Lambda Sensor. The World s largest manufacturer of Lambda Sensors CATALOGUE 2013 NTK LAMBDA SENSOR CATALOGUE 2013

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1 The orld s largest manufacturer of Lambda Sensors NGK Spark Plugs (UK) Limited Maylands Avenue Hemel Hempstead Hertfordshire HP2 4SD Tel: Fax: NTK LAMBDA ATALOGUE 2013 Lambda Sensor ATALOGUE 2013

2 This cat got the cream are you getting yours? NTK are the world s largest manufacturer of Lambda Sensors. No rimping No Soldering No Problem No Sweat! e offer a full all-makes aftermarket range of ready to fit sensors, all of which have factory fitted OE specification connectors for fast, easy, reliable fitment. Fitting a new catalytic convertor without fitting a new sensor just doesn t add up. A worn or failed sensor could result in drastically reduced control of the fuelling system which could result in increased fuel consumption, uneven running, generally poor performance or failure of an emission test. So why go there? Short term gain, but potentially long term pain and added expense for your customers. So do the right thing. New cat, new sensor. Each time, every time. Join us on facebook.com/ngksparkplugsuk or at twitter.com/ngk_uk for motorsport news, competitions and more, to fire us a question about NGK or a technical query about our products. e re waiting... Original Equipment suppliers to leading car manufacturers the world over

3 ONTENTS TEHNIAL INFORMATION hat is a Sensor?... 2 hy are Lambda Sensors fitted?... 2 hat does the Lambda Sensor do?... 2 How does the Lambda Sensor work? hen should a Sensor be renewed?... 4 How to test Lambda Sensors hy use NTK vehicle specific sensors?... 6 Notes on installation... 6 Torque Figures... 7 iring olours... 7 Part Number Explanation... 7 Notes on atalogue use... 7 Identifying oxygen sensor position (EOBD coding)... 8 New Lambda Sensor additions to range... 9 New NTK NOx Sensors APPLIATIONS - ar and Light ommercial Alfa Romeo Mercedes Aston Martin MG Audi Mini BM Mitsubishi hevrolet Nissan hrysler Peugeot itroen Porsche Daewoo Renault Daihatsu Rover Daimler (see Jaguar) Saab Dodge Seat Ferrari Skoda Fiat Smart Ford Ssangyong Honda Subaru Hyundai Suzuki Jaguar Toyota Jeep TVR Kia Vauxhall/Opel Land Rover Volkswagen Lexus Volvo Mazda MOTORYLE APPLIATIONS Motorcycles TEHNIAL INFORMATION Buyers Guide Sensor Information (by stock number) Sensor Information (by part number) onnector Types ross Reference Guide Sensor Supersessions This catalogue is effective from November 2012 and supersedes all previous catalogues. hilst every care is taken in compiling these recommendations they do not form part of any contract and as such we do not accept any responsibility in respect of any claim whatsoever and howsoever caused arising from the publication of this catalogue. oncordia res parvae crescent 1

4 TEHNIAL INFORMATION HAT IS A? A sensor is a device that can detect an analogue signal e.g. movement, chemical composition, temperature etc. e personally use sensors for touch, taste, smell, hearing and sight. The second function of a sensor as discussed here is to convert this analogue signal into an electronic signal that can be sent to a processing device, our brain or for a motor vehicle the electronic control unit (EU). The processing device can then decide if it needs to change something to compensate for the signal it is receiving e.g. move your hand away from something that is too hot or in the case of a lambda sensor instruct a change to the fuelling system on an engine. HY ARE LAMBDA S FITTED? ith so many vehicles in use on our roads the reduction of pollutants produced by the internal combustion engine is of ever increasing importance. To encourage advances in technology that can bring this about governments have introduced progressively tougher exhaust gas emission legislation. Lambda sensors are a very important part of the technology used to achieve these legislated targets and as a result of their function the engine can also deliver the best economy and performance available. From the end of 1992 most petrol engine vehicles sold in the UK had Lambda sensors fitted. HAT DOES THE LAMBDA DO? The most popular method used by vehicle manufacturers to reduce engine emissions is the three-way catalyst (catalytic converter). This device has the ability to take the three main toxic gases produced by an engine which are carbon monoxide (O), oxides of nitrogen (NOx) and hydrocarbons (H) and convert them to considerably less harmful, non-poisonous gases: carbon dioxide (O 2 ), water (H 2 O) and nitrogen (N 2 ). To carry out this conversion of gases efficiently the catalyst must operate within a specified temperature range but also be provided with exhaust gases that are within certain very tight tolerances dependant predominantly on air/fuel ratio. The precise control required to operate this system is provided by the use of an exhaust gas oxygen (Lambda) sensor installed upstream of the catalyst. A Lambda sensor has the ability to precisely measure the air/fuel ratio present in exhaust gases. By sending a signal to the control unit it can initiate a change to keep the fuelling system operating within the very tight tolerances required. This is known as a closed-loop control system. To further improve control of exhaust emissions most vehicles produced after 2000 have an additional Lambda sensor fitted down-stream of the catalyst that monitors the performance of the catalyst itself. HO DOES THE LAMBDA ORK? Most NTK Lambda sensors can be divided into two non-interchangeable types Zirconia Sensors and Titania Sensors. These are classed as binary or Lambda 1 sensors. They use different types of ceramic element and function in different ways but they have a common goal - to ensure the catalyst works efficiently and harmful gases are kept to a minimum. In order to achieve this an engine needs to attain as close to complete combustion as possible. The ideal ratio of air and fuel to achieve this is around 14.7:1; this means that for 14.7 kg of air 1 kg of fuel would be used. This chemically correct air fuel ratio is known as a stoichiometric ratio or Lambda (λ)1.0. A fuel rich mixture would have a lower value e.g. 0.8 and a fuel lean mixture would have a higher value e.g

