U66 船舶通信设备 标准查询与下载

IEC 62238:2003 海上导航和无线电通信设备及系统.采用"D"级数字选择呼叫的甚高频无线电话设备.试验方法和要求的试验结果

Covers the minimum requirements for general communication for shipborne fixed installations using a VHF radiotelephone incorporating class D Digital Selective Calling. These requirements include the relevant provisions of the ITU Radio Regulations, ITU-R

Maritime navigation and radiocommunication equipment and systems - VHF radiotelephone equipment incorporating class "D" Digital Selective Calling (DSC) - Methods of testing and required test results

DIN EN 61162-410:2002 海上导航和无线电通信设备及系统.数字接口.第410部分:多通话器和多受话器.船舶系统互连.传输框架要求和基本传输框架

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Part 410: Multiple talkers and multiple listeners; Ship systems interconnection; Transport profile requirements and basic transport profile (IEC 61162-410:2001); Germa

DIN EN 61162-401:2002 海上导航、无线电通信设备和系统数字接口.第401部分:多通话器和多受话器.船舶系统互连.应用协议子集 (IEC 61162-401:2001); 德文版本 EN 61162-401:2002、英文文本

This part 401 of the multi-part standard IEC 61162 describes the application profile of the communication protocol which is the basis for the communication system for use in integrated ship control systems. It relies on the realization of the layers 1 to 4 as described in part 410.

Maritime navigation and radiocommunication equipment and systems Digital interfaces - Part 401: Multiple talkers and multiple listeners; Ship systems interconnection; Application profile (IEC 61162-401:2001); German version EN 61162-401:2002, text in Engl

DIN EN 61162-420:2002 海上导航和无线电通信设备及系统.数字接口.第420部分:多通话器和多受话器.船舶系统互连.配套标准要求和基本配套标准 (IEC 61162-420:2001); 德文版本 EN 61162-420:2002、英文文本

This part 420 of the multi-part standard IEC 61162 specifies requirements for and to the basic components of companion standards. The objective of these companion standards is to provide definitions of the information being transferred within an integrated ship control system.

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Part 420: Multiple talkers and multiple listeners; Ship systems interconnection; Companion standard requirements and basic companion standards (IEC 61162-420:2001); Ge

DIN EN 61162-400:2002 海上导航和无线电通信设备及系统.数字接口.第400部分:.多通话器和多受话器.船用系统互连.总则和一般原理

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Part 400: Multiple talkers and multiple listeners; Ship systems interconnection; Introduction and general principles (IEC 61162-400:2001); German version EN 61162-400:

BS EN 61162-410:2002 海上导航和无线电通信设备和系统 数字接口 多个说话者和多个听众 船舶系统互联 传输配置文件要求和基本传输配置文件

This part of IEC 61162-4 defines the general requirements of the T-profile and three implementations of the T-profile over the Internet V4 (IPV4) protocol suite. Part 400 of this standard defines the relationship between the different protocol levels (T-profile, A-profile and companion standards) and part 401 defines the A-profile, the immediate user of the protocol level defined in this part. The different components of the IEC 61162-4 standard are defined in IEC 61162-400. The T-profile is the specification of the communication services and the communication protocols used by the LNA to implement the A-profile functionality. Basically, the T-profile consists of the following components: a) a transport layer interface (TLI) definition that specifies the services and the semantics that will be available to the application level of the LNA (and in some cases the MAU). This includes data transport as well as time and network management services. The TLI will be general to all T-profiles and is defined in this part 410 of the standard, b) A T-profile protocol definition that specifies how the services provided by the TLI and additional time distribution and physical network management services are implemented on the protocol level. This part 410 contains a number of alternative T-profile protocol specifications using the Internet V4 series of standards. Additional parts of this standard will address other T-profiles based on other protocol families. Note that the time distribution and network management functionality may or may not include specific TLI services. For some systems this functionality may be interfaced to directly by the underlying operating system. Note also that time distribution and network management are not strictly speaking transport related protocol functionality. However, the implementation of these services is normally dependent on the transport protocols in use and is, thus, placed in the T-profile part of the standard. The purpose of this standard is to define and describe the services that will be provided at the transport level interface in a way which is completely independent of the underlying network environment as well as defining one possible implementation of these services over the Internet V4 protocols. The separation of service and protocol definitions allows the specification of several different transport profiles, each one dedicated to a specific network environment, and to use the same transport service interface in all cases. Clause 4 defines the transport level services and clause 5 describes the transport layer interface through which the services are offered. These clauses define the general, network independent services. Clause 6 defines the transport profile architecture for redundant Ethernet and Internet protocols version 4 (IPV4). Clause 7 defines the architecture for a local area non-redundant Internet network. These clauses define two specific implementations of the T-profile services. Clause 8 defines a simple MAU-LNA protocol for use over wide area network (WAN) TCP/IP links. This can be used to implement a WAN architecture for the overall system. The WAN architecture is not intended for integrated ship control systems, but can be used for remote test integration and remote maintenance and diagnostics. The WAN protocol can also be used to support MAUs that are located in other host computers than the LNA, but on one local network (conformance class 4).

