relay LAND ROVER FRELANDER 2 2006 Owner's Manual

The fuel rai l pres sure/t emperature s ens or is locat ed on t he LH end of t he fuel rai l. The ECM suppli es the combinedpres s ure and t emperat ure s ensor wi th a 5V reference volt age and a ground and meas ures t he ret urned s ignals for pres s ureand t emperature.
Fuel pres s ure
The fuel pres s ure s ens or i s a peizo res is tor t ype sens or. The s ensor receives a 5V reference vol tage from the ECM andproduces an anal ogue s i gnal of between 0 and 5V depending on the pres s ure sens ed. Low pres sure gives a l ow volt ageoutput and cons equent ly hi gh pres s ure gives a hi gher volt age output. The ECM uses t his press ure s ignal t o adjus t t he fuelpump module out put pres sure by s endi ng cont rol ling si gnal s t o the FPDM and for i nject or ti ming.
The ECM moni tors the fuel pres sure s ens or for faul ts and can st ore fault related codes. Thes e can be ret ri eved us i ng aLand Rover approved diagnos t ic s ys tem. Sensor operat ion can als o be checked us i ng a Land Rover approved diagnos t ics ys t em t o check fuel pres sure. If no fuel pres s ure is i n t he fuel rai l, t he s ens or wil l read and output at mospheri c pres s ure.
Fuel Temperat ure
The fuel t emperature s ens or is a Negat ive Temperat ure Co-efficient (NTC) sens or. The s ens i ng thermis t or el ementres is t ance decreas es as the sens or temperat ure increases . The ECM s upplies t he s ensor wi th a 5V reference volt age and aground and meas ures t he ret urned s ignal as a t emperature.
The res is t ance i n t he s ens or changes wi th fuel temperat ure. A l ow fuel t emperat ure wi ll res ult i n a hi gh volt age bei ngret urned t o t he ECM and high fuel temperat ure wil l return a l ow volt age reading of between 0 - 5V.
The ECM moni tors the fuel temperat ure sens or for fault s and can s tore faul t rel at ed codes . These can be ret rieved us ing aLand Rover approved diagnos t ic s ys tem. The ECM us es t he ECT t emperature s ignal as a default but only up to a maximumof 100°C (212°F).
Mass Air Flow (MAF)/Intake Air Temperature (IAT) Sensor
The MAF/IAT s ensor i s located i n t he out let pi pe from t he air cleaner hous ing. The combined MAF/IAT funct ions areconnected t o t he ECM on separat e wi res . The sens or has an ext ended moul ding whi ch is l ocat ed in a cent ral posi ti on in theair flow through t he air cleaner hous ing out let pipe, t hrough which t he air flow and t emperat ure are meas ured.
Mas s Air Flow (MAF) Sensor
The MAF s ensor meas ures t he mas s of air being drawn int o t he engi ne. The ai r mas s is calculat ed by t he cool ing effect ofinl et ai r pas s ing over a 'hot fil m' element cont ained wi thin the s ens or. The higher the ai r fl ow, the great er the cooli ngeffect on the el ement whi ch in t urn lowers the el ect ri cal res i st ance of t he 'hot film' el ement. The ECM us es t his resi s tancevalue t o calcul ate the ai r mass or vol ume of air flowing i nto the engine.
The MAF s ensor receives a bat tery volt age supply vi a t he ECM and t he main relay. The ECM provi des a ground and a s i gnalpath for the res is tance s ignal from t he 'hot film' sens or. The analogue s ignal from t he MAF s ens or varies bet ween 0.5 and5V. Low air flow gi ves a low vol tage and hi gh air fl ow gi ves a high volt age.
The MAF s ignal is us ed by t he ECM t o det ermi ne:
t he correct fuel quant it y (injecti on peri od) t o mai ntain the correct ai r/fuel rat io required for correct operat ion of t heengi ne and t he cat alys ts

int o t he int ake manifol d.
Throt tl e Posi ti on (TP) Sensor
The TP s ensor i s hous ed i n t he elect ric t hrott le ass embly and is us ed t o check t he posi ti on of the throt t le di sc. Twopermanent magnet s i n t he sens or connect ed t o t he thrott le di sc affect t wo Hall effect sens ors . As t he s pi ndl e i s rot atedt he magnet s rot ate around t he Hall effect s ensors and produce offset analogue s ignals back t o t he ECM. The ECMcompares t hes e s ignals to st ored values t o ens ure t hat they s how an accurate throt tle dis c pos it ion. The offset s i gnals aret hat one Hal l effect s ens or produces a higher vol tage as t he t hrott le angl e increas es and the ot her sens or produces alower volt age as the throt tl e angle i ncreases .
