2001 SUZUKI GRAND VITARA check engine

6-1-122 ENGINE GENERAL INFORMATION AND DIAGNOSIS (H27 ENGINE)
3 Check IAC valve referring to “IAC VALVE
INSPECTION” in Section 6E2.
Is check result as specified?Go to Step 4. IAC valve malfunction, “BLU/
BLK”, “LT GRN/BLK”, “PPL/
BLK”, “GRY/BLU” or “PPL/
YEL” wire open or short or
poor coupler connection.
If all above are OK, substi-
tute a known-good ECM
(PCM) and recheck.
4 Was idle speed within specification in
Step 1?Check for following :
FIA valve, Vacuum leaks, air inhal-
ing, EVAP canister purge control
system, accessory engine load,
stuck of PCV valve, clog of idle air
passage, MAF sensor, TP sensor,
ECT sensor, EGR valve malfunc-
tion (leakage from valve seat), A/C
signal, transmission range switch
signal and power steering switch
signal.Go to Step 5.
5 Was idle speed higher than specification
in Step 1?Go to Step 6. Go to Step 8.
6 Check A/C (input) signal circuit referring
to Step 1 of “Table B-5”. (A/C signal can
be also checked by using SUZUKI scan
tool.)
Is it in good condition?Go to Step 7. A/C signal circuit open or
short, or A/C system mal-
function.
7 Was IAC duty less than about 2% in Step
1 of this table?
Check FIA valve.
Check abnormal air inhaling from
intake manifold, throttle body, PCV
valve and EVAP canister purge
control system.Check TP sensor (closed
throttle position) and ECT
sensor for performance.
If sensors are OK, substitute
a known-good ECM (PCM)
and recheck.
8 Check transmission range switch signal
referring to “INSPECTION OF ECM
(PCM) AND ITS CIRCUIT” in this section.
Is check result satisfactory?Go to Step 9. Transmission range switch
malfunction or its circuits
open or short.
9 Was IAC duty more than about 30% in
Step 1 of this table?Check parts or system which can
cause engine low idle.
Check FIA valve.
Air inhaling from between throttle
body and MAF sensor, EGR valve
malfunction (leakage from valve
seat), accessory engine load, clog
of idle air passage and etc.Substitute a known-good
ECM (PCM) and recheck. Step Action Yes No

ENGINE GENERAL INFORMATION AND DIAGNOSIS (H27 ENGINE) 6-1-123
Table B-5 A/C Signal Circuits Inspection (If Equipped)
WIRING DIAGRAM
INSPECTION
1. A/C control module (amplifier)
2. ECM (PCM)
Step Action Yes No
1 Check A/C Signal Circuit.
1) Check voltage at terminal E61-17 with ignition
switch ON.
A/C signal circuit specification :
A/C switch and/or heater blower switch OFF (A/
C is not operating) : 10 – 14 V
Both A/C switch and heater blower switch ON :
0 – 1.5 V
Are check result as specified?Go to Step 2.“YEL/BLK” circuit open or
short, Evaporative tem-
perature is below 1°C
(34°F) or faulty A/C sys-
tem.
2 Check A/C Cut Signal Circuit.
1) Check voltage at terminal E61-8.
A/C cut signal specification :
While engine running and A/C switch and/or
heater blower switch OFF
(A/C is not operating) : 0 – 1.5 V
While engine running at idle speed and both A/
C switch and heater blower switch ON
(A/C is operating) : 10 – 14 V
Are check result as specified?A/C control signal cir-
cuits are in good con-
dition.“GRY/WHT” circuit open
or short, Poor perfor-
mance of ECT sensor, TP
sensor, Engine start sig-
nal inputted or A/C ampli-
fier malfunction.
If none of the above
exists, substitute a
known-good ECM (PCM)
and recheck.