Maritime navigation and radiocommunication equipment and systems. Digital interfaces. Multiple talkers and multiple listeners. Ship systems interconnection. Transport profile requirements and basic transport profile

BS EN 61162-420:2002 海上导航和无线电通信设备和系统 数字接口 多个说话者和多个听众 船舶系统互联 配套标准要求和基本配套标准

International Standard IEC 61162-420 specifies the requirement for and basic components of the IEC 61162-4 series companion standards. These components are referred to as follows: a) PCS (PISCES companion standards) which contain the rules for creation of companion standards. The general principles underlying the PCS are described in clause 4. b) PCSDL (PCS description language). Part of the PCS is the definition of the syntax for the various types of companion standard documents that make them readable by computer tools. The PCSDL is described in clause 5. c) function block description. The function block description is a high level and graphical description of applications using the IEC 61162-4 series interface standard. The function block syntax is specified in clause 7. d) PFS (PISCES foundation specifications) which contain a framework for classification of applications adhering to the IEC 61162-4 standard. The PFS will also provide a minimum level of interoperability between different manufacturers' applications using this framework. The PFS is described in clause 6. Clause 5 contains the complete reference to the PCS description language. Subclause 5.2 explains the basic concept of the PCS which is given by the distinction between four types of specifications: applications, interfaces, information and data types. General conventions with respect to the syntax of the PCS can be found in 5.3. All PCS documents are based on a similar structure. This approach is intended to make it easier to become familiar with the syntax and semantics of the PCS which is defined in 5.3.1. The four subclauses thereafter explain in detail the syntax and semantics of the four different types of specifications generated by the PCS. Clause 6 describes the relationship between the different classes of IEC 61162-4 applications and gives an overview of their functionality. The annexes contain the detailed PCS definitions for the classes. The objective of companion standards is to provide definitions of the information that is transferred within an integrated ship control system and of how these information items can be accessed or provided. Furthermore, the standard shall allow the definition of the actual network interfaces which the applications use to connect to the system. The description format is machine-readable, allowing an automatic compilation of the description into interface software. A companion standard allows the reader to, at will, shift the focus between a technical specification and a definition of interfaces and information items. The development team can determine information attributes like unit, power, accuracy and the structure of the system architecture and create a common interpretation basis for data before the system implementation. The formalisms underlying the specification language will at the same time provide an unambiguous and precise description of the equipment interfaces which allow the use of computer tools to automatically generate interface program codes or to inspect and manipulate interfaces on-line, for example for debugging and monitoring purposes.

Maritime navigation and radiocommunication equipment and systems. Digital interfaces. Multiple talkers and multiple listeners. Ship systems interconnection. Companion standard requirements and basic companion standards

BS EN 61162-401:2002 海上导航和无线电通信设备和系统 数字接口 多个说话者和多个听众 船舶系统互联 应用简介

1 General IEC 61162-4 series specifies a communication system for use in integrated ship control systems. IEC 61162-400 defines the overall functional scope for the communication system. 2 Application profile This part of IEC 61162 describes the application profile (A-profile - corresponding to ISO-OSI layers 5 to 7 [ISO 7498]) of the communication protocol which is the basis for the communication system. It relies on the realization of layers 1 to 4 (the T-profile) as described in part 410. The description of the A-profile is in terms of services offered to the application, using the protocol and of message contents and sequences used to realize these services.

