Toyota Automobile Tercel User's Manual
Contents
1. Compression Ratio Research Octane No RON 91 Max Output SAE NET HP Q rpm kW rpm Max Torque SAE NET ft Ibs rpm rpm Battery Capacity SHR Voltage amp Amp hr Alternator Output Watts Starter Output kW Max Speed mph km h Max Cruising Speed mph km h 90 145 0 to 100 kn h sec Ist Gear mph km h 40 65 m 2nd Gear mph km h 74 119 Max Permissible Speed 3rd Gear mph km h 4th Gear mph km h eave eee Outside Front Curb to Curb ft m 34 8 10 6 Fuel Tank Capacit U S gal L Imp gal 15 9 60 13 2 Clutch Type Transmission Gear Ratio in Counter Gear Ratio ___ ____ Differential Gear Ratio Final Transfer and Rear Differential Gear Ratio ____ 4 Rear Differential Gear Size in 2 xam SV2IL UEPDKA Engine 12 48 12 40 2 Engine 14 1 092 96 155 11 0 175 30 49 55 89 86 139 90 145 Acceleration 40 65 74 119 Performance Suspension Stabilizer Bar Front Ventilated Disc Brake Type Brake Booster Type and Size in Tandem 8 9 Steering Gear Type Rack amp Pinion Steering Gear Ratio Overall Power Steering Type Integral Type Length in mm 182 1 4 625 Overall Width in mm 66 5 1 690 Height in mm 54 1 1 375 Wheel Base in mm 102 4 2 600 Front in mm 58 3 1 480 Tread Rear in mm 57 0 1 450 Front in mm 38 2 970 36 9 937 3 Rear in mm 37 0 939 35 9 9112. 3 Front in mm 42 9 1 090 Rear in mm 34 1 866 1 Front in mm 54 3 1 378 Shoulder Room Rear in mm 53 7 1 363 Front in mm 36 4 925 Overhang in mm 43 3 1 100 Min Running Ground Clearance in mm 5 3 135 Angle of Departure degree 14230 1 642 745 1 698 770 1 665 755 1 720 780 Curb Weight Ib kg 1 047 475 1 069 485 Ib kg 2 689 1 220 2 745 1 245 2 734 1 240 2 789 1 265 D 673 1 710 Effective Head Room Effective Leg Room Major Dimensions amp Vehicle Weights UA EAS as no ay so aso 0s sss i 9307 Gross Vehicle Weight Ib kg e Ib kg 3 880 1 760 Luggage Compartment Capacity cu ft m3 1 Set Option with Cold Area Spec Set Option without Cold Area Spec With Moon Roof Option oa 4069 E ___ a __ _ 0 59 99 0n m e 226 95 _____ ___ D asas xe os me 2 APPENDIX CAMRY 73 2VZ FE 3S FE 3 44 x 2 74 87 5 x 69 5 112 180 S ver lt lt 344 2 74 87 5 69 5 153 0 2 508 3 39 3 39 86 86 121 9 1 998 156 5 600 116 5 600 160 4 400 217 4 400 12 4
3. 39 86 x 86 Displacement cu in cc 121 9 1 998 51 Research Octane No RON Max Output SAE NET HP Q rpm kW rpm 115 5 200 86 5 200 156 5600 116 5 600 115 5 200 86 5 200 Max Torque SAE NET ft lbsQ rpm rpm 124 4 400 168 4 400 160 4 400 217 4 400 124 4 400 168 4 400 Battery Capacity SHR Voltage amp Amp hr 12 48 Alternator Output Watts Starter Output kW 14 1 0 1 Max Speed mph km h 118 190 Max Cruising Speed mph km h 99 160 0 to 100 kn h sec 10 5 0to 400m sec 17 2 Ist Gear mph km h 40 64 2nd Gear mph km h 72 16 3rd Gear mph km h 111 179 Wanewa Outside Front Curb to Curb ft m 34 8 10 6 35 4 10 8 Fuel Tank Capacit U S gal L Imp gal 15 9 60 13 2 Clutch Type Transmission Type A140E In First 2 810 In Second 1 549 In Third 1 000 Transmission Gear Ratio In Fourth 0 706 Counter Gear Ratio Differential Gear Ratio Final Transfer and Rear Differential Gear Ratio i ST Rear Differential Gear Size in pra PE Rear Solid Disc Parking Brake Type Duo Servo Brake Booster Type and Size in Steering Gear Type Steering Gear Ratio Overall Power Steering Type Tength in dit in uy Wheel in mm Front in mm 58 1 1 475 Rear in mm 56 9 1 445 Shoulder Room Rear in Rear in Min Running Ground Clearance in mm _ _ xx 4 ba 1929 75 L6 070 Carb Weigh as