The ECM performs a s elf t est and a cal ibrat ion routi ne on the throt t le di sc pos it ion at each igni ti on cycle. This i s achi evedby t he ECM poweri ng the damper mot or to full y clos e t he throt t le di sc and then ful ly open t he t hrott le dis c.
The ECM moni tors the DC damper motor and t he TP s ens or for faul ts and can st ore fault related codes. Thes e can beret ri eved us i ng a Land Rover approved diagnos t ic s ys tem.
Accelerator Pedal Position (APP) Sensor
The APP s ens or is locat ed on t he accel erator pedal . The s ens or compris es a pl ast ic hous ing whi ch cont ai ns t wopotenti ometers and an analogue/digit al convert er. The potent iomet ers are connect ed to a common shaft which is act uat edby movement of the accel erator pedal.
The APP s ens or provides t he ECM and t he CJB wi th i nformati on rel at ing to t he pos it ion of t he accelerat or pedal . The ECMus es this informati on t o act uate the damper mot or i n t he electric t hrot tl e as sembl y t o move t he thrott le di sc to the correctangl e i n rel ati on to the pedal pos it ion.
The APP s ens or receives a fus ed 12V s upply from t he CJB, whi ch is controll ed by the ignit ion relay in the BJB. The CJB als oprovides t he s ens or wit h a ground. The s ens or provi des two out puts ; t he anal ogue output i s t rans mit ted di rectl y t o t heCJB, whi ch in t urn is s ues the s ignal to the ECM on t he CAN bus , the s econd out put is t he Puls e W idth Modul ati on (PW M)s ignal whi ch is trans mi tt ed direct ly to t he ECM. Both the analogue and PW M s ignals trans mi t the s ame pos it ionalinformat ion.
The ECM us es t he PW M si gnal t o calcul ate the requi red pos it ion of t he electric t hrottl e dis c i n t he electric t hrot tl e. In t heevent of a fail ure of t he PW M si gnal , the ECM uses the analogue s ignal recei ved from t he CJB as a replacement . If t heanal ogue si gnal i s als o i ncorrect or mis s ing, the ECM li mit s t he maximum engi ne s peed to 2000 rpm.
The PW M and the analogue s ignal are us ed for di agnos ing fault s wit h t he APP s ensor. If t he ECM det ect s a di fferencebetween t he analogue and PW M si gnal s a faul t code is s t ored. The ECM wil l use the s ignal wi th t he l owes t value forelectric t hrot tl e cont rol . The APP s ens or pos i ti on and any st ored fault codes can be read us ing a Land Rover approveddiagnost ic s ys tem.
Heated Oxygen (HO2S) Sensors

Four HO2S are us ed by t he ECM t o meas ure t he oxygen content of t he exhaus t gas s es leaving t he engine. Two upst reams ens ors measure t he gas s es before they pas s t hrough the cat al yti c convert er and two addi ti onal downst ream s ens orsmeas ure t he gass es after t hey have pas sed through t he catalyt ic converter.
The HO2S receive a fus ed power supply from t he main rel ay in t he BJB. Each HO2S i s als o connect ed to the ECM on t hreewires which provi de a PW M cont rol of t he s ens or heat ing coil , a ground and a si gnal l ine.
HO2S Preheati ng
The HO2S (oft en referred to as a Lambda (λ) s ensor) only operat es efficientl y at temperatures above 300°C (572°F). Thenormal operat ing t emperature is bet ween 300°C and 850 °C (572°F and 1562°F) and the HO2S is el ect ri cal ly preheat ed s oit reaches t he opti mum working t emperature quickly. Anot her reas on for t he preheat ing is t o mai ntain a normal operat ingt emperature to prevent condens ati on which could damage t he s ensor.
The s ens or heat ing coi l i s a PTC res is tor. The heat ing coil i s s uppl ied wi th bat tery volt age vi a t he main relay and provi dedwit h a ground by t he ECM. W hen t he ECM provides t he ground t he current wi ll pass through t he coil . W hen t he sens or iscol d, the res is tance t hrough the PTC res is tor i s low and a high current wil l pas s t hrough t he coi l. The ECM provi des a PW Mground i ni ti ally. As t he PTC resi st or heat s up t he res i st ance increases reduci ng the current fl ow. Thi s is sens ed by t he ECMwhich graduall y reduces the PW M ground to a cont inuous ground.
The coi l is heat ed immedi ately foll owing an engine st art for a peri od of approxi mately 20 s econds and als o duri ng low loadcondi ti ons when the t emperat ure of t he exhaus t gas s es is ins uffi cient to maint ai n t he opti mum s ens or t emperat ure. TheECM controls t he appl icati on of the PW M s i gnal t o prevent sens or damage due t o t hermal s hock caus ed by the sens orheat ing too quickly. The ECM can diagnos e fault s i n t he heat er coi l and record faul t codes whi ch can be ret rieved us ing aLand Rover approved diagnos t ic s ys tem.