Maritime navigation and radiocommunication equipment and systems. Digital interfaces. Multiple talkers and multiple listeners. Ship systems interconnection. Application profile

BS EN 61174:2001 海上导航和无线电通信设备和系统.电子图表先显示和信息系统(ECDIS).操作和性能要求、试验方法和要求的试验结果

This International Standard specifies the performance requirements, methods of testing and required test results of equipment conforming to performance standards not inferior to those adopted by the IMO in resolution A.817 as amended by annex 5 to IMO resolution MSC.64 and annex 4 to IMO resolution MSC.86. This standard is based upon the performance standards of IMO resolution A.817, and is also associated with IMO resolution A.694 and IEC 60945. Reference is made, where appropriate, to IMO resolution A.817, and all subclauses whose wording is identical to that in the resolution are printed in italics. In association with the above IMO resolution A.817, are the International Hydrographic Organization (IHO) special publications S-52, S-57 and S-61. This standard has included extracts from the above publications where they are applicable to this equipment. Where reference is made, all subclauses whose wording is identical to that in the publications, are printed in italics. The requirements of this standard are not intended to prevent the use of new techniques in equipment and systems, provided the facilities offered are not inferior to those stated.

Maritime navigation and radiocommunication equipment and systems - Electronic chart display and information system (ECDIS) - Operational and performance requirements, methods of testing and required test results

IEC 61993-2:2001 海上导航和无线电通信设备及系统 自动识别系统（AIS） 第2部分：通用自动识别系统（AIS）的A类船载设备 操作要求和性能要求、测试方法、要求的测试结果

This International Standard specifies the minimum operational and performance requirements, methods of testing and required test results conforming to performance standards adopted by the IMO in resolution MSC.74(69), Annex 3, Universal Shipborne Automatic Identification System. This standard incorporates the technical characteristics of Class A shipborne equipment included in Recommendation ITU-R M1371-1 and takes into account the ITU Radio Regulations where applicable. In addition it takes account of IMO resolution A.694(17) to which IEC 60945 is associated. This International Standard also specifies the minimum requirements both for the means to input and display data and for the interfaces to other equipment suitable to be used as means of input and display data. NOTE All text of this standard, that is identical to that in IMO resolution MSC.74(69), Annex 3 and IMO resolution A.694(17) or to that in ITU-R M.1371-1 is printed in italics and the resolution (abbreviated to - A3 or - A694 respectively) or the recommendation (abbreviated to - M. 1371-1) and paragraph numbers are indicated in parentheses i.e. (A3/3.3) or (M.1371-1/3.3) respectively.

Maritime navigation and radiocommunication equipment and systems - Automatic identification systems (AIS) - Part 2: Class A shipborne equipment of the universal automatic identification system (AIS); Operational and performance requirements, methods of te

IEC 61162-401:2001 海上导航和无线电通信设备及系统 数字接口 第401部分：多通话器和多受话器 船舶系统互连 应用文件集

1 General IEC 61162-4 series specifies a communication system for use in integrated ship control systems. IEC 61162-400 defines the overall functional scope for the communication system. 2 Application profile This part of IEC 61162 describes the application profile (A-profile - corresponding to ISO-OSI layers 5 to 7 [ISO 7498]) of the communication protocol which is the basis for the communication system. It relies on the realization of layers 1 to 4 (the T-profile) as described in part 410. The description of the A-profile is in terms of services offered to the application using the protocol and of message contents and sequences used to realize these services.

