Search Results

Standard

Interface between Numerical Control Equipment and Data Terminal Equipment Employing Parallel Binary Data Interchange

2016-06-16

CURRENT

EIA408

This standard applies to the interconnection of data terminal equipment and numerical control equipment at the tape reader interface. The data terminal would typically be connected to a remote data source/sink such as a computer. This standard defines: This standard is applicable for the interchange of signals when used in conjunction with electronic equipment, each interchange circuit of which has a single return (signal ground) that can be interconnected at the interface point. Figure 1.1, typical installation, shows how this standard should be applied to a typical tape reader interface of numerical control equipment.

Standard

Ride Index Structure and Development Methodology

2019-04-24

HISTORICAL

J2834_201904

This recommended practice defines methods for the measurement of periodic, random and transient whole-body vibration. It indicates the principal factors that combine to determine the degree to which a vibration exposure will cause discomfort. Informative appendices indicate the current state of knowledge and provide guidance on the possible effects of motion and vibration on discomfort. The frequency range considered is 0.5 Hz to 80 Hz. This recommended practice also defines the principles of preferred methods of mounting transducers for determining human exposure. This recommended practice is applicable to light passenger vehicles (e.g., passenger cars and light trucks). This recommended practice is applicable to motions transmitted to the human body as a whole through the buttocks, back and feet of a seated occupant, as well as through the hands of a driver.

Standard

Ride Index Structure and Development Methodology

2013-10-22

HISTORICAL

J2834_201310

This recommended practice defines methods for the measurement of periodic, random and transient whole-body vibration. It indicates the principal factors that combine to determine the degree to which a vibration exposure will cause discomfort. Informative appendices indicate the current state of knowledge and provide guidance on the possible effects of motion and vibration on discomfort. The frequency range considered is 0.5 Hz to 80 Hz. This recommended practice also defines the principles of preferred methods of mounting transducers for determining human exposure. This recommended practice is applicable to light passenger vehicles (e.g., passenger cars and light trucks). This recommended practice is applicable to motions transmitted to the human body as a whole through the buttocks, back and feet of a seated occupant, as well as through the hands of a driver.

Standard

Ride Index Structure and Development Methodology

2019-10-09

CURRENT

J2834_201910

This recommended practice defines methods for the measurement of periodic, random and transient whole-body vibration. It indicates the principal factors that combine to determine the degree to which a vibration exposure will cause discomfort. Informative appendices indicate the current state of knowledge and provide guidance on the possible effects of motion and vibration on discomfort. The frequency range considered is 0.5 Hz to 80 Hz. This recommended practice also defines the principles of preferred methods of mounting transducers for determining human exposure. This recommended practice is applicable to light passenger vehicles (e.g., passenger cars and light trucks). This recommended practice is applicable to motions transmitted to the human body as a whole through the buttocks, back and feet of a seated occupant, as well as through the hands of a driver.

Standard

Design Criteria for White Incandescent Lighted Aerospace Instruments

2012-06-29

HISTORICAL

ARP798A

This SAE Aerospace Recommended Practice (ARP) covers the general requirements and test procedures recommended for use with white incandescent integrally lighted instruments. Its use should provide uniformity of illumination from instrument to instrument and legibility under daylight operation. An appendix is provided to familiarize the designer with some of the techniques used to obtain uniformity of color and illumination in various types of instruments.

Standard

Impact Protective Design of Occupant Environment Transport Aircraft

2006-08-14

CURRENT

ARP767C

This ARP provides design guidelines based on currently available information for the impact safety design of the cabin occupant environment.

Standard

Impact Protective Design of Occupant Environment Transport Aircraft

2000-03-01

HISTORICAL

ARP767B

This ARP provides design guidelines based on currently available information for the impact safety design of the cabin occupant environment.

Standard

IMPACT PROTECTIVE DESIGN OF OCCUPANT ENVIRONMENT TRANSPORT AIRCRAFT

1991-05-01

HISTORICAL

ARP767A

Standard

PASSENGER EVACUATION DEVICES - CIVIL AIR TRANSPORT

1978-12-15

HISTORICAL

ARP495B

Standard

EMERGENCY FLOTATION EQUIPMENT

1957-08-15

HISTORICAL

ARP496

Standard

PASSENGER ESCAPE DEVICES - CIVIL AIR TRANSPORT

1969-08-15

HISTORICAL

ARP495A

Standard

ESCAPE DEVICES

1957-08-15

HISTORICAL

ARP495

Standard

STOWAGE OF CABIN EMERGENCY FLOTATION EQUIPMENT

1982-11-01

HISTORICAL

ARP496B

Standard

Stowage of Cabin Emergency Flotation Equipment

2000-03-01

HISTORICAL

ARP496C

The scope of this Aerospace Recommended Practice (ARP) is to establish the criteria for aircraft installations which shall ensure rapid and effective use of emergency flotation equipment in the event of ditching.

Standard

Design Criteria for White Incandescent Lighted Aerospace Instruments

2017-07-19

CURRENT

ARP798B

This SAE Aerospace Recommended Practice (ARP) covers the general requirements and test procedures recommended for use with white incandescent integrally lighted instruments. Its use should provide uniformity of illumination from instrument to instrument and legibility under daylight operation. An appendix is provided to familiarize the designer with some of the techniques used to obtain uniformity of color and illumination in various types of instruments.

Standard

Flight Management System (FMS)

2021-01-14

CURRENT

ARP4102/9B

This document recommends criteria and requirements for a flight management system (FMS) for transport aircraft. The FMS shall provide the functions of lateral navigation, vertical navigation, and performance management and may include time of arrival control. The FMS design shall take human factors considerations into account to produce a fault tolerant system.

Standard

FLIGHT MANAGEMENT SYSTEM (FMS)

1995-05-01

HISTORICAL

ARP4102/9

This document recommends criteria and requirements for a Flight Management System (FMS) for transport aircraft.

Standard

Flight Management System (FMS)

2007-07-10

HISTORICAL

ARP4102/9A

This document recommends criteria and requirements for a Flight Management System (FMS) for transport aircraft. The FMS shall provide the functions of Lateral Navigation, Vertical Navigation, and Performance Management and may include Time of Arrival Control. The FMS design shall take Human Factors considerations into account to produce a fault tolerant system.

Standard

ITS In-Vehicle Message Priority

2002-02-07

CURRENT

J2395_200202

This SAE Recommended Practice applies to both Original Equipment Manufacturer (OEM) and aftermarket ITS message-generating systems for passenger vehicles and heavy trucks. The recommended practice describes the method for prioritizing ITS in-vehicle messages and/or displayed information based on a defined set of criteria. Each criterion has a fixed number of levels that are used to rate/rank a given message or information item to determine its prioritization value. The prioritization value is used to determine the priority in which simultaneous, or overlapping, in-vehicle messages are presented to the driver.

Standard

Remote Steering Control Systems

2004-08-12

CURRENT

J2588_200408

This SAE Information Report establishes a uniform procedure for assuring the manufactured quality, installed utility and performance of automotive remote steering controls other than those provided by the vehicle manufacturer (OEM). These products are intended to provide driving capability to persons with physical disabilities. The adaptive modifications seek to compensate for lost or reduced function in the extremities of the driver with a disability. Remote steering controls are designed to provide a steering input device alternative to the OEM steering wheel that either reduces the required input force, changes the required range of motion or changes the location of the steering control or any combination of the above. These controls supplement by power, other than by the driver’s own muscular efforts, the force output of the driver with a disability.