctions, and storing fault codes identifying the detected malfunctions. The use and operation of OBD systems will ensure reductions in in-use motor vehicle and motor vehicle engine emissions through improvements of emission system durability and performance.
Except as specified elsewhere in this regulation (title 13, CCR section 1968.2), all 2004 and subsequent model-year vehicles, defined as passenger cars, light-duty trucks, and medium-duty vehicles, including medium-duty vehicles with engines certified on an engine dynamometer and medium-duty passenger vehicles, shall be equipped with an OBD II system that has been certified by the Executive Officer as meeting all applicable requirements of this regulation (title 13, CCR section 1968.2). Except as specified in section (d)(2.2.5), medium-duty vehicles with engines certified on an engine dynamometer may comply with these requirements on an engine model year certification basis rather than a vehicle model year basis.
"Actual life" refers to the entire period that a vehicle is operated on public roads in California up to the time a vehicle is retired from use.
"Active off-cycle credit technology" refers to a technology that generates off-cycle credits in accordance with title 13, CCR section 1961.3(a)(8) or 40 Code of Federal Regulations (CFR) § 86.1869-12 as it existed on August 5, 2015, as applicable, and that must be activated by the vehicle or driver in order to provide a carbon dioxide (CO2) reduction benefit. Examples of active off-cycle credit technologies include active aerodynamic features (e.g., grill shutters or ride height that is automatically adjusted by the vehicle control system based on vehicle speed or other conditions), active engine warmup technologies, and driver coaching and/or feedback systems that encourage the driver to alter his/her actions to maximize efficiency. Examples of off-cycle credit technologies that are not required to be tracked under section (g)(6) include non-active technologies such as solar glazing and solar reflective paint, thermal control technologies specified in title 13, CCR section 1961.3(a)(8)(A)1.a. or 40 CFR § 86.1869-12(b)(1) (viii), as it existed on August 5, 2015, driver-activated technologies where the driver does not have a less efficient selectable option (e.g., high efficiency exterior lights), and technologies related solely to heating, ventilation, and air conditioning for vehicle cabin conditioning. For 2004 through 2023 model year vehicles, engine idle stop-start systems are not required to be tracked under section (g)(6). For 2024 and subsequent model year vehicles, engine idle stop-start systems are required to be tracked under section (g)(6).
"Alternate-fueled vehicle" refers to a vehicle with an engine using a fuel different from or in addition to gasoline fuel or diesel fuel (e.g., compressed natural gas (CNG), liquefied petroleum gas). For the purposes of this regulation, alternate-fueled vehicles include vehicles with dedicated alternate-fueled engines (i.e., engines designed to operate exclusively on the alternate fuel) and engines that can use more than one type of fuel but cannot be reasonably operated in-use exclusively on gasoline or diesel fuel (e.g., engines with diesel pilot injection and CNG main injection where engine operation is limited to idle if CNG fuel is not available or engines which use gasoline-only operation during cold start and CNG-only operation for the rest of the driving cycle and engine operation defaults to a limp-home restricted speed and load if CNG fuel is not available). For vehicles with engines that can use more than one type of fuel but can be operated in-use exclusively on gasoline or diesel fuel, the vehicles are considered alternate-fueled vehicles only for the portion of operation the engine uses a fuel other than exclusively gasoline or diesel (e.g., a gasoline and CNG vehicle with an engine that can operate exclusively on gasoline is considered an alternate-fueled vehicle only while operating on CNG and is not subject to the provisions or relief of this regulation for alternate-fueled vehicles while operating exclusively on gasoline). For alternate-fueled vehicles, the manufacturer shall meet the requirements of section (d)(7.1).
"Alternate phase-in" is a phase-in schedule that achieves equivalent compliance volume by the end of the last year of a scheduled phase-in provided in this regulation. The compliance volume is the number calculated by multiplying the percent of vehicles (based on the manufacturer's projected sales volume of all vehicles unless specifically stated otherwise in sections (d) through (g)) meeting the new requirements per year by the number of years implemented prior to and including the last year of the scheduled phase-in and then summing these yearly results to determine a cumulative total (e.g., a three year, 30/60/100 percent scheduled phase-in would be calculated as (30*3 years) + (60*2 years) + (100*1 year) = 310). On phase-ins scheduled to begin prior to the 2004 model year, manufacturers are allowed to include vehicles introduced before the first year of the scheduled phase-in (e.g., in the previous example, 10 percent introduced one year before the scheduled phase-in begins would be calculated as (10*4 years) and added to the cumulative total). However, on phase-ins scheduled to begin in 2004 or subsequent model years, manufacturers are only allowed to include vehicles introduced up to one model year before the first year of the scheduled phase-in. The Executive Officer shall consider acceptable any alternate phase-in that results in an equal or larger cumulative total by the end of the last year of the scheduled phase-in and ensures that all vehicles subject to the phase-in will comply with the respective requirements no later than two model years following the last year of the scheduled phase-in.
For alternate phase-in schedules resulting in all vehicles complying one model year following the last year of the scheduled phase-in, the compliance volume shall be calculated as described directly above. For example, a 30/60/100 percent scheduled phase-in during the 2010-2012 model years would have a cumulative total of 310. If the manufacturer's planned alternate phase-in schedule is 40/50/80/100 percent during the 2010-2013 model years, the final compliance volume calculation would be (40*3 years) + (50*2 years) + (80*1 year) = 300, which is less than 310 and therefore would not be acceptable as an alternate phase-in schedule.
For alternate phase-in schedules resulting in all vehicles complying two model years following the last year of the scheduled phase-in, the compliance volume calculation shall be calculated as described directly above and shall also include a negative calculation for vehicles not complying until one or two model years following the last year of the scheduled phase-in. The negative calculation shall be calculated by multiplying the percent of vehicles not meeting the new requirements in the final year of the phase-in by negative one and the percent of vehicles not meeting the new requirements in the one year after the final year of the phase-in by negative two. For example, if 10 percent of a manufacturer's vehicles did not comply by the final year of the scheduled phase-in and 5 percent did not comply by the end of the first year after the final year of the scheduled phase-in, the negative calculation result would be (10*(-1 years)) + (5*(-2 years)) = -20. The final compliance volume calculation is the sum of the original compliance volume calculation and the negative calculation. For example, a 30/60/100 percent scheduled phase-in during the 2010-2012 model years would have a cumulative total of 310. If a manufacturer's planned alternate phase-in schedule is 40/70/80/90/100 percent during the 2010-2014 model years, the final compliance volume calculation would be (40*3 years) + (70*2 years) + (80*1 year) + (20*(-1 year)) + (10*(-2 years)) = 300, which is less than 310 and therefore would not be acceptable as an alternate phase-in schedule.
"Applicable standards" refers to the specific exhaust emission standards or family emission limits (FEL) of the Federal Test Procedure (FTP) to which the vehicle or engine is certified. For 2010 and subsequent model year diesel engines, "applicable standards" shall also refer to the specific exhaust emission standards or family emission limits (FEL) of either the FTP or the Supplemental Emission Test (SET) to which the engine is certified, as determined according to section (d)(6).
"Auxiliary Emission Control Device (AECD)" refers to any approved AECD (as defined by 40 CFR 86.082-2 and 86.094-2 as they existed on January 25, 2018 and incorporated by reference herein).
"Base fuel schedule" refers to the fuel calibration schedule programmed into the Powertrain Control Module or PROM when manufactured or when updated by some off-board source, prior to any learned on-board correction.