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Part 401: Multiple talkers and multiple listeners; Ship systems interconnection; Application profile

IEC 61162-420:2001 海上导航和无线电通信设备及系统 数字接口 第420部分：多通话器和多受话器 船舶系统互连 围罩梯口标准要求和基本围罩梯口标准

International Standard IEC 61162-420 specifies the requirement for and basic components of the IEC 61162-4 series companion standards. These components are referred to as follows: a) PCS (PISCES companion standards) which contain the rules for creation of companion standards. The general principles underlying the PCS are described in clause 4. b) PCSDL (PCS description language). Part of the PCS is the definition of the syntax for the various types of companion standard documents that make them readable by computer tools. The PCSDL is described in clause 5. c) function block description. The function block description is a high level and graphical description of applications using the IEC 61162-4 series interface standard. The function block syntax is specified in clause 7. d) PFS (PISCES foundation specifications) which contain a framework for classification of applications adhering to the IEC 61162-4 standard. The PFS will also provide a minimum level of interoperability between different manufacturers' applications using this framework. The PFS is described in clause 6. Clause 5 contains the complete reference to the PCS description language. Subclause 5.2 explains the basic concept of the PCS which is given by the distinction between four types of specifications: applications, interfaces, information and data types. General conventions with respect to the syntax of the PCS can be found in 5.3. All PCS documents are based on a similar structure. This approach is intended to make it easier to become familiar with the syntax and semantics of the PCS which is defined in 5.3.1. The four subclauses thereafter explain in detail the syntax and semantics of the four different types of specifications generated by the PCS. Clause 6 describes the relationship between the different classes of IEC 61162-4 applications and gives an overview of their functionality. The annexes contain the detailed PCS definitions for the classes. The objective of companion standards is to provide definitions of the information that is transferred within an integrated ship control system and of how these information items can be accessed or provided. Furthermore, the standard shall allow the definition of the actual network interfaces which the applications use to connect to the system. The description format is machine-readable, allowing an automatic compilation of the description into interface software. A companion standard allows the reader to, at will, shift the focus between a technical specification and a definition of interfaces and information items. The development team can determine information attributes like unit, power, accuracy and the structure of the system architecture and create a common interpretation basis for data before the system implementation. The formalisms underlying the specification language will at the same time provide an unambiguous and precise description of the equipment interfaces which allow the use of computer tools to automatically generate interface program codes or to inspect and manipulate interfaces on-line, for example for debugging and monitoring purposes.

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Part 420: Multiple talkers and multiple listeners; Ship systems interconnection; Companion standard requirements and basic companion standards

IEC 61162-410:2001 海上导航和无线电通信设备及系统 数字接口 第410部分：多通话器和多受话器 船舶系统互连 运输文件集要求和基本运输文件集

This part of IEC 61162-4 defines the general requirements of the T-profile and three implementations of the T-profile over the Internet V4 (IPV4) protocol suite. Part 400 of this standard defines the relationship between the different protocol levels (T-profile, A-profile and companion standards) and part 401 defines the A-profile, the immediate user of the protocol level defined in this part. The different components of the IEC 61162-4 standard are defined in IEC 61162-400. The T-profile is the specification of the communication services and the communication protocols used by the LNA to implement the A-profile functionality. Basically, the T-profile consists of the following components: a) a transport layer interface (TLI) definition that specifies the services and the semantics that will be available to the application level of the LNA (and in some cases the MAU). This includes data transport as well as time and network management services. The TLI will be general to all T-profiles and is defined in this part 410 of the standard, b) A T-profile protocol definition that specifies how the services provided by the TLI and additional time distribution and physical network management services are implemented on the protocol level. This part 410 contains a number of alternative T-profile protocol specifications using the Internet V4 series of standards. Additional parts of this standard will address other T-profiles based on other protocol families. Note that the time distribution and network management functionality may or may not include specific TLI services. For some systems this functionality may be interfaced to directly by the underlying operating system. Note also that time distribution and network management are not strictly speaking transport related protocol functionality. However, the implementation of these services is normally dependent on the transport protocols in use and is, thus, placed in the T-profile part of the standard. The purpose of this standard is to define and describe the services that will be provided at the transport level interface in a way which is completely independent of the underlying network environment as well as defining one possible implementation of these services over the Internet V4 protocols. The separation of service and protocol definitions allows the specification of several different transport profiles, each one dedicated to a specific network environment, and to use the same transport service interface in all cases. Clause 4 defines the transport level services and clause 5 describes the transport layer interface through which the services are offered. These clauses define the general, network independent services. Clause 6 defines the transport profile architecture for redundant Ethernet and Internet protocols version 4 (IPV4). Clause 7 defines the architecture for a local area non-redundant Internet network. These clauses define two specific implementations of the T-profile services. Clause 8 defines a simple MAU-LNA protocol for use over wide area network (WAN) TCP/IP links. This can be used to implement a WAN architecture for the overall system. The WAN architecture is not intended for integrated ship control systems, but can be used for remote test integration and remote maintenance and diagnostics. The WAN protocol can also be used to support MAUs that are located in other host computers than the LNA, but on one local network (conformance class 4).

