2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
2007 Y61 NISSAN PATROL (Series V)
ZD30 Common Rail Diesel (CRD)
0
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
Foreword
The information in this Training Manual should not be interpreted as a basis for
warranty or goodwill claims against Nissan Motor Co. (Australia) Pty. Ltd. (NMA)
unless so designated.
This Technical Training Manual is intended for use by NMA & Nissan
Dealership Technical Personnel. It is not designed for the use by press or for
customer distribution.
Before quoting any specifications be sure to check the relevant Service Manual
and Technical Bulletins.
Right for alteration to data and specifications at any time is reserved. Any such
alterations will be advised by Nissan through Technical and Sales Bulletins.
© 2007 Nissan Motor Company (Australia) Pty. Ltd.
Inc. Victoria
Ref: Technical Training Department.
1
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ABOUT THIS TRAINING MANUAL
This Training Manual ONLY discusses (unless otherwise stated) the 2007 Model Year Y61 Patrol Wagon
models fitted with the new ZD30DDTi Common Rail Diesel Engine (ZD30 CRD).
Y61 TB48DE variants continue on without any changes since the those introduced on the 2006MY.
(Primarily the introduction of the Euro III level TB48DE for 2006). Refer to the relevant Service Manual
supplement for more detail regarding TB48DE engine vehicles.
The purpose of this document is for Nissan Dealer Technical Staff SELF STUDY purposes. If anything
contained within this document gives any doubt, please contact Nissan via a Non Vehicle related
TechLine enquiry to clarify the information within this document.
The information in this Training Manual should not be interpreted as a basis for warranty or goodwill
claims against Nissan Motor Co. (Australia) Pty. Ltd. (NMA) unless so designated.
FUTURE UPDATE’S OF THIS TRAINING MANUAL?
Additional information will be collated & added to this document at a later date. When this does occur, a
special amendment document will be published on iNISCOM. Click on “Training Manual” on the Service
Homepage in iNISCOM. This actual Training Manual will also be readily available at anytime for
download & printing within each Nissan Dealership.
Y61 SERVICE MANUAL (ESM)
SM7E-5Y61G2
Your dealership service department will have access to a Service Manual (ESM) for Y61 in early March
2007. If not, please contact TechLine via a non vehicle related enquiry.
This new ESM supersedes ESM SM6E-5Y61G1. Discard it & only refer to SM7E-5Y61G2.
This Training Manual is designed for the purpose of relaying information about the vehicle & the systems
within it.
This Training Manual is NOT to be used as the Service Manual. Throughout this Training Manual,
references are made to the Service Manual for additional information regarding fault diagnosis, repairs
&/or maintenance.
Once again should there be any doubt, please contact TechLine via a Non Vehicle related enquiry.
Y61 SERVICE TECHNICAL BULLETINS (STB’s current as at April 2007)
Please ensure you familiarise yourselves with the following STB’s relating to 2006MY & 2007MY Y61
Patrol;
• GI 05-007; Safety Warnings. (In relation to the ZD30-CRD engine)
• GI 07-006; Diesel Injection System Warranty Repair. (Bosch supplied fuel system components on ZD
Engine)
• EL 06-008; Changes to Ignition Keys for '06MY Y61 Patrol Wagon.
• GI 06-017; Siemens VDO Warranty Information.
• GI 05-003; E.S.M – Electronic Service Manuals.
• MA 04-001; Revised Engine Oil Specification. (This refers to ALL ZD30 engines)
• GI 07-003; CONSULT II Software Update CD-ROM.
• MA 06-001; Maintenance Items. (General)
• MA 06-002; Wheel Nut Tension.
2
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
How to use the Y61 Service Manual (ESM) SM7E-5Y61G2
This image below is what appears on the screen of the computer when the ESM (CD) is installed in the disc
drive of the computer, a window (which will automatically appear) containing an icon called “Start” is double
clicked & then the button marked “Service Manual” is clicked on.
1 CD only
2 CD only
3 CD & Book
NFA
4 CD & Book
5 CD & Book
NFA
6 CD & Book
7 CD & Book
8 CD & Book
9 CD & Book
NFA = Not For Australia
DO NOT refer to these Tech Bulletins. Only refer to STB’s released by Nissan Australia.
They’re located on iNISCOM.
This new ESM supersedes ESM SM6E-5Y61G1. Discard it & only refer to SM7E-5Y61G2.
1 Supplement X (10) for 2007 production vehicles (Primarily for ZD30 CRD engine vehicles)
2 Supplement IX (9) for 2006 production vehicles (Primarily for Euro III TB48DE engine vehicles)
3 Supplement VIII (8) for (late) 2004 ~ 2005 production vehicles. Major facelift with no mechanical changes.
4 Supplement VI (6) for 2003 production vehicles (Primarily for TD42 engine with turbo, intercooler &
electronic fuel pump vehicles).
5 Supplement V (5) for (late) 2001 ~ 2002 production vehicles (Primarily for TB48DE engine vehicles)
6 Supplement III (3) for 2000 ~ 2001 production vehicles. (Primarily for ZD30 engine vehicles)
7 Supplement II (2) for 1999 production vehicles. (Primarily for TD42 with turbo only engine vehicles)
8 Supplement I (1) for 1998 (Minor running changes made. Typically wiring diagrams)
9 Original Service Manuals (Vol 1 & Vol 2) introduced in late 1997. Refer to these for information on TD42
non turbo, TB45E & RD28ETi engine vehicles.
BEWARE: Always select the manual relevant to the VIN. If the required detail cannot be found in that
particular Supplement, simply go back to the next supplement down the list.
The basic rule of thumb is start from the newest supplement (or supplement relevant to the VIN / age of
the vehicle) & work backwards until the required information is found.
3
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
4
2007 Y61 Patrol ZD30-CRD.
Y61 HISTORY
Nissan Australia September 2007
Series I; 1997 ~ 1999
• DX variant shown in picture with the RD28ETi engine.
• Bonnet scoop on top of bonnet for RD28 only due to
intercooler on top of engine.
• Available in DX only for TD42 engines. No NATS. M/T only.
• Available in DX & ST for RD28 engines with NATS. M/T only.
• Available in ST & Ti for TB45 engines with NATS.
• TD42T (turbo) made available in ST from 1999 onwards. No
NATS
Series II; 2000 ~ 2001
• ST variant shown in picture with new ZD30DDTi engine.
• Bonnet scoop on top of bonnet for ZD30 only due to intercooler
on top of engine.
• Available in DX & ST for ZD30 & TD42T engines. All with
NATS. Option of A/T for ZD30 now available
• Available in ST & Ti for TB45E engines with NATS.
• ST now standard with keyless entry. ST gains safety pack as
option (ABS & Dual Airbags).
• TD42 (non turbo) no longer available in wagons.
Series I
Series III; Late 2001 ~ 2004
• ST variant shown in picture with new TB48DE engine.
• Available in DX & ST for ZD30 & TD42T engines.
• Available in ST & Ti for TB48DE engines.
2003 Changes;
• Introduction of the ST-L spec for all engine types with any
transmission combination. ST-L standard with Leather trim,
Rear A/C with manual control front HVAC.
• Introduction of TD42Ti engine for all variants except Ti. (Turbo
intercooled TD42. Also known as “TD-6” )
• TD42Ti available with Cruise Control as standard. (Except DX
& C/Chassis).
• Series II Cab Chassis with TD42Ti introduced at same time,
however not fitted with NATS or Cruise Control.
Series II
Series III
Series IV & V; Late 2004 ~ 2007
• Major cosmetic changes with new Interior & trim colour
options.
• New style 5 spoke 17" alloy wheels.
• Larger square shaped wheel arch flares, larger rear taillights,
new headlights & new grille.
• Available in DX, ST, ST-S, ST-L for ZD30 & TD42 engines.
• Available in ST-S, ST-L & Ti for TB48 engines.
• Sat Nav & Rev Camera on Ti. (Eurovox)
2006 Changes;
• Euro III TB48 A/T only engine. No M/T or Sub Tank for TB48.
• 1 piece key / remote for all models (except DX).
• ZD30 Ti variant introduced Sept '06 as running change.
• New Sat Nav & Rev Camera system on all Ti from Sept 06.
2007 (Series V);
• New ZD30 CRD engine available for all variants.
• All ZD30 variants fitted with cruise control as standard.
• TB48 unchanged from 2006.
• TD42 no longer available (Not Euro IV compliant).
5
Series IV & V.
No external change in appearance since 2004.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
Y61 ENGINE & TRANSMISSION CODE DESCRIPTION
Y61 Diesel Engines
1. RD28ETi (6 cylinder diesel engine)
RD = Engine series code. The 'D' is common across all
diesel engine codes
28 = Engine capacity (2.8L)
E = Electronically controlled injector pump
T = Turbo
i = intercooler
Note 1; CONSULT II compatible as engine system is
electronically controlled for injection timing & throttle
control.
Note 2; All fitted with NATS.
RD28ETi (1998 ~ 1999)
2. TD42T (6 cylinder diesel engine)
TD = Engine series code. The 'D' is common across all
diesel engine codes
42 = Engine capacity (4.2L)
T = Turbo
Note 1; TD42 = same engine without turbo.
Note 2; Engine system not CONSULT II compatible as
engine has no electronic control.
Note 3; Fitted with NATS since introduction of Series II
wagon. No NATS on Cab Chassis.)
TD42T (1999 ~ 2002)
3. TD42Ti (6 cylinder diesel engine)
TD = Engine series code. The 'D' is common across all
diesel engine codes
42 = Engine capacity (4.2L)
T = Turbo
i = intercooler
Note 1; Also referred to as “TD-6”.
Note 2; CONSULT II compatible as pump has
electronically controlled injection timing, however
throttle control is mechanical.
Note 3; All wagons fitted with NATS, no NATS on Cab
Chassis.
Note 4; ASCD (Cruise Control) on all except DX wagon
& cab chassis variants.
TD42Ti (2003 ~ 2006)
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
Y61 ENGINE & TRANSMISSION CODE DESCRIPTION
Y61 Diesel Engines …/Cont’d
4. ZD30DDTi (4 cylinder diesel engine)
ZD = Engine series code. The 'D' is common across all
diesel engine codes
30 = Engine capacity (3.0L)
D = Double Overhead camshafts
D = Direct Injection (as opposed to “indirect” injection
as it is in the TD & RD engine series)
T = Turbo
i = intercooler
Note 1; None of the coding makes any reference to
Electronic Control even though it is an Electronically
Controlled Pump.
Note 2; The same code applies to the CRD (Common
Rail Diesel) version of this engine.
Note 3; All ZD30 engines are fitted with NATS.
Note 4; Only ZD30 CRD engines from 2007 production
have ASCD (Cruise Control).
Note 5; ZD30 engine also applied to D22 Navara
models from late 2001 ~ 2006 production. Engine has a
conventional turbo, but no intercooler. (ZD30DDT)
ZD30DDTi (Non CRD; 2000 ~ 2006)
ZD30DDTi (CRD; 2007)
Rocker Cover ZD30DDTi CRD (2007)
Rocker Cover ZD30DDTi (2000 ~ 2006)
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
Y61 ENGINE & TRANSMISSION CODE DESCRIPTION
Y61 Petrol Engines
1. TB45E (6 cylinder petrol engine)
TB = Engine series code
45 = Engine capacity (4.5L)
E = Electronically Controlled Fuel Injection
• Engine construction is Over Head Valve (OHV) 2
Valves per cylinder.
• All fitted with NATS.
TB45E (Late 1997 ~ 2001)
2. TB48DE (6 cylinder petrol engine)
TB = Engine series code
48 = Engine capacity (4.8L)
D = Double overhead camshafts
E = Electronically Controlled Fuel Injection.
• Engine construction is Double Over Head Camshaft
(DOHC). 4 valves per cylinder.
• All fitted with NATS.
Euro III changes introduced to TB48 in 2006;
• 4 x O2 sensors with 2 separate catalysts in Exhaust
manifold. (Only 2 x O2 sensors in 2001 ~ 2005 TB48).