"Calculated load value" refers to an indication of the percent engine capacity that is being used and is defined in SAE International (SAE) J1979 "E/E Diagnostic Test Modes", (SAE J1979), incorporated by reference (section (g)(1.4) [FN1]), or SAE J1979-2 "E/E Diagnostic Test Modes--OBDonUDS", (SAE J1979-2), incorporated by reference (section (g)(1.14)). For diesel applications, in lieu of the definitions in SAE J1979 and SAE J1979-2, the calculated load value may alternatively be determined by the ratio of current engine torque to maximum engine torque at current engine speed as defined by suspect parameter number (SPN) 92 of SAE J1939 "Serial Control and Communications Heavy Duty Vehicle Network--Top Level Document" (SAE J1939), incorporated by reference.
"Charge depleting operation" means the state of vehicle operation when the current battery state of charge (SOC) is higher than the charge sustaining target SOC value and, while it may fluctuate, the intent of the vehicle control system is to deplete the SOC from a higher level down to the charge sustaining target SOC value. For the purposes of tracking grid energy consumed during charge depleting operation in section (g)(6.4), charge depleting operation shall also include when the vehicle is connected to the grid for charging. For the purposes of defining the transition of the control system from charge depleting operation to charge sustaining operating once the charge sustaining target SOC value has been met, the first occurrence of fueled engine operation once the SOC is less than or equal to the charge sustaining target SOC value shall be used as the transition point.
"Charge sustaining operation" means the state of vehicle operation when the battery SOC may fluctuate but the intent of the vehicle control system is to maintain, on average, the current SOC. Examples of this state include when a plug-in hybrid electric vehicle is operating as a conventional hybrid vehicle (i.e., if the vehicle has depleted all of the grid energy from the battery and is controlling to the charge sustaining target SOC value) as well as operation in any driver-selectable modes designed to maintain the current SOC (e.g., a 'hold' button intended to save electric drive operation for later in the driving cycle, a 'charge now' button after it has reached its target SOC and the intent of the control system is to maintain, on average, that target SOC).
"Charge sustaining target SOC value" means the nominal target SOC that the control system is designed to maintain, on average, when operating as a conventional hybrid vehicle after depletion of any grid energy in the battery.
"Cold start emission reduction strategy (CSERS) monitoring conditions" is defined as a set of criteria that meet all the following conditions in a single driving cycle:
"Confirmed fault code" is defined as the diagnostic trouble code stored when an OBD II system has confirmed that a malfunction exists (e.g., typically on the second driving cycle that the malfunction is detected) in accordance with the requirements of sections (e), (f), and (g)(4.4).
"Continuously," if used in the context of monitoring conditions for circuit continuity, lack of circuit continuity, circuit faults, and out-of-range values, means monitoring is always enabled, unless alternate enable conditions have been approved by the Executive Officer in accordance with section (d)(3.1.1), and sampling of the signal used for monitoring occurs at a rate no less than two samples per second. If for control purposes, a computer input component is sampled less frequently, the signal of the component may instead be evaluated each time sampling occurs.
"Deactivate" means to turn-off, shutdown, desensitize, or otherwise make inoperable through software programming or other means during the actual life of the vehicle.
"Diagnostic or emission critical" electronic powertrain control unit refers to the engine and transmission control unit(s). For the 2005 and subsequent model years, it also includes any other on-board electronic powertrain control unit that:
For purposes of criteria (1) through (3) above, "primary control" over a monitor means the control unit does any of the following:
"Diesel engine" refers to an engine using a compression ignition thermodynamic cycle.
"Diesel vehicle" refers to a vehicle with a diesel engine.
"Driver-selectable charge increasing operation" means the state of vehicle operation where both:
"Driving cycle" is defined as a trip that consists of engine start and engine shutoff and may include the period of engine off time up to the next engine start. For monitors that run during engine-off conditions, the period of engine off time following engine shutoff and up to the next engine start shall be considered part of the driving cycle. For vehicles that employ engine shutoff strategies (e.g., engine shutoff at idle), the manufacturer may request Executive Officer approval to use an alternate definition for driving cycle (e.g., key on and key off). Executive Officer approval of the alternate definition shall be based on equivalence to engine start and engine shutoff signaling the beginning and ending of a single driving event for a conventional vehicle. For applications that are used in both medium-duty and heavy-duty classes, the manufacturer may use the driving cycle definition of title 13, CCR, section 1971.1 in lieu of this definition. Engine restarts following an engine shut-off that has been neither commanded by the vehicle operator nor by the engine control strategy but caused by an event such as an engine stall may be considered a new driving cycle or a continuation of the existing driving cycle.
"Emission Increasing Auxiliary Emission Control Device (EI-AECD)" refers to any approved AECD that reduces the effectiveness of the emission control system under conditions which may reasonably be expected to be encountered in normal vehicle operation and use, and meets (1) or (2):
"Emissions neutral default action" refers to any compensating control action or default mode of operation that meets all the following conditions:
"Emissions neutral diagnostic" refers to a monitoring strategy required pursuant to section (e)(15) or (f)(15) that meets the following conditions:
"Engine stall" is defined as a drop in the engine speed to zero revolutions-per-minute (rpm) at idle. For vehicles that employ engine shutoff strategies (e.g., hybrid vehicles or vehicles with a start-stop system that shut off the engine at idle), engine states where the engine speed is zero rpm due to the vehicle commanding the engine to shut off are not considered "engine stalls."
"Engine start" is defined as the point when the engine reaches a speed 150 rpm below the normal, warmed-up idle speed (as determined in the drive position for vehicles equipped with an automatic transmission). For hybrid vehicles or for engines employing alternate engine start hardware or strategies (e.g., integrated starter and generators, etc.), the manufacturer may request Executive Officer approval to use an alternate definition for engine start (e.g., ignition key "on"). Executive Officer approval of the alternate definition shall be based on equivalence to an engine start for a conventional vehicle.
"Family Emission Limit (FEL)" refers to the exhaust emission levels to which an engine family is certified under the averaging, banking, and trading program incorporated by reference in title 13, CCR section 1956.8.
"Fault memory" means information pertaining to malfunctions stored in the onboard computer, including fault codes, stored engine conditions, and MIL status.
"Federal Test Procedure (FTP) test" refers to an exhaust emission test conducted according to the test procedures incorporated by reference in title 13, CCR section 1961(d) that is used to determine compliance with the FTP standard to which a vehicle is certified.
"FTP cycle". For passenger vehicles, light-duty trucks, and medium-duty vehicles certified on a chassis dynamometer, FTP cycle refers to the driving schedule in Code of Federal Regulations (CFR) 40, Appendix I, Part 86, section (a) entitled, "EPA Urban Dynamometer Driving Schedule for Light-Duty Vehicles and Light-Duty Trucks" (i.e., the FTP-72 cycle or LA-4 cycle) as it existed on July 8, 2019 and incorporated by reference herein. For medium-duty engines certified on an engine dynamometer, FTP cycle refers to the engine dynamometer schedule in CFR 40, Appendix I, Part 86, section (f)(1), entitled, "EPA Engine Dynamometer Schedule for Heavy-Duty Otto-Cycle Engines," or section (f)(2), entitled, "EPA Engine Dynamometer Schedule for Heavy-Duty Diesel Engines," as those sections existed on January 25, 2018 and incorporated by reference herein.