5 TEHNIAL INFORMATION A relatively small but increasing number of vehicles now use sensor types that can precisely measure the air/fuel ratio over a large range of fuel rich and fuel lean conditions. These sensors are called UEGO (Universal Exhaust Gas Oxygen) sensors, wideband, broadband or linear types. ZIRONIA BINARY TYPE Under the metal protective end of the sensor there is a hollow thimble shaped ceramic body made from zirconium dioxide. The protective metal shell has specially designed holes to allow the exhaust gases to come into contact with the outside of the ceramic element. Both sides of this ceramic element are coated with a thin micro porous layer of platinum. These layers are the electrodes that carry the sensors signal to the wire cables. Over the outside electrode a thin additional layer of porous ceramic is added to protect the platinum from erosion by the exhaust gases. The inside of the thimble is hollow and is used to hold ambient air as a reference gas. Protection tube eramic element At temperatures in excess of 300 the zirconia element possesses a property that causes a transfer of oxygen ions. This movement creates a voltage. The greater the difference of oxygen concentration between the exhaust gas and the ambient reference air in the centre of sensor thimble the higher the voltage produced. The voltage produced in the fuel lean position should be approximately 0.1 volt and in the fuel rich position approximately 0.9 volt. The very useful part of this function is that at around the stoichiometric point there is a relatively large change in voltage. This allows the sensor to keep the engine emissions within strict limits by constantly bringing the fuelling system back from a fuel lean or fuel rich position to retain the stoichiometric mixture. The time taken to switch from fuel lean to fuel rich is approximately 300 milliseconds. Because this switching process will not occur until the sensor is up to working temperature there is a period of time after starting the engine during which the fuelling system is not being controlled as strictly as we would like. This could mean an increase in unwanted emissions. To combat this delay heated exhaust gas oxygen (HEGO) sensors are used. These sensors have a heating element installed in the centre of the thimble, which rapidly brings the sensor up to temperature, and therefore strict fuelling control can start very quickly. During periods of idling exhaust gas temperature can drop significantly; heated sensors ensure that this drop in temperature does not affect the stable operation of the sensor. TITANIA TYPE Externally these sensors look similar to the zirconia type however the sensor body may be generally smaller. These sensors do not generate a voltage as in the zirconia type but the electrical resistance of the titania changes in relation to the oxygen content of the exhaust gas. If there is a surplus of oxygen in the exhaust gas (fuel lean) the element resistance rises and as the concentration of oxygen decreases (becoming fuel rich) the resistance falls. In a similar way to the zirconia sensors there is a large change in voltage when the stoichiometric point is reached the titania sensor element has a large change in resistance at the stoichiometric point. As there is no need for a pocket of air as a reference gas and due to certain other design differences the sensor can be smaller, stronger and have a faster reaction time. The control system for this type of sensor is very different to that used for the zirconia type. All titania type sensors have internal heating elements. 3

6 TEHNIAL INFORMATION ZFAS-U TYPE (Air/Fuel Sensor) Also known as a UEGO, wide band or linear sensor, the easiest way to identify this type of NTK sensor (apart from the part number) is by the number of lead wires - they usually require at least five and are always heated types. The sensor is of layered constructed with two ceramic substrate components, a Zirconia detection element and an Alumina heating element. No external reference air is required as the sensor generates its own. The detecting cavity is exposed to exhaust gas through a gas diffusion layer. Put very simply the sensor tries to maintain a stoichiometric air/fuel ratio in the detection chamber by pumping oxygen in or out of the chamber. The value of the pumping current required to achieve this corresponds to the air fuel ratio of the exhaust gas. Not only does this type of sensor have an extended window of measurement and can be used successfully where lean burn strategy is employed, it also provides exceptional accuracy around the stoichiometric point which is useful in the quest for emission reduction. This type of sensor will also be used in conjunction with diesel engines as they operate with an excess air factor. Heater Element Exhaust Gas Detection hamber Diffusion Passage I p cell O 2- V s cell O 2- Heater Supply ontroller HEN SHOULD A BE RENEED? Due to the hostile environment in which they work sensors are subject to a degree of wear and tear and ageing. It would be impossible to say definitively what the service life of a lambda sensor should be due to the very different conditions that each vehicle experiences under different drivers. It would be reasonable to expect that the service life of a lambda sensor fitted to a vehicle used mostly for short in-town journeys would be shorter than one used for steady motorway use. e recommend that the function of the sensor is checked every 20,000 miles or annually. The emissions check as part of the current M.O.T. test samples the exhaust gases to monitor the efficiency of the engine, exhaust system and engine control systems. A lambda sensor is a vital part of this system. A worn, faulty or failed sensor might make itself apparent by causing the engine to run poorly, increasing fuel consumption, increasing unwanted exhaust emissions or illuminating a malfunction indicator lamp on the dashboard. Newer vehicles have the ability to store fault codes in the processor some of which will relate to the lambda sensor and associated systems. Defective sensors can also cause irreparable damage to the catalyst. Sensors (this includes the wiring harness and connector) that have sustained physical damage will most likely have their life shortened or performance affected and should also be renewed. HO TO TEST LAMBDA S The first step is to carry out a visual inspection of the sensor body, lead and connector. For personal safety this should be done with the engine switched off and ensure that the engine and components are cool enough to touch. Following are some typical examples of sensors that have sustained physical damage and would require renewal. For heated lambda sensors (will have 3 or more wires) another simple test is to check the integrity of the heating element. This can be done using a suitable ohmmeter. Great care must be taken to identify the correct heater element wires. A reading greater than 30 Ω means that the heater is defective and the sensor should be renewed. A reading of infinity means that the heater coil or wiring is broken, again the sensor must be renewed. See page 7 for wiring colours. 4