Ups tream HO2S
Two ups tream HO2S are us ed and are l ocat ed in each exhaus t mani fold, between the engine and t he catalyt ic converter.The HO2S compri ses a s ol id el ect rol yt e Zi rconium di oxi de cel l s urrounded by a gas permeabl e ceramic. The output volt agefrom the s ensor i s dependent on the level of O2 pas s ing t hrough t he permeable ceramic coat ing. Nomi nal volt age for λ=1is 300 to 500mV. As t he fuel /ai r mixt ure becomes ri cher (λ<1) t he volt age ri ses t o up t o 900mV. As t he mi xt ure becomesweaker (λ>1) the volt age fal ls t owards 0mV.
The upst ream HO2S i s used by the ECM to monit or t he oxygen content of t he exhaus t gas s es leaving t he engine beforet hey reach the catal yt ic convert er. The ECM wi ll check t he output from the HO 2S to det ermi ne t he combus t ion mi xture andensure λ=1 i s obtained. λ=1 is the opt imum air/fuel rati o which relat es to a mi xt ure of 14.7 kg air per 1 kg of fuel(14.7:1).
The HO2S us es current regul at ion and out put s a linear s ignal dependent on t he rati o of exhaus t gas oxygen to ambientoxygen. The oxygen cont ent of the exhaus t gas ses is meas ured by compari ng it wit h ambient air drawn int o t he HO2S.
Downst ream HO2S
Two downs tream HO2S are us ed and are l ocat ed in the each exhaus t s ys t em after t he s tarter cat alyt ic converter. Thedownst ream HO2S are used by the ECM to moni tor t he oxygen content of the exhaust gass es leaving t he cat alyt icconvert er. The ECM can us e t his i nformati on to check (when the condit ions for catal ys t diagnost ics have been met ) forcorrect operati on of the cat alyti c convert er.

The FPDM i s located i n t he LH rear corner of the l uggage compart ment, behind t he t rim panel and is s ecured t o t he LHchas s is l ongi tudinal wi th 2 s crews.
The FPDM receives a bat tery s uppl y via t he fuel pump relay i n t he CJB. The relay is energis ed by t he CJB when a reques t isreceived from the ECM. Two wires connect t he FPDM t o t he fuel pump mot or and a ground i s via a body ground poi nt. TheECM i s connected t o t he FPDM on a si ngle wi re and this is us ed t o cont rol t he pump pres s ure out put and cons equentl y t hepump output pres s ure. The ECM us es s ignals from t he MAP s ens or, the fuel rail pres s ure/t emperat ure s ens or and t heMAF/IAT s ensor t o determine and control the pump out put.
The ECM out put s a PW M s ignal to the FPDM. The frequency of t he s ignal det ermi nes the dut y cycle of t he FPDM whi chs ubs equent ly controls t he pump press ure out put. The frequency of t he PW M s ignal repres ent s half of t he 'on' ti me of t hepump. If t he ECM out put s a PW M s ignal of 50% on t ime, the FPDM will operat e t he pump at 100% (permanentl y on). If theECM out put s a PW M s ignal of 5%, the FPDM wil l operat e t he pump at 10% on t ime. The FPDM wi ll only operat e t he fuelpump i f it receives a PW M s i gnal from the ECM of bet ween 4% and 50%. If t he ECM requi res t he pump t o be s t opped, theECM t rans mit s a PW M s i gnal at a cycl e of 75%.
If the power s uppl y to the FPDM from t he CJB or the fuel pump rel ay is di srupt ed for any reason, t he fuel pump wi ll notoperate. The FPDM i s monit ored by the ECM for faul ts . Faul ts wit h t he FPDM are st ored i n t he ECM as faul t codes whi ch canbe ret rieved usi ng a Land Rover approved diagnost ic sys tem.
Variable Camshaft Timing (VCT) Solenoid
The VCT s olenoid i s located in t he LH end of t he cyl inder head and i s s ecured wit h a bol t. The VCT s olenoid is a val vewhich controls t he oil flow t o t he VCT unit .
The VCT s olenoid recei ves a fus ed batt ery s upply vi a the main relay. The ECM provides a pul s ed ground for t he s olenoi d.
The VCT s olenoid compri s es an electro-magneti c val ve wit h a spring l oaded pi st on. Slots in t he pis t on all ows oil to bechannell ed to the VCT uni t. The VCT uni t rot at es t he inlet cams haft t o adjus t the cams haft t iming as requi red. Thedirect ion i n which t he cams haft is rot at ed i s dependent on the chamber in t he VCT unit whi ch is suppli ed wit h oil press urefrom the s lot i n t he VCT s olenoid pi st on.For addit ional informat ion, refer t o: Engi ne - 3.2L (303-01, Descripti on and Operat ion).