• CKPS in transmission bell housing.
• Platinum tipped spark plugs. 100,000km service
interval.
• Not fitted with Sub (fuel) Tank.
• Only fitted with Auto Transmission. M/T TB48
discontinued.
TB48DE (Late 2001 ~ 2007)
Y61 Transmissions
Manual;
FS5R30A; RD28 only
FS5R50B; TD42, ZD30, TB45 &
TB48
Automatic;
RE4R03A; All TB45 & ZD30
RE5R05A; TB48 only
F = Floor Shift directly into trans through the floor
S = Overdrive
5 = 5 forward gears
R = Rear wheel drive vehicle
30A / 50B = Factory coding
R = Remote (lever connected to trans via link rods or cables)
E = Electronically controlled
4/5 = Number of forwards gears (4 or 5 speed transmission)
R = Rear wheel drive
03A / 05A = Factory coding. No specific meaning
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
GENERAL INFORMATION - GI
CONSULT II APPLICATION
1. Equipment
Whenever CONSULT II is used to access systems on the Y61 Patrol with the new ZD30 CRD engine, the
CONSULT II unit MUST be used in conjunction with the Converter Unit.
NEVER USE CONSULT II ON A Y61 ZD30 CRD MODEL WITHOUT THE CONVERTOR UNIT.
1. CONSULT II unit.
2. Software Card
Diagnosis:
NATS:
AED 06G (Red 16MB card)
AEN 06C (Purple card)
Two (separate) new CD-R’s were supplied in February
2007 which each contain the above noted software.
Refer to STB GI 07-003 for more detail.
3. Converter Unit.
Whenever CONSULT II is connected to the Y61 ZD30
CRD, always use the converter unit.
Failure to connect CONSULT II without the Converter
Unit will cause the CAN System to go into a failsafe
condition.
See right for the approximate location of the DDL II link
on the vehicle.
9
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
GENERAL INFORMATION - GI
CONSULT II APPLICATION
2. Accessible Systems (ZD30CRD)
The systems as shown right are accessible with
CONSULT II.
Please ensure you are using the correct software prior to
connection of CONSULT II to the vehicle.
To access all systems shown right (except NATS) use
software version AED06G.
(*1) To access NATS, use NATS software version
AEN06C.
(*2) SPECIAL NOTE WHEN ACCESSING BCM WITH
CONSULT II:
Even though CONSULT II can access BCM, please
IGNORE any of the items shown on the screen. The
BCM only controls the NATS functionality. It has no other
functionality in the vehicle.
3. General Trouble Diagnosis
If the CONSULT-II cannot diagnose the system properly,
check the following items in the table below:
NOTE:
The DDL1 and DDL2 circuits from DLC pins 12, 13, 14 and 15 may be connected to more than one system.
A short in a DDL circuit connected to a control unit in one system may affect CONSULT-II access to other
systems.
10
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
GENERAL INFORMATION - GI
CONSULT II APPLICATION
4. General System Wiring Diagram (ZD30 CRD)
NOTE:
If CONSULT II does not access one (or more than one) of the above systems, switch CONSULT II OFF,
then ensure the unit that is missing from the screen of CONSULT II has Power & Ground & that it is actually
connected.
Be aware of models with optional systems such as ABS. (ie; A DX or ST variant does not have ABS.
Therefore “ABS” will NOT appear on the screen of CONSULT II. Same applies with Manual Transmission
vehicles, “A/T” will not appear on the screen of CONSULT II in such a case.
A Ti ZD30 variant will have ALL the possible systems as A/T & ABS is standard fitment.
Once the fault is repaired, reconnect CONSULT II & start again. Otherwise if no fault is found, simply
disconnect the vehicles battery for 5 minutes, re-connect & then start CONSULT II all over again.
11
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
MAINTENANCE - MA
1. Engine Oil (ZD30)
Only use 10W40 ACEA B3 Engine Oil for ALL ZD30
Engines that have EVER been produced.
This has been clearly highlighted in STB MA 04-001
The engine Oil & Filter is to be replaced every
10,000km’s or 6 months (whichever comes 1st).
YD25 Engines fitted to R51 & D40 models that DO NOT
have DPF (Diesel Particulate Filter) fitted to them also
require this Engine Oil as well.
YD25 Engines with DPF require a unique type of
Engine Oil. Contact TechLine for more detail regarding
DPF engines in 2007MY R51 & D40 models.
2. Engine Coolant (All)
Only use Genuine Nissan Long Life Coolant. Do NOT
change the coolant until 80,000km’s or 4 years. After
that the coolant is then to be replaced every 40,000km’s
or 2 years.
NEVER MIX ANOTHER BRAND OF COOLANT WITH
NISSAN LONG LIFE COOLANT
Severe engine damage will otherwise result.
Coolant should NOT be changed on ANY Nissan
vehicle until 80,000km’s or 4 years!
Change every 40,000km’s or 2 years thereafter.
12
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
MAINTENANCE - MA
3. 4 Speed Automatic Transmission Fluid
For ALL Y61 ZD30 Patrols produced, they have the
option of a 4 Speed electronically controlled Automatic
Transmission. (RE4R03A). TB45 variants from 1997 ~
2001 also used the same transmission.
It is recommended that only Nissan Matic D is used in
this transmission.
Regular servicing is not required, however it would be
recommended to carefully monitor the condition of the
fluid & replace as per the recommendations of the
“Maintenance under Severe Driving Conditions”
schedule in section MA of the Service Manual.
Use Matic D fluid for ALL Nissan 3 & 4 speed Auto
Transmissions. This includes both Front & Rear wheel
drive configured transmissions.
DO NOT use this fluid in RWD 5 speed &/or J31 & Z50
Continuously Variable Transmissions. (CVT)
Transmission Type Identification
Y61 models fitted with the RE4R03A Transmission can
be EASILY identified via an inspection of the A/T shift
lever. Note the O/D OFF Button shown in the picture.
Operation of this button will shift the transmission (if
driven at the appropriate speed) from 4th gear Overdrive
to 3rd gear direct (1:1 ratio).
• ALL Y61 ZD30 & TB45 engine variants utilise this
transmission.
• ZD30 with CRD continues to use this same
transmission.
R = Remote (lever connected to trans via link rods or
cables)
E = Electronically controlled
4 = Number of forwards gears (4 speed transmission)
R = Rear wheel drive
03A = Factory coding. No specific meaning
13
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
MAINTENANCE - MA
4. 5 Speed Automatic Transmission Fluid
For TB48 petrol engine variants, they utilise a 5 Speed
Automatic Transmission. (RE5R05A). Z33, R51 & D40
models also utilise this same transmission.
Only EVER use Nissan Matic J. Do NOT use any other
type or brand of fluid in this transmission.
Regular servicing is not required, however it would be
recommended to carefully monitor the condition of the
fluid & replace as per the recommendations of the
“Maintenance under Severe Driving Conditions”
schedule in section MA of the Service Manual.
NOTE: You will require SST # 31086-VC200
(transmission fluid level gauge Special Service Tool) to
check the level of the A/T fluid in these transmissions.
(Y61 TB48 only)
Order the SST via parts if your dealership is missing
this mandatory tool. The SST # is the part #.
Transmission Type Identification
Y61 models fitted with the RE5R05A Transmission can
be EASILY identified via an inspection of the A/T shift
lever. There is NO O/D OFF Button on the lever.
However, if the vehicle is driven at the appropriate
speed and the shift lever is moved to the left, this will
cause the transmission to shift from 5th gear Overdrive
to 4th gear direct (1:1 ratio).
Moving the lever in the UP or DOWN direction (+ or -),
the transmission will move into “Manual Mode”
NOTE: If the shift lever is moved away from the D
position, the ASCD (cruise control) will be deactivated.
ALL Y61 TB48 engine variants utilised this
transmission.
ALL Z33, R51 & D40 models utilise this transmission as
well.
R = Remote (lever connected to trans via link rods or
cables)
E = Electronically controlled
5 = Number of forwards gears (5 speed transmission)
R = Rear wheel drive
05A = Factory coding. No specific meaning
14
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
MAINTENANCE - MA
5. Transfer Fluid
All Y61 models have the same Transfer unit fitted
(TX12A). The transfer case is manually controlled via a
floor mounted lever adjacent to the main gear shift
lever.
They ALL have the same fluid requirements.
It is strongly advised that only Nissan Matic D is used in
this transfer unit. Use of gear oil may cause damage to
the Auto Locking (free wheeling) hubs (where fitted).
Nissan Matic D Transmission Fluid must be used in
ALL Transfer units in ALL 4x4 models as follows;
Y61; Manually controlled via floor mounted lever.
D22; Manually controlled via floor mounted lever.
R50; Early models that are Manually controlled via floor
mounted lever.
R50; Later models that have a dash mounted All Mode
4x4 Rotary Switch. (Transfer unit is electronically
controlled)
R51; Electronically controlled via a dash mounted All
Mode 4x4 Rotary Switch.
D40; Electronically controlled via a dash mounted
Rotary Switch.
NOTE 1: Unlike R50 & R51 models, D40 models do
NOT have the “AUTO” functionality in the transfer unit.
NOTE 2: The Transfer unit attached to the rear of the
Transaxle in T30 & Z50 models require an appropriate
Gear Oil (GL-5). The coupling unit attached to the front
of the rear diff assembly is sealed & non serviceable.
6. Manual Transmission Oil
All TB45 / TB48, TD42 & ZD30 engine Y61 Patrols
produced used the FS5R50B transmission if they were
an M/T model. RD engine vehicles utilised the
FS5R30A transmission. In both cases, ensure a
suitable GL-4 75W 85 Gear Oil is used.
7. Final Drive (Differential) Oil
The Final Drive specification is unchanged (H233B).
Ensure a suitable GL-5 80W 90 LSD type Oil is used.
15
Recommended Fluid for 4x4 Transfer Units.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
2007 ZD30DDTi Common Rail Diesel (CRD) Engine
With the introduction of the 2007 MY Y61 Patrol, the Diesel Engine range has now been revised with the
introduction of the ZD30DDTi CRD Engine.
This new Engine is now the only Diesel Engine option available for both Y61 wagon variants. The TD42Ti
engine has been discontinued as it does not comply to strict new Euro IV emission standards.
TB48DE Petrol engine remains available in ST & Ti wagon variants only.
Transmission options for the new ZD30 engine in Y61 is either 5 M/T or 4 E-A/T which have been carried
over from the previous models.
All Y61 ZD30 wagon variants are now fitted with ASCD (Cruise Control) as standard.
16
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
YD & ZD Engine Comparison Chart
YD25DDTi (R51 & D40)
(Non DPF engine)
ZD30DDTi VP44 (Y61)
ZD30DDTi CRD (Y61)
Cylinder
Arrangement
Inline 4 Cylinder
Inline 4 Cylinder
Inline 4 Cylinder
Displacement (cc)
2488
2953
2953
Bore & Stroke
(mm)
89.0 x 100
93.0 x 102.0
93.0 x 102.0
Compression Ratio
16.5 : 1
17.9 : 1
17.9 : 1
Firing Order
1-3-4-2
1-3-4-2
1-3-4-2
Cylinder head
Alloy, cross flow
Alloy, cross flow,
Alloy, cross flow,
Air Intake system
Vacuum operated Air Intake
Control valve.
(No swirl valves)
Vacuum operated Air Intake
Control valve.
Swirl valves utilised
Electrically operated Air Intake
Control valve.