7 TEHNIAL INFORMATION FOR ZIRONIA BINARY S Reference to the relevant workshop manual should be made prior to testing. Ideally on the vehicle sensor testing should be carried out using an oscilloscope connected between the sensor and vehicle using an appropriate harness. As the sensor only functions correctly once it has reached approximately 300 it is essential that the vehicle is brought up to normal working temperature before checking the readings. Once the engine and sensor have reached normal working temperature raise the engine speed to around 2000 rev/min, this should produce a fluctuation in voltage from approximately 0.2 volt to 0.8 volt as the sensor switches from fuel lean to fuel rich. This switching should occur in approximately 300 milliseconds. The next part of the cycle (fuel rich to fuel lean) should have a similar reaction time. Deviation from these figures will require the sensor to be renewed; a slow switching time is a fault that many Lambda diagnostic tools are incapable of measuring. A visual inspection of the protection tube when the sensor has been removed can provide valuable clues about conditions in the combustion chamber. Lead Shiny deposits are evidence of lead in the fuel. Lead attacks the precious metal of the sensor element and the catalytic converter. The sensor needs to be replaced. After changing the sensor, care should be taken to use only lead-free fuels. Soot Thick soot deposits lead to blockage of the sensor protection tube and have a negative effect on reaction time. auses can be a mixture that is too fuel-rich or the result of damage to the sensor heater. The sensor must be replaced in all cases. Oil Thick white or grey deposits are evidence of the use of fuel additives or that the engine is burning oil. ertain components in the fuel additives and the oil contaminate the sensor element. The cause must be removed and the sensor be replaced by a new sensor. It must be stressed that this testing process does not isolate the sensor from the rest of the vehicle s systems and a fault in another part of the engine, its control system, the exhaust system or fuel used may affect the performance of the sensor. Equipment in off-vehicle testing uses special heated reference gas and is regularly calibrated. FOR TITANIA S Due to the very different way in which these sensors work and the risk of possible damaged to the sensor and associated systems the only test we recommend (other than visual inspection) is to check the heater circuit resistance. OBD (On Board Diagnostics) Some vehicles are equipped with these diagnostic systems and stored fault codes can be retrieved from the vehicles electronic memory. These fault codes refer to various components on the vehicle and suggest a fault has occurred with the component or associated components. Don t forget to consider the reasons why the sensor appears to have failed. It might simply be at the end of its service life but consider other possibilities including a coolant leak into the combustion chamber which can lead to anti-freeze reaching the sensor and contaminating it; the solvents of some additional gasket sealing materials used around the engine can also be detrimental to the sensor. Vibration from an unsecured exhaust will shorten the life of a sensor. 5

8 TEHNIAL INFORMATION HY USE NTK VEHILE SPEIFI S? NTK sensors are tailored for each application. The specification of each sensor matches or exceeds that of the vehicle manufacturer even the materials used in the connector pins. Every aspect of the sensor should be correct including insertion depth and protection tube design. The dedicated connector block removes the possibility of a wiring error when connecting to the vehicle harness. Removes the possibility of high resistance connections being made or occurring at a later date due to water ingress, when using universal types. Removes the possibility of poor connections in the sensor multi-plug, which might go unnoticed if using the spliced in universal type. Saves considerable amount of time on fitting. onfidence in a product produced by the largest manufacturer of lambda sensors in the world. Every NTK sensor type has been certified by the German Technical Inspectorate (TÜV) for compatibility with the original equipment type. NOTES ON INSTALLATION NB. Always refer to the relevant workshop manuals for special installation procedures. 1. After vehicle has cooled sufficiently to prevent personal injury and where prudent, the battery has been disconnected, unplug the connector and remove the sensor using a suitable tool. 2. arefully check the vehicle harness and connector for damage or corrosion. 3. heck that the thread in the exhaust system is clean and in good condition before attempting to install the new sensor. 4. Ensure that you have selected the correct part number from the current NTK catalogue. 5. Handle sensors with care to prevent damage dropping a sensor could inflict damage to the ceramic, which would not be apparent during installation. 6. During production an anti-corrosion compound is applied to threaded portion of the sensor body. This is a sensor friendly grease compound and no other anti-seize compounds should be used as they may contain ingredients that could poison the sensor element. 7. Do not use any other cleaning or anti-rust solvents near the sensor body as this could similarly affect the element. 8. Screw the sensor into place by hand then tighten to the specified torque setting ensuring that the wiring harness is not twisted. 9. Secure the harness using the correct fixings, ensuring that the routing does not produce any kinks in the wires, touch any part of the exhaust system or other hot components and does not foul any rotating parts. 10. Reconnect the harness (and battery if disconnected) and follow the vehicle manufacturers recommended fault code clearance or other specific procedures. 6

9 TEHNIAL INFORMATION TORQUE FIGURES Torque figures and thread form information: M18 x 1.5mm - 35 ~ 45Nm M12 x 1.5mm - 18 ~ 23Nm IRING OLOURS Typical wiring colours for ZIRONIA BINARY types 1 x wire Black = signal 3 x wire Black = signal hite = heater hite = heater 2 x wire Black = signal 4 x wire Black = signal Grey = ground Grey = ground hite = heater hite = heater Typical wiring colours for TITANIA types Type 1 Red = heater (+) hite = heater (-) Yellow = signal (+) (omitted in 3 x wire types) Black = signal (-) Type 2 Grey = heater (+) hite = heater (-) Yellow = signal (+) Black = signal (-) PART NUMBER EXPLANATION NOTES ON ATALOGUE USE For car and light commercial applications sensors are listed as either front or rear. The front sensor is the one that regulates the fuelling system and will be fitted up stream of the catalyst. Depending on application this can then be installed in the manifold, down pipes or at the input side of the catalyst itself. The rear sensor is for catalyst monitoring and will usually be found near the output side of the catalyst. front (regulating) sensor 3 way catalyst rear (diagnostic) sensor Due to changes during vehicle production there may be occasions where more than one type of sensor is listed for a particular application. If this is the case check the number of wires, sensor connector type and lead dimensions with those listed against each vehicle reference or check the OE fitted part against the cross reference file at the back of the catalogue. Drawings of all connector types are shown on pages The dimension shown in column L on each application page is the length in mm measured from the nut on the sensor body to the end of the connector. For clarity a diagram is shown at the top of each application page. 7