"FTP standard" refers to the certification tailpipe exhaust emission full useful life standards and test procedures applicable to the FTP cycle and to the class to which the vehicle is certified.
"FTP full useful life standard" refers to the FTP standard applicable when the vehicle reaches the end of its full useful life as defined in the certification requirements and test procedures incorporated by reference in title 13, CCR section 1961(d).
"50°F FTP" refers to the "50°F Emission Test Procedure" defined in the "California 2015 and Subsequent Model Criteria Pollutant Exhaust Emission Standards and Test Procedures and 2017 and Subsequent Model Greenhouse Gas Exhaust Emission Standards and Test Procedures for Passenger Cars, Light Duty Trucks, and Medium Duty Vehicles," incorporated by reference in title 13, CCR section 1961.2.
"Field reprogrammable" means a control unit or device is capable of supporting a manufacturer service procedure intended to be executed in a dealership or other vehicle service environment (e.g., by over-the-air reprogramming) that results in the downloading of new software and/or calibration data into the control unit or device.
"Fuel trim" refers to feedback adjustments to the base fuel schedule. Short-term fuel trim refers to dynamic or instantaneous adjustments. Long-term fuel trim refers to much more gradual adjustments to the fuel calibration schedule than short-term trim adjustments.
"Fueled engine operation" is the state where any fuel is introduced into the engine for the purpose of combustion.
"Functional check" for an output component or system means verification of proper response of the component and system to a computer command.
"Gasoline engine" refers to an engine using a spark ignition thermodynamic cycle.
"Gasoline vehicle" refers to a vehicle with a gasoline engine.
"Grid energy", for the purposes of tracking grid energy parameters in section (g)(6.4), means all energy into the battery while connected to grid power (e.g., plugged-in) and with the engine off. Grid energy shall not include electrical losses between the grid and the battery (e.g., from on-board charger inefficiency) or energy directly used by the vehicle without first going into the battery (e.g., electricity utilized directly from before or after the on-board charger to power on-vehicle devices for cabin conditioning, charging control, etc.). For the purposes of tracking grid energy consumed during charge depleting operation in section (g)(6.4), energy consumed (i.e., out of the battery) shall be considered non-grid energy until all non-grid energy is depleted. Additionally, on any trip where the vehicle transitions from charge depleting operation to charge sustaining operation once the charge sustaining target SOC value has been met, the values currently assumed for grid and non-grid energy remaining in the battery shall be reset to zero to minimize the accumulation of errors over time.
"Non-grid energy", for the purposes of tracking grid energy parameters in section (g)(6.4), means all energy into the battery during charge depleting operation and during driver-selectable charge increasing operation from any source other than grid power (i.e., while not connected to a source of power for charging). Examples of non-grid energy include energy recovered during braking and energy supplied to the battery during engine operation. If an engine running condition exists while connected to a source of grid power for charging, all energy going into the battery during the engine running event shall be considered non-grid energy. Non-grid energy may not include any energy into the battery during charge sustaining operation.
"Highway Fuel Economy Driving Cycle" refers to the "Highway Driving Schedule" defined in Part II of the "California 2015 and Subsequent Model Criteria Pollutant Exhaust Emission Standards and Test Procedures and 2017 and Subsequent Model Greenhouse Gas Exhaust Emission Standards and Test Procedures for Passenger Cars, Light Duty Trucks, and Medium Duty Vehicles," incorporated by reference in section 1961.2, title 13, CCR.
"Highway Fuel Economy Test (HWFET)" refers to the test defined in 40 CFR 600 Subpart B or 40 CFR § 1066.840 with the migration provisions of 40 CFR § 600.111-08 introduction, as those sections existed on August 5, 2015.
*"Hybrid vehicle" refers to a vehicle (including a plug-in hybrid electric vehicle) that can draw propulsion energy from either or both of the following on-vehicle sources of stored energy:
"Ignition cycle," except as noted below for hybrid vehicles, means a trip that begins with engine start, meets the engine start definition for at least two seconds plus or minus one second, and ends with engine shut-off. For hybrid vehicles, "ignition cycle" means a trip that begins when the propulsion system active definition is met for at least two seconds plus or minus one second, and ends when the propulsion system active definition is no longer met.
"Keep-alive memory (KAM)," for the purposes of this regulation, is defined as a type of memory that retains its contents as long as power is provided to the on-board control unit. KAM is not erased upon shutting off the engine but may be erased if power to the on-board control unit is interrupted (e.g., vehicle battery disconnected, fuse to control unit removed). In some cases, portions of KAM may be erased with a scan tool command to reset KAM.
"Key on, engine off position" refers to a vehicle with the ignition key in the engine run position (not engine crank or accessory position) but not in the state of propulsion system active and not with the engine running.
"Light-duty truck" is defined in title 13, CCR section 1900 (b).
"Low Emission Vehicle I application" refers to a vehicle or engine certified in California to the exhaust emission standards defined in title 13, CCR sections 1956.8(g), 1960.1(g)(1), and 1960.1(h)(1) for any of the following vehicle emission categories: Transitional Low Emission Vehicle (TLEV), Low Emission Vehicle (LEV), Ultra Low Emission Vehicle (ULEV), or Super Ultra Low Emission Vehicle (SULEV). Additionally, vehicles certified to Federal emission standards (bins) in California but categorized in a Low Emission Vehicle I vehicle emission category for purposes of calculating non-methane organic gas (NMOG) fleet average in accordance with the certification requirements and test procedures incorporated by reference in title 13, CCR section 1961 (d) are subject to all monitoring requirements applicable to Low Emission Vehicle I applications but shall use the Federal tailpipe emission standard (i.e., the Federal bin) for purposes of determining the malfunction thresholds in sections (e) and (f).
"MDV SULEV vehicles" refer only to medium-duty Low Emission Vehicle I applications certified to the SULEV vehicle emission category.
"TLEV vehicles" refer only to Low Emission Vehicle I applications certified to the TLEV vehicle emission category.
"LEV vehicles" refer only to Low Emission Vehicle I applications certified to the LEV vehicle emission category.
"ULEV vehicles" refer only to Low Emission Vehicle I applications certified to the ULEV vehicle emission category.
"Low Emission Vehicle II application" refers to a vehicle or engine certified in California to the exhaust emission standards defined in title 13, CCR section 1961, or optionally certified to the exhaust emission standards defined in title 13, CCR section 1956.8, for any of the following emission categories: LEV, ULEV, or SULEV. Additionally, except as provided for in sections (e)(17.1.3) and (f)(17.1.2), vehicles certified to Federal emission standards (bins) in California but categorized in a Low Emission Vehicle II vehicle emission category for purposes of calculating NMOG fleet average in accordance with the certification requirements and test procedures incorporated by reference in title 13, CCR section 1961 (d) are subject to all monitoring requirements applicable to Low Emission Vehicle II applications but shall use the Federal tailpipe emission standard (i.e., the Federal bin) for purposes of determining the malfunction thresholds in sections (e) and (f).
"PC/LDT SULEV II vehicles" refer only to passenger car and light-duty truck Low Emission Vehicle II applications certified to the SULEV vehicle emission category.
"MDV SULEV II vehicles" refer only to medium-duty Low Emission Vehicle II applications certified to the SULEV vehicle emission category.
"LEV II vehicles" refer only to Low Emission Vehicle II applications certified to the LEV vehicle emission category.