6-1-124 ENGINE GENERAL INFORMATION AND DIAGNOSIS (H27 ENGINE)
Table B-6 A/C Condenser Fan Motor Relay Control System Inspection (If
Equipped)
WIRING DIAGRAM
INSPECTION
1. To ignition switch 3. A/C fuse 5. A/C condenser fan motor
2. Main fuse 4. A/C condenser fan motor relay 6. ECM (PCM)
WARNING:
Keep hands, tools, and clothing away from A/C condenser fan to help prevent personal injury. This
fan is electric and can come on whether or not the engine is running. The fan can start automatically
in response to the ECT sensor with the ignition switch in the “ON” position.
Step Action Yes No
1 1) Check DTC referring to “DTC CHECK” in this sec-
tion.
Is there any malfunction DTC?Go to applicable DTC
Diag. Flow Table.Go to Step 2.
2 1) Check A/C condenser fan for operation.
A/C condenser fan should be operated under follow-
ing condition A or B only.
A : When engine is running and A/C is operating.
B : When engine coolant temp. is 113°C (235°F) or
more with ignition switch ON.
Is check result as specified?This system is in
good condition.Go to Step 3.
3 1) Remove ECM (PCM) cover.
2) Check voltage between E61-22 terminal of ECM
(PCM) connected coupler and ground.
Other than conditions A and B in Step 2 :
10 – 14 V
Under condition A or B in Step 2 :
0 – 1 V
Is check result as specified?Fuse blown, “RED”,
“RED/BLK” or “RED/
BLU” circuit open,
malfunction of con-
denser fan motor or
relay.“YEL/GRN” circuit
open, “YEL/BLU” cir-
cuit open or short, or
relay malfunction.
If above are OK, sub-
stitute a known-good
ECM (PCM) and
recheck.

ENGINE GENERAL INFORMATION AND DIAGNOSIS (H27 ENGINE) 6-1-125
Special Tool
09912-58441 09912-58431 09912-58490 09912-58421
Pressure gauge Pressure hose 3-way joint & hose Checking tool set
(See NOTE “A”.)
09917-47011 09930-88521 09931-76011
Vacuum pump gauge Injector test lead Tech 1A kit (SUZUKI scan
tool) (See NOTE “B”.)Mass storage cartridge for
Tech 1A
09931-76030
14/16 pin DLC cable for
Tech 1ATech 2 kit (SUZUKI scan
tool) (See NOTE “C”.)
NOTE:
“A”: This kit includes the following items.
1. Tool body & washer, 2. Body plug, 3. Body attachment-1, 4. Holder,
5. Return hose & clamp, 6. Body attachment-2 & washer, 7. Hose attachment-1,
8. Hose attachment-2
“B”: This kit includes the following items and substitutes for the Tech 2 kit.
1. Storage case, 2. Operator’s manual, 3. Tech 1A, 4. DLC cable,
5. Test lead/probe, 6. Power source cable, 7. DLC cable adaptor, 8. Self-test adaptor
“C”: This kit includes the following items and substitutes for the Tech 1A kit.
1. Tech 2, 2. PCMCIA card, 3. DLC cable, 4. SAE 16/19 adapter, 5. Cigarette cable, 6. DLC loopback
adapter, 7. Battery power cable, 8. RS232 cable, 9. RS232 adapter, 10. RS232 loopback connector,
11. Storage case, 12. Power supply

6A2-8 ENGINE MECHANICAL (H27 ENGINE)
16) Connect water hoses (3) to throttle body.
17) Connect accelerator cable (1) and A/T throttle cable (2) (for
A/T vehicle) to throttle body.
18) Install surge tank pipe (2) to intake manifold with new gas-
kets and intake air pipe (1) to throttle body.
19) Install surge tank cover (1).
20) Install air cleaner upper case.
21) Connect coupler to intake air temp. sensor and MAF sensor.
22) Install strut tower bar (1).
23) Check to ensure that all removed parts are back in place.
Reinstall any necessary parts which have not been rein-
stalled.
24) Refill cooling system referring to “COOLING SYSTEM
FLUSH AND REFILL” in Section 6B.
25) Connect negative cable at battery.
12
33
1
2
1

