1994 MAZDA MX-5 engine

P BRAKE SYSTEM k FIRST PEDAL VACUUM GAUG DEPRESSION FORCE GAUGE POWER BRAKE UNIT Quick Inspection, On-vehicle Power brake unit function check (Simple method) ii Step 1 1. With the engine stopped, depress the pedal a few times. 2. With the pedal depressed, start the engine. 3. If immediately after the engine starts the pedal moves down slightly, the unit is operating. Step 2 1. Start the engine and let it run 1 or 2 minutes. 2. Stop the engine. 3. Depress the pedal with the usual force. 4. If the first pedal stroke is long and becomes shorter with subsequent strokes, the unit is operating. 5. If a problem is found, inspect for damage or improper connection of the check valve or vacuum hose. Repair if necessary, and inspect it once again. Step 3 1. Start the engine. 2. Depress the pedal with the usual force. 3. Stop the engine with the pedal depressed. 4. Hold the pedal down for about 30 seconds. 5. If the pedal height does not change, the unit is operating. ,, 6. If there is a problem, check for damage or improper con- nection of the check valve or vacuum hose. Repair if necessary, and check once again. If the nature of the problem is still not clear after following the 3 steps above, follow the more detailed check described in "Method using tester," below. (Method using tester) Connect the SST, vacuum gauge, and pedal depression force gauge as shown in the figure. After bleeding the air from the SST, conduct the test as described in the 3 steps below. Inspection using gauges Connect the SST gauges, a vacuum gauge (A), and a pedal depression gauge (B) as shown. Bleed the air from the SST gauges before performing the following tests. a) Checking for vacuum loss Unloaded condition 1. Start the engine. 2. Stop the engine when the vacuum gauge indicates 66.7 kPa (500 mmHg, 19.7 inHg). 3. Observe the vacuum gauge for 15 seconds. If the gauge indicates 63.4-66.6 kPa (475-500 mmHg, ,, 18.7-19.7 inHg), the unit is operating. Gartner Banana

BRAKE SYSTEM P (20 kgf, 44 Ibf) (20 kgf, 44 Ibf) Loaded condition 1. Start the engine. 2. Depress the brake pedal with a force of 196 N (20 kgf, 44 Ibf). 3. With the brake pedal depressed, stop the engine when the vacuum gauge indicates 66.7 kPa I500 mmHg, 19.7 inHg). 4. Observe the vacuum gauge for 15 seconds. If the gauge indicates 63.4-66.6 kPa (475--500 mmHg, 18.7-19.7 inHg), the unit is operating. b) Checking for hydraulic pressure 1. If with the engine stopped (vacuum 0 kPa (0 mmHg, 0 inHg}) the fluid pressure is within specification, the unit is operating. 1 Pedal force Fluid pressure 2. Start the engine. Depress the brake pedal when the vac- uum reaches 66.7 kPa (500 mmHg, 19.7 inHg). If the fluid pressure is within specification, the unit is operat- ing. 1 96 N {20 kgf, 44 Ibf) I Pedal force I Fluid pressure I 1,079-1,177 kPa {I 1-1 2 kgf/cm2, 156-1 71 psi) lnspection of Check Valve 196 N {20 kgf, 44 Ibf) Note There is an arrow on the hose to indicate direction of hose installation. 5,199--5,494 kPa {53-56 kgf/cm2, 754--796 psi} lnspection 1. Disconnect both ends of the vacuum hose. 2. Apply suction and pressure to the hose from the engine side. Verify that air flows only toward the engine. If air passes in both directions or not at all, replace the vac- uum hose (along with the check valve). Gartner Banana

P ANTILOCK BRAKE SYSTEM (ABS) Troubleshooting procedure 2. ALTEnuAtOR TEST START mtmE (ALTWJATOR TESTED BY RWNa ENQlNE) 3. A88 SYSTEM TEST TURN IGNITION K€Y ON (00 NOT ROES EWWE) - - 1. LOCATE ABS CONTROL UNIT. 2. DISCONNECT CONTROL UNlT HARNESS CONNECTOR FROM CONTROL UNIT. 3. CONNECT ABS TESTER HARNESS TO CONTROL UNlT HARNESS CON- NECTOR. 4. TURN IGNITION KEY TO ON POSITION. TESTER WlLL RAPIDLY DISPLAY SEVERAL MESSAGES DURING AN INITIAL SEGMENT CHECK I THEN 1 I MAZDA ABS 2 TEST 1 4 I YES ENG RUN? NO 1 I MAZDA ALT TEST I CHK ALTERNATOR NO FAULT DETECTED t I TURN OFF ENGINE I TESTER WlLL RAPIDLY DISPLAY SEVERAL MESSAGES DURING AN INITIAL SEGMENT CHECK. I THEN t 1 YES ENG RUN? NO t 1 MAZDA ABS 2 TEST I Gartner Banana

