Search Results

Standard

AUTOMATIC TRANSMISSIONS-MANUAL CONTROL SEQUENCE

1988-12-01

HISTORICAL

J915_198812

Standard

AUTOMATIC TRANSMISSIONS—MANUAL CONTROL SEQUENCE

1993-04-01

HISTORICAL

J915_199304

The scope and purpose of this SAE Recommended Practice is to provide a standard pattern or sequence for the manual control of automatic transmissions in passenger cars and light-duty trucks.

Standard

Automatic Transmissions - Manual Control Sequence

2017-03-09

CURRENT

J915_201703

The scope and purpose of this SAE Recommended Practice is to provide a standard pattern or sequence for the manual control of automatic transmissions in passenger cars and light-duty trucks. This generally refers to left hand drive mechanical shift applications.

Standard

Automotive Transmission, Transaxle, and Electrified Transmission Terminology

2022-11-22

CURRENT

J645_202211

The following listed definitions are intended to establish terminology and criteria for describing the various kinds of automotive transmissions. A specific arrangement may be described by a combination of several of these definitions.

Standard

HYDRODYNAMIC DRIVE TERMINOLOGY

1975-01-01

HISTORICAL

J641A_197501

Standard

HYDRODYNAMIC DRIVE TEST CODE

1989-06-01

HISTORICAL

J643_198906

The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed. b Input speed versus speed ratio and output speed. c Efficiency versus speed ratio and output speed. d Capacity factor versus speed ratio and output speed. e Input torque versus input speed. NOTE: For more information about these characteristics and the design of hydrodynamic drives, see "Design Practices--Passenger Car Automatic Transmissions," SAE Advances in Engineering, Vol. 5.

Standard

HYDRODYNAMIC DRIVE TEST CODE

1979-06-01

HISTORICAL

J643B_197906

The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: 1 Torque ratio versus speed ratio and output speed. 2 Input speed versus speed ratio and output speed. 3 Efficiency versus speed ratio and output speed. 4 Capacity factor versus speed ratio and output speed. 5 Input torque versus input speed. Note: For more information about these characteristics and the design of hydrodynamic drives, see “Design Practices-Passenger Car Automatic Transmissions,” SAE Advances in Engineering, Vol. 5.

Standard

HYDRODYNAMIC DRIVES TERMINOLOGY

1978-04-01

HISTORICAL

J641B_197804

Standard

HYDRODYNAMIC DRIVES TERMINOLOGY

1983-02-01

HISTORICAL

J641_198302

Standard

HYDRODYNAMIC DRIVES TERMINOLOGY

1988-07-01

HISTORICAL

J641_198807

Standard

Hydrodynamic Drive Test Code

2023-08-01

CURRENT

J643_202308

The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed b Input speed versus speed ratio and output speed c Efficiency versus speed ratio and output speed d Capacity factor versus speed ratio and output speed e Input torque versus input speed NOTE: For more information about these characteristics and the design of hydrodynamic drives, refer to “Design Practices: Passenger Car Automatic Transmissions,” SAE Advances in Engineering, AE-18 (Third Ed.) or AE-29 (Fourth Ed.).

Standard

Hydrodynamic Drive Test Code

2018-12-05

HISTORICAL

J643_201812

The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed b Input speed versus speed ratio and output speed c Efficiency versus speed ratio and output speed d Capacity factor versus speed ratio and output speed e Input torque versus input speed NOTE: For more information about these characteristics and the design of hydrodynamic drives, refer to “Design Practices: Passenger Car Automatic Transmissions,” SAE Advances in Engineering, AE-18 (Third Ed.) or AE-29 (Fourth Ed.).

Standard

Hydrodynamic Drive Test Code

2000-05-16

HISTORICAL

J643_200005

The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed b Input speed versus speed ratio and output speed c Efficiency versus speed ratio and output speed d Capacity factor versus speed ratio and output speed e Input torque versus input speed NOTE—For more information about these characteristics and the design of hydrodynamic drives, see “Design Practices—Passenger Car Automatic Transmissions,” SAE Advances in Engineering, Vol. 5.

Standard

Hydrodynamic Drive Test Code

2011-04-04

HISTORICAL

J643_201104

The range of test conditions on the dynamometer shall be sufficient to determine the primary operating characteristics corresponding to the full range of vehicle operations. The characteristics to be determined are: a Torque ratio versus speed ratio and output speed b Input speed versus speed ratio and output speed c Efficiency versus speed ratio and output speed d Capacity factor versus speed ratio and output speed e Input torque versus input speed NOTE: For more information about these characteristics and the design of hydrodynamic drives, see “Design Practices—Passenger Car Automatic Transmissions,” SAE Advances in Engineering, AE18 or AE29

Standard

Hydrodynamic Drives Terminology

2019-12-02

CURRENT

J641_201912

Since the torque converter and fluid coupling are commonly used components of automatic transmissions in industry, the SAE appointed a committee to standardize terminology, test procedure, data recording, design symbols, and so forth, in this field. The following committee recommendations will facilitate a clear understanding for engineering discussions, comparisons, and the preparation of technical papers. The recommended usages represent the predominant practice or the acceptable practice. Where agreement is not complete, alternates have been included for clarification. EXAMPLE: Two systems of blade angle designations are described. Consequently, when a blade angle is specified, the system should be designated. This SAE Recommended Practice deals only with the physical parts and dimensions and does not attempt to standardize the design considerations, such as the actual fluid flow angle resulting from the physical blade shape.

Standard

Hydrodynamic Drives Terminology

2000-03-10

HISTORICAL

J641_200003

Since the torque converter and fluid coupling have become commonly used components of automatic transmissions in industry, the SAE appointed a committee to standardize terminology, test procedure, data recording, design symbols, and so forth, in this field. The following committee recommendations will facilitate a clear understanding for engineering discussions, comparisons, and the preparation of technical papers. The recommended usages represent the predominant practice or the acceptable practice. Where agreement is not complete, alternates have been included for clarification. This SAE Recommended Practice deals only with the physical parts and dimensions and does not attempt to standardize the design considerations, such as the actual fluid flow angle resulting from the physical blade shape.

Standard

Low-Speed Continuous Slip SAE No. 2 μPVT Procedure

2023-11-15

CURRENT

J2964_202311

This SAE Recommended Practice is intended as the definition of a standard test, which may be subject to frequent change to keep pace with experience and technical advances. This should be kept in mind when considering its use. The SAE No. 2 friction test is used to evaluate the friction characteristics of automatic transmission plate clutches with automotive transmission fluid combinations. The specific purpose of this document is to define a µPVT test for the evaluation of the variation of wet friction system low speed slip characteristics as a function of speed, temperature, and pressure. This procedure is intended as a suggested method for both suppliers and end users. The only variables selected by the supplier or user of the friction system are: Friction material Fluid Reaction plates Oil flow (optional) These four variables must be clearly identified when reporting the results of this test.

Standard

MANUAL CONTROL SEQUENCE FOR AUTOMATIC TRANSMISSIONS

1965-07-01

HISTORICAL

J915_196507

Standard

ONE-WAY CLUTCHES - NOMENCLATURE AND TERMINOLOGY

1990-10-01

HISTORICAL

J1087_199010

The definitions and illustrations in this SAE Information Report are intended to establish common nomenclature and terminology for automotive transmission one-way clutches.

Standard

ONE-WAY CLUTCHES—NOMENCLATURE AND TERMINOLOGY

1984-01-01

HISTORICAL

J1087_198401

The definitions and illustrations in this report are intended to establish common nomenclature and terminology for automotive transmission one-way clutches.