10 IDENTIFYING OXYGEN (EOBD coding) Below is a guide to help identify the correct sensor to supply from our catalogue listings in relation to the P codes sometimes displayed on fault scanning equipment during diagnosis (e.g. P013#, P014#...P016# etc.). Front / regulating sensor (Upstream / Precat / Upper) Bank 1, Sensor 1 Primary cylinders (i.e. No. 1 cyl.) Bank 2, Sensor 1 Secondary cylinders Rear / diagnostic sensor (Downstream / Post-cat / Lower) Bank 1, Sensor 2 Primary cylinders (i.e. No. 1 cyl.) Bank 2, Sensor 2 Secondary cylinders (Sensor 3 - See notes below) N.B. Differing brands of scanning equipment may display the sensor number before the bank or vice versa. Notes in relation to bank numbers Bank 1 always refers to the group of cylinders which includes No.1 cylinder. The majority of small engined European vehicles will only have Bank 1 sensors fitted (i.e. 1 x Front & 1 x Rear). An inline 6-cylinder engine may have cylinders 1,2 & 3 referred to as Bank 1 & cylinders 4,5 & 6 referred to as Bank 2. V configured engines would normally have Bank 1 & Bank 2 sensors, with again Bank 1 referring to the group of cylinders which contains No. 1 cylinder. N.B. Some larger capacity vehicles may have 2 rear/diagnostic (Downstream / Post-cat / Lower) sensors on the same bank, which may be referred to by EOBD codes as sensor 2 & sensor 3. Sensor 2 would relate to the rear sensor closest to, or in the catalyst, with sensor 3 relating to the rear sensor furthest from the catalyst. Notes in relation to position In some catalogue entries, a sensor will be listed as fitting in left or right position. This is always taken from the point of view of sitting in the vehicle (i.e. For UK RHD vehicles Right = Offside, Left = Nearside). Notes in relation to sensor numbers Sensor 1 always refers to the front/regulating (Upstream / Pre-cat / Upper) sensor. Sensor 2 always refers to the rear/diagnostic (Downstream / Post-cat / Lower) sensor. orrect identification of the relevant oxygen sensor is more important than ever as many vehicles now have one or more sensors located on the exhaust system in addition to the oxygen sensors (i.e. NOx, temperature or DPF sensors). 8

11 NE LAMBDA ADDITIONS TO RANGE Stock No. NTK Part No. Manufacturer 0289 OZA186-F3 MAZDA 0367 OZA341-F2 MAZDA 1568 OZA341-F3 MAZDA 1596 OZA642-TY1 TOYOTA 1647 OZA341-F16 MAZDA 1743 OZA495-F7 MAZDA 1888 OZA603-N4 NISSAN OZA510-V16 PORSHE / VOLKSAGEN OZA669-EE50 SUZUKI OZA548-M1 MITSUBISHI OZA457-EE30 HYUNDAI OZA629-V9 AUDI / SEAT / VOLKSAGEN UAA0004-V003 AUDI / SEAT / SKODA / VOLKSAGEN OZA683-EE21 VOLVO OZA609-M1 MITSUBISHI OZA629-V23 SKODA / VOLKSAGEN OZA341-F71 MAZDA UAA0001-FA001 FIAT OZA668-EE29 MITSUBISHI OZA672-N1 NISSAN OZA495-F62 MAZDA OZA683-EE22 MEREDES OZA659-EE99 FORD / VOLVO OZA603-MB1 MEREDES OZA668-EE30 MITSUBISHI OZA341-F70 MAZDA OZA603-MB3 MEREDES LZA17-AU1 AUDI OZA659-EE98 VOLVO OZA683-EE20 MEREDES OZA723-EE4 HYUNDAI UAA0004-V005 SEAT / SKODA / VOLKSAGEN OZA341-D2 FORD OZA510-AU9 AUDI OZA659-EE95 FORD / VOLVO UAA0001-V002 PORSHE / VOLKSAGEN LZA15-GM4 VAUXHALL UAA0001-V001 PORSHE / VOLKSAGEN UAA0004-V002 AUDI / SEAT / SKODA / VOLKSAGEN 9359 OZA341-F26 MAZDA OZA644-H15 HONDA UAA0001-AU004 AUDI Stock No. NTK Part No. Manufacturer OZA723-EE2 MITSUBISHI OZA668-EE27 MAZDA OZA659-EE97 VOLVO OZA603-R5 RENAULT OZA629-V11 AUDI / VOLKSAGEN OZA554-N9 NISSAN OZA603-N8 NISSAN UAA0004-V008 SEAT / SKODA OZA668-EE26 MITSUBISHI OZA510-AU10 AUDI UAA0004-V007 SEAT / SKODA OZA554-N10 NISSAN UAA0001-AU002 AUDI OZA629-V8 AUDI / SEAT / VOLKSAGEN OZA629-A2 ALFA / FIAT OZA669-EE49 TOYOTA UAA0001-AU001 AUDI OZA723-EE1 MITSUBISHI OZA629-A3 FIAT OZA629-V28 SKODA / VOLKSAGEN OZA723-EE5 HYUNDAI OZA629-V10 VOLKSAGEN OZA629-7 HEVROLET OZA510-AU11 AUDI OZA628-U3 ITROEN / MINI / PEUGEOT OZA629-V26 AUDI / SEAT / SKODA / VOLKSAGEN OZA457-EE29 KIA OZA723-EE23 HYUNDAI OZA554-N5 NISSAN OZA603-MB6 MEREDES OZA668-EE28 MITSUBISHI OZA659-EE96 VOLVO UAA0004-V004 AUDI / SEAT / SKODA / VOLKSAGEN OZA670-EE23 TOYOTA OZA510-V17 PORSHE / VOLKSAGEN OZA457-EE28 LANDROVER OZA642-EE4 LEXUS / TOYOTA OZA663-GM3 SAAB / VAUXHALL UAA0004-PS001 ITROEN / PEUGEOT OZA629-V17 SKODA / VOLKSAGEN UAA0001-AU003 AUDI OZA610-AF1 SUBARU These Lambda Sensors will become available during