Q OUTLINE, TROUBLESHOOTING GUIDE OUTLINE Wheels SPECIFICATIONS Tires -2 TROUBLESHOOTING GUIDE Temporary spare 14x4T - - TY Pe Item Size Offset mm {in) Pitch circle diameter mm {in) Material Size Air pressure kPa {kgf/cm2, psi} Standard 14x5 112-JJ 45 11.77) 1 00 (3.94) Aluminum Alloy 185160R14 82H 177 {I .8, 26) Page Excessive or irregu- tar tire wear Premature tire wear Tire squeal body vibration I Unbalanced wheel@) 1 Adjust I Q-5 Steel T1 l5/7ODl4 41 2 {4.2,60) Action Problem 1 Tre deterioration 1 Replace I - I Deformed wheel(s) or tire(s) I Repair or replace I - Possible Cause Refer to page Q-4 for details. Road noise or I Insufficient tire pressure [ Adjust Incorrect tire pressure ( Adjust Incorrect tire pressure 1 Adjust Q-3 Q-3 0-3 Shake [Steering wheel "Ibrates Excessive tire and wheel runout Loose lug nuts Unbalanced wheel(s) Insufficient tire pressure Unevenly worn tires Malfunction of shock absorber Loose shock absorber mounting bolts Stuck or damaged lower arm ball joint Cracked or worn suspension bushings Shimmy (Steering wheel vibrates lefiIright) Replace Tighten Adjust or replace Adjust Replace Replace Tighten Replace Replace Irregular tire wear Excessive tire and wheel runout Loose lug nuts Unbalanced wheel(s) - Q4 Q-5 Q-3 - section R section R section R section R Cracked or worn engine mount Cracked or worn steering gear mount Loose steering gear mounting bolts Stuck or damaged steering ball joint I Damaged or worn front wheel bearing ( Replace ( section M Replace Replace Tighten Adjust or replace I Improperly adjusted front wheel alignment 1 Adjust I section R Uneven (one-sided) I Unequal tire pressures 1 Adjust 1 Q-3 - - Q-4 Q-5 Replace Replace Tighten Replace section B section N section N section N braking Steering wheel I Incorrect tire pressure 1 Adjust doesn't return properly or pulls to either left or right . General driving Instability Excessive steering (2-3 wheel play Irregular tire wear (lefthight) Unequal tire pressures Different types or brands of tires mixed (leftlright) Loose lug nuts Unequal tire pressures Damaged or unbalanced wheel(s) Loose lug nuts Loose lug nuts I 15UOQX-00 Replace Adjust Replace Tighten Adjust Replace or adjust Tighten Tighten - Q-3 - Q-4 Q-3 Q-5 Q-4 Q-4 Gartner Banana