6A2-12 ENGINE MECHANICAL (H27 ENGINE)
7) Reverse removal procedure to install front propeller shaft if
removed.
When installing propeller shaft, align match mark (1).
Use following specification to torque universal joint flange.
Tightening torque
Universal joint flange bolt (c) :
55 N·m (5.5 kg-m, 40.0 lb-ft)
8) Connect EGR pipe to left (No.1) bank exhaust manifold (1).
9) Install exhaust manifold covers (2).
10) Install oil level gauge guide (3) using new O-ring.
11) Install P/S pump assembly (4) if it was removed. Refer to
“POWER STEERING PUMP” in Section 3B1.
12) Adjust P/S pump drive belt tension, refer to “POWER
STEERING BELT CHECK AND ADJUSTMENT” in Section
3B1.
13) Connect oxygen sensor lead wire couplers.
Be sure to clamp its lead wires.
14) Connect negative (–) cable to battery.
Upon completion of installation, start engine and check that
no exhaust gas leakage exists.
1
4
32
1. HO2S-1 (Green connector)
2. HO2S-2 (Black connector)

ENGINE MECHANICAL (H27 ENGINE) 6A2-15
INSPECTION
Cam wear
Using a micrometer, measure cam height. If measured height is
below its limit, replace camshaft.
Intake cam height :
Standard : 40.402 – 40.562 mm (1.5906 – 1.5969 in.)
Limit : 40.300 mm (1.3581 in.)
Exhaust cam height :
Standard : 39.428 – 39.588 mm (1.5523 – 1.586 in.)
Limit : 39.400 mm (1.5512 in.)
Camshaft runout
Set camshaft between two “V” blocks, and measure its runout by
using a dial gauge.
If measured runout exceeds below specified limit, replace cam-
shaft.
Camshaft runout limit :
0.04 mm (0.002 in.)
Camshaft journal wear
Check camshaft journals and camshaft housings for pitting,
scratches, wear or damage.
If any malcondition is found, replace camshaft or cylinder head
with housing. Never replace cylinder head without replacing hous-
ings.
Check clearance by using gaging plastic. The procedure is as fol-
lows.
1) Clean housings and camshaft journals.
2) Make sure that all valve lash adjusters are removed and
install camshaft to cylinder head.
3) Place a piece of gaging plastic the full width of journal of
camshaft (parallel to camshaft).
4) Install camshaft housing.
5) Tighten camshaft housing bolts in such order ([A] : “1” →
“17”, [B] : “1” → “19”) as shown in the figure a little at a time
till they are tightened to specified torque.
NOTE:
Do not rotate camshaft while gaging plastic is installed.
[A] : RH bank
[B] : LH bank

6A2-16 ENGINE MECHANICAL (H27 ENGINE)
6) Remove housing, and using scale (2) on gaging plastic (1)
envelop, measure gaging plastic (1) width at its widest point.
Camshaft journal clearance :
Standard : 0.045 – 0.099 mm (0.0018 – 0.0039 in.)
Limit : 0.12 mm (0.0047 in.)
If measured camshaft journal clearance exceeds limit, measure
journal (housing) bore and outside diameter of camshaft journal.
Replace camshaft or cylinder head assembly whichever the differ-
ence from specification is greater.
Camshaft journal bore dia. (IN & EX) :
Standard : 26.000 – 26.033 mm (1.0236 – 1.0249 in.)
Camshaft journal O.D. (IN & EX) :
Standard : 25.934 – 25.955 mm (1.0210 – 1.0218 in.)
Wear of hydraulic valve lash adjuster
Check adjuster for pitting, scratches, or damage.
If any malcondition is found, replace.
Measure cylinder head bore and adjuster outside diameter to
determine cylinder head-to-adjuster clearance. If clearance
exceeds limit, replace adjuster or cylinder head.
Hydraulic valve lash adjuster O.D. :
Standard : 30.959 – 30.975 mm (1.2188 – 1.2194 in.)
Cylinder head bore :
Standard : 31.000 – 31.025 mm (1.2205 – 1.2214 in.)
Cylinder head to adjuster clearance :
Standard : 0.025 – 0.066 mm (0.0010 – 0.0025 in.)
Limit : 0.15 mm (0.0059 in.)