Swirl valves utilised
Valve gear & drive
system
DOHC, 16 Valve, shim
adjustable. All chain driven
DOHC, 16 Valve, shim
adjustable. Combination of
gear & chain drive
DOHC, 16 Valve, shim
adjustable. Combination of gear
& chain drive
Injection
Direct – HP Common Rail
(1800 Bar DENSO)
Direct – HP Radial type pump
(Bosch VP44 )
Direct – HP Common Rail
(1600 Bar BOSCH)
Cylinder Block
Cast Iron, 1 piece
Cast iron, 2 piece
Cast iron, 2 piece
Power (kW / rpm) &
Torque (Nm / rpm)
128 / 4000 &
403 / 2000
116 / 3600 &
352 / 2000 (*4) (*5)
MT; 118/3600 & AT; 118/3600
MT; 380/2000 & AT; 354/2000
Balance Shafts
Separate Unit located in sump,
gear driven
Integrated into Engine Block,
gear driven
Integrated into Engine Block,
gear driven
VNT Turbo &
Intercooler
Yes & Yes
Yes & Yes (*4)
Yes & Yes
Engine Oil
Pressure detection
system
Standard single switch system
Dual switch system (*3, *4)
(HP & LP switches)
OP sensor & separate OP
switch system
Engine Oil Level
detection system
Electronic. Oil Level Gauge to
manually inspect also
Oil Level Gauge to manually
inspect only
Oil Level Gauge to manually
inspect only
Engine Oil Maint.
Intervals (km’s)
10,000
10,000
10,000
Engine Oil
Specification
ACEA B3 10W40 (*1)
Do NOT use in DPF models.
ACEA B3 10W40 (*2)
ACEA B3 10W40 (*2)
(*1) REFER TO STB MA 05-001. (*2) REFER TO STB MA 04-001. (*3) REFER TO STB’s EC 06-002a, EC 05-006, EC 03-006.
(*4) Not D22 models (*5) Increase in power & torque, different specs between A/T & M/T on Ser IV, figures not shown.
17
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Drive Belt
The Single serpentine type drive belt has been carried
over from the previous engine.
The belt tension is self adjusting due the Auto hydraulic
tensioner unit & the alternator utilises a one way clutch
in order to stop belt squeak noise when the engine
decelerates.
The Power Steering pump is mechanically driven by the
engine on all ZD30 engines.
Reference should be made to section EM of the Service
Manual for details on removal, installation & inspection
of the belt.
ZD30DDTi Air Cleaner & Intake
The Air Filter Element is a VISCOUS PAPER TYPE.
It has been carried over from previous models.
DO NOT REMOVE DIRT FROM THE ELEMENT WITH
COMPRESSED AIR!
Pay careful attention to the installation of the Air
Cleaner element. Please ensure that there is no
leakage of dust. If detected check the seal & paper of
the element, if the seal or paper is damaged replace the
element immediately.
ZD30DDTi Charge Air Cooler
The Charge Air Cooler (Intercooler) continues to be
horizontally mounted over the top of the engine as it
was in previous models. The air outlet of the cooler has
changed due to the change of intake manifold
configuration.
Special attention should be paid to section EM of the
Service Manual regarding any work involved with the
Charge Air Cooler system.
PLEASE ENSURE THAT ALL FITTINGS ARE
SECURE & FREE FROM AIR LEAKAGE.
18
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Intake Manifold
The Intake Manifold as shown right is mounted on the
RH side of the Cylinder Head.
An electrically operated Air Intake Control Valve is
utilised & the Swirl Valves have been incorporated inside
the intake manifold.
Electric Throttle Control Actuator;
On the previous ZD engine as well as the non DPF YD25
engine, the Air Intake Control valve was vacuum
controlled. Now on the new ZD30 CRD engine, the valve
has the same purpose as previous, however it is
electrically operated. Its operation is very much the same
as a ETC unit found on many petrol engines.
The Throttle valve is fully opened when the engine is
running. The valve is closed only to perform smooth
engine stop when the ignition switch is turned OFF. A
feedback sensor (Throttle Position Sensor – TPS) is also
installed to ensure the ECM can detect the throttle plates
position.
(Vacuum operated) Swirl Valves;
The swirl control valve is installed inside the manifold
assembly. While idling and during low engine speed
operation, the swirl control valve closes, thus the velocity
of the air in the intake passage increases to produce a
swirl (rush of air to promote cleaner burning when the
fuel is injected into the air) into the combustion chamber.
Once the engine speed increases to a certain speed, the
valves open to allow more air to enter the engine.
Further information regarding the components shown
right can be found in section EM & EC of the Service
Manual.
ZD30DDTi Exhaust Gas Recirculation (EGR)
System
Major changes have occurred with the EGR system on
the new ZD30 CRD engine.
The EGR volume control valve continues to be
electrically controlled by the ECM, however it has a
throttle valve arrangement & works in a similar way to an
ETC unit found on current petrol engines.
The Pipe linking the exhaust manifold to the EGR control
valve assembly is also water cooled as it is on R51 / D40
YD25 A/T models.
Further information regarding the components shown
right can be found in section EM & EC of the Service
Manual.
19
A, C, D: Engine Coolant
B: Exhaust Gases
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Exhaust Manifold, Turbo &
Catalyst
The Exhaust Manifold system is similar to that fitted to
the previous ZD engine on Y61.
A VNT type Turbo Charger unit continues to be
utilised.
Special attention should be paid to section EM of the
Service Manual regarding any work involved with the
components shown right.
Please ensure that the Engine Oil level is NOT
overfull when diagnosing a complaint of Oil
Leakage from the Turbo Unit.
ZD30DDTi Oil Pan
The Oil Pan design is very much the same as that
installed on the previous ZD Engine.
Further information regarding the components shown
right can be found in sections EM of the Service
Manual.
ZD30DDTi Rocker Cover
The Rocker Cover is now made from a resin material
and the design has changed to allow the fitment of the
new type of Injectors.
The injectors are electrically controlled & the wiring
connectors protrude through the top of the Rocker
Cover in a similar manner to the Injectors on the YD25
Engine.
Further information regarding the components shown
right can be found in sections EM of the Service
Manual.
20
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Glow Plugs
Once again the Glow system construction & operation is
near identical to the previous ZD Engine.
It is necessary to remove the Glow Plugs in order to
measure the Engine Compression.
NOTE: The same SST adapter for measuring
compression is carried over from the previous ZD30
engine. SST# ED19600620 or ED19600620AUS
Refer to section EM of the Service Manual for more
information on the removal process of the Glow Plugs as
well as checking Engine Compression.
Section EC of the Service Manual discusses the
operation of the Glow Plugs.
ZD30DDTi Vacuum Pump
The Vacuum Pump continues to be engine driven & is
located on the RH side of the engine.
ZD30DDTi Camshafts & Cyl Head
The construction of the Cylinder Head is similar to that
on the previous ZD Engine. However the Camshaft
Signal Plate & sensor (CMPS) is located at the front of
the head. (The previous ZD CMPS is located within the
Injector Pump.)
The valves (like the previous ZD as well as the YD
engine) are shim adjustable. However valve clearance
adjustment is NOT required unless there is a problem.
(See over page for more detail)
Refer to section EM of the Service Manual for more
information on the components shown right.
Refer to STB EM 04-002 for information regarding some
pre CRD ZD30 engines that have a 1 piece valve lifter
assembly. (No shims)
21
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Valve Clearance Adjustment
“Shim Kit” Special Service Tool (SST)
Valve clearance checks are NOT a normal maintenance
requirement for any ZD30 engine. However, (typically
after an engine repair operation) there will be a need to
check the valve clearance adjustment on ZD30 engines.
(CRD & non CRD engines). If the clearance is incorrect,
the adjustment operation is a matter of fitting a different
thickness shim between the camshaft lobe & the valve
lifter (bucket).
- If the clearance is too tight, the shim needs to be
removed & a thinner shim is to be put in it’s place.
- If the clearance is too loose, the shim needs to be
removed & a thicker shim is to be put in it’s place in
order to tighten the clearance.
Nissan Australia have developed a Special Service Tool
(SST# 13229 VB200A) to facilitate the shim exchanging
operation. The Valve clearance “Shim Kit”.
The shims removed from an engine due to an incorrect
clearance are STILL SERVICEABLE (to be kept for use
in another engine). Therefore DO NOT discard them.
Check the actual measurement of them with a
micrometer & place them into the compartment of the kit
which matches the measured size. Then select another
shim of a different size which will correct the valve
clearance issue.
Always ensure the micrometer in use is CORRECTLY
CALIBRATED.
On average, shims of all sizes should always be
available in the kit.
Re-order of the complete kit is available through National
Parts. Use the SST # as the part #.
Refer to section EM – SDS of the Service Manual for
individual shim part numbers.
Refer to section EM – “Valve clearance adjustment” of
the Service Manual for the Valve clearance adjustment
procedure. There is a slight difference in the procedure
between CRD & non CRD engines. Refer to the
appropriate Service Manual supplement dependant on
the VIN.
Refer to STB EM 06-003 for more detail about the shim
kit.
22
To be used as a tool. DO NOT SELL THE SHIMS.
13229 VB200A; Kit for ALL ZD30 engines. 2000
to current CRD engines. Issued 2006
13229 VB100A; Kit for ALL RD28 engines in Y61
only, 1998 ~ end 1999. Issued 1999. It is
recommended to check the valve clearances in
Y61 RD28 engines every 20,000km’s.
RD28 engines in Y60 models (1994 ~ 1997) used
hydraulic lifters. Adjustment is not possible.
These kits are designed to facilitate the
SWAPPING of shims of one size to another in
order to correct the valve clearance on a specific
engine.
These kits are NOT designed to facilitate the
selling of shims. Once the kits arrive at your
dealership, they are to be placed in the care of
the Workshop & used as a Special Service Tool
(SST). Only labour is to be on-sold for a valve
clearance adjustment operation. DO NOT allow
the shims from the kit to be sold.
In the unlikely event that a specific size shim has
been used up, (however the number of shims in
the kit as a whole should NOT vary) simply reorder that shim via parts to placed in the kit. Part
# references can be found in the lid of the kit
box.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Timing Chain
The mechanical timing system is configured as displayed
in the diagram shown right.
As the case with the previous ZD engine, there is only 1
chain & it is driven by the sprocket attached to the Fuel
Pump drive gear. The chain the drives a single sprocket
which in turn drives the RH camshaft. The 2nd camshaft
is driven via an idler gear.
Refer to section EM of the Service Manual for more
information on the components shown right.
ZD30DDTi Timing Gears
The Timing Gear arrangement continues in the same
format as the previous ZD30 engine.
The Fuel Pump removal procedure has been simplified.
The pump needs to have 3 bolts removed from the rear.
The Fuel Pump detaches from the engine without the
need to remove timing gears etc.
Refer to section EM of the Service Manual for more
information on the components shown right.
Refer to Section EC of the Service Manual for
information regarding the removal of the Fuel Pump.
Special Notes for the removal of bolts etc. when
dismantling the front section of the engine.
1. None of the components (timing gears & chains etc.)
in the diagrams shown right need to be removed for the
Fuel Pump removal process on the new ZD30 CRD
engine. Refer over page for more detail.
2. Please refer to STB EM 04-005. It clearly states that
you must NEVER use an impact gun on any bolts that
attach valve train gears etc. to the engine.
Otherwise SEVERE ENGINE DAMAGE WILL RESULT
and it will be at the REPAIRERS EXPENSE!
23
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Fuel Rail, Pump & Injectors
The Common Rail along with the Injectors are mounted as shown in the diagram.
TAKE NOTE of the components that CANNOT be re-used once they have been removed or loosened.
NEVER “CRACK OPEN” AN INJECTOR LINE WITH THE ENGINE
RUNNING OR CRANKING.
Fuel pressure can reach a MAXIMUM PRESSURE of 1600 BAR
(23,000PSI).
24
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Fuel Pump Removal
Refer to section EC of the Service Manual for the removing & re-installing the Fuel Pump procedure. The
new pump is now much simpler to remove & re-install than the previous VP44 unit.
The procedure involves the disconnection of the fuel lines & electrical plug. The pump is attached to the
engine with 3 x forward facing bolts. The pump simply detaches from the engine without the need to
remove any timing gears etc.
NOTE: When removing the Fuel Pump, there is NO NEED to remove the bolts located behind the
pump drive gear. Only remove the bolts marked *1 in the diagram and the pump is removed
rearwards.