An oil fil ter i s located i n t he int ake channel for the VCT sol enoid to prevent contami nant s affect ing the funct ion of t hevalve.
Operat ion of t he val ve is controll ed by the ECM. The ECM provides a PW M ground for the VCT sol enoi d. This allows oi l tobe direct ed t o different chambers i n t he VCT unit at vari abl e rat es , al lowi ng the cams haft angle pos it ion t o be controll eds moothly and precis ely.
The ECM can diagnose the operat ion of t he VCT s olenoid and st ore fault related codes. The codes can be read us ing a LandRover approved diagnost ic sys tem.
Camshaft Profile Switching (CPS) Solenoid - Front/Rear

Two CPS s olenoids are located at each end of the cyli nder head, adjacent t o t he inlet cams haft and are each s ecured wi tha bolt . The CPS s olenoids s uppl y oil pres s ure t o t he hydrauli c tappet locki ng pins al lowing t he cams haft profile to bechanged. Each s olenoid controls t he oil press ure supply to the hydrauli c tappet locking pins on 3 cyl inders .For addit ional informat ion, refer t o: Engi ne - 3.2L (303-01, Descripti on and Operat ion).
The CPS s olenoids receive a fus ed batt ery s upply via the main relay. The ECM provides a ground for t he s ol enoi d, whichact uates a val ve wit hin t he s olenoid al lowing oi l pres sure t o adjus t the cams haft profil e.
The ECM can diagnose the operat ion of t he CPS s olenoids and s t ore faul t rel at ed codes . The codes can be read us ing aLand Rover approved diagnos t ic s ys tem.
Ignition Coils
Six pl ug top coi ls are used on the i6 engine and are located in reces s es in t he t op of the cyli nder head. The coi ls arecont rol led by t he ECM and recei ve a fus ed, bat t ery volt age s upply vi a t he main rel ay. The ECM controls t he s park t imingand product ion by swit ching the primary circuit of each coil to ground all owing t he charge which has buil t up in the coil t oproduce a s park at t he s park plug.
Each coi l contai ns a power st age which controls t he pri mary current and the ECM s ends a si gnal t o each coi l to operat e t hepower st age s wit chi ng at the appropriate ti me. Each coil has a feedback wi re to t he ECM whi ch all ows the ECM to diagnos eeach individual coi l and st ore fault related codes. The codes can be read us ing a Land Rover approved diagnos t ic s yst em.
A s uppres sor i s mounted on the cams haft cover adjacent to ignit ion coil 3 t o prevent int erference from t he coi ls and/or t heinject ors affecti ng audi o operat ion.
Fuel Injectors
Six fuel injectors are us ed on the i 6 engine and are located on t he i nl et s ide of t he cyl inder head. The inject ors are s eal edin the cyli nder head wi th O -ring s eals and held in pos it ion by the fuel rail .

The inject ors recei ve a fus ed bat tery vol tage s upply via the main relay. The ECM operates t he i nject ors by groundi ngs olenoi d valves in the injector. W hen t he ground is appl ied t he s olenoi d valve operat es and the injector s prays pres s uri zedfuel from the fuel rail i nt o t he cyl inder int ake ports . The amount of fuel injected and the t iming of t he inject ion peri od iscont rol led by t he ECM us ing dat a from other s ens ors .
The ECM can monit or the injector operat ion by moni toring t he ground l ine from the i njector. Each i njector can be diagnosedby t he ECM and faul t codes s t ored. The codes can be read us ing a Land Rover approved diagnos t ic s ys tem.
Variable Intake System (VIS)
The VIS changes the length of t he inl et manifol d us ing t wo ECM controll ed act uators which move flaps t o cont rol t he airfl ow. The act uators operate s i ngul arly or t oget her to adjust t he l engt h of the inlet t ract.
Us ing an 'H' bridge, the intake and pl enum act uator's i nt ernal electroni cs changes the act uat or motor's polarit y andt herefore the flap pos it ion. At each fl ap pos i ti on change, the DC act uator mot or i s powered for approxi matel y 0.5 seconds .The worm gear des ign ens ures t hat the flap remains in t he desi red pos it ion, even when the el ect ri c mot ors are notpowered.
Int ake Tract Variabl e Manifol d
The ECM controls t he posi ti on of the flaps by modul at ing the relevant act uat or's cont rol s ignal. If the s ignal s hi ft s from low(approxi mately 1 volt ) to hi gh (approxi matel y 10 volt s) t he i nt ernal electroni cs interpret i t as the flap must cl os e. If thes ignal shi ft s from hi gh to low, t he fl ap mus t open.