OUTLINE OUTLINE SPECIFICATIONS Front Suspension - Transmission item (Stabilizer Specifications MT I AT - I Susoension tvoe I . , . , I . , Shock absorber Cylindrical double acting, low-pressure-gas charged I Double-wishbone TY pe Torsion bar Coil spring I - Diameter mm linl I 20.0 10.79) Identification mark color 19.0 (0.75) White Wire diameter mm (in) Coil inner diameter mm {in) I Blue Free length mm {in) Coil number 11 .O (0.43) 83 i3.27) 11 .O (0.43) 83 (3.27) 292.5 (1 1 32) 6.32 3 +. 3 (0.12 + 0.12) 0°18' + 18' Total toe-in I - I 35UORX-001 Rear Suspension 302.0 (1 1.89) 6.32 mm {in) degree Total toe-in (per side) 1 degree Front wheel alignment (Unladedt1) 0°09' +. 09' Caster anglee3 4"26' +. 45' Kingpin angle 11 "20' Maximum steering angle Transmission Specifications MT I AT Item Differential - Suspension type Inner Outer "TORSEN" LSD 1 Standard Double-wishbone Coil springs 370 23' a 2" 32" 32' -t 2" Camber anglee2 Torsion bar 12.0 (0.47) 1 11.0 (0.43) 1 11 .O (0.43) Cylindrical double acting, low-pressure-gas charged - Stabilizer Identification mark color Wire diameter mm {in) 0°24' + 45' Type Diameter mm {in) I Coil number I 7.68 I 7.96 I Shock absorber Yellow 10.1 {0.40} Coil inner diameter mm {in) Free length mm {in) Green 10.2 {0.40) 35UORX-002 *I Fuel tank full; radiator coolant and engine oil at specified levels; spare tire, jack, and tools in designated positions. '2 Difference between left and right must not exceed I O. '3 Difference between left and right must not exceed 1'30'. "TORSEN" is a registered trademark of ZEXEL-GLEASON USA.INC 83 I3.27) 348.5 j13.72) Rear wheel alignment (Unladed*') 83 (3.27) 356.5 (1 4.04) Total toe-in Total toe-in (per side) mm (in) degree degree 3 -c 3 (0.12 + 0.121 0°18' + 18' 0°09' + 09' Camber angle*2 -0°43' 2 30' Gartner Banana

TROUBLESHOOTING GUIDE TROUBLESHOOTING GUIDE Problem General instabllity Body "rolls" "Heavy" steering wheel operation Steering wheel pulls to one side Excessive steering wheel play Body leans Abnormal noise from suspension system Shake (Steering wheel tibrates upldown) Shimmy (Steering wheel vibrates leftlright) Possible cause Weak coil spring Malfunction of shock absorber Worn or damaged stabilizer and/or suspension arm bushings Worn or damaged upper or lower arm ball joint Improperly adjusted wheel alignment Weak stabilizer Worn or damaged stabilizer and/or suspension arm bushings Insufficiently lubricated or stuck upper arm lower arm ball joint lmproperly adjusted wheel alignment Weak coil spring Worn or damaged stabilizer and/or suspension arm bushings Deformed upper or lower arm or knuckle Loose upper or lower arm bushing Worn or damaged upper or lower arm bushing Worn or damaged upper or lower arm ball joint Weak coil spring Weak stabilizer andlor suspension arm bushings Loose mounting component Poorly lubricated or worn upper or lower arm ball joint Malfunction of shock absorber Worn or damaged stabilizer and/or suspension arm bushings Excessive tire or wheel runout Loose lug nuts Unbalanced wheel@) Cracked or worn engine mounting rubber Cracked or worn steering gear mounting rubber Loose steering gear mounting bolts Stuck or damaged steering ball joint Excessive tire or wheel runout Loose lug nuts Unbalanced wheel(s) Insufficient tire pressure Unevenly worn tires Malfunction of shock absorber Loose shock absorber mounting bolts Stuck or damaged upper or lower arm ball joint Cracked or worn suspension bushings Damaged or worn front wheel bearing lmproperly adjusted front wheel alignment Action Replace Replace Replace Replace Adjust Replace Replace Replace Adjust Replace Replace Replace Replace Replace Replace Replace Replace Tighten Replace Replace Replace Replace Tighten Adjust or replace Replace Replace Tighten Replace Replace Tighten Adjust or replace Adjust Replace Replace Tighten Replace Replace Replace Adjust Page R-13 R-12,22 R-16, 18, 19, 23,24,25 section M R-15,17 R- 6 R-19,25 R-16, 18,19, 23, 24,25 section M R-15,17 R- 6 R-13 R-16, 18,19, 23, 24,25 R-15,17 section M R-16,18 R-16,18 R-15,17 R-13 R-16, 18, 19, 23,24,25 section M 7 R-15,17 R-l2,22 R-16, 18,19, 23,24,25 section M - section Q section Q section B section N section N section N - section Q section Q section Q section Q R-l2,22 R-12,22 R-15, 17 R-16,18,19 section M R- 6 15UORX-00 Gartner Banana