"ULEV II vehicles" refer only to Low Emission Vehicle II applications certified to the ULEV vehicle emission category.
"Low Emission Vehicle III application" refers to a vehicle or engine certified in California to the exhaust emission standards defined in title 13, CCR section 1961.2. Additionally, vehicles certified to Federal emission standards (bins) in California but categorized in a Low Emission Vehicle III vehicle emission category for purposes of calculating NMOG+NOx fleet average in accordance with the certification requirements and test procedures incorporated by reference in title 13, CCR section 1961.2 (d) are subject to all monitoring requirements applicable to Low Emission Vehicle III applications but shall use the Federal tailpipe emission standard (i.e., the Federal bin) for purposes of determining the malfunction thresholds in sections (e) and (f).
"LEV160 vehicles" refer only to Low Emission Vehicle III applications certified to the LEV160 vehicle emission category.
"ULEV125 vehicles" refer only to Low Emission Vehicle III applications certified to the ULEV125 vehicle emission category.
"ULEV70 vehicles" refer only to Low Emission Vehicle III applications certified to the ULEV70 vehicle emission category.
"ULEV50 vehicles" refer only to Low Emission Vehicle III applications certified to the ULEV50 vehicle emission category.
"SULEV30 vehicles" refer only to Low Emission Vehicle III applications certified to the SULEV30 vehicle emission category.
"SULEV20 vehicles" refer only to Low Emission Vehicle III applications certified to the SULEV20 vehicle emission category.
"Low Emission Vehicle IV" application refers to a vehicle or engine certified in California to the exhaust emission standards defined in title 13, CCR section 1961.4. References to vehicle emission categories preceded by "LEV IV" refer to Low Emission Vehicle IV applications certified to that specific vehicle emission category defined in title 13, CCR section 1961.4 (e.g., "LEV IV SULEV15 vehicles" refer to Low Emission Vehicle IV applications certified to the Low Emission Vehicle IV SULEV15 vehicle emission category).
"Malfunction" means any deterioration or failure of a component or system that causes the performance to be outside of the applicable limits in sections (e) and (f).
"Medium-duty vehicle" or "MDV" is defined in title 13, CCR section 1900 (b).
"Medium-duty passenger vehicle" or "MDPV" is defined in Title 40, Section 86.1803-01, Code of Federal Regulations.
"Mild hybrid electric vehicle" means a hybrid vehicle that has start/stop capability and regenerative braking capability, where the recaptured braking energy over the FTP is at least 15 percent but less than 75 percent of the total braking energy, where the percent of recaptured braking energy is measured and calculated according to 40 CFR § 600.116(d), as it existed on August 5, 2015.
"Misfire" means lack of combustion in the cylinder due to absence of spark, poor fuel metering, poor compression, or any other cause. This does not include lack of combustion events in non-active cylinders due to default fuel shut-off or cylinder deactivation strategies.
"Non-volatile random access memory (NVRAM)," for the purposes of this regulation, is defined as a type of memory that retains its contents even when power to the on-board control unit is interrupted (e.g., vehicle battery disconnected, fuse to control unit removed). NVRAM is typically made non-volatile either by use of a back-up battery within the control unit or through the use of an electrically erasable and programmable read-only memory (EEPROM) chip.
"Not-To-Exceed (NTE) control area" refers to the bounded region of the engine's torque and speed map, as defined in 40 CFR 86 .1370-2007, where emissions must not exceed a specific emission cap for a given pollutant under the NTE requirement.
"Manufacturer-specific NOx NTE carve-out area" refers to regions within the NTE control area for NOx where the manufacturer has limited NTE testing as allowed by 40 CFR 86.1370-2007(b)(7).
"Manufacturer-specific PM NTE carve-out area" refers to regions within the NTE control area for PM where the manufacturer has limited NTE testing as allowed by 40 CFR 86.1370-2007(b)(7).
"NTE deficiency" refers to regions or conditions within the NTE control area for NOx or PM where the manufacturer has received a deficiency as allowed by 40 CFR 86.007-11(a)(4)(iv).
"Normal production" is the time after the start of production when the manufacturer has produced two percent of the projected volume for the test group or calibration, whichever is specified in sections (j) and (k).
"Over-the-air reprogramming" refers to the remote reprogramming of a vehicle or engine controller using wireless technologies. No physical connection between any reprogramming equipment and the vehicle is made when using over-the-air reprogramming.
"Passenger car" is defined in title 13, CCR section 1900(b).
"Pending fault code" is defined as the diagnostic trouble code stored upon the initial detection of a malfunction (e.g., typically on a single driving cycle) prior to illumination of the MIL in accordance with the requirements of sections (e), (f), and (g)(4.4).
"Percentage of misfire" as used in (e)(3.2) and (f)(3.2) means the percentage of misfires out of the total number of intended combustion events for the specified interval.
"Permanent fault code" is defined as a confirmed fault code that is stored in NVRAM as specified in sections (d)(2) and (g)(4.4).
"Plug-in hybrid electric vehicle" means an "off-vehicle charge capable" hybrid electric vehicle as defined in the "California Exhaust Emission Standards and Test Procedures for 2018 and Subsequent Model Zero-Emission Vehicles and Hybrid Electric Vehicles, in the Passenger Car, Light-Duty Truck and Medium-Duty Vehicle Classes," incorporated by reference in title 13, CCR section 1962.2.
"Power Take-Off (PTO) unit" refers to an engine driven output provision for the purposes of powering auxiliary equipment (e.g., a dump-truck bed, aerial bucket, or tow-truck winch).
"Propulsion system active" is the state where the powertrain (e.g., engine, electric machine) is enabled by the driver (e.g., after ignition on for conventional vehicles, after power button pushed for some hybrid vehicles, or after remote start activation) such that the vehicle is ready to be used (e.g., vehicle is ready to be driven, ready to be shifted from "park" to "drive", heating, ventilation, and air conditioning (HVAC) turned on to condition cabin prior to driving). For purposes of this definition, "the state where the powertrain is enabled" does not include activations that are not driver-initiated (e.g., conditions where portions of the vehicle system wake up to perform OBD II monitoring or off-board charging). This state also does not include remote start activations that cannot cause the engine to start (e.g., in a remote activation to condition the cabin, the engine will not start until there is further action by the driver to enable the vehicle for operation regardless of cabin conditioning demand or length of cabin conditioning operation).
"Rationality fault diagnostic" for an input component means verification of the accuracy of the input signal while in the range of normal operation and when compared to all other available information.
"Redline engine speed" shall be defined by the manufacturer as either the recommended maximum engine speed as normally displayed on instrument panel tachometers or the engine speed at which fuel shutoff occurs.
"Response rate" for exhaust gas sensors refers to the delay from when the sensor is exposed to a different make-up of exhaust gas constituents until it outputs a signal reflecting the different make-up of exhaust gas constituents. For example, for oxygen sensors, response rate is the delay from when the oxygen sensor is exposed to a change in exhaust gas from richer/leaner than stoichiometric to leaner/richer than stoichiometric to the time when the oxygen sensor indicates the lean/rich condition. This includes delays in the sensor to initially react to a change in exhaust gas composition (i.e., delayed response) as well as slower transitions from a rich-to-lean (or lean-to-rich) sensor output (i.e., slow response). Similarly, for wide-range air-fuel (A/F) sensors, response rate is the delay from when the sensor is exposed to a different A/F ratio to the time it indicates the different A/F ratio. For NOx and PM sensors, response rate is the delay from when the sensor is exposed to a different NOx or PM exhaust gas level until it indicates the different NOx or PM exhaust gas level.