The other bolts shown attached the pump mounting / drive unit to the engine & they can only be
accessed by 1st removing the front timing chain / gear cover & fuel pump drive gear.
25
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE MECHANICAL - EM
ZD30DDTi Cylinder Block & Dual Mass Flywheel (M/T)
Drive Plate for A/T models
26
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE LUBRICATION & COOLING SYSTEMS - LC
27
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE LUBRICATION & COOLING SYSTEMS - LC
ZD30DDTi Engine Oil Filter & Cooler
The Oil Filter is located on the LH side of the engine
towards the front. It is the same design as the previous
ZD engine.
ZD30DDTi Engine Oil Pump
The Oil Pump is driven by the front of the crankshaft. The
design of the pump is unchanged from the previous
engine.
Oil Pressure is monitored via the ECM with the utilisation
of an Oil Pressure Sensor which is located at the RH
rear of the engine.
In addition to the Oil Pressure Sensor there is an Oil
Pressure Switch located at the LH front of the engine,
above the oil filter. This switch will ground & illuminate
the ‘red oil can’ warning light when there is close to 0 Oil
Pressure.
The Above mentioned Oil Pressure SENSOR is
connected directly to the ECM. If the ECM measures
specific pressures at certain engine speeds &
temperatures, the ECM will signal the Instrument Cluster
to illuminate the RED OIL CAN warning light on the
Instrument Cluster.
Refer to section EL of this Training Manual for more
detail.
ZD30 CRD Engine Oil Pressure Specifications.
Engine Oil Pressure measurements are to be taken from the RH Rear of the engine after the removal of the
Oil Pressure SENSOR. DO NOT confuse the Oil Pressure SENSOR with the Oil Pressure Switch located
on the LHF of the engine next to the Oil Filter.
See over page for more detail of the Sensor & Switch locations.
28
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE LUBRICATION & COOLING SYSTEMS - LC
Engine Oil Pressure SWITCH
Engine Oil Pressure SENSOR
Only EVER attach an Oil
Pressure gauge to this
point if actual Engine Oil
Pressure measurements
are to be taken.
29
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE LUBRICATION & COOLING SYSTEMS - LC
ZD30DDTi Radiator
The design of the Radiator has not changed from the
previous design.
It is a down flow configuration & the system uses 1 x
pressurised coolant reservoir & 1 x non pressurised
coolant overflow tank.
ZD30DDTi Viscous Coupling & Electric
Cooling Fans
The engine driven cooling fan has a temperature
sensitive viscous coupling & is mounted on the Water
Pump drive shaft.
The design differs from the previous ZD engine as the
viscous coupling is now a separate part from the water
pump.
The electrically operated cooling fan is located in the
same position as the electric fan on previous models. It’s
operation is via a relay which is controlled by the ECM.
ZD30DDTi Water Pump & Thermostat
As mentioned above, the Water Pump & Viscous Fan
Coupling are now separate parts. Otherwise the water
pump design is unchanged.
The Thermostat is unchanged from the previous engine
also.
30
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE LUBRICATION & COOLING SYSTEMS - LC
ZD30DDTi Cooling System Maintenance
When the Coolant is to be changed please ensure the
coolant is completely drained from the 2 x positions
shown right.
As with ALL current Nissan models, the coolant is NOT
to be changed until 80,000km’s or 4 years (whichever
comes 1st). Thereafter the coolant is to be changed
every 40,000km’s or 2 years.
When refilling, there is no specific bleeding point as the
air will bleed itself out via the pressurised overflow tank.
Refer to section MA of the Service Manual for more
detail.
31
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
Basic Design Features of CRD
There is a chamber which is similar in appearance to a Petrol Engine EFI Fuel Rail mounted along the top
of the Engine (i.e: the Fuel Rail or otherwise known as the “Common Rail”)
The Rail is filled with fuel via a High Pressure Pump being driven directly by the engine. The design
principle & operation is near identical to that of a Petrol Engine with EFI.
NOTE: Fuel Pressure is NOT created via Engine Oil Pressure as it is in some other types of CRD engines.
This system is known as Hydraulic Electric Unit Injection – HEUI.
The Fuel is maintained under this extremely high pressure in the rail as so desired by the ECM. Steel tubes
connected to each injector supply this pressurised fuel from the rail.
The injectors therefore can be operated by the ECM at any time to produce the very fine spray pattern
(thanks to the readily available - at all times - high fuel pressure) in order to promote clean combustion.
NEVER “CRACK OPEN” AN INJECTOR LINE WITH THE ENGINE RUNNING OR
CRANKING.
Fuel pressure can reach a MAXIMUM PRESSURE of 1600 BAR (23,000PSI).
32
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
1. Fuel Pump (BOSCH CP1H)
The supply pump consists primarily of the following;
• Feed pump
• Fuel Metering Unit (MPROP - Metering Proportional
Valve)
• High Pressure Pump
(i) Feed Pump
The feed pump is a circumscribed gear type pump and
consists of a drive gear and a driven gear.
The drive gear is connected to the high-pressure pump
drive shaft by a plate coupling.
The rotational speed of the drive gear is the same as
that of the drive shaft.
33
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
1. Fuel Pump (BOSCH CP1H) …/Cont’d
(ii) Fuel Metering Unit (MPROP)
The fuel metering unit consists of a housing, an
armature assembly, a magnetic core, a solenoid core, a
piston and a spring.
The piston is located inside the magnetic core. Fuel
flows through the inlets and into a groove running
around the inside of the magnetic core.
34
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
1. Fuel Pump (BOSCH CP1H) …/Cont’d
(iii) High Pressure Pump
The high-pressure pump is a radial piston high pressure
pump in which three plungers are arranged radially
around the eccentric drive shaft.
The plungers are reciprocated by the eccentric rotation
of the polygon ring assembled on the drive shaft. (The
polygon ring itself does not rotate; it is only moved in a
circular motion.)
The drive shaft is driven directly by the engine via a
coupling.
The high-pressure pump consists of inlet valves, outlet
valves, plungers, plunger springs, tappets, a polygon
ring, a drive shaft and a pump housing.
35
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
2. Rail (BOSCH)
The Rail stores pressurised fuel (0 to 1600 BAR, 23,000psi) delivered from the supply pump
and distributes the fuel to each cylinder's injector.
NEVER “CRACK OPEN” A FUEL LINE WITH THE ENGINE RUNNING OR CRANKING.
SEVERE INJURY WILL BE A RESULT OF THIS ACTION!!!
The Relief Valve will open at a
peak pressure of 1640BAR
PLEASE OBSERVE THE SAFETY
PRECAUTIONS REGARDING HIGH
FUEL PRESSURE SYSTEMS.
REFER TO STB GI 05-007 FOR
MORE DETAIL.
(i) Fuel Rail Pressure Sensor (BOSCH)
The rail pressure sensor is mounted in the rear end of
the rail and detects the fuel pressure in the rail. This
signal is sent to the engine's ECU.
This sensor is a semi-conductor type pressure sensor
which uses the Peizo resistive effect to detect changes in
electrical resistance when pressure is applied to a silicon
wafer.
(ii) Pressure Limiting Valve (Fuel Pressure Relief
Valve) (BOSCH)
The pressure limiting valve is a piston type seat valve.
When abnormal pressure develops in the common rail,
the pressure limiting valve returns fuel to the fuel tank to
prevent an abnormal increase in pressure.
Once abnormal pressure develops, the valve piston
opens and the overflow quantity is automatically adjusted
to maintain a fixed fuel pressure in the rail and enable
simplified vehicle running. Because this is an abnormal
condition, it is then necessary to have the system
inspected.
The valve will lift of its seat at a peak pressure of 1640
BAR.
36
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
3. Fuel Injector (BOSCH)
In response to the signal from the ECU, the injector
assembly supplies pressurized fuel from the common
rail to the engine’s combustion chamber at the optimum
injection timing and the optimum injection quantity.
The injector assembly can be divided into the following
two functional units;
(i) Control section
The control section consists of a control chamber, a
magnet, a valve spring, an armature plate, a valve ball,
a valve body, a valve piston and 2 orifices.
A valve piston is located between the control section
and the injector.
(ii) Injector
The injector consists of a nozzle body, a nozzle needle,
a nozzle spring and a nozzle nut.
37
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
3. Fuel Injector (BOSCH) …/Cont’d
Injector Operation;
(i) Non Injection
When the magnet is not energized, the armature plate is
pushed down by the valve spring and the ball seat is
closed.
High pressure fuel is acting on the control chamber
through orifice Z. The same pressure also acts on the
nozzle needle side.
The nozzle needle is pushed down because of the
difference in the pressure bearing areas of the valve
piston and the nozzle needle, as well as the nozzle
spring’s set force, and the nozzle seat is closed.
Consequently, fuel injection cannot be performed.
(ii) Beginning of Injection
When the magnet is energized, the armature plate is
attracted upward by electromagnetic force and the ball
seat is opened.
The high pressure fuel in the control chamber flows out
through the ball seat and orifice A to the fuel tank.
Because of this, the force of the high pressure fuel acting
on the nozzle needle overcomes the force of the valve
piston and the nozzle spring’s set force, the nozzle
needle is pushed up, and fuel injection begins.
If energising of the magnet continues, the maximum
injection rate is obtained.
38
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
3. Fuel Injector (BOSCH) …/Cont’d
Injector Operation;
(iii) End-of-injection
When the power to the magnet is stopped, the armature
plate is pushed down by the valve spring and the ball
seat is closed. At this time, high pressure fuel flows into
the control chamber through orifice Z, the valve piston
and the nozzle needle are pushed down, and fuel
injection ends.
39
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
4. Electronic Control Module (ECM - BOSCH)
Information signals detected by the various sensors and
switches are input to a microcomputer inside the ECM.
In accordance with these information signals,
characteristic data and compensation data recorded on
the ROM (Read Only Memory device) are read into the
CPU (the central processing unit).
Computations are performed using this control data and
the information signals from the input section, and the
results are output as control signals.
The control signals output from the microcomputer are
converted to drive signals in accordance with their
content. These drive signals are output to the injectors
and the solenoid valves to control injection quantity
and injection timing.
NEVER “swap” a known GOOD ECM to a problem vehicle. Fit the suspect ECM to a known good vehicle
instead. If it is proven to be a failed ECM, then there is a fault in the vehicle which caused the failure of the
ECM. LOCATE & REPAIR THE FAULT prior to installing a new ECM to a problem vehicle.
As a rule of thumb, ECM failures are EXTREMELY RARE. Fuel, Air, Power & Ground issues are most typically
the cause of engine running faults.
40
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
Service & Repair of Bosch Fuel System Components
1. High Pressure Fuel Pump;
If the diagnosis process has been correctly followed & it has been determined that the Fuel Pump is at fault,
please refer to STB GI 07-006 for repair or instructions. Only a specific Bosch agent is authorised to inspect,
dismantle & repair these Fuel Pumps.
DO NOT ORDER A NEW PUMP FROM PARTS TO REPAIR A PUMP OR SUSPECT PUMP PROBLEM.
2. Injectors;
If the diagnosis process has been correctly followed & it has been determined that the Injectors at fault,
please refer to STB GI 07-006 for repair or instructions.
3. Fuel Rail;
If the diagnosis process has been correctly followed & it has been determined that either the Fuel Rail, Fuel
Rail Pressure Sensor &/or the Fuel Pressure relief valve is at fault, please order a COMPLETE NEW FUEL
RAIL ASSEMBLY via normal parts channels as the rail & attached components are not serviceable & are
not supplied separately.
4. Steel Fuel Tubes & Plastic Fuel Injector Return Tubes;
Once removed, these components must NEVER be reused. Order replacement ones via normal parts
channels. Refer to page 24 of this Manual for more detail.
5. ECM;
It is HIGHLY UNLIKELY that the ECM has failed, however if it suspected that the ECM has done so, install it
into a known good vehicle. NEVER “swap” a known GOOD ECM to a problem vehicle. If it is proven to be a
failed ECM, then there is a fault in the vehicle which caused the failure of the ECM. LOCATE & REPAIR
THE FAULT prior to installing a new ECM to a problem vehicle.
