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IEC 60601-1:1988, Clause 1, applies except as follows: Amendments (add at end of 1.1): 1.1 This International Standard specifies requirements for the safety and essential performance of transportable liquid oxygen systems which are used as a supply source for oxygen therapy. These...
IEC 60601-1:1988, Clause 1, applies except as follows: This International Standard specifies requirements for the safety and essential performance of transportable liquid oxygen systems which are used as a supply source for oxygen therapy. These devices usually consist of a portable...
Not applicable to oxygen for medical, breathing or electronics applications.
This document defines the minimum degree of purity and maximum levels of certain deleterious impurities allowable for aviator's breathing oxygen at the point of manufacture or generation. It covers gaseous, liquid, and chemically generated oxygen, and oxygen supplied by in situ...
This Japanese Industrial Standard specifies (liquefied or compressed) oxygen for industrial use fed into a high pressure gas vessel (hereafter referred to as oxygen). WARNING 1 Liquefied oxygen has extremely low temperature such as approximately -183°C at atmospheric pressure,...
1. Scope 1.1 This standard describes a test method for evaluating the ignition sensitivity and fault tolerance of oxygen regulators used for medical and emergency applications. 1.2 For the purpose of this standard, a pressure regulator is a device, also called a pressure-reducing...
This International Standard specifies requirements for the design and installation of an oxygen concentrator supply system for use with a medical gas pipeline distribution system that complies with ISO 7396-1. It applies only to oxygen concentrator supply systems that produce...
This test method comprises two phases and is used to evaluate the ignition sensitivity and fault tolerance of oxygen regulators used for medical and emergency applications. Phase 1: Oxygen Pressure Shock Test-The objective of this test phase is to determine whether the heat...
This test method comprises two phases and is used to evaluate the ignition sensitivity and fault tolerance of oxygen regulators used for medical and emergency applications. Phase 1: Oxygen Pressure Shock Test-The objective of this test phase is to determine whether the heat...