"Safety-only component or system" refers to a component or system that is designed and intended to be used by the vehicle solely to prevent or mitigate personal injury to the vehicle occupant(s), pedestrians, and/or service technicians. Examples include traction control systems, anti-lock braking systems, hybrid high voltage containment systems (e.g., high voltage interlock loop, high voltage isolation detection), and lane departure control systems.
"SC03 emission standards" refers to the certification tailpipe exhaust emission standards for the air conditioning (A/C) test of the Supplemental Federal Test Procedure Off-Cycle Emission Standards specified in title 13, CCR section 1961(a) applicable to the class to which the vehicle is certified.
"Secondary air" refers to air introduced into the exhaust system by means of a pump or aspirator valve or other means that is intended to aid in the oxidation of HC and CO contained in the exhaust gas stream.
"Similar conditions" as used in sections (e)(3), (e)(6), (f)(3), and (f)(4) means engine conditions having an engine speed within 375 rpm, load conditions within 20 percent, and the same warm-up status (i.e., cold or hot) as the engine conditions stored pursuant to (e)(3.4.4), (e)(6.4.5), (f)(3.4.2)(C), and (f)(4.4.2)(E). The Executive Officer may approve other definitions of similar conditions based on comparable timeliness and reliability in detecting similar engine operation.
"Small volume manufacturer" is defined in title 13, CCR section 1900(b). However, for a manufacturer that transitions from a small volume manufacturer to a non-small volume manufacturer, the manufacturer is still considered a small volume manufacturer for the first three model years that it no longer meets the definition in title 13, CCR section 1900(b).
"Smart device" refers to an electronic powertrain component or system that uses a microprocessor or microcontroller and does not meet the criteria to be classified as a "diagnostic or emission critical electronic powertrain control unit." Devices that provide high level control of transmissions or battery packs are excluded from this definition. Any component or system externally connected to the smart device shall not be considered part of the smart device unless:
"Strong hybrid electric vehicle" means a hybrid vehicle that has start/stop capability and regenerative braking capability, where the recaptured braking energy over the FTP is at least 75 percent of the total braking energy, where the percent of recaptured braking energy is measured and calculated according to 40 CFR § 600.116(d), as it existed on August 5, 2015.
"Supplemental Emission Test (SET) cycle" refers to the driving schedule defined as the "supplemental steady state emission test" in 40 CFR 86.1360-2007, as amended July 13, 2005.
"Supplemental Federal Test Procedure (SFTP) Composite Emission Standard" refers to the "SFTP NMOG+NOx and CO Composite Exhaust Emission Standards" defined in the "California 2015 and Subsequent Model Criteria Pollutant Exhaust Emission Standards and Test Procedures and 2017 and Subsequent Model Greenhouse Gas Exhaust Emission Standards and Test Procedures for Passenger Cars, Light Duty Trucks, and Medium Duty Vehicles," incorporated by reference in title 13, CCR section 1961.2.
"SET standard" refers to the certification exhaust emission standards and test procedures applicable to the SET cycle incorporated by reference in title 13, CCR sections 1956.8(b) and (d) to which the engine is certified.
"Unified cycle" refers to the "Unified Cycle Driving Schedule" defined in Part II of the "California 2015 and Subsequent Model Criteria Pollutant Exhaust Emission Standards and Test Procedures and 2017 and Subsequent Model Greenhouse Gas Exhaust Emission Standards and Test Procedures for Passenger Cars, Light Duty Trucks, and Medium Duty Vehicles," incorporated by reference in title 13, CCR section 1961.2.
"US06 cycle" refers to the driving schedule in 40 CFR 86, Appendix 1, section (g), as amended July 13, 2005, entitled, "EPA US06 Driving Schedule for Light-Duty Vehicles and Light-Duty Trucks."
"Warm-up cycle" means a driving cycle with sufficient vehicle operation such that the coolant temperature has risen by at least 40 degrees Fahrenheit or 22.2 degrees Celsius from engine start and reaches a minimum temperature of at least 160 degrees Fahrenheit or 71.1 degrees Celsius (140 degrees Fahrenheit or 60 degrees Celsius for applications with diesel engines). Alternatively, manufacturers may define warm-up cycle as a driving cycle with vehicle operation in which the criteria specified in sections (d)(2.5.2)(B)(iii)a. (or f. if applicable), b., and c. are met.
Section (d) sets forth the general requirements of the OBD II system. Specific performance requirements for components and systems that shall be monitored are set forth in sections (e) and (f) below.
Except as otherwise provided in sections (e)(3.4.6), (e)(4.4.2), (e)(6.4.6), (f)(2.4.2), (f)(3.4.2)(D), and (f)(4.4.2)(F) (for gasoline misfire, gasoline evaporative system, gasoline fuel system, diesel empty reductant tank, diesel misfire, and diesel fuel system malfunctions, respectively), once the MIL has been illuminated:
Section (d)(3) sets forth the general monitoring requirements while sections (e) and (f) set forth the specific monitoring requirements as well as identify which of the following general monitoring requirements in section (d)(3) are applicable for each monitored component or system identified in sections (e) and (f).
The OBD II system is not required to track or report in-use performance for monitors other than those specifically identified above.
For the comprehensive component input component temperature sensor rationality fault diagnostics and the engine cooling system input component rationality monitors, the manufacturer shall use the criteria in section (d)(4.3.2)(D) on 30 percent of 2019, 60 percent of 2020, and 100 percent of 2021 and subsequent model year vehicles (except plug-in hybrid electric vehicles). For vehicles (except plug-in hybrid electric vehicles) not included in the phase-in, the manufacturer may use the criteria in section (d)(4.3.2)(H) in lieu of the criteria in section (d)(4.3.2)(D) for these monitors.
For purposes of determining this commanded "on" time, the OBD II system may not include time during intrusive operation of any of the components or strategies later in the same driving cycle solely for the purposes of monitoring.
For the PM sensor heater monitor, as an alternative for 2013 through 2015 model year vehicles, the manufacturer may use the criteria in section (d)(4.3.2)(B) in lieu of the criteria specified in section (d)(4.3.2)(F) above.
For the PM filter active/intrusive injection monitor, as an alternative for 2013 through 2015 model year vehicles, the manufacturer may use the criteria in section (d)(4.3.2)(I) in lieu of the criteria specified in section (d)(4.3.2)(F) above.
For the diesel NMHC converting catalyst monitor (section (f)(1.2.2)), as an alternative for 2004 through 2023 model year medium-duty vehicles certified to an engine dynamometer tailpipe emission standard, the manufacturer may use the criteria in section (d)(4.3.2)(I) in lieu of the criteria specified in section (d)(4.3.2)(G) above.
For the comprehensive component input component temperature sensor rationality fault diagnostics and the engine cooling system input component rationality monitors, as an alternative for 2015 through 2018 model year plug-in hybrid electric vehicles, the manufacturer may use the criteria in section (d)(4.3.2)(H) in lieu of the criteria specified in section (d)(4.3.2)(L) above.
For the evaporative system purge flow monitor (section (e)(4.2.2)(A)), as an alternative for 2015 through 2018 model year plug-in hybrid electric vehicles, the manufacturer may choose to increment the denominator if the requirements of section (d)(4.3.2)(K)(i) through (iii) have been met in lieu of the criteria specified in section (d)(4.3.2)(L)(i) above.