As a rule of thumb, ECM failures are EXTREMELY RARE. Fuel, Air, Power & Ground issues are most
typically the cause of engine running faults.
Replacement ECM’s are available via normal parts channels.
41
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
Fuel Injector Operation
1. Pilot Injection
Pilot injection precedes the usual injection (ie, main
injection) and is the injection of a very small quantity of
fuel.
Pilot injection suppresses the initial generation of heat to
decrease NOx and noise generated at the beginning of
combustion.
2. Fuel Injection Quantity Control
(i) Fuel injection quantity at engine starting
At engine starting, the fuel injection quantity is
determined by the engine speed at starting and cooling
water temperature.
(ii) Standard fuel injection quantity
The standard fuel injection quantity is determined by the
engine speed and accelerator position.
(iii) Maximum fuel injection quantity
The maximum fuel injection quantity is calculated from
engine speed and boost pressure.
42
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
BOSCH COMMON RAIL DIESEL INJECTION
Written with the kind permission & support of
BOSCH AUSTRALIA PTY. LTD.
Fuel Injector Operation …/Cont’d
3. Fuel Injection Timing Control
(i) Main Injection Timing
Main injection timing is calculated from the fuel injection
quantity and engine speed.
(ii) Pilot Injection Timing (pilot interval)
The pilot interval is calculated from the fuel injection
quantity and engine speed.
4. Fuel Injection Pressure Control
The fuel injection pressure is calculated from the fuel
injection quantity and engine speed.
Pressure in the Rail is regulated by the Fuel Metering
unit on the Fuel Pump.
43
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi - CRD
44
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi - CRD
45
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
1a. Battery Voltage
This is an extremely important input to the ECM for
engine operation.
Ensure that the voltage level remains stable, especially
during cranking. A situation maybe possible where there
is enough battery voltage for cranking, however there
maybe an insufficient level for the ECM to operate
properly.
1b. ECM Ground
Even though a decent voltage supply is available to the
Engine Control System, if the ECU or major fuel system
components do NOT have a decent Ground connection,
then correct operation of the Engine System will NOT be
possible.
Please ensure the Ground connections as shown here
are in good condition (Clean & Tight.)
2. Ignition Switch
The ECM needs to know if the engine is being cranked, if
the Ignition Switch is simply ON, held in the cranking
position & of course when it is OFF.
46
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
3. Crankshaft Position Sensor (CKPS)
The CKPS is located at the front of the cylinder block
directly above the front pulley. It is attached to a bracket
above the pulley & is facing the teeth of the signal plate
on the rear of the front pulley.
The CKPS informs the ECM of the following
information;
• The position of the crankshaft
• If the crank is actually moving & if so how fast?
A section of the signal plate has teeth missing, which is
used to determine the TDC point.
1; TDC timing marks.
2; CKPS
4. Camshaft Position Sensor (CMPS)
The CMPS is located at the front of the cylinder head. It
senses the camshaft rotation.
The ECM uses this information to identify a particular
cylinder's piston position and firing order.
When the CKPS circuit becomes inoperative, the CMPS
is able to be used as a back-up signal.
This provides some control of the engine management
system by utilising the timing of cylinder identification
signals.
They are of a permanent magnet and Hall IC
construction.
5. Fuel Rail Pressure Sensor (FRPS)
(BOSCH)
The FRPS is an extremely important input into the
ECM. From this signal, the ECM can determine how to
operate the Solenoid on the Fuel Pump in order to vary
the amount of fuel that is forced into the Fuel Rail.
6. Barometric Sensor (BOSCH)
The Barometric Pressure Sensor is built into ECM. The
sensor detects barometric pressure (altitude) and sends
the voltage signal to the microcomputer.
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2007 Y61 Patrol ZD30-CRD.
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ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
7. Accelerator Pedal Position Sensor (APPS)
The APPS is installed on the upper end of the
accelerator pedal assembly. The sensor detects the
following items of information;
• Actual accelerator pedal position
• If the pedal is actually moving (being pushed by the
driver or not) and if it is moving, the rate of movement
(rapid movement or gentle / slow movement)
The signal is sent to the ECM. The ECM uses the signal
to determine the amount of fuel to be injected.
The signal is also utilised by the TCM for shift control &
the ECM for A/C compressor cut.
NOTE; The signal from the accelerator pedal will be
IGNORED & the engine will revert to normal idle control
If the brake pedal is applied whilst the vehicle is being
driven. Refer to page 50 for more detail
8. Engine Coolant Temperature Sensor
(ECTS)
The ECTS is used to detect the engine coolant
temperature.
It’s design & operation is the same as other ECT sensors
utilised by the Nissan engine range.
9. Mass Air Flow Sensor (MAFS)
The MAFS is placed in the stream of intake air. It
measures the intake flow rate by measuring a part of the
entire intake flow.
The MAFS controls the temperature of the hot wire to a
certain amount. The heat generated by the hot wire is
reduced as the intake air flows around it. The more air,
the greater the heat loss.
Therefore, the electric current supplied to the hot wire is
changed to maintain the temperature of the hot wire as
air flow increases.
The ECM detects the air flow by means of this current
change.
10. Intake Air Temperature Sensor (IATS)
The IATS is built into the MAFS. The temperature
sensing unit uses a thermistor which is sensitive to the
change in temperature. Electrical resistance of the
thermistor decreases in response to the temperature
rise.
48
MAFS & IATS
Combined
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
11. Turbo Charger (TC) Boost Sensor
The Turbo Boost Sensor detects pressure in the exit side
of the Charge Air Cooler (Intercooler). The sensor output
voltage to the ECM increases as pressure increases.
12. Vehicle Speed Signal (VSS)
The ECM receives VSS via CAN communication line.
Even though it is sent from the combination meter, the
source of the signal originates from the Vehicle Speed
Sensor located at the rear of the Transfer unit. The VSS
sends the signal directly to the instrument cluster
(Unified Meter Control Unit) via a dedicated wiring
connection. From there the UMCU outputs the Vehicle
Speed signal onto the CAN for use by other systems in
the vehicle that require a VSS.
The ECM primarily uses this signal for ASCD control.
NOTE: Ti variants have a local fit Satellite Navigation
system. Refer to AWB 017a/06 for detail regarding the
supplier & repair information. The system requires a
vehicle speed input which is taken directly from the
Vehicle Speed Sensor.
13. Automatic Speed Control Device (ASCD)
Switches
ZD30 CRD Y61 is available with ASCD. (Cruise Control)
The control switches are mounted on the steering wheel
and each has a varying values of electrical resistance for
each button.
The ECM reads the voltage variation of the switch that is
pressed and determines which button is operated.
The switches are mounted on the steering wheel.
49
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
14. ASCD Brake (pedal) Switch
When the brake pedal is depressed, ASCD Brake Switch
and Stop Lamp Switch are turned ON. The ECM detects
the state of the brake pedal by these 2 SEPARATE
inputs.
On M/T models, there is also a Clutch Pedal Switch, if
the Clutch Pedal is depressed the Switch individually
sends an “Open Circuit” signal to the ECM. ASCD
operation is cancelled as a result
15. Stop Lamp Switch
The Stop Lamp Switch is installed to the brake pedal
bracket. The switch senses brake pedal position and
sends an ON-OFF signal to the ECM. It is found on the
brake pedal bracket, adjacent to the ASCD Brake
Switch.
Accelerator and Brake mutual comparison
diagnosis (Failsafe Control)
This diagnosis is designed to return the engine to normal
idle when the driver depresses the brake pedal whilst the
accelerator pedal is being held to drive the car (ASCD
OFF) The new diagnosis feature judges that driver wants
to stop driving the vehicle. (ECU judges that the
accelerator pedal is hanging).
However if the brake pedal is depressed prior to the
accelerator pedal being depressed, it will not drop
engine RPM.
Activation conditions;
• Engine RPM; >1000rpm
• Vehicle speed; >5km/h
NOTE; 1998 R20 Terrano models fitted with the Bosch
supplied fuel control system on the TD27ETi engine
utilised a similar strategy.
50
NOTE; If the brake pedal is applied whilst the
accelerator is being applied to drive the vehicle,
the engine will revert to normal idle control
regardless of the accelerator pedal position.
Care MUST be taken with the fitment if ANY
electrical accessories that require a STOP LAMP
switch input are being installed to the vehicle
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
16 a. PNP Switch – AT Models
When the gear position is in P or N (A/T) the Park /
Neutral position is ON. ECM detects the position via a
signal sent out on the CAN.
The actual switch signal is sent from the shift lever
position switch located on the A/T assembly to the
instrument cluster. The cluster issues the signal out on
the CAN & from there the ECM receives the P/N signal.
If the ECM receives a P/N signal (due to a faulty switch
or wiring for example) whilst the vehicle is being driven, a
DTC will be logged.
16 b. PNP Switch – MT Models
When the gear lever is in N the neutral position switch is
ON (P/N Posi is ON). The ECM detects the position as
the switch is connected directly to the ECM.
If the ECM receives a P/N signal (due to a faulty switch
or wiring for example) whilst the vehicle is being driven,
the engine performance will be reduced. Monitor the
activity of the switch (“P/N POSI”) in Data Monitor to
confirm it’s correct operation.
17. A/C Control & Refrigerant Pressure
Switches
For A/C operation to occur, the dash mounted A/C switch
must be on (as well as cabin fan switch) and the High /
Low pressure switch mounted on the Receiver Drier unit
must be in a closed circuit condition.
The signal from the switches is sent to the Unified Meter
Control Unit (instrument cluster) & the ECM receives the
“A/C ON” request from the cluster via CAN. The ECM
then operates the A/C Compressor Relay.
18. Heat Switch
This feature continues from previous models. The switch
is used to increase the idle speed & to warm up the
engine at a faster rate for improved cabin heater
operation.
51
2007 Y61 Patrol ZD30-CRD.
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ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
19. Engine Oil Pressure Sensor
An Engine Oil Pressure Sensor is now utilised in place of
the Oil Pressure “High” switch utilised on the previous
Engine.
The signal from the pressure sensor is sent directly to
the ECM. If the ECM detects that the Oil Pressure has
fallen below a certain value for given conditions, a signal
is sent from the ECM to the Instrument Cluster via CAN.
The Instrument Cluster will then illuminate the Oil
Pressure warning light (Red Oil Can).
A standard Oil Pressure “Low” switch continues to be
used as well. It is located adjacent to the Oil Filter & it’s
connected directly to the instrument cluster only. It
illuminates the “Red Oil Can” in the conventional
manner.
Refer to section EL of this Training Manual for further
discussion on the operation of the Engine Oil Pressure
warning light.
Engine Oil Pressure Warning Light Operation
If the ECM detects the below conditions, it sends a signal
to the Instrument Cluster via CAN.
After the ECM has detected the following conditions for
MORE than 5 seconds;
a) Engine rpm: 3600 – 4200rpm
b) Coolant temp: Less than 95 deg C
c) Oil pressure: Less than 2.5 BAR (Oil pressure
sensor voltage less than 2V approx.)
The “RED OIL CAN” warning light on the instrument
cluster is illuminated by the Unified Meter Control Unit
(instrument cluster) after it receives a request from the
ECM via CAN to illuminate the light.
Engine Oil Pressure Inspection
If there is any doubt over the Oil Pressure in the Engine,
the Engine Oil Pressure Sensor located above the
Starter Motor should be removed & a Known Good Oil
Pressure Gauge should be installed.
With the engine running at various speeds, the Oil
Pressure should be observed & the results written down.
Note;
DO NOT TAKE THE ENGINE OIL PRESSURE
READINGS FROM THE OIL PRESSURE SWITCH
LOCATION.
The Oil Pressure SWITCH is located adjacent to the Oil
Filter.