12 NE NTK NOx S AUDI LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE PART A3 1.6 FSI 8P1 BLF NZA05-V STOK SKODA Octavia 1.6 FSI BLF NZA05-V VOLKSAGEN Bora 1.6 FSI 1J2 BAD NZA04-V Golf IV 1.6 FSI 1J1 BAD NZA04-V FSI 1J1 BLF NZA04-V Golf V Plus 1.6 FSI BLF NZA04-V Jetta 1.6 FSI BLF NZA04-V Polo Mk6 ( ) 1.6 FSI 9N AXU NZA04-V Touran 1.6 FSI BAG, BLF, BLP NZA05-V

13 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE ALFA ROMEO L PART i.e. 907A/B AR Including Sport agon Front OZA446-E i.e. 907A/B AR Including Sport agon 3 x wire Titania sensor Front OTA5F i.e. 907A/B AR Including Sport agon & 4x Front OZA446-E i.e. 8V 905/7A/B AR / Including Sport agon & 4x Front OZA446-E i.e. 16V 907 A AR Including Sport agon & 4x Front OZA446-E i.e. 162B Front OZA446-E i.e. 162B Front OZA446-E T.S. 162B Front OZA446-E V6 162B AR Front OZA446-E V6 162B AR Front OZA446-E i.e. 930 AR x wire Titania sensor Front OTA6F-3A i.e. 16V T.S. [G97] 930 AR VET Front OZA527-E i.e. 16V T.S 930 AR VET Front OZA659-EE i.e 930 AR MPI-Bosch Front OZA527-E i.e. 16V T.S. 930 AR Front OZA527-E i.e. 16V T.S. 930 AR VET Front OZA659-EE i.e. 16V 930 AR Front OZA527-E i.e. 16V T.S. [G97] 930 AR32.201/ Front OZA527-E i.e. 16V T.S. 930 AR Front OZA659-EE i.e. 16V loverleaf 930 AR Front OZA527-E i.e. 16V loverleaf 930 AR Front OZA659-EE i.e. 8V 930 AR x wire Titania sensor Front OTA6F-3A i.e. 16V T.S. [G97] 930 AR VET Front OZA527-E i.e. 16V T.S 930 AR VET Front OZA659-EE i.e. 8V 930 AR MPI-Bosch Front OZA527-E i.e. 16V T.S. 930 AR VET Front OZA659-EE i.e. 16V 930 AR Front OZA527-E i.e. 16V T.S. [G97] 930 AR / AR Front OZA527-E i.e. 16V T.S. 930 AR Front OZA659-EE ti 16V T.S. 930 AR Front OZA527-E ti 16V T.S. 930 AR Front OZA659-EE i 16V T.S. 937 AR bhp / 88k Front OZA659-EE i 16V T.S. 937 AR bhp / 88k Rear OZA659-EE i 16V T.S. 937 AR bhp / 77k Front OZA675-EE i 16V T.S. 937 AR bhp / 77k Rear OZA659-EE i 16V T.S. 937 AR Front OZA659-EE i 16V T.S. 937 AR Rear OZA659-EE GTA A.000 Right Hand Sensor Front OZA659-EE GTA A.000 Left Hand Sensor Front OZA659-EE GTA A.000 Right Hand Sensor Rear OZA659-EE GTA A.000 Left Hand Sensor Rear OZA659-EE i 16V T.S. 167 AR Front OZA527-E i T.S. 167 AR / Front OZA527-E i T.S. 167 AR / Front OZA527-E i 16V T.S. 167 AR Front OZA527-E i 8V T.S. 167 AR Front OZA527-E i 16V T.S. 167 AR Front OZA527-E i V6 12V 167 AR / bhp Front OZA527-E i V6 12V 167 AR bhp Front OZA527-E STOK 11

14 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE ALFA ROMEO L PART i 16V T.S. 932 AR VET Front OZA446-E i 16V T.S. 932 AR VET Front OZA527-E i 16V T.S. 932 AR VET Front OZA659-EE Incl. Sportwagon 1.6i 16V T.S. 932 AR / Incl. Sportwagon Front OZA659-EE i 16V T.S. 932 AR / Incl. Sportwagon Rear OZA659-EE i 16V T.S. 932 AR Incl. Sportwagon Front OZA659-EE i 16V T.S. 932 AR Incl. Sportwagon Front OZA659-EE i 16V T.S. 932 AR Incl. Sportwagon Rear OZA659-EE i 16V T.S. 932 AR Incl. Sportwagon Front OZA659-EE i 16V T.S. 932 AR Incl. Sportwagon Front OZA659-EE i 16V T.S. 932 AR Incl. Sportwagon Rear OZA659-EE i JTS A1.000 Incl. Sportwagon Rear OZA659-EE i V6 24V 932 AR Incl. Sportwagon Front OZA659-EE i V6 24V 932 AR Incl. Sportwagon Right Hand Sensor Front OZA659-EE i V6 24V 932 AR Incl. Sportwagon Left Hand Sensor Front OZA659-EE i V6 24V 932 AR Incl. Sportwagon Right Hand Sensor Rear OZA659-EE i V6 24V 932 AR Incl. Sportwagon Left Hand Sensor Rear OZA659-EE i V6 24V GTA A.000 Incl. Sportwagon Front OZA659-EE i V6 24V GTA A.000 Incl. Sportwagon Right Hand Sensor Rear OZA659-EE i V6 24V GTA A.000 Incl. Sportwagon Left Hand Sensor Rear OZA659-EE i 16V MPI 939A4.000 Incl. Sportwagon Front OZA334-SZ i 16V MPI 939A4.000 Incl. Sportwagon Rear OZA334-SZ T.S Front OZA446-E T.S Front OZA527-E i.e V6 Turbo Front OZA446-E i.e V6 Turbo Front OZA446-E i.e Front OZA446-E i.e Front OZA446-E i.e. QV Front OZA446-E i.e. QV Front OZA446-E T.S. 936 AR Front OZA659-EE T.S. 936 AR Rear OZA659-EE V6 24V 936 AR Front OZA659-EE V6 24V 936 AR Front OZA659-EE V6 24V 936 AR Right Hand Sensor Rear OZA659-EE V6 24V 936 AR Left Hand Sensor Rear OZA659-EE V6 24V 936 AR34.301/ Front OZA659-EE V6 24V 936 AR Right Hand Sensor Front OZA659-EE V6 24V 936 AR Left Hand Sensor Front OZA659-EE V6 24V 936 AR Right Hand Sensor Rear OZA659-EE V6 24V A.000 Right Hand Sensor Front OZA659-EE V6 24V A.000 Left Hand Sensor Front OZA659-EE V6 24V A.000 Right Hand Sensor Rear OZA659-EE V6 24V A.000 Left Hand Sensor Rear OZA659-EE Brera 2.2 JTS 939A Front OZA659-EE Giulietta 1.4 TB 940A Front UAA0001-FA TB 940A Rear OZA629-A STOK 12