As an alternative for 2004 through 2018 model year vehicles, the manufacturer may use the criteria in section (d)(4.3.2)(D) or (d)(4.3.2)(L), whichever is applicable, in lieu of the criteria specified above in section (d)(4.3.2)(M).
For non-Low Emission Vehicle III applications (e.g., Low Emission Vehicle applications and Low Emission Vehicle II applications), the emission thresholds are specified in the monitoring sections in section (e) below. For Low Emission Vehicle III applications, wherever an emission threshold for a malfunction on a diagnostic is required in section (e), the emission thresholds shall be set in accordance with Table 1 below:
Table 1
Table 1: LEV-III OBD II Gasoline Thresholds | ||||||
Exhaust Standards | Monitor Thresholds (except catalyst) | Catalyst Monitor Threshold | ||||
Vehicle Type | Vehicle Emission Category | NMOG+ NOx Mult. | CO Mult. | PM Mult. | PM THD (mg/mi) | NMOG+NOx Mult. |
Passenger Cars, Light-Duty Trucks, and Chassis Certified MDPVs | LEV160 | 1.50 | 1.50 | N/A | 17.50 1 | 1.75 |
ULEV125 | ||||||
ULEV70 | 2.00 | 2.00 | ||||
ULEV50 | ||||||
SULEV30 | 2.50 | 2.50 | 2.50 | |||
SULEV20 4 | ||||||
Chassis Certified MDVs (except MDPVs) | All MDV Emission Categories | 1.50 | 1.50 | 1.50 2 | 17.50 3 | 1.75 |
1. Applies to 2019 and subsequent model year vehicles | ||||||
2. Applies to 2019 and subsequent model year vehicles not included in the phase-in of the PM standards set forth in title 13, CCR section 1961.2(a)(2)(B)2 | ||||||
3. Applies to 2019 and subsequent model year vehicles included in the phase-in of the PM standards set forth in title 13, CCR section 1961.2(a)(2)(B)2 | ||||||
4. Manufacturer shall use the 2.50 times NMOG+NOx multiplier for vehicles not using the provisions of section (e)(17.1.5) | ||||||
THD = Threshold; mg/mi = milligram per mile; Mult. = Multiplier to be used with the applicable standard (e.g., 2.0 times the NMOG+NOx standard);
NMOG+NOx Multiplier | CO Multiplier | PM Threshold (mg/mi)1 | |
Monitors (except for catalyst) | 1.85 | 1.50 | 17.50 |
Catalyst Monitor | 2.00 | N/A | N/A |
1. Applies to 2019 and subsequent model year vehicles | |||
Table 1-A
Monitor Thresholds (Except Catalyst) | Catalyst Monitor Thresholds | |||
Vehicle Emission Category | NMOG+NOx Multiplier | CO Multiplier | PM Threshold (mg/mi) | NMOG+ NOx Multiplier |
LEV IV ULEV60 | 2.00 | 1.50 | 17.50 | 2.00 |
LEV IV ULEV40 | 2.25 | 1.50 | 17.50 | 2.25 |
LEV IV SULEV25 | 2.80 | 2.50 | 17.50 | 2.80 |
LEV IV SULEV15 | 3.33 | 2.50 | 17.50 | 3.33 |
Table 1-B
Monitor Thresholds (Except Catalyst) | Catalyst Monitor Thresholds | |||
Vehicle Emission Category | NMOG+NOx Multiplier | CO Multiplier | PM Threshold (mg/mi) | NMOG+ NOx Multiplier |
LEV IV SULEV125 | 1.75 | 1.50 | 17.50 | 2.00 |
LEV IV SULEV100 | 1.75 | 1.50 | 17.50 | 2.00 |
LEV IV SULEV85 | 2.00 | 1.50 | 17.50 | 2.50 |
LEV IV SULEV75 | 2.00 | 1.50 | 17.50 | 2.50 |
Table 1-C
Monitor Thresholds (Except Catalyst) | Catalyst Monitor Thresholds | |||
Vehicle Emission Category | NMOG+NOx Multiplier | CO Multiplier | PM Threshold (mg/mi) | NMOG+ NOx Multiplier |
LEV IV SULEV175 | 1.50 | 1.50 | 17.50 | 1.75 |
LEV IV SULEV150 | 1.75 | 1.50 | 17.50 | 2.00 |
LEV IV SULEV125 | 2.00 | 1.50 | 17.50 | 2.25 |
LEV IV SULEV100 | 2.00 | 1.50 | 17.50 | 2.50 |
For non-Low Emission Vehicle III applications (e.g., Low Emission Vehicle applications and Low Emission Vehicle II applications), the emission thresholds are specified in the monitoring sections in section (f) below. For Low Emission Vehicle III applications, wherever an emission threshold for a malfunction on a diagnostic is required in section (f), the emission thresholds shall be set in accordance with Table 2 and Table 3 below:
Table 2
LEV-III OBD II Diesel Thresholds | |||||||
Exhaust Standards | Monitor Thresholds1 | Aftertreatment Monitor Thresholds2 | |||||
Vehicle Type | Vehicle Emission Category | NMOG+ NOx Mult. | CO Mult. | PM Mult. | NMOG+ NOx Mult. | CO Mult.3 | PM Mult. |
Passenger | LEV160 | 1.50 | 1.50 | 2.00 | 1.75 | 1.50 | 2.00 3 |
Cars, Light-Duty | ULEV125 | ||||||
Trucks, and | ULEV70 | 2.00 | 2.00 | ||||
Chassis | ULEV50 | ||||||
Certified | SULEV30 | 2.50 | 2.50 | 2.50 | 2.50 | ||
MDPVs | SULEV20 6 | ||||||
2016MY-2018MY Chassis Certified MDVs (except MDPVs) | All MDV Emission Categories | 1.50 | 1.50 | 2.00 | 1.75 | N/A | N/A |
2019+MY Chassis Certified MDVs (except MDPVs) | All MDV Emission Categories | 1.50 | 1.50 | 1.50 4 or 2.00 5 | 1.75 | 1.50 | 1.50 4 or 2.00 5 |
1. Applies to (f)(3.2.5), (f)(4)-(f)(7), (f)(9.2.2), (f)(12)-(f)(13) | |||||||
2. Applies to (f)(1)-(f)(2), (f)(8), and (f)(9.2.4) | |||||||
3. Applies to 2019 and subsequent model years | |||||||
4. Applies to vehicles not included in the phase-in of the PM standards set forth in title 13, CCR section 1961.2(a)(2)(B)2 | |||||||
5. Applies to vehicles included in the phase-in of the PM standards set forth in title 13, CCR section 1961.2(a)(2)(B)2 | |||||||
6. Manufacturer shall use the 2.50 times NMOG+NOx multiplier for vehicles not using the provisions of section (f)(17.1.7) | |||||||
Table 3
LEV-III OBD II Diesel PM Filter Filtering Performance Monitor Threshold | |||||
Exhaust Standards | PM Filter Filtering Performance Monitor Threshold | ||||
Vehicle Type | Vehicle Emission Category | NMOG+ NOx Mult. 1 | CO Mult. 1 | PM Mult. | PM THD (mg/mi) |
Passenger Cars, Light-Duty Trucks, and Chassis Certified MDPVs | LEV160 | 1.50 | 1.50 | N/A | Up to and including the 2025 model year: 17.50 |
ULEV125 | |||||
ULEV70 | 2.00 | ||||
ULEV50 | Option 1 5: 2026-2028MY: 17.50 2029+MY: 10.00 | ||||
SULEV30 | 2.50 | 2.50 | |||
SULEV20 4 | Option 2 5: 2026+MY: 10.00 | ||||
2016MY-2018MY Chassis Certified MDVs (except MDPVs) | All MDV Emission Categories | N/A | N/A | 1.75 2 | 17.50 3 |
2019+MY Chassis Certified MDVs (except MDPVs) 8,500-10,000 lbs. GVWR | All MDV Emission Categories | 1.50 | 1.50 | 1.50 2 | Up to and including the 2028MY: 17.50 3 2029+MY: 14.00 |
2019+MY Chassis Certified MDVs (except MDPVs) 10,001-14,000 lbs. GVWR | All MDV Emission Categories | 1.50 | 1.50 | 1.50 2 | 17.50 3 |
1 Applies to 2019 and subsequent model years
2 Applies to vehicles not included in the phase-in of the PM standards set forth in title 13, CCR section 1961.2(a)(2)(B)2
3 Applies to vehicles included in the phase-in of the PM standards set forth in title 13, CCR section 1961.2(a)(2)(B)2
4 Manufacturer shall use the 2.50 times NMOG+NOx multiplier for vehicles not using the provisions of section (f)(17.1.7)
5 All vehicles within a specific test group shall meet the same Option (either Option 1 or Option 2). A test group that is carried over to a subsequent model year(s) may use one Option one year, then use the other Option another year. In order for a test group to qualify for the provisions of sections (h)(2.2.1) and (k)(7.3), the PM filter filtering performance monitor must detect a malfunction before emissions exceed the PM threshold under Option 2 (e.g., the PM filter filtering performance monitor may not have a deficiency for not being able to detect a malfunction before emissions exceed the PM threshold under Option 2) and must meet the minimum acceptable ratio in section (d)(3.2.1)(G)(vi).