52
1; Oil Pressure Sensor
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Inputs to ECM
20. EGR Volume Control Valve Position
Sensor
The ECM can monitor the movement of the EGR Valve
via a feedback sensor installed on the EGR Volume
Control Valve assembly. The ECM regulates electrical
current to the valve to either open or close it. The ECM
waits for a feedback signal from the position sensor
mounted on the valve assembly to observe the Valves
new position.
The basic operation of the EGR Volume Control Valve is
similar to an Electric Throttle Control (ETC) assembly
commonly used on current petrol engines.
21. Throttle (valve) Position Sensor (TPS)
The TPS is mounted on the Electric Throttle Control
valve assembly . As described above, the sensor
monitors the position of the Throttle Valve & feeds the
information back to the ECM.
The basic operation of the Electric Throttle Control Valve
assembly is similar to an Electric Throttle Control Valve
assembly commonly used on current petrol engines.
The Electric Throttle Control Valve assembly is used for
smooth engine shut down only. It replaces to the vacuum
operated Intake Air Control Valve which was located on
top of the rocker cover of the pervious ZD30 engine. With
the engine running, this valves remains WIDE OPEN at
all times.
53
*1; Passage the main air flow travels after it
exits the Charge Air Cooler.
*2; Passage the exhaust gas travels.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Outputs from ECM
1. Fuel Metering Unit (MPROP) (BOSCH)
As already discussed earlier in this manual, the ECM
controls this valve in order to regulate the amount of fuel
that is allowed to be delivered (forced into) the Fuel Rail.
The Fuel Metering unit in principal works in a similar
manner to the Suction Control Valve (SCV) on the Denso
High Pressure Fuel pump fitted to R51 / D40 models with
the YD25 engine.
2. Fuel Injector (BOSCH)
Once again the Fuel Injector has been discussed earlier
in this manual. The operation of the Injector is in principle
the same as the operation of the Injector in a gasoline
engine. The ECU has complete control of when the
Injector is open, how long it is opened for & in turn the
amount of times the Injector is open & shut in 1 piston
cycle.
PLEASE OBSERVE THE SAFETY PRECAUTIONS
REGARDING THE HIGH VOLTAGE WHICH
OPERATES THE FUEL INJECTORS.
REFER TO STB GI 05-007 FOR MORE DETAIL.
3. Glow Relay
The ECM operates the Glow Relay in the same manner
as other electronically controlled diesel engine vehicles.
Once the relay is switched ON by the ECM, it feeds
power through to the Glow Plugs.
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Outputs from ECM
4. Electric Cooling Fan Relay
Whenever the A/C is operated regardless of the engine
or ambient temperature, the electric cooling fan located
behind the grill is operated. The ECM in actual fact
switches on a relay which in turn directs current to the
fan motor. If the engine temperature exceeds a predetermined level the electric fan is also operated with or
without the A/C switched on.
5. Air Conditioner Relay
The ECM has the final control over the A/C compressor
operation via control of a relay. The driver request for
A/C comes from the A/C Amplifier (Auto Temp Control
models) or the control panel switch (Manual Temp
Control models) on the dash. The signal is sent to the
instrument cluster. The signal is then sent from the
instrument cluster to the ECM via the CAN.
If conditions such as acceleration demand, excessive
engine temperature, excessive A/C system pressure or
lack of A/C system pressure (no gas) are NOT evident,
the ECM will operate the A/C relay which will direct
power to the A/C compressor clutch.
6. EGR Volume Control Valve
The EGR valve is an all new design for the ZD30 CRD
engine.
It simply works like a conventional Electric Throttle
Control (ETC) valve found on current Petrol engine
models.
The valve is operated via a simple 12V DC electric
motor. As the valve opens & closes, there is a sensor
following the movement of the valve. This sensor sends
a signal back to the ECM & therefore the ECM can see
what the position the valve is at for any given moment.
NOTE; If the EGR Valve is disconnected, removed &
refitted or replaced, YOU MUST carry out the following
operations;
- EGR Volume Control Valve Closed Position
Learning Value Clear
- EGR Volume Control Valve Closed Position
Learning
Please refer to section EC - Basic Service Procedure in
the Service Manual for more detail.
55
1; Cooling Fan Relay. 2; A/C Compressor Relay
3; Battery
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Outputs from ECM
7. TC Boost Control Solenoid Valve
Like the previous ZD30 engine on Y61 & the YD engine
in R51 & D40, the Turbo Charger is a Variable Nozzle
Turbo.
Vacuum is supplied to the actuator on the turbo. If a high
level of vacuum is applied, the actuator rod is forced to
lift which in turn allows for maximum boost.
If the vacuum supply is cut, the rod will then be forced to
drop with the assistance of spring pressure. The end
result is no turbo boost.
The Turbo Boost Control Solenoid Valve is designed to
allow vacuum to be applied or stop vacuum being
applied to the actuator. The ECM has the ability to
provide a partial vacuum situation for partial turbo
boosting as well. This is via an ON / OFF pulse being
applied to the solenoid by the ECM.
8. Electric Throttle Control Actuator
For the purpose of reducing engine shake during shut
down, an Electric Throttle Control Valve is fitted to the
inlet manifold. All air that exits the Charge Air Cooler
travels through this valve.
On the previous ZD engine an Intake Air Control Valve
was utilised for the exactly the same purpose. It was
vacuum operated via an ECM controlled solenoid & the
valve was located on top of the rocker cover.
The YD engine (non DPF engines only) in R51 & D40
models also have a vacuum operated Intake Air Control
Valve which serves the same purpose.
When the ignition switch is turned to the OFF position,
the ECM activates a DC motor which rotates a throttle
valve to block the intake air passage. This action, along
with fuel cut at the injectors will stall the engine in a
smooth manner.
The ECM is able to monitor the valves position via a
feedback sensor (TPS). The overall operation of the
motor is very much like the Electric Throttle Control
(ETC) valve fitted to current petrol engines. Obviously
the valve remains in a wide open condition until the ECM
activates the DC motor to close it.
56
2007 Y61 Patrol ZD30-CRD.
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ENGINE CONTROL SYSTEM - EC
ZD30DDTi Outputs from ECM
9. Malfunction Indicator Lamp (MIL)
(On Board Diagnosis)
The MIL is located on the Instrument cluster (Bottom left
below the Fuel Gauge). It illuminates in the typical
ORANGE colour & it indicates an engine system fault.
Use of CONSULT II is required to extract DTC(s).
There is a SEPARATE ORANGE WATER IN FUEL
(WIF) LIGHT adjacent to the MIL. This indicates that
WATER collected in the base of the FUEL FILTER. The
owner should cease engine operation IMMEDIATELY &
drain the water from the base of the Fuel Filter if the WIF
light illuminates whilst the engine is running.
NOTE;
A DTC will NOT be logged if there is a Water in Fuel
condition.
If BOTH the MIL & WIF lights are illuminated whilst the
engine is running, this is a coincidental situation.
(However, there is a chance that water has damaged
fuel system components if the water has not been
drained from the base of the fuel filter within a
reasonable period of time. Hence the MIL could
illuminate as a result of the water damage.)
Refer to section EL in the rear of this Training Manual for
further detail regarding the Water in Fuel Sensor &
Warning Light operation.
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Basic Service
1. Fuel Filter, Bleeding & Water Drain
The Fuel Filter design is an all new type introduced to
ZD30 CRD engine vehicles. R51 & D40 YD25 also utilise
the same design since mid 2006 production.
There is an in-line type primer pump which is operated
by hand & is located adjacent to the Filter assembly
There is a facility to drain water on the base of the unit.
If there is an excessive amount of water that collects in
the base of the Filter, a sensor activates a SEPARATE
ORANGE WARNING LIGHT (located next to the MIL) to
warn the driver of the water in fuel condition.
The filter & sensor is only available as 1 complete
assembly. The Filter must be replaced every 40,000km’s
or 2 years. It is ideal to replace it more frequently under
severe driving conditions.
Refer to section EC - Basic Service Procedure & section
MA of the Service Manual for more detail regarding the
servicing of the Fuel Filter.
Refer to section EL in the rear of this Training
Manual for more discussion on the “Water in
Fuel” warning light
2. EGR Volume Control Valve Closed
Position Learning Value Clear
If the following actions regarding the EGR valve have
been carried out;
- EGR volume control valve is removed
- EGR volume control valve is replaced
This operation using CONSULT II in WORK SUPPORT
must be carried out to ensure proper operation of the
EGR valve.
Please refer to section EC - Basic Service Procedure in
the Service Manual for more detail.
3. EGR Volume Control Valve Closed
Position Learning
If the following actions regarding the EGR valve have
been carried out;
- EGR volume control valve is removed.
- EGR volume control valve is replaced.
- ECM is replaced
This operation must be carried out to ensure proper
operation of the EGR valve.
This is much like the Accelerator Pedal & Throttle Valve
learning operation on Petrol engine models with Electric
Throttle. It is a simple matter of operating the ignition key
within set time periods.
Please refer to section EC - Basic Service Procedure in
the Service Manual for more detail.
58
This screen in CONSULT II is located by 1st
selecting ENGINE & then selecting WORK
SUPPORT.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Basic Service
4. Throttle Valve Closed Position Learning
Value Clear
Throttle valve closed position learning value should be
cleared after the following actions regarding the Electric
Throttle Control valve have occurred;
- Electric throttle control actuator is removed.
- Electric throttle control actuator is replaced.
Please refer to section EC - Basic Service Procedure in
the Service Manual for more detail.
5. Throttle Valve Closed Position Learning
Throttle Valve Closed Position Learning is an operation
to learn the fully closed position of the throttle valve by
monitoring the throttle position sensor output signal.
It must be performed each time any of the following
actions have occurred;
- Electric throttle control actuator is removed.
- Electric throttle control actuator is replaced.
- ECM is replaced.
This is much like the Accelerator Pedal & Throttle valve
learning operation on Petrol engine models with Electric
Throttle. It is a simple matter of operating the ignition key
within set time periods.
Please refer to section EC - Basic Service Procedure in
the Service Manual for more detail.
59
This screen in CONSULT II is located by 1st
selecting ENGINE & then selecting WORK
SUPPORT.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE CONTROL SYSTEM - EC
ZD30DDTi Basic Service
6. Injector Adjustment Value Registration
Each Injector will tend to have very slight differences between them with the amount of Fuel they deliver
when an electrical current is applied to them.
If the ECM was to apply exactly the same current to all 4 x injectors on the Engine, there will tend to be
slight differences in the amount of Fuel each Injector delivers.
Therefore once the Injector has been manufactured, a special resistance measurement is taken of the
Injector. This measurement is converted into a special code & then printed on the top of the Injector. This
code is entered into the ECM at the factory via a special scan tool.
However if during service, 1 or more than 1 of the injectors are replaced, the code of the failed injector
needs to be erased from the ECM & the code of the newly installed injector will need to be entered into the
ECM. This operation is can be carried out easily using CONSULT II.
If the ECM is replaced, the codes of the already existent Injectors need to be entered into the ECM.
CYL 1
CYL 2
CYL 3
CYL 4
60
Ensure the codes on
CONSULT II screen
match the code printed
on top of each Injector
2007 Y61 Patrol ZD30-CRD.
ZD30DDTi Engine Trouble Diagnosis
Nissan Australia September 2007
Basic Work Flow Chart
STEP 1
Check In
STEP 2
STEP 2a
Verify on the vehicle what the incident is & compare
to what is described by the Customer
Can’t Fault it?
STEP 3
Are there any Fault Codes (DTC’s)?
STEP 5a
STEP 4a
Yes
No
STEP 5b
STEP 4b
1. INFORM TechLine of the Incident.
Log a contact & give ALL the information
you have about the incident so far...
1. INFORM TechLine of the Incident.
Log a contact & give ALL the information
you have about the incident so far...
2. Refer to the page in section EC
of the Service Manual that is relevant to
the DTC recorded.
2. Refer to the CHECK LIST on the
following 4 pages.
3.Go to section EC of the Service Manual.
Carry out the “BASIC INSPECTION”
in the “TROUBLE DIAGNOSIS” section.