4. A grille has been added to the valance panel under the front bumper to improve product appeal 3 A140L and A140E Automatic Transaxles Together with the torque converter being made smaller the torque ratio and transmission efficiency have been increased and powertrain performance has been improved 4 Others see GENERAL 1991 FEATURES for details B gt Operating conditions for the daytime running light systems in Canadian vehicles have been changed to improve system utility A HELP HLP indicator function has been added to the anti theft system in the radio receiver to improve serviceability Daytime Running Light System Audio Radiator Lower Grille 1401 and A140E Automatic Transaxles MODEL CODE 25 VZV21 LG UWPNKA BASIC MODEL CODE 1 SV21 FWD with 3S FE Engine GEARSHIFT TYPE TYPE Speed Manual 4 Speed Automatic SV25 All Trac 4WD with 3S FE Engine VZV21 FWD with 2VZ FE Engine 5 STEERING WHEEL POSITION L Left Hand Drive BODY TYPE 3 Blank Sedan G Wagon 7 MODEL 2 3 ENGINE SPECIFICATION K EFI and DOHC BODY TYPE DESTINATION 5 E Sedan 9 U S A W Wagon K Canada CAMRY MODEL LINE UP 26 UP MODEL LINE ponunuoosiq AANdAN ISCAS ISCAS DICAS DTICAS SCANdAN TITAS 33addn TITAS T
5. and Rear Differential Gear Ratio ____ 4 Rear Differential Gear Size in 2 xm Front MacPherson Strut Rear MacPherson Strut Front Ventilated Disc Brake Booster Type and Size in Tandem 8 9 Steering Gear Type Rack amp Pinion Steering Gear Ratio Overall Power Steering Type Integral Type Length in mm 183 1 4 650 Overall Width in mm 67 3 1 710 Height in mm 54 5 1 385 Wheel Base in mm 102 4 2 600 Front in mm 58 3 1 480 Tread Rear in mm 57 1 1 450 Front in mm 38 3 972 37 1 943 Effective Head Room Rear in mm 37 7 958 36 1 917 Front in mm 42 9 1 090 Effective Leg Room in mm 34 4 873 Front in mm 54 3 1 378 Shoulder Room Rear in mm 53 7 1 363 Front in mm 36 4 925 Overhang in mm 44 3 1 125 Min Running Ground Clearance in mm 5 3 135 Angle of Approach degree 21930 Angle of Departure degree 12930 1 609 730 1 664 755 Curb Weight Ib kg 1 213 550 Ib kg 2 282 1 280 2 877 1 305 wwf Gross Vehicle Weight __ Ib kg 4 045 1 835 Luggage Compartment Capacity cu ft m3 uz c cmt 1 With Moon Roof o Acceleration Performance 4069 eS NENNEN ___ ____ 4 4 0 59 99 0n __ 9 _ __ Dm 287 030 2 a Suspension St
6. 1265 55 14 112 180 96 155 11 0 175 30 5 49 55 1 89 86 4 139 D Acceleration 40 4 65 E 74 0 119 Max Permissible Speed Performance 34 8 10 6 n Stabilizer Bar Brake Type L T Drum L T Drum 182 1 4 625 54 1 1 375 58 3 1 480 57 1 1 450 38 2 970 36 9 937 2 37 0 939 35 9 911 2 34 1 866 1 Tread Effective Head Room Effective Leg Room Overhang 43 4 1 100 lt lt Major Dimensions amp Vehicle Weights Bap Gross Vehicle Weight Ib kg i Ink 345 Luggage Compartment Capacity cu ft m3 ee eee 1 Set Option without Cold Area Spec 2 With Moon Roof Option Ib kg 2 910 1 320 3 197 1 450 2 712 1 230 2 767 1 255 3 880 1 760 APPENDIX CAMRY 75 lt lt cei aso 21 4 4 TIT IT T o 2 T 7 LOXG LL mu X90 ES um ____ 3e um mas T pu 1 3p ee T 35 4 10 8 34 8 10 6 DST E52 3 230 2 045 1 333 0 972 0 820 3 583 3 933 Solid Disc L T Drum lt Solid Disc Duo Servo 58 1 1 475 56 9 1 445 58 3 1 480 56 7 1 440 57 1 1 450 54 136 5 1 819 825 1 310 590 3 120 1 415 1 642 745 1 080 490 2 722 1 235 1
7. 698 770 1 896 860 1 102 500 2 998 1 360 1 929 875 1 124 510 3 053 1 385 1 819 825 1 323 600 2 778 1 260 3 142 1 425 4 266 1 935 3 880 1 760 4 090 1 855 4 266 1 935 ___ _____ _____558 p o _____055 06 om _____5 gt ___ 98 a __ PT Dum Tom masw 1698070 waw mao p cu dno v 3 E samo _ ee 76 APPENDIX CAMRY Body Type Engine Type Bore x Stroke in mm 3 44 x 2 74 87 5 x 69 5 Research Octane No RON 156 5600 116 5 600 Max Output SAE NET HP Q rpm kW rpm Max Torque SAE NET ft lbs rpm Nm rpm Battery Capacity SHR Voltage amp Amp hr Alternator Output Watts ___ _____ lt c Engine Engine Electrical Starter Output Max Speed mph km h 112 180 Max Cruising Speed mph km h 93 150 93 150 Ist Gear mph km h 30 49 40 65 E 2nd Gear mph km h 55 89 74 119 Max Permissible Speed 3rd Gear mph km h 86 139 4th Gear mph km h ee eave 0 Outside Front Curb to Curb ft m 34 8 10 6 Fuel Tank Capacit U S gal L Imp gal 15 9 60 13 2 Clutch Type Transmission Type Transmission Gear Ratio in Counter Gear Ratio ___ ____ Differential Gear Ratio Final Transfer