At engi ne s peeds of l es s t han 3800 rpm both the i ntake and plenum flaps are clos ed. At engine s peeds of approxi matel y3800 rpm and higher the i ntake flap begins t o open, effecti vel y s hort eni ng the length of t he int ake manifol d. At engi nes peeds of 4800 rpm or higher bot h t he int ake and plenum flaps are open, providi ng the short es t length of i ntake manifold.
VIS Flap Functionality
Engine SpeedIntake T ract FlapPlenum Intake FlapEffectLess than 3800 rpmClos edClos edLong tract s
3800 t o 4800 rpmOpenClos edShort t racts
More than 4800 rpmOpenOpenOpen plenumPlenum Variable Int ake Mani fold
The ECM di agnos es vi a t he act uator i f the flap has as s umed the correct pos i ti on. It does this , by compari ng the des ired airfl ow wi th the act ual air flow. A fault code is st ored i f the deviat ions are outs ide t he t olerances. The codes can be readus ing a Land Rover approved di agnos ti c s ys t em.
If an act uat or fai ls and t he flap i s in the open pos it ion, it i s not pos s ible to remove t he act uator and flap as sembl y fromt he inlet mani fold. A smal l indentat ion on t he body of the actuat or al lows for a 3 mm Al len key t o be pus hed through t het hi n membrane wall of the act uat or hous ing. The All en key can be engaged i n t he spi ndl e of t he act uat or mot or whi chall ows the flap to be turned to the clos ed pos it ion and cons equent ly the actuat or and flap as s embly can t hen be removedfrom the i ntake manifold.
Purge Valve

The purge valve i s located on a bracket on the i nlet manifold, above the el ect ri c throt t le. The val ve has a hos e connecti onon t he bott om whi ch connect s i nt o t he electric t hrot tl e and all ows t he fuel vapors to be drawn i nto the i nlet manifold. Alarger connect ion on t he s ide of t he valve i s connect ed via a pipe t o t he evaporati ve (EVAP) emis s ion canis ter whi ch islocated i n t he LH wheel arch behind t he li ner.
The purge valve controls t he flow of fuel vapor from t he EVAP cani st er to the engine intake mani fold. Vacuum in the intakemanifold draws the vapor from t he canis ter once the purge val ve is open and burns the vapor as part of the combus ti onprocess .
The ECM controls t he operati on of the purge val ve when engine operat ing condi ti ons are correct t o add t he fuel vapor t ot he combus ti on process . The valve i s an electro-magnet ic s olenoid valve whi ch receives a fused bat tery vol tage s upply vi at he main relay. The ECM us es a PW M ground t o cont rol t he operati on of the val ve. By al tering t he frequency of the PW Mground s ignal, t he ECM can cont rol t he rat e at whi ch val ve is open. Thi s all ows the ECM to precis ely control t he amount offuel vapor pas si ng from the EVAP canis ter.For addit ional informat ion, refer t o: Evaporat ive Emi s si ons (303-13, Des cript ion and Operat ion).
The ECM can diagnose fault s wi th the purge val ve and s tore fault relat ed codes . The codes can be read us i ng a Land Roverapproved diagnos t ic s yst em.
Fuel Tank Leakage Monitoring Module (NAS only)
The fuel t ank leakage moni toring module is l ocat ed in the LH rear wheel arch, adjacent to t he EVAP canis ter. A port on t hes ide of t he module provi des for t he att achment of a dus t fi lt er, t hrough which fres h air i s drawn i nto the EVAP canis ter. Aport on t he unders ide of t he module i s connected by a s hort curved hos e to t he EVAP canis ter. Thi s connecti on allows fres hair t o be drawn int o t he cani st er during t he purge proces s and als o al lows t he s yst em to be pres surized by t he module forleakage tes t ing.
The fuel t ank leakage moni toring module receives a fus ed bat tery vol tage s upply via the main relay. The modul e i sconnected t o t he ECM whi ch provides a ground for the modul e when l eak det ect ion i s required.
The fuel t ank leakage moni toring module compris es an elect ric ai r pump, a s olenoi d valve and a heat er el ement. The airpump i s used to press urize t he EVAP s ys t em for leak tes t ing. The sol enoi d valve is normall y open, but clos es whenenergized by t he ECM t o clos e t he s ys t em t o al low i t to be pres s urized. The PTC heater element is us ed t o warm t he pumpbefore operati on.
The fuel t ank leakage moni toring s yst em periodicall y checks the EVAP sys tem and t he fuel tank vent s ys t em for leakswhen t he ignit ion i s off. The s ys t em can als o be act ivated for a diagnos ti c check by t he ECM.
