AS/NZS 4280.1:2003
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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406 MHz satellite distress beacons Marine emergency position indicating radio beacons (EPIRB) (IEC 61097-2:2002, MOD)
Hardcopy , PDF 1 User , PDF 3 Users , PDF 5 Users , PDF 9 Users
29-05-2024
07-11-2003
Provides manufacturers, suppliers and testing facilities of 406 MHz satellite distress beacons with the minimum radiofrequency and environmental requirements and associated test methods to enable design and confirmation of compliance with Australia and New Zealand radio frequency spectrum and maritime regulatory requirements.
Committee |
RC-004
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DocumentType |
Standard
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ISBN |
0 7337 5520 8
|
Pages |
48
|
PublisherName |
Standards Australia
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Status |
Superseded
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SupersededBy | |
Supersedes | |
UnderRevision |
This part of IEC 61097 specifies the minimum performance requirements, technical characteristics and type-testing requirements of the satellite emergency position-indicating radio beacon used in the COSPAS-SARSAT satellite system (satellite EPIRB), as required by Regulation IV/7.1.6 of the 1988 amendments to the 1974 International Convention for Safety of Life at Sea (SOLAS), and which is associated with IEC 60945 (General requirements). When a requirement in this standard is different from IEC 60945, the requirement in this standard shall take precedence. This standard also includes minimum performance standards for a manually activated satellite EPIRB without float-free release mechanism (see annex C). This standard incorporates the performance standards of IMO Resolutions A.810(19) Performance Standards for float-free satellite emergency position-indicating radio beacons (EPIRBs) operating on 406 MHz and A.662(16) Performance Standards for float-free release and activation arrangements for emergency radio equipment, the International Telecommunication Union (ITU) Radio Regulations as well as the technical characteristics for such transmitters contained in Recommendation ITU-R M.633 (as amended), and takes account of the general requirements contained in IMO Resolution A.694(17). All texts of this standard, whose wording is identical to that in the IMO SOLAS Convention 1974 as amended in 1988 and Resolutions A.658(16), A.662(16), A.689(17), A.694(17), A.696(17), A.702(17) and A.810(19)and Recommendation ITU-R M.633 (as amended) will be printed in italics and the Resolution/Recommendation and paragraph number indicated between brackets. NOTE 1 Classes of satellite EPIRB's considered in this document are: – Class 1: Float-free (–40°C to +55°C). The float-free release mechanism (A.662(16)) should be capable of operating throughout the temperature range of –40°C to +65°C. This class is not required by IMO Resolutions but may be applied at the discretion of each Administration. – Class 2: Float-free (–20°C to +55°C). The float-free release mechanism (A.662(16)) should be capable of operating throughout the temperature range of –30°C to +65°C. – Class 3: Manually activated, non float free (-20°C to +55°C). Primarily intended for use by NON-SOLAS vessels. NOTE 2 Non-float-free, manually activated satellite EPIRB's in all classes are considered in annex C. NOTE 3 All classes shall include a 121,5 MHz homing device, described in annex D. User experience of COSPAS-SARSAT EPIRB operation leading to some clarification of IMO performance standards, and providing some useful information for satellite EPIRB users is included in annex E.
First published as Joint Standard AS/NZS 4280:1995.
Jointly revised and redesignated in part as AS/NZS 4280.1:2002.
Second edition 2003.
AS/NZS 4869.1:2006 | Maritime Survivor Locating Systems (MSLS) Operating on 121.5 MHz (Reconfirmed 2015) |
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