15 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE ALFA ROMEO L PART GT 1.8 T.S. AR Front OZA659-EE T.S. AR Rear OZA659-EE JTS 937 A1.000 / 932 A Rear OZA659-EE V6 24V 936 A.000 Right Hand Sensor Front OZA659-EE V6 24V 936 A.000 Left Hand Sensor Front OZA659-EE V6 24V 936 A.000 Right Hand Sensor Rear OZA659-EE V6 24V 936 A.000 Left Hand Sensor Rear OZA659-EE GTV V T.S. (95) 916 AR Front OZA659-EE V T.S. (95) 916 AR Front OZA446-E V T.S. 916 AR F2<U8 M1> Front OZA659-EE V T.S. 916 AR Rear OZA659-EE JTS A Rear OZA659-EE V V6 (95) 916 AR Front OZA446-E V V6 916 AR Front OZA659-EE V V6 916 AR Front OZA659-EE V V6 916 AR Right Hand Sensor Front OZA659-EE V V6 916 AR Left Hand Sensor Front OZA659-EE V V6 916 AR Right Hand Sensor Rear OZA659-EE V V6 916 AR Left Hand Sensor Rear OZA659-EE V6 24V A6.000 Right Hand Sensor Front OZA659-EE V6 24V A6.000 Left Hand Sensor Front OZA659-EE V6 24V A6.000 Right Hand Sensor Rear OZA659-EE V6 24V A6.000 Left Hand Sensor Rear OZA659-EE Mito V 199A1000 / 199A Front OZA675-EE V 199A1000 / 199A Rear OZA675-EE MultiAir 955A Front UAA0001-FA MultiAir 955A Rear OZA629-A MultiAir Turbo 940A2.000 / 955A Front UAA0001-FA MultiAir Turbo 940A2.000 / 955A Rear OZA629-A TB A Front OZA659-EE TB A Rear OZA659-EE TB A Front OZA659-EE TB A Rear OZA659-EE Spider V T.S. (95) 916 S AR Front OZA659-EE i.e. 115 AR Front OZA446-E V T.S. (95) 916 S AR Front OZA446-E V T.S. (95) 916 S AR / Front OZA527-E V T.S. 916 S AR Rear OZA659-EE JTS 916 S 937A Rear OZA659-EE V6 12V (95) 916 S AR Front OZA446-E V6 12V 916 S AR Front OZA659-EE V6 24V 916 S AR F3 <U9 M7> Front OZA659-EE V6 24V 916 S 936 A6.000 Right Hand Sensor Front OZA659-EE V6 24V 916 S 936 A6.000 Left Hand Sensor Front OZA659-EE V6 24V 916 S 936 A6.000 Right Hand Sensor Rear OZA659-EE V6 24V 916 S 936 A6.000 Left Hand Sensor Rear OZA659-EE Sprint 1.7i.e. 902 A Front OZA446-E STOK 13

16 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE ASTON MARTIN L PART DB Front OZA201-AM Rear OZA201-AM Rear OZA381-D Vantage 4.3 V Front OZA488-AM V Rear OZA381-AM Virage V V8 Incl. Volante ebber System Front OTD5F-3E STOK AUDI ABM Front OZA446-E ADA Front OZA446-E JN Front OZA401-E Quattro JN Front OZA446-E PM Front OZA401-E PV Front OZA446-E SD Front OZA446-E A, 6A, AAD Front OZA446-E ABT Non atalyst Front OZA446-E ABT + atalyst Front OZA446-E ABK Non atalyst Front OZA445-E ABK + atalyst Front OZA446-E Quattro ABK Non atalyst Front OZA445-E AE Front OZA446-E E Front OZA401-E S2 Quattro ABY Front OZA446-E RS2 Quattro ADU Avant/Estate Front OZA446-E NG Front OZA446-E AB Non atalyst Front OZA446-E AB + atalyst Front OZA446-E AAH Front OZA446-E Quattro AAH Front OZA446-E SK Front OZA401-E PS Front OZA445-E KX Front OZA401-E Quattro JT Front OZA446-E NG Front OZA446-E V 7A Front OZA446-E B, PH Front OZA401-E RT 5 ylinder Front OZA446-E V AAE Non atalyst Front OZA445-E V AAE 4A-P atalyst Front OZA446-E V AAD + atalyst Front OZA445-E V AAD Front OZA446-E V ABK Front OZA446-E V Quattro AAD Non atalyst Front OZA445-E V AE Front OZA446-E KZ Front OZA401-E Quattro PX Front OZA446-E Quattro Turbo M K Front OZA446-E