The ECM checks for leaks in t he s yst em by operati ng the ai r pump in the fuel tank leakage monit ori ng modul e. The modul eair pump i s acti vat ed and t he ECM monit ors the current draw on t he air pump motor. A reference ori fi ce is provi ded in t hemodule whi ch allows the ECM to make a comparis on and es t abl is h a reference figure for meas uring the current draw on theair pump motor when air i s pumped through the orifice.For addit ional informat ion, refer t o: Evaporat ive Emi s si ons (303-13, Des cript ion and Operat ion).
The ECM can diagnose fault s wi th the ai r pump and the sol enoi d val ve and s tore faul t relat ed codes . Thes e codes can beread us ing a Land Rover approved diagnos t ic s ys tem.
Speed Control Inhibit Switch

The s peed control inhibit swi tch i s att ached to t he brake pedal bracket , adjacent t o t he s top l amp s wit ch. W hen the brakepedal i s pres s ed, a pl ate on the pedal moves away from t he s wit ch plunger al lowing the pl unger to ext end and completet he swit ch contact s.
The s wit ch receives a power s upply from t he CJB which s enses the complet ed ground path when the s wi tch i s operated.The s wit ch has two functi ons ; it is us ed for s t art ing purpos es when the brake pedal mus t be pres s ed before engi necranking i s allowed and it is used t o s us pend speed cont rol operat ion when s peed cont rol i s act ive and t he brake pedal ispres s ed.
The CJB can diagnos e t he operat ion of t he speed control i nhibit s wi tch and t he s tat us of the s wi tch can read us ing a LandRover approved diagnost ic sys tem.
Main Relay
The main rel ay is l ocat ed in the BJB. The operati on of the mai n rel ay is cont roll ed by t he ECM which provi des a groundpath for the main relay coil , energi zing t he rel ay and cl osi ng t he rel ay cont act s.
The main rel ay suppli es bat t ery volt age to the foll owing engine s ensors and act uators:
Electric t hrot tl e - TP s ensor (via ECM)Fuel i njectorsIgni ti on coi lsCoil Capaci torVari abl e inl et cam profile swit ching sol enoi d - front and rearInt ake tract variable mani fol d mot orPlenum variable i ntake manifold motorHO2SPurge valveFuel t ank leakage monit oring pump (NAS onl y).
Air Conditioning (A/C) Pressure Sensor
The refri gerant pres sure s ens or provides t he Air Temperat ure Cont rol (ATC) module wit h a press ure input from t he highpres s ure s ide of t he refrigerant s ys t em. The refri gerant press ure s ens or is hardwired to the ECM, which us es t he s ignal t ocont rol operat ion of t he A/C compress or and to cal cul at e t he addit ional l oad on t he engi ne when t he A/C compress or isoperati ng.
The ECM al so broadcas ts the refrigerant high press ure val ue over t he high s peed Controller Area Network (CAN) bus t o t heCJB. The CJB relays the si gnal t o t he ATC module over t he medium speed CAN bus t o i ncreas e the amount of recircul at edair i f required.
Air Conditioning (A/C) Relay
The A/C rel ay is l ocat ed in the BJB. The operati on of the A/C relay i s cont roll ed by t he ECM whi ch provi des a ground pat hfor t he A/C rel ay coi l, energizi ng the relay and clos ing the relay cont acts .
W hen t he rel ay cont act s are clos ed, batt ery vol tage i s s uppl ied via the relay t o t he A/C compress or clut ch. The ECMcont rol s the operat ion of t he vari abl e dis placement compress or us ing a s i gnal li ne to t he compress or and received s ignalsfrom the A/C pres s ure sens or.
Air Conditioning Compressor Control
Compres s or di spl acement is cont roll ed by t he ECM bas ed on current evaporator t emperature and target evaporat ort emperature s ignals received from t he ATC module. From thes e values t he ECM calcul ates t he requi red compres s ordis placement and provi des a Puls e W idt h Modul ated (PW M) s i gnal t o t he compress or s olenoi d valve. The compress ors olenoi d valve i s mounted on the rear of t he compres s or and i nterprets the PW M s ignal as a dis placement val ue and alt erst he pos i ti on of the i nternal s wash plate accordi ngl y.
The ECM wi ll als o reduce t he dis placement of the A/C compres s or to i ts mini mum l evel i f 'ful l throt t le' or aut omati ct ransmis s ion 'ki ck down' is request ed. Thi s feat ure i s not pres ent on Gul f s pecificati on vehi cl es. Compress or clutchengagement is cont roll ed by t he ECM.
Engine Cooling Fan Control
The ECM has a hardwired connect ion wit h t he cooli ng fan cont rol module. The ECM output s a PW M s ignal to the fan cont rolmodule whi ch rel at es t o t he required fan s peed. The fan s peed is det ermi ned by factors s uch as engi ne coolantt emperature and A/C operati on. The fan cont rol module react s t o t he received s ignal by cont roll ing t he operat ing volt age of

t he fan mot ors . The fan cont rol module confi rms the fan s peed operati on on the same connect ion back t o t he ECM.