8. 8 115 5 200 86 5 200 124 04 400 168 4 400 12 48 12 402 127 205 109 175 121 195 103 165 109 175 90 145 13 9 19 9 32 52 60 96 93 149 17 0 33 52 52 83 79 127 109 175 17 5 40 64 72 116 111 179 35 4 10 8 34 8 10 6 Solid Disc Duo Servo L T Drum L T Drum Solid Disc Duo Servo 58 1 1 475 56 9 1 445 58 3 1 480 56 7 1 440 58 1 1 475 56 9 1 445 58 3 1 480 57 1 1 450 56 3 1 440 5 3 135 54 136 1 863 845 1 102 500 2965 1 345 1 896 860 1 124 510 3 020 1 370 1 841 835 1 312 595 3 153 1 430 1 720 780 1 091 495 2 811 1 275 1 951 885 1 136 515 3 087 1 400 1 841 835 1 334 605 3 175 1 440 4 123 1 870 4 266 1 935 3 880 1760 4 123 1 870 4 226 1 935 __ 3 44 x 2 74 87 5 x 69 5 _____ 550 2509 ___156 5 600 1165600 160 4400 217 4400 _____1248 ____127 209 09079 Po so po x I 354009 DST O _____ 2 gt _____205 omn oo 359 55 22 prom 9 Duo Servo sian 186 85 10060 ____26 035 _____ 4m us ES oj 74 APPENDIX CAMRY U S A Canada Body Type Model Code SV2IL UEMDKK SV2IL UEPDKK Engine Type 3S FE Bore x Stroke in mm 3 39 x 3
9. FOREWORD This manual has been prepared to familiarize you with the new features of the 1991 model year vehicles with the exception of the new Tercel New Car Features have already produced for 1991 model year MR 2 Previa and Land Cruiser but as some changes have also been made to these models at the time of the changeover for other models at the time of the changeover for other models these changes are included in this manual For new features of the Tercel and for detailed service specifications and repair procedures of each 1991 model year vehicle refer to the following manuals 199 Tercel New Car Features NCF071U 1991 model Repair Manuals Refer to respective 1991 model Electrical Wiring Diagram Manuals reallocaetd Pub No Allinformation contained herein is the most up to date at the time of publication We reserve the right to make changes without prior notice TOYOTA MOTOR CORPORATION p 1990 TOYOTA MOTOR CORPORATION rights reserved This book may not be reproduced or copied in whole or in part without the written permission of Toyota Motor Corporation 24 CAMRY OUTLINE OF NEW FEATURES CAMRY OUTLINE OF NEW FEATURES The Camry is a compact class passenger car with a wealth of model variations which is evaluated highly by customers The following changes are made for the 1991 model year 1 Model Line up The manual transaxle All Trac 4WD models have been discontinued 2 Exterior Design
10. ICAZA VANdAN ISCAS Vaddan ISCAS VANdMN HOvSV VAICWAN TIZAS enuen gt MODEL CODE 27 NEW FEATURES EXTERIOR DESIGN A radiator lower grille has been added to the valance panel on the bottom side of the front bumper to improve product appeal Radiator Lower Grill New Previous A140L AND A140E AUTOMATIC TRANSAXLES 1 General The basic construction and operation are the same as in the previous model but the diameter and specifications of the torque converter have been changed 2 Torque Converter By making the diameter smaller the torque converter has been reduced in size and weight and the moment of inertia in its rotational system has been made smaller The internal flow of fluid in the torque converter has also been subjected to strict numerical analysis The pump impeller turbine runner and stator blade shape have been carefully selected to increase the torque ratio and transmission efficiency In this way the powertrain performance has been improved pP Specifications 3 Element 1 lt Step 2 Phase 2 000 1 900 9 49 241 10 00 254 ju 72 APPENDIX CAMRY gt CAMRY Body Type Engine Type Valve Mechanism Bore x Stroke in mm Displacement cu in cc
11. abilizer Bar Brake Type Solid Disc Duo Servo 58 1 1 475 56 8 1 445 Major Dimensions amp Vehicle Weights 1 675 760 1 907 865 1 259 570 2 888 1 310 3 164 1 435 4 266 1 935 SV2I G UWPNKK xi es ___ po e EEG es po 2888310 rc od EDS h gc Solid Dise Duo Servo sias ssas _____ 507 65 ____29 670 O edes Se pe eS 9
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