17 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE AUDI (continued) L PART Quattro Turbo M K Front OZA446-E S4 AAN Non atalyst Front OZA445-E S4 AAN + atalyst Front OZA446-E AAR Front OZA446-E NF 44-L Front OZA446-E AB Non atalyst Front OZA446-E AB + atalyst Front OZA446-E AAH Non atalyst Front OZA446-E AAH 4A-P atalyst Front OZA446-E AAH 4A-P atalyst Front OZA446-E S4 Quattro ABH Front OZA445-E Turbo M Front OZA446-E Turbo Quattro M 44-K Front OZA446-E Turbo Quattro M 44-K Front OZA446-E Turbo Quattro 3B Front OZA446-E NF Front OZA446-E A1 1.2 TFSI BZA Front UAA0004-V TFSI BZA Rear OZA629-V TDI Diesel AYB, AY Front UAA0004-V A2 1.4 AUA, BBY Front LZA11-V AUA, BBY Rear OZA510-AU A3 1.2 TFSI 8P1 BZB Front UAA0004-V TFSI 8P1 BZB Rear OZA629-V TFSI 8P1 AX, MSA Front OZA629-V TFSI 8P1 AX, MSA Manual Transmission Only Rear OZA629-V TFSI 8P1 AX, MSA Automatic Transmission Only Rear OZA629-V L1 AKL L-V L Manual Transmission Only Front OZA457-EE L1 AEH 8L-V Front OZA457-EE L L1 AKL, AEH 8L-X Front OZA659-EE L1 APF Rear OZA659-EE P1 BGU, BSE, BSF Front LZA07-V P1 BGU, BSE, BSF Rear OZA510-V L1 AVU, BFQ Rear OZA659-EE L1 APG Rear OZA659-EE L1 AGN 8L.-V Front OZA457-EE L1 AGN Front OZA457-EE L1 AGN Front OZA447-E T 8L1 AGU 8L-V bhp / 110k Front OZA457-EE T 8L1 AGU 8L-V bhp / 110k Front OZA447-E T 8L1 AGU 8L bhp / 110k Front OZA457-EE T 8L1 AGU 8L bhp / 110k Front OZA457-EE T 8L1 ARY 180bhp / 132k Rear OZA659-EE T 8L1 ARX, ARY Rear OZA683-EE T 8L1 ARZ 150bhp / 110k Rear OZA659-EE T 8L1 APP 180bhp / 132k Rear OZA659-EE T Quattro 8L1 AGU 150bhp / 110k Front OZA457-EE A D2 ADP Front OZA447-E D2 ANA Front OZA516-AU D2 ANA Manual Transmission Only Rear OZA334-AU STOK 15

18 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE L PART AUDI (continued) A D2 ANA Automatic Transmission Only Rear OZA334-AU D2 ALZ Front OZA516-AU D2 ALZ Manual Transmission Only Rear OZA334-AU D2 ADR Front OZA447-E D2 AEB Front OZA447-E D2 AEB, AJL, APU Front OZA447-E D2 ADR, AFY, APT, ARG 8D-X Incl. Estate Front OZA659-EE T 8D2 ANB, ARK Incl. Estate Front OZA659-EE T 8D2 ANB Rear OZA659-EE T 8D2 / 8E AVJ, AT, BFB, BKB, BEX Rear OZA659-EE Avant 8D2 AEB Estate Front OZA447-E Avant 8D2 AEB, AJL, APU Estate Front OZA447-E Avant Quattro 8D2 ADR Estate Front OZA457-EE Avant Quattro 8D2 AEB Estate Front OZA447-E Avant Quattro 8D2 AEB, AJL, APU Estate Front OZA447-E Quattro 8D2 ADR, AFY Front OZA457-EE Quattro 8D2 AEB Front OZA447-E Quattro 8D2 ADR, AFY, APT, ARG 8D-X Incl. Estate Front OZA659-EE T Quattro 8D2 ANB, ARK Incl. Estate Front OZA659-EE T Quattro 8D2 / 8E AVJ, AT, BFB, BKB, BEX Rear OZA659-EE E ALT Rear OZA659-EE FSI 8E AA Rear OZA659-EE TDI Diesel 8E2 BLB, BRE, BNA, BRD, BRF Front LZA17-AU D2 APZ, AML, APS, ARJ Incl. Estate Front OZA659-EE D2 AML, APS, ARJ Right Hand Sensor / Bank Rear OZA659-EE D2 ML, APS, ARJ Left Hand Sensor / Bank Rear OZA659-EE E2 AMM, BDV Incl. Estate Front OZA659-EE Quattro 8D2 APZ, AML, APS, ARJ Incl. Estate Front OZA659-EE abrio 8H7 BDV Front OZA659-EE D2 AB Front OZA446-E D2 AAH Front OZA446-E D2 APR, AMX, AQD Incl. Estate Front OZA659-EE D2 AMX Right Hand Sensor / Bank Rear OZA659-EE D2 AMX Left Hand Sensor / Bank Rear OZA659-EE Quattro 8D2 APR, AMX, AQD Incl. Estate Front OZA659-EE Quattro 8D2 AK, ALG Incl. Estate Front OZA660-EE FSi 8E2 AUK, BKH Left & Right Hand Sensor Front LZA07-AU FSi 8E2 AUK, BKH Right Hand Sensor / Bank Rear OZA510-AU FSi 8E2 AUK, BKH Left Hand Sensor / Bank Rear OZA510-AU A5 3.2 FSi 8T ALA Left & Right Hand Sensor Front LZA07-AU FSi 8T ALA Left & Right Hand Sensor Front LZA07-AU FSi 8T ALA Left & Right Hand Sensor Front UAA0001-AU A6 ( 2004) 1.8 4A4 ADR Front OZA457-EE B5 AEB, AJL Front OZA447-E B5 AFY, AJP, AQE, ARH 4B..X Incl. Estate Front OZA659-EE T 4B5 ANB, APU, ARK Incl. Estate Front OZA659-EE T 4B5 ANB, AL Rear OZA659-EE Avant 4B5 AEB, AJL Estate Front OZA447-E Avant Quattro 4B5 AEB Estate Front OZA447-E Avant Quattro 4B5 AEB Estate Front OZA447-E Avant Quattro 4B5 AJL Estate Front OZA447-E Avant Quattro 4B5 AJL Estate Front OZA447-E STOK 16