Starter Motor Relay
The s tarter mot or relay i s located in t he BJB. The operat ion of t he s tarter mot or relay i s cont rol led by t he ECM whi chprovides a ground pat h for the relay coil , energi zing t he rel ay and cl osi ng t he relay contact s. W hen the relay contacts areclos ed, bat tery vol tage i s s uppl ied, vi a t he s tarter mot or relay, to the st art er modul e s olenoid coil . The st art er s ol enoi d isenergized and connects the s t art er motor wit h a direct batt ery feed t o operate the st art er motor.
Once the engi ne has st art ed, the ECM removes the st art er motor relay ground, opening the relay contacts and t erminati ngt he bat t ery feed to the s t art er s olenoid, which i n t urn s t ops the operat ion of t he starter mot or.For addit ional informat ion, refer t o: Starti ng Sys t em - 3.2L (303-06, Des cript ion and Operat ion).
Fuel Pump Module
The fuel pump i s cont rol led by t he FPDM whi ch in t urn is control led by the ECM. The FPDM provi des pos it ive and negati vefeeds t o t he fuel pump mot or which is cont roll ed wit h a PW M out put . The fuel pump i s run for 2 s econds t o prime the fuels ys t em once igni ti on on is sens ed by t he ECM.For addit ional informat ion, refer t o: Fuel Tank and Lines (310-01, Des cri pt ion and Operati on).
Malfunction Indicator Lamp (MIL)
The MIL is locat ed in the ins trument cl us t er and is i lluminated by a CAN mes s age from t he ECM when an emis s ion relatedfaul t occurs . The ECM als o ill uminat es the MIL when reques t ed to do s o by t he TCM and t o perform a bulb check when theignit ion is s wi tched on. There is no MIL ill uminat ion for non emis si on rel ated engine management fault s . All engine faul tsare recorded wit h a Diagnos t ic Troubl e Code (DTC) whi ch can be ret rieved us ing a Land Rover approved di agnos ti c s yst em.For addit ional informat ion, refer t o: Electroni c Engi ne Controls - 3.2L (303-14, Diagnos is and Tes ti ng).
Generator Feedback Signal
The generator has a Local Interconnect Net work (LIN) bus connect ion direct to t he ECM. The LIN bus is us ed by t he ECM t oreques t vol tage for bat tery charging and t o monit or the fault s t at us of t he generat or.
PRINCIPLES OF OPERATION
Starting Process
The ECM wi ll only al low engine crank, s park and i njector functi ons when the foll owing condi ti ons are met:
A hardwi red Park/Neutral si gnal i s received from the Trans mi ss i on Cont rol Module (TCM)A hardwi red ignit ion s ignal is recei ved from t he CJBA hardwi red crank reques t s ignal is recei ved from t he CJBEncrypt ed data exchange bet ween t he ins trument cl ust er and the ECM is verifi ed.
Before the CJB will s end t he hardwired igni ti on si gnal , it mus t s ati s factori ly complet e t he fol lowi ng:
Exchange encrypt ed data wit h t he s tart control modul e t o vali dat e t he remot e handset.
Addit ional ly, before the CJB will s end t he hardwired crank reques t s ignal i t mus t receive t he fol lowing si gnal s:
Brake s ignal from t he s peed cont rol inhibi t s wit chHardwi red t rans mis s ion in Park (P) or Neutral (N) s ignal from t he s elector lever assembl y.
W i th the remote hands et ins ert ed in the s t art cont rol module and the st op/s tart button is press ed, the st art controlmodule i s sues bat tery vol tage hi gh si gnal on t he LIN bus connecti on to the CJB and the fuel pump i s run for 2 s econds t opri me t he fuel s yst em. The CJB us es this si gnal t oget her wit h t he s top l amp s wit ch signal and is sues a crank requestmes s age on the hi gh s peed CAN bus to the ECM.
The ECM, on receipt of t he crank request mess age, then provides a power and ground supply t o t he s tarter rel ay in theBJB, clos ing the relay contacts . Batt ery volt age is suppli ed via a fus e t hrough t he st art er rel ay and is pas sed to the s t art ermot or s olenoid coi l. The coil is energi zed, clos ing t he s olenoid contacts and allowing a fuse bat tery volt age supply di rectfrom the bat tery to operat e t he s tarter mot or and crank the engine and si mult aneous ly s wi tch t he fuel pump on.
The ECM operat es the st art er motor unti l the engine st art s which i s determined by t he engine s peed exceeding apre-det ermined value.