4. Refer to the “Symptoms Matrix Chart”.
It follows on from “BASIC INSPECTION”
STEP 6
PRIOR TO COMPLETION OF REPAIR AND HANDING BACK TO THE CUSTOMER
1. ONCE AGAIN ensure that ALL of the items listed under the heading CHECK LIST on the following 4 pages
are in PERFECT order.
2. ONCE AGAIN perform steps 1 ~ 13 of “BASIC INSPECTION” as per the instructions outlined in step 4b - 3.
Go to section EC of the Service Manual.
3. PLEASE UPDATE the TechLine contact
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ZD30DDTi Engine Trouble Diagnosis
Checklist - DON’T FORGET THE BASICS!!!
1. FUEL
(a) Is there sufficient QUANTITY of Fuel being delivered to the pump? Blocked Filter or Lines?
(b) Is there any AIR being sucked into the Fuel lines prior to the pump. Install a piece of clear fuel hose in
the line between the Pump & the Fuel Filter outlet & inspect for AERATED FUEL.
(c) Is there an acceptable QUALITY of Fuel being delivered to the Pump? Drain base of Filter & check for
contaminated Fuel + Dirt &/or Water. Check for PETROL as well.
## Take a sample of Fuel & store it in a clean – air tight – container for future reference ##
2. AIR
(a) Is there sufficient QUANTITY of Air being delivered to the Engine? Blocked Air Filter or Air Intake
system? Faulty Air Intake Control Valve? Air Leaks between MAFS & Engine?
(b) Is there an acceptable QUALITY of Air being delivered to the Engine? EGR valve stuck open? Refer to
“EGR FUNCTION” check in section EC of the Service Manual.
(c) Check that Exhaust System is not blocked
(d) Check the Turbo Unit. Refer to “TC SYSTEM” check in section EC of the Service Manual. Ensure there
is a sufficient vacuum supply coming from the engine driven vacuum pump. Also refer to “TURBO
CHARGER” checks in section EM of the Service Manual.
(e) Check the Engine COMPRESSION with a KNOWN GOOD compression gauge. WRITE down the
figures you measured. Follow the directions in section EM of the Service Manual.
(f) Check that the “Crankcase Ventilation System“ as per the information in section EC (“ENGINE
CONTROL SYSTEM”) of the Service Manual
3. Power & Earths (More detail 2 pages further on)
(a) Check the Battery. Is it serviceable. Does the condition improve with a jumper battery connected?
(b) Confirm the cranking speed (if no start). The engine should crank at a speed of at LEAST 160rpm. Use
“DATA MONITOR & view the CKPS in CONSULT II to verify the Engine Cranking Speed.
(c) Check ALL of the Earth points, Battery Terminals Fuses & Fusible links that relate to the ENGINE
SYSTEM. Carry out the “POWER SUPPLY AND GROUND CIRCUIT” checks in section EC of the Service
Manual.
4. Service, Other Work & Repairs History
• Is the Engine Oil Level OK? Too Full? Too Low?
• Is it Due / Overdue for a Service?
• Is the Engine Oil type correct? (Is it 10W 40 ACEA B3?) The wrong type of Engine Oil can cause Poor
Fuel Consumption / Lack of power issues. Thoroughly investigate the Service History.
• Is it fitted with NON GENUINE ACCESSORIES? Accessories which have been poorly / incorrectly fitted?
Particularly electrical ones?
62
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ZD30DDTi Engine Trouble Diagnosis
Checklist Continued
5. BASIC SERVICE ITEMS
(a) Perform the following 4 items;
- “EGR Volume Control Valve Closed Position Learning Value Clear”
- “EGR Volume Control Valve Closed Position Learning”
- “Throttle Valve Closed Position Learning Value Clear”
- “Throttle Valve Closed Position Learning”
These are outlined in section EC - “BASIC SERVICE” of the Service Manual.
(b) Check that the “Injector Adjustment Value Registration” has been correctly entered into the ECM as
outlined in section EC - “BASIC SERVICE” of the Service Manual.
6. ILLOGICAL INPUTS INTO THE ECM
(a) Whilst being driven as well as stationary, ensure that inputs such as “P/N Posi Sw” & “Brake Sw” are
input correctly. For a complete reference list, refer to section EC - “TROUBLE DIAGNOSIS – CONSULT II
Reference Value in Data Monitor Mode” of the Service Manual.
(b) If possible, drive the vehicle fitted with a “KNOWN GOOD” Mass Air Flow Sensor.
7. NATS
Are all of the Keys working? Is there a foreign Electronic device on the Key Ring Set? Are the keys genuine
parts? The RED LED on top of the dash pad (drivers side) will illuminate if there is a NATS related issue,
however this is NOT always the case.
8. BASIC ENGINE CONDITION
Is the Engine’s Static Timing OK? (Valve timing etc.) Timing Chains & associated drive components &
CKPS / CMPS indication devices OK? Excessive or Insufficient Valve Clearances? Also refer to Check Item
2 on the previous page.
9. KEEP TECHLINE INFORMED
KEEP TECHLINE INFORMED OF WHAT’S GOING ON. You should already have a contact raised, so
please keep it updated.
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ZD30DDTi Engine Trouble Diagnosis
Power & Earths
1. Battery
Ensure that the battery is in GOOD CONDITION. Is it
able to cope under load? Carry out a load test on it to
be sure.
Ensure the POS & NEG terminals are CLEAN & TIGHT.
Remove & inspect them closely to be sure.
Make sure the fusible links on the positive terminal are
not corroded.
2. Alternator
Is the Alternator outputting a decent charge? Operate
all electrical accessories to ensure the Alternator can
cope under a loaded condition. Ensure the connections
on the rear of the Alternator are Clean & Tight.
3. Starter Motor
Even though it may appear that the Starter is
functioning correctly, ensure that the main cables
connected to it are Clean & Tight.
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2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ZD30DDTi Engine Trouble Diagnosis
Power & Grounds (Cont’d…)
4. Engine Systems Ground
Ensure that ALL of the Ground Points shown right are in
GOOD CONDITION.
Ensure they are Clean & Tight.
Remember: The ECM outputs an EXTREMELY HIGH
CURRENT to operate the Injectors. Therefore a GOOD
GROUND connection is very important for reliable
engine operation.
Please Note:
There are NO actual Ground connections on the Engine
assembly. All Engine Grounds are connected to the
body in the 1 location shown right.
ENGINE, TRANSMISSION & BODY CONTROL
MODULE GROUNDS are located on the ECM Bracket
under the dash, on the drivers side – left of the Steering
Column.
SPECIAL NOTE REGARDING GROUND CONNECTIONS:
The body is NOT grounded to the chassis on any Y61 model.
Ensure it has an additional “Body to Chassis” Ground
connection if the vehicle has additional accessories
installed.
65
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
CREATING GRAPHS WITH CONSULT II
3.
1.
2.
4.
5.
1. Touch;
DATA MONITOR
7.
2. Touch;
SELECTION FROM MENU.
(Otherwise touch MAIN
SIGNALS and then START
for general items.)
3. Touch the items you
would like to view / record.
4. Touch PAGE DOWN to
see other items for selection.
Each selected item is
highlighted.
5. Then touch START
10.
12.
11.
8.
6.
6. Touch RECORD at the
desired moment.
7. The timer begins countdown to 0% from 100%
(not shown in pic)
Once count down to 0 is
complete, above screen is
automatically displayed.
8. Touch; DISPLAY
9.
9. Touch until “Print Graph” is displayed.
10. Touch items that require graphing.
11. Touch double arrow to reveal other
recorded items.
12. Touch “Print”. Printer will output
graphs as shown over page.
SETTING TO “MANU TRIG”
(This is required if there is a DTC logged & cannot be cleared. Otherwise CONSULT II will “AUTO” record)
1.
If a situation arises where a known
DTC will automatically trigger AUTO
RECORD, the machine can be set for
MANUAL RECORD regardless of DTC
or not.
1. Touch; SETTING
2. Touch; MANU TRIG.
3. (ONLY if required) Touch the double
arrows to slow down the time the
recording is taken.
66
2.
3.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE COLD START CRANKING TEST – Y61 ZD30 CRD M/T. (Engine Normal).
With Ign ON, “Record” touched on CONSULT II, then engine cranked, engine then stalled so it was re-cranked,
engine started & allowed to idle, then & engine raced twice.
CONSULT II Software used; AED06G
67
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ENGINE HOT START CRANKING TEST – Y61 ZD30 CRD M/T. (Engine Normal).
With Ign ON, “Record” touched on CONSULT II, then engine cranked, started & allowed to idle, then & engine
raced twice.
CONSULT II Software used; AED06G
68
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
DRIVE TEST – Y61 ZD30 CRD M/T. (Recorded over a period of 1 minute).
Engine already idling & already in 1st gear, “Record” touched on CONSULT II, then driven changing through all
gears (from 1st, then 2nd, 3rd & finally 4th) until vehicle speed reached 62km/h. Then slowed down changing
back gears & eventually brought to a stop.
NOTE: Engine was already at operating temperature. (Approximately 88 deg C)
160MPa = 1600BAR = 23,000PSi
CONSULT II Software used; AED06G
69
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ACCELERATOR, FUEL & EXHAUST SYSTEM - FE
ZD30DDTi CRD Fuel Filter
1. Layout
Refer to the picture shown right. This details the basic
configuration of the Filter in the vehicle
2. Fuel Recirculation System
On top of the Filter assembly, there is a device (Fuel
Recirculation Valve) designed to recirculate fuel back
into the filter after it returns from the Engine. Dependant
on the temperature, the fuel either re-enters the filter to
warm the fuel in the filter to stop the fuel freezing, or it
returns directly to the fuel tank.
3. Hand Primer Pump
If there is a need to prime the fuel system, simply
squeezing & releasing the hand pump bulb will perform
this operation in EXACTLY the same manner it did with
the previous hand pump design.
4. Filter Element
Refer to the picture shown right. This is the element cut
out from the steel canister & removed. Fuel enters the
canister & is taken from the external side of the filter
paper to the inside of the filter paper & then exits the
centrally located outlet of the Filter assembly to the
Engine (Fuel Pump).
If any water is in the Fuel it will collect in the base of the
steel canister.
5. Filter Housing
Refer to the picture shown right. This shows the inside of
the steel canister with the element removed. Using the
picture, it can be seen the where water is contained.
With reference to the picture above as well as this one, it
can be seen that there is a 2cm deep reserve for water.
NOTE: The Water in Fuel Sensor, Fuel Recirculation
Valve & the drain tap come complete with the fuel filter
assembly. They are NOT separate parts.
70
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Starting & Charging (ZD30)
1. Battery
A 12V – 70AH battery continues to be used in ZD30
engine vehicles.
2. Alternator
An HITACHI make Alternator is utilised on ZD30 engine
vehicles. It continues to be a 12V 90A capacity.
The one way clutch fitted to the Alternator on previous
models continues to be used. This is used to stop belt
squeak noise when the engine decelerates.
SST # KV10118200AU (Alternator clutch removal tool)
will be required to service the front pulley on these
alternators.
Refer to STB GI 04-007.
3. Starter Motor
An HITACHI make reduction gear type Starter Motor is
utilised on ZD30 engine vehicles.
71
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Power Distribution (ZD30)
1. Fuse Block J/B (Junction Block)
Main Fuses & Relays can be found in this location.
These are located in the cabin in the lower section of
the dash. Look to the RHS of the Steering Column. The
lower trim panel has been removed for the purpose of
photography.
2. Fuse & Fusible Link Box
Additional fuses are located in the engine bay behind
the battery.
3. Relay Box
Additional Relays are located in the engine bay next to
the battery as shown.
72
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Control Modules (ZD30 CRD)
1. ECM (Engine Control Module)
- Accessible with CONSULT II
The ECM is centrally located under the dash, drivers
side. It is mounted on a steel bracket adjacent to the
Heater / Cooler unit.
Main Power Supply Fuses are located in the Engine
Bay Fuse compartment near the battery & the Fuse Box
J/B in the dash.