WHEEL ALIGNMENT WHEEL ALIGNMENT FRONT WHEEL ALIGNMENT Specifications (Unladed*l) PRE-INSPECTION 1. Check the tire inflations, and adjust to the recommended d pressure if necessary. 2. lnspect the front wheel bearing play and correct if neces- sary. 3. lnspect the wheel and tire runouts. 4. Inspect the ball joints and steering linkage for excessive looseness. 5. The vehicle must be on level ground and carry no lug- gage or passengers. 6. Measure the height from the center of the wheel to the fender brim. The difference between left and right mea- surement must not exceed 10mm (0.39 in), and the rear measurement must be larger then the front measure- ment by 10-30mm (0.4--1.1 in). Caution The proper caster and camber angle vary depend- ing on the vehicle height. Refer to the following and to page R-9 for the specifications. Inspection and adjustment of wheel alignment must be done with the vehicle unladed*'. . . I Y -- t~otal toe-in l~er side) I 1 dearee 0'09' + 09' I Total toe-in 3 2 3 I0.12 2 0.12) 0'1 8' 2 18' mm (in) dearee Maximum steering angle U - Inner Outer 11 '20' -0°20' 2 45' 0'03' ? 45' 0'24' 2 45' 0°44' -+ 45' 1'02' -+ 45' 5'1 6' ? 45' 5O02' -+ 45' 4O49' 2 45' 4'35' -+ 45' 4'21 ' -+ 45' I Kingpin angle 37"23' -+ 2" 32O32' 2 2" '1 Fuel tank full; radiator coolant and engine oil at specified levels; spare tire, jack, and tools in designated positions. OSUORX-009 ** Difference between left and right must not exceed lo. '3 Difference between left and right must not exeed 1'30'. 328-337 {I 2.9-1 3.3) 338-347 {I 3.3-1 3.7) 340-357 I13.7-14.1) 358-367 {I 4.1-14.4) 36&377 {I 4.4--14.8) 328-337 {I 2.9--13.3) 338-347 {I 3.3-1 3.7) 348-357 113.7-14.1) 358-367 {I 4.1-14.4) 368-377 {I 4.4--14.8) Camber angleg2 Caster angle*3 Height from center Of wheel to fender brim mm {in) Height from center Of wheel to fender brim mm (in) Gartner Banana

WHEEL ALIGNMENT REAR WHEEL ALIGNMENT Specifications (Unladed*) I Item I Specifications I L *' Fuel tank full; radiator coolant and engine oil at specified levels; spare tire, jack, and tools in designated positions. 05Uo~x-01~ *2 Difference between the leff and right must be exeed lo. 3 + 3 i0.12 * 0.12) 0'18' k18' 0'09' 2 09' -1 "08' +. 30' Total toe-in Total toe-in (per side) Camber angle'' LEFT WHEEL - mm {in) degree degree INCREASE I 1 346-355 (1 3.6-1 4.0) Height from center of wheel to fender brim'2 mm Iin) RIGHT WHEEL C INCREASE 356-3135 {14.0-14.4) 366-375 {I 4.4--14.8) 376-385 {I 4.8-1 5.2) 386--395 {I 5.2-1 5.6) LEFT WHEEL -C -0°54' r 30' -0'43' 2 30' -0°35' r 30' -0'30' +. 30' Toe-in Toe-in is adjusted by turning the front and/or rear adjust- ing cam bolts at the lower arm. Caution Adjust the toe-in before adjusting the camber. 1. Loosen the front and/or rear cam nuts. 2. Turn the front and/or rear adjusting cam bolts to provide the correct toe-in. I Counter- Counter- Decrease Clockwise Clockwise clockwise clockwise Toe-in Note Turning the front cam one graduation changes the toe-in about 2.8mm (0.11 in} and the camber about 15'. Turning the rear cam one graduation changes the toe-in about 2.8mm I0.11 in} and the camber about 6'. 3. 'Adjust the camber. Left wheel Camber Camber is adjusted by turning the front and rear cams at the lower arm. Right wheel Caution Adjust the camber after adjusting the toe-in. Front cam I Rear cam I Front cam I Rear cam 1. Loosen the front and rear cam nuts. 2. Turn the front and rear adjusting cam bolts the same amount in the opposite direction to provide the correct camber angle. Gartner Banana