19 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE AUDI (continued) A6 ( 2004) 1.8 Quattro 4A4 ADR Front OZA457-EE L PART 1.8 Quattro 4B5 AEB, AJL Front OZA447-E Quattro 4B5 AEB, AJL Front OZA447-E T Quattro 4B5 ANB, APU, ARK Incl. Estate Front OZA659-EE A4 AAE Front OZA445-E A4 AE Front OZA446-E B5 ALT Rear OZA659-EE A4 AAR Front OZA446-E B5 ALF, AJG, AGA Front OZA660-EE B5 BDV, ASM, AMM, AML Incl. Estate Front OZA659-EE B5 AML Right Hand Sensor / Bank Rear OZA659-EE B5 AML Left Hand Sensor / Bank Rear OZA659-EE Quattro 4B5 BDV, ASM, AMM, AML Incl. Estate Front OZA659-EE Avant 4B5 AGA, ALF, APS, ARJ, APZ 4B..X Front OZA659-EE Estate Only 2.4 Avant Quattro 4B5 APS, ARJ, APZ 4B..X Front OZA659-EE Estate Only 2.6 4A4 AB Non atalyst Front OZA446-E A4 AB Front OZA446-E Quattro 4A4 AB 4A-S Front OZA446-E T Quattro 4B5 AJK 4B..X Front OZA659-EE Incl.Estate 2.8 4A4 AAH Front OZA446-E B5 AK, ALG Front OZA660-EE B5 ATX, ALG, APR, AQD, AMX Incl. Estate Front OZA659-EE B5 AMX Right Hand Sensor / Bank Rear OZA659-EE B5 AMX Left Hand Sensor / Bank Rear OZA659-EE Quattro 4A4 AAH, AEJ Front OZA446-E Quattro 4B5 ALG, APR, AMX Incl. Estate Front OZA659-EE B5 ASN Rear OZA659-EE Quattro 4B5 ASN Rear OZA659-EE Quattro 4B5 ASG Incl. Estate Front OZA659-EE A6 (2004 ) 2.4 4B5 BD Incl. Quattro Left & Right Hand Sensor Front LZA07-AU B5 BD Incl. Quattro Right Hand Sensor / Bank Rear OZA510-AU B5 BD Incl. Quattro Left Hand Sensor / Bank Rear OZA510-AU FSI 4F2 BDX, DA, EA Incl. Quattro Left & Right Hand Sensor Front LZA07-AU FSI 4F2 HVA Left & Right Hand Sensor Front UAA0001-AU FSI 4F2 HVA Left & Right Hand Sensor Rear OZA510-AU TFSI Quattro 4F2 AJA Left & Right Hand Sensor Front LZA07-AU TFSI Quattro 4F2 AJA,AA,GB Left & Right Hand Sensor Front UAA0001-AU TFSI Quattro 4F2 AJA,AA,GB Left & Right Hand Sensor Rear OZA510-AU FSI 4F2 AUK, BKH Incl. Quattro Left & Right Hand Sensor Front LZA07-AU FSI 4F2 AUK, BKH Incl. Quattro Right Hand Sensor / Bank Rear OZA510-AU FSI 4F2 AUK, BKH Incl. Quattro Left Hand Sensor / Bank Rear OZA510-AU A6 Allroad (2006 ) 3.0 TFSI Quattro 4FH AJA Left & Right Hand Sensor Front UAA0001-AU A7 2.8 FSI HVA Left & Right Hand Sensor Front UAA0001-AU FSI HVA Left & Right Hand Sensor Rear OZA510-AU TFSI Quattro GB Left & Right Hand Sensor Front UAA0001-AU TFSI Quattro GB Left & Right Hand Sensor Rear OZA510-AU A D2/8 AAH Front OZA446-E D2/8 AK, ALG, AMX, APR, AQD 4D..X Front OZA659-EE STOK 17

20 =onnector Type (see pages ) LITRE / MODEL TYPE ENGINE TYPE HASSIS INFO GENERAL INFO DATE AUDI (continued) L PART A8 2.8 Quattro 4D2/8 AK, AMX, APR, AQD 4D..X Front OZA659-EE TFSI Quattro D4 GA,GXA Left & Right Hand Sensor Front UAA0001-AU TFSI Quattro D4 GA,GXA Left & Right Hand Sensor Rear OZA510-AU FSi 4E BPK Bank Front LZA07-AU FSi 4E BPK Bank Rear OZA510-AU FSi 4E BPK Bank Front LZA07-AU FSi 4E BPK Bank Rear OZA510-AU D2/8 AG Front OZA447-E Quattro 4D2/8 AG Front OZA447-E Quattro 4D2/8 AEM Front OZA447-E Quattro 4D2/8 ABZ Front OZA447-E Allroad ( 2006) 2.7 T Quattro 4BH ARE 4B Front OZA659-EE T Quattro 4BH ARE, BES 4B Front OZA659-EE T Quattro 4BH ARE 4B Right Hand Sensor / Bank Rear OZA659-EE T Quattro 4BH ARE 4B Left Hand Sensor / Bank Rear OZA659-EE Allroad (2006 ) 3.0 TFSI Quattro AJA Left & Right Hand Sensor Front UAA0001-AU abrio 2.0 ABK Non atalyst Front OZA445-E ABK + atalyst Front OZA446-E AE Front OZA446-E NG Front OZA446-E AB Front OZA446-E AAH Front OZA446-E oupe 1.8 JN Front OZA401-E PV Front OZA446-E A Non atalyst Front OZA445-E A + atalyst Front OZA446-E AAD Front OZA446-E ABK Non atalyst Front OZA445-E ABK + atalyst Front OZA446-E AE Front OZA446-E KX Front OZA401-E JT Front OZA446-E S2 ABY Non atalyst Front OZA445-E Quattro NG Front OZA446-E V Quattro 7A 8B-K Front OZA446-E V Quattro 7A 8B-L Front OZA446-E AB Non atalyst Front OZA446-E AB 8B-S atalyst Front OZA446-E AB 8B-S Front OZA446-E Quattro AB Non atalyst Front OZA446-E Quattro AB 8B-S atalyst Front OZA446-E AAH 8B-P Front OZA446-E AAH 8B-P Front OZA446-E Quattro AAH 8B-P Front OZA446-E Q5 3.2 FSI Quattro ALB Front LZA07-AU FSI Quattro ALB Front UAA0001-AU FSI Quattro ALB Rear OZA510-AU STOK 18

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