The 2 main Ground connections attached to the bracket
are Grounds for the ECM, TCM & BCM.
2. TCM (Transmission Control Module)
- Accessible with CONSULT II
On A/T models only, the TCM is located in the Front
Passenger side footwell on the far left side. It is
required to remove the plastic kick panel for access.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash.
The 2 main Ground connections are attached to the
steel bracket for the ECM.
3. BCM (Body Control Module)
- Accessible with CONSULT II
The BCM serves ONLY to operate NATS. It does NOT
have ANY other functions for body control (such as
central locking for example) as it does in numerous
other current models.
Ignore all of the items seen in CONSULT II as they are
inoperative.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash.
The 2 main Ground connections are attached to the
steel bracket for the ECM.
73
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Control Modules (Cont’d…)
4. MRCU (Multi Remote Control Unit)
- NOT accessible with CONSULT II
The primary function for the MRCU is to receive the
signal from the Remote Fob & transfer the signal to the
Unified Meter Control Unit (forms part of the Instrument
Cluster) to operate the Door Lock Relay.
All of the Door Switches are connected to the MRCU,
however if a door is open, the Door Lock request signal
is still transferred over the Unified Meter Control Unit in
order to Lock the doors remotely – regardless of a
door open condition or not. (2006 ~ 2007 built
models with 1 piece key only).
Drivers should therefore NOT assume that the doors
are locked just because the sound of the locking is
heard & the indicators flash.
Previous models with a separate remote & key (1997
~ 2005 built models) would NOT lock the doors
remotely if there was a door open condition detected.
If the Door lock on the drivers door is turned manually,
the Doors will lock electrically regardless of any door
open condition or not.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash + a Fusible link in the engine bay.
The 2 main Ground connections are located behind the
instrument panel.
5. UMCU (Unified Meter Control Unit)
- NOT accessible with CONSULT II
The UMCU forms part of the Instrument cluster. It is
primarily responsible for the operation of the
Instruments & warning lights within the Instrument
cluster. It’s other functions include;
• It receives a request for Central Locking & operates
the Door Lock Relay for central locking control.
• Receives the Key Switch signal (key in ignition barrel
signal) & operates the warning chimes for Key in
ignition & H/Lights ON.
• Outputs A/C ON request & vehicle speed signal to the
CAN.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash.
The 2 main Ground connections are either located
behind the instrument panel & behind the drivers kick
panel.
74
To make the Ignition Keys fully functional, refer to
STB EL 06-008.
Programming the “Keyless Remote” component
of the key is a separate operation to programming
the “Immobiliser” component of the Key.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Control Modules (Cont’d…)
6. NATS Antenna Amplifier
- NOT (directly) accessible with CONSULT II
NATS is fully controlled via the BCM. However the BCM
must receive a signal from the chip in the ignition key so
it can allow the Engine to start. Therefore the NATS
Antenna Amplifier reads the chip in the Ignition Key
head & transfers the signal to the BCM.
Power & Ground is via the BCM.
On previous models, this unit was known as the NATS
IMMU & fully controlled NATS.
7. Power Window Main Switch
- NOT accessible with CONSULT II
The control of the Power Windows is housed within the
Main Switch assembly in the drivers door. The Drivers
window (only when in Auto Up mode) has a “Pinch
Detect” function and this is due to the CPU in the
Drivers Door Window Switch assembly processing
window operation information & activating the Anti
Pinch functionality where required.
Power Window functionality has NOT changed
since the introduction of the Series II model in 2000.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash + a Fusible link in the engine bay.
The 2 main Ground connections are located behind the
instrument panel.
Limit Switch Reset Procedure
If components are replaced in the door, a “Re-Learn”
procedure MUST be carried out.
Refer to section BT of the Supplement III Service
Manual for more detail. (“Front Door Limit Switch
Reset”)
The Reset button that must be pushed during this
process is shown right.
Simply remove the Window Switch assembly from the
door & the small black rubber button can be seen
underneath the plastic sealing film, at the very bottom
edge of the fibre board that supports the door trim.
View looking down into the recess in the drivers
door with the power window switch assembly
removed. There is NO NEED remove the whole
door trim to access the Limit Switch.
75
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Control Modules (Cont’d…)
8. Air Bag Diagnosis Sensor Unit
- Accessible with CONSULT II
The Air Bag Diagnosis Sensor unit Is entirely
responsible for all SRS functionality in the vehicle. This
includes Side Air Bags (where fitted) as well.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash.
The 2 main Ground connections are located behind the
instrument panel.
9. Sub (fuel) Tank Control Unit
- NOT accessible with CONSULT II
The Sub Tank Control Unit is entirely responsible for
the control of transferring Fuel from the Sub Tank to the
Main Tank once this operation has been requested by
the driver.
The unit will transfer a small amount of fuel over each
time the engine is started however. This is for a system
self check function only.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash.
The 2 main Ground connections are located in the rear
body work. Refer to section EL “Harness Layout /
Ground Distribution” for more detail
10. ABS Actuator & Control Unit
- Accessible with CONSULT II
The ABS Actuator & Control Unit is all in one assembly
& is located in the left rear of the engine bay.
Main Power Supply Fuses are located at the Fuse Box
J/B in the dash + Fusible links in the engine bay.
The main Ground connection is located in the engine
bay.
76
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Main Relays
1. Park Neutral Position Relay (A/T only)
This relay is responsible for supplying power to the
starter motor solenoid in order to crank the engine for
starting. The relay will close ONLY if the transmission
lever is in Park or Neutral.
It is located independently of the other nearby relays,
adjacent to the battery.
2. Glow Relay
This relay is located in the rear of the engine bay
between the inner guard & brake booster.
The relay is operated by the ECM & it directs current to
the 4 glow plugs on the engine.
3. Door Lock Relay (Central Locking)
This relay is located behind the facia panel just forward
of the 4x4 transfer case lever.
The relay is controlled by the Unified Meter Control Unit
in order to send power to all of the door lock solenoids
for central locking control.
4. Combination Flasher Unit
The Flasher unit is located in the lower section of the
dash & to the left of the steering column.
77
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
ZD30 CRD Controller Area Network
(CAN)
All ZD30 CRD engine models now utilise a CAN system
in order to simplify the sharing of signals between each
module in the vehicle.
WHAT TO DO WHEN A CAN U1000 / U 1001 DTC IS
LOGGED;
1. There is a VERY HIGH likelihood that after market
accessories which have been poorly installed have
caused the fault. Isolate them, clear the codes & reinspect.
2. It’s possible that accessories have been installed &
they have been grounded to the chassis. Ensure
chassis has been grounded to the body properly if such
accessories have been fitted.
3. Individually ensure all of the modules have got
decent Power & Ground supply.
HINT: The ECM, TCM & BCM ALL SHARE the same
ground connection. Therefore once the Ground is
checked, ensure power supply is OK for each unit. Start
with inspection of the fuses.
Vehicle Ground
Body to Chassis Ground Connection
The body is NOT grounded to the chassis on any Y61
model. Ensure it has an additional “Body to Chassis”
Ground connection if the vehicle has additional
accessories installed.
I.E; DO NOT Ground accessories such as driving lights
to the chassis unless a ground strap such as the one
shown right has been installed.
78
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
NATS (Nissan Anti Theft System)
The NATS on Y61 Patrol ZD30 CRD variants is a V5.0B BCM controlled system. The system is basically
the same as that found on D40 Navara ST-X, R51 Pathfinder, C11 Tiida, Z33 350Z, Z50 Murano & J31
Maxima.
Refer to the following documents for more information on the Servicing of NATS (replacing / adding keys
etc.)
1. The NATS Software Operation Manual.
(Publication # OP5E 0NATA1) This publication was
issued to all Nissan Dealer Service Managers in June
2005. Contact TechLine if you don’t have this
Extremely Important document.
2. The NATS Application Chart.
(Example shown right). This is located on iNISCOM.
Look on the Service Homepage under “NATS”. It’s just
below where Tech Bulletins are found.
Contact TechLine if you are unsure of how to locate this
VERY IMPORTANT CHART.
The chart shown right simply prints out onto an A4
sheet of paper.
SAMPLE
ONLY
Y61 Variants with V5.0A Fixed PIN;
• All TB48 engine variants
• All (non CRD) ZD30 variants (2000 ~ 2006 build)
Y61 Variants with V5.0B Random PIN;
• All ZD30 CRD variants (2007 build)
Y61 Variants that do NOT require a PIN;
• All RD28, TB45 & TD42 variants
79
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Instrument Cluster Warning Lights
1. Low Oil Pressure Warning System
The Oil Pressure warning light on the instrument cluster
can be illuminated for 2 different reasons as follows;
1. With an Ignition ON condition, (engine running or not
running), the conventional Oil Pressure SWITCH has
grounded which in turn illuminates the light.
Typically this occurs normally if the Ignition is ON but
engine not running as there is no Engine Oil pressure,
therefore the Oil Pressure Switch will connect to
ground. Once the engine is started the Oil Pressure
Switch will open circuit due to the Oil Pressure acting
on the switch.
2. A signal is sent from the ECM to the Instrument
cluster via CAN after the ECM has detected the
following conditions for MORE than 5 seconds;
a) Engine rpm: 3600 – 4200rpm
b) Coolant temp: Less than 95 deg C
c) Oil pressure: 2.5 BAR or less (Oil pressure sensor
voltage less than 2V approx.)
80
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
Instrument Cluster Warning Lights
2. Water in Fuel Warning System
There is now a separate light to warn the driver of a
“Water in Fuel” condition. In previous models the MIL
was illuminated to warn the driver of the same
condition.
There is a sensor assembly in the base of the Fuel
Filter which triggers the light once a set amount of water
has collected in the base of the Filter.
Water in Fuel Sensor Operation
The sensor measures the electrical conductivity of the
liquid it is immersed in.
The sensing element (2 x probes) is approximately 2cm
up from the bottom of the fuel filter and provided the
filter is full of diesel, (as it normally should be) the
resistance across the 2 sensor terminals is measured
through the liquid (diesel fuel in this case). The value
measured will be the default resistance value of diesel
fuel. (Conductivity of diesel).
As water gets into the fuel system, its specific gravity is
greater than diesel, causing the water to settle in the
bottom of the filter. Once 2cm (approx) of water has
settled at the bottom of the filter, the conductivity of
water is different to diesel, this in turn triggers the water
in fuel warning to be activated.
With the ignition ON, power is fed to the sensor unit
(terminal 3) in the base of the filter. The sensor unit
requires it’s own power supply to operate.
Terminal 2 is connected to the Ground side of the globe
in the instrument cluster. If this wire is grounded, the
globe will illuminate.
Terminal 1 is permanently connected to Ground.
If there is enough water to short the sensor probes
inside the filter, (see pic over page) the sensor unit
detects this condition & then grounds terminal 2.
In a normal condition, the filter base should ONLY
contain diesel fuel, therefore this is not able to short the
terminals. Water can conduct electricity (diesel cant)
therefore a Water in Fuel condition is detectable.
Refer to page 70 of this Training Manual for more detail
about the Fuel Filter assembly.
81
Filter & Sensor are 1 complete assembly.
They are NOT separate parts.
2007 Y61 Patrol ZD30-CRD.
Nissan Australia September 2007
ELECTRICAL SYSTEM - EL
(i) Water in Fuel Warning Light ON Condition
Refer to the picture shown right. This shows the amount
of water necessary (approximately 2cm deep) to create a
short between the 2 probes centrally located in the base
of the filter housing. This short will trigger the illumination
of the Water in Fuel warning light in the instrument
cluster.
(ii) Water in Fuel Warning Light OFF Condition
This picture shown right shows the amount of water
remaining AFTER the drain tap has been opened & all
possible water has drained out. (Filter remained level)
NOTE:
When draining water from the filter, it is STRONGLY
ADVISED to remove the filter from the bracket & turn the
filter onto its side to ensure that the maximum amount of
water can be drained out.
82