Auto St art
The ECM has an aut o s tart functi on which all ows the engi ne to cont inue cranking i f the s t op/s tart but ton is released. Thes tarter mot or will operat e unti l the engine st art s or a pre-determined peri od of ti me has el aps ed which i s bas ed on engi necool ant t emperat ure. Low engine cool ant temperat ures al low l onger crank t imes . If the engine does not rot ate or t heengi ne s peed is l ow, the ECM removes t he power s upply and ground from t he st art er rel ay st oppi ng t he crank process .
Start Prevent ion
Operat ion of t he s tart er mot or wi ll not be all owed or wil l be int errupt ed if:
t he engi ne is runni ng and t he engi ne s peed has exceeded a predet ermined s peedt he encrypt ed data exchange bet ween the i nst rument clus t er, ECM, CJB and st art control modul e has fai led t oidenti fy the remote hands ett he gear s elector l ever is not i n t he park 'P' or neutral 'N' pos it ion. The s ignal is det ermi ned from a si gnal from theTCM and al so the t rans mi ss ion mount ed pos it ion s wit cht he brake pedal i s not pres sed.
Engine Stop Process

Publi shed: 20-Jul-2011
Electronic Engine Controls - I6 3.2L Petrol - Electronic Engine Controls
Diagnosi s and Tes ti ng
Principles of Operation
For a detail ed descripti on of the el ect ronic engi ne cont rols , refer to the relevant Des cri pti on and Operati on s ect ion i n t heworks hop manual .REFER to: Elect ronic Engine Cont rols (303-14A El ect ronic Engine Cont rols - I6 3.2L Petrol, Des cript ion and Operat ion).
Inspection and Verification
CAUTION: Di agnos is by s ubs ti tut ion from a donor vehicle is NO T acceptabl e. Subs ti tut ion of cont rol modules doesnot guarant ee confirmat ion of a faul t, and may als o caus e addit ional fault s i n t he vehi cl e being t est ed and/or t he donorvehi cl e.
• NOTE: For di agnos t ic purpos es the cyli nders are divided i nt o t wo banks: Bank 1 - Cyl inder numbers 1, 2 and 3. Bank 2 -Cylinders 4, 5 and 6.
1. Verify t he cus t omer concern.1.
2. Vis ually ins pect for obvious mechani cal or electrical fault s .2.
Visual Inspection
MechanicalElectricalEngine oil l evelCooli ng sys t em cool ant levelFuel l evelFuel contami nati on/grade/quali tyThrot tl e bodyVari abl e valve t iming (VVT) uni ts
Fus esW iring harnes sEl ect ri cal connector(s )Sens or(s)Variable val ve ti ming (VVT) s ol enoi dsEngine Cont rol Module (ECM)Trans mi s si on Control Module (TCM)
3. If an obvious cause for an obs erved or report ed concern is found, correct t he caus e (if pos s ible) beforeproceeding t o t he next s t ep.3.
4. Us e the approved di agnos ti c s ys t em or a s can t ool t o ret rieve any diagnos t ic t rouble codes (DTCs ) before movingont o t he sympt om chart or DTC i ndex.
Make s ure t hat all DTCs are cl eared fol lowing recti fi cat ion.
4.
Symptom Chart
Symptom(general)Symptom (specific)Possible causesActionNon-St artEngine does not crankSecuri ty s ys tem /Immobi lizerengagedEngine cont rol module (ECM)relay faultBat tery dis chargedSt art ing s ys tem faultEngine sei zed
Check t hat t he s ecurit y s ys t em i s dis armed.Check t he ECM rel ay operati on. Check t hebat tery and s tarter s yst ems . Refer to theel ect ri cal guides . Check t hat the engineturns by hand.
Engine cranks, but doesnot fi reLow/cont aminated fuelIgnit ion s ys tem faultFuel s ys t em faul tCranks haft pos it ion (CKP)sens or faultEngine cont rol module (ECM)fault
Check t he fuel level and condit ion. Check forDTCs indicati ng ignit ion, fuel or s ens orfault s. Recti fy as neces sary. Refer to t hewarrant y policy and procedures manual if anECM is sus pect .
Engine cranks and fi res ,but wil l not s t artEvaporat ive emi ss ions purgeval ve faultFuel s ys t em faul tSpark plugs foul ed/incorrectgapIgnit ion coil faul t(s )
Check for DTCs i ndi cat ing evaporat iveemis s ions, fuel or i gni ti on s ys t em fault s.Rect ify as neces sary.
Di fficul t t os tartDiffi cul t to s tart coldCheck cool ant ant i-freezecontentBat tery dis chargedCranks haft pos it ion (CKP)sens or faultFuel s ys t em faul tEvaporat ive emi ss ions purgeval ve fault
Check t he cool ant ant i-freeze content. Checkthe bat tery condit ion and s t ate of charge.Check for DTCs i ndi cat ing a s ens or, fuelsys tem or evaporat ive emi s si ons sys temfault . Rect ify as neces s ary.