The OBD II system shall monitor the fuel delivery system to determine its ability to comply with applicable standards. The individual electronic components (e.g., actuators, valves, sensors, pumps) that are used in the fuel system and not specifically addressed in this section shall be monitored in accordance with the comprehensive component requirements in section (f)(15).
NMOG+ NOx Multiplier | CO Multiplier | PM Multiplier | PM Threshold (mg/mi) | |
Monitors 1 | 1.85 | 1.50 | 2.00 | N/A |
Aftertreatment Monitors 2 | 2.00 | 1.50 3 | 2.00 3 | N/A |
PM Filter Filtering Performance Monitor | 1.85 3 | 1.50 3 | N/A | 17.50 |
1. Applies to (f)(3.2.5), (f)(4)-(f)(7), (f)(9.2.2), (f)(12)-(f)(13) | ||||
2. Applies to (f)(1)-(f)(2), (f)(8), and (f)(9.2.4)(A) | ||||
3. Applies to 2019 and subsequent model years | ||||
Table 2-A
Monitor Threshold 1 | Aftertreatment Monitor and Exhaust Gas Sensor Threshold 2 Multiplier | |||||
Vehicle Emission Category | NMOG+NOx Multiplier | CO Multiplier | PM | NMOG+NOx | CO | PM |
LEV IV ULEV60 | 2.00 | 1.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 2.00 | 1.50 | 2.00 |
LEV IV ULEV40 | 2.25 | 1.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 2.25 | 1.50 | 2.00 |
LEV IV SULEV25 | 2.80 | 2.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 2.80 | 2.50 | 2.00 |
LEV IV SULEV15 | 3.33 | 2.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 3.33 | 2.50 | 2.00 |
1 Applies to (f)(3.2.5), (f)(4), (f)(6), (f)(7), (f)(9.2.1), (f)(9.2.2), (f)(9.2.4)(B), (f)(12)-(f)(14) | ||||||
2 Applies to (f)(1), (f)(2), (f)(5), (f)(8), and (f)(9.2.4)(A) | ||||||
3 2.00 multiplier applies to (f)(3.2.5), (f)(4), (f)(6), (f)(7), (f)(9.2.2), (f)(9.2.4)(B), (f)(12), and (f)(13) | ||||||
4 For (f)(9.2.1), the PM thresholds for passenger cars, light-duty trucks, and chassis certified MDPVs in Table 3 at the beginning of section (f) apply | ||||||
Table 2-B
Monitor Threshold 1 | Aftertreatment Monitor and Exhaust Gas Sensor Threshold 2 Multiplier | |||||
Vehicle Emission Category | NMOG+NOx Multiplier | CO Multiplier | PM | NMOG+NOx | CO | PM |
LEV IV SULEV125 | 1.80 | 1.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 2.10 | 1.50 | 2.00 |
LEV IV SULEV100 | 2.25 | 1.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 2.63 | 1.50 | 2.00 |
LEV IV SULEV85 | 2.65 | 1.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 3.09 | 1.50 | 2.00 |
LEV IV SULEV75 | 3.00 | 1.50 | 2.00 multiplier 3 or Table 3 threshold 4 | 3.50 | 1.50 | 2.00 |
1 Applies to (f)(3.2.5), (f)(4), (f)(6), (f)(7), (f)(9.2.1), (f)(9.2.2), (f)(9.2.4)(B), (f)(12)-(f)(14) | ||||||
2 Applies to (f)(1), (f)(2), (f)(5), (f)(8), and (f)(9.2.4)(A) | ||||||
3 2.00 multiplier applies to (f)(3.2.5), (f)(4), (f)(6), (f)(7), (f)(9.2.2), (f)(9.2.4)(B), (f)(12), and (f)(13) | ||||||
4 For (f)(9.2.1), the PM thresholds for 2019+MY chassis certified MDVs (except MDPVs) 8,500-10,000 lbs. GVWR in Table 3 at the beginning of section (f) apply | ||||||
Table 2-C
Monitor Threshold 1 | Aftertreatment Monitor and Exhaust Gas Sensor Threshold 2 Multiplier | |||||
Vehicle Emission Category | NMOG+NOx Multiplier | CO Multiplier | PM | NMOG+NOx | CO | PM |
LEV IV SULEV175 | 1.71 | 1.50 | 2.00 multiplier 3 or 17.50 mg/mi 4 | 2.00 | 1.50 | 2.00 |
LEV IV SULEV150 | 2.00 | 1.50 | 2.00 multiplier 3 or 17.50 mg/mi 4 | 2.33 | 1.50 | 2.00 |
LEV IV SULEV125 | 2.40 | 1.50 | 2.00 multiplier 3 or 17.50 mg/mi 4 | 2.80 | 1.50 | 2.00 |
LEV IV SULEV100 | 3.00 | 1.50 | 2.00 multiplier 3 or 17.50 mg/mi 4 | 3.50 | 1.50 | 2.00 |
1 Applies to (f)(3.2.5), (f)(4), (f)(6), (f)(7), (f)(9.2.1), (f)(9.2.2), (f)(9.2.4)(B), (f)(12)-(f)(14) | ||||||
2 Applies to (f)(1), (f)(2), (f)(5), (f)(8), and (f)(9.2.4)(A) | ||||||
3 2.00 multiplier applies to (f)(3.2.5), (f)(4), (f)(6), (f)(7), (f)(9.2.2), (f)(9.2.4)(B), (f)(12), and (f)(13) | ||||||
4 17.50 mg/mi applies to (f)(9.2.1) | ||||||
For the test-out criteria (i.e., criteria used to determine if the specific component or function is exempt from the monitoring requirements) specified in sections (f)(1.2.3)(B), (f)(1.2.3)(D), (f)(6.2.6)(C), (f)(9.2.4)(A), (f)(9.2.4)(B), (f)(15.1.2), and (f)(15.2.2)(F)(ii), when determining if no malfunction can cause emissions to exceed the standards or increase by the maximum allowed percentage of the standards, the manufacturer shall use the full useful life FTP exhaust emission standards to which the vehicle is certified except as provided below:
The following SAE International and International Organization for Standardization (ISO) documents are incorporated by reference into this regulation:
Manufacturers shall use one of the following standardized protocols for communication of all required emission related messages from on-board to off-board network communications to a scan tool meeting SAE J1978 specifications:
The following standardized functions shall be implemented in accordance with the specifications in SAE J1979 or SAE J1979-2, whichever is applicable, to allow for access to the required information by a scan tool meeting SAE J1978 specifications:
"Brake engine power output" = 2[LESS THAN EQUAL TO]2 x (brake engine torque) x (engine RPM)/60 in units of W, and
"Brake engine torque" = (engine reference torque) x [(indicated torque)--(friction torque)].
"Heat energy flow prior to the SCR" = (heat capacity of exhaust gas (Cp)] x (exhaust mass flow (mexhaust)) x (temperature difference between SCR inlet and ambient) /1000.
EWMA(t) = (1-λ)*EWMA(t-1) + λ*Y(t) (for t = 1, 2, ..., n), where
EWMA(t) is the weighted mean of historical data (the current weighted moving average),
EWMA(t-1) is the weighted mean of historical data calculated one event prior to time t,
Y(t) is the observation at time t,
n is the number of measurements, and
λ is a constant that determines the degree of weighting/filtering for the EWMA calculation.
Except as provided below, the manufacturer shall perform single-fault testing based on the applicable FTP test with the following components/systems set at their malfunction criteria limits as determined by the manufacturer for meeting the requirements of section (e):
Except as provided below, the manufacturer shall perform single-fault testing based on the applicable test with the following components/systems set at their malfunction criteria limits as determined by the manufacturer for meeting the requirements of section (f).
"Calculated net brake torque" = (engine reference torque) x [(actual engine - percent torque) - (engine friction - percent torque)]
[FN1]
Unless otherwise noted, all section references refer to section of title 131968.2 of title 13, OCR.
[FN2]
The requirements of section (g)(4.7) shall supersede the requirements set forth in title 13, CCR section 1968.1(1) (4.0).
Cal. Code Regs. Tit. 13, § 1968.2
2. Amendment filed 11-9-2007; operative 11-9-2007 pursuant to Government Code section 11343.4 (Register 2007, No. 45).
3. Amendment filed 5-18-2010; operative 6-17-2010 (Register 2010, No. 21).
4. Amendment filed 8-7-2012; operative 8-7-2012 pursuant to Government Code section 11343.4 (Register 2012, No. 32).
5. Amendment of section and NOTE filed 7-31-2013; operative 7-31-2013 pursuant to Government Code section 11343.4(b)(3) (Register 2013, No. 31).
6. Amendment of section and NOTE filed 7-25-2016; operative 7-25-2016 pursuant to Government Code section 11343.4(b)(3) (Register 2016, No. 31).
7. Amendment filed 10-3-2019; operative 10-3-2019 pursuant to Government Code section 11343.4(b)(3) (Register 2019, No. 40).
8. Amendment of subsections within subsections (e) and (f) filed 12-22-2021; operative 4-1-2022 (Register 2021, No. 52). Transmission deadline specified in Government Code section 11346.4(b) extended 60 calendar days pursuant to Executive Order N-40-20. Filing deadline specified in Government Code section 11349.3(a) extended 60 calendar days pursuant to Executive Order N-40-20 and an additional 60 calendar days pursuant to Executive Order N-71-20.
9. Amendment filed 11-22-2022; operative 11-22-2022 pursuant to Government Code section 11343.4(b)(3) (Register 2022, No. 47). Filing deadline specified in Government Code section 11349.3(a) extended 60 calendar days pursuant to Executive Order N-40-20 and an additional 60 calendar days pursuant to Executive Order N-71-20.
10. Amendment of section and NOTE filed 11-30-2022; operative 11-30-2022 pursuant to Government Code section 11343.4(b)(3) (Register 2022, No. 48).
Note: Authority cited: Sections 38501, 38510, 39010, 39600, 39601, 39602.5, 43000.5, 43013, 43018, 43100, 43101, 43104, 43105, 43105.5 and 43106, Health and Safety Code; and Engine Manufacturers Association v. California Air Resources Board (2014) 231 Cal.App.4th 1022. Reference: Sections 38501, 38505, 38510, 39002, 39003, 39010, 39018, 39021.5, 39024, 39024.5, 39027, 39027.3, 39028, 39029, 39031, 39032, 39032.5, 39033, 39035, 39037.05, 39037.5, 39038, 39039, 39040, 39042, 39042.5, 39046, 39047, 39053, 39054, 39058, 39059, 39060, 39515, 39600, 39601, 39602.5, 43000, 43000.5, 43004, 43006, 43013, 43016, 43018, 43100, 43101, 43102, 43104, 43105, 43105.5, 43106, 43150, 43151, 43152, 43153, 43154, 43155, 43156, 43204, 43211 and 43212, Health and Safety Code.
2. Amendment filed 11-9-2007; operative 11-9-2007 pursuant to Government Code section 11343.4 (Register 2007, No. 45).
3. Amendment filed 5-18-2010; operative 6-17-2010 (Register 2010, No. 21).
4. Amendment filed 8-7-2012; operative 8-7-2012 pursuant to Government Code section 11343.4 (Register 2012, No. 32).
5. Amendment of section and Note filed 7-31-2013; operative 7-31-2013 pursuant to Government Code section 11343.4(b)(3)(Register 2013, No. 31).
6. Amendment of section and Note filed 7-25-2016; operative 7/25/2016 pursuant to Government Code section 11343.4(b)(3) (Register 2016, No. 31).
7. Amendment filed 10-3-2019; operative 10/3/2019 pursuant to Government Code section 11343.4(b)(3) (Register 2019, No. 40).
8. Amendment of subsections within subsections (e) and (f) filed 12-22-2021; operative 4/1/2022 (Register 2021, No. 52). Transmission deadline specified in Government Code section 11346.4(b) extended 60 calendar days pursuant to Executive Order N-40-20. Filing deadline specified in Government Code section 11349.3(a) extended 60 calendar days pursuant to Executive Order N-40-20 and an additional 60 calendar days pursuant to Executive Order N-71-20.
9. Amendment filed 11-22-2022; operative 11-22-2022 pursuant to Government Code section 11343.4(b)(3) (Register 2022, No. 47). Filing deadline specified in Government Code section 11349.3(a) extended 60 calendar days pursuant to Executive Order N-40-20 and an additional 60 calendar days pursuant to Executive Order N-71-20.
10. Amendment of section and Note filed 11-30-2022; operative 11/30/2022 pursuant to Government Code section 11343.4(b)(3) (Register 2022, No. 48).