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Part 410: Multiple talkers and multiple listeners; Ship systems interconnection; Transport profile requirements and basic transport profile

IEC 61162-400:2001 海上导航和无线电通信设备及系统 数字接口 第400部分：多通话器和多受话器 船舶系统互连 导言和一般原则

1 General This standard series, IEC 61162-400 and upwards, specifies a communication protocol for use in interconnected maritime systems. It also specifies an interface description language for use together with the protocol, a set of rules for the use of this language and a set of standard interfaces described in the language. Finally, it also provides a test plan and list of required documents for equipment using this standard. This part of IEC 61162 gives a general overview of the functionality of the protocol and provides definitions common to the other fragments of the standard. 2 Application area This protocol is intended for use on the system level of an interconnected maritime navigation and radiocommunication system. It is designed to integrate various relatively large functional components, for example RADAR, ECDIS or conning display. As such, it complements other protocols on the instrument level (IEC 61162-1, IEC 61162-2 and IEC 61162-3 as referred to in annex B) and on the administrative level (mainly proprietary or de facto standard protocols). Although this standard covers navigation and radiocommunication equipment on the system level, it is not limited to that. It could also find application on lower levels (process level) and in other application areas (general automation). 3 Safety implications of using this protocol This standard does not define any safety related attributes that can be applied in the verification of the safety properties of a system using this protocol. The system safety properties will dependent on many factors, such as a) the protocol specification (this standard); b) the T-profile in use (may be specified by this standard); c) the protocol implementation (dependent on manufacturer); d) how the protocol is used by individual components (dependent on manufacturer); e) how the system uses, the protocol (dependent on manufacturers and system integrators); f) maintenance and supervision of the system. These items are only examples and do not constitute a complete list. The relevant authorities and the class societies will prescribe more detailed rules for the use of this protocol in integrated control systems.

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Part 400: Multiple talkers and multiple listeners; Ship systems interconnection; Introduction and general principles

IEC 61174:2001 海上导航和无线电通信设备及系统 电子海图显示和信息系统（ECDIS） 操作要求和性能要求，测试方法和要求的测试结果

This International Standard specifies the performance requirements, methods of testing and required test results of equipment conforming to performance standards not inferior to those adopted by the IMO in resolution A.817 as amended by annex 5 to IMO resolution MSC.64 and annex 4 to IMO resolution MSC.86. This standard is based upon the performance standards of IMO resolution A.817, and is also associated with IMO resolution A.694 and IEC 60945. Reference is made, where appropriate, to IMO resolution A.817, and all subclauses whose wording is identical to that in the resolution are printed in italics. In association with the above IMO resolution A.817, are the International Hydrographic Organization (IHO) special publications S-52, S-57 and S-61. This standard has included extracts from the above publications where they are applicable to this equipment. Where reference is made, all subclauses whose wording is identical to that in the publications, are printed in italics. The requirements of this standard are not intended to prevent the use of new techniques in equipment and systems, provided the facilities offered are not inferior to those stated.

Maritime navigation and radiocommunication equipment and systems - Electronic chart display and information system (ECDIS) - Operational and performance requirements, methods of testing and required test results

BS EN 61162-1:2001 船舶导航和无线电通信设备及系统.数字接口.简单扩音器和复合听声器

Contains the requirements for data communication between maritime electronic instruments, navigation and radio communication equipment when interconnected via an appropriate system.

Maritime navigation and radiocommunication equipment and systems - Digital interfaces - Single talker and multiple listeners

JIS F 9601:2001 船舶和海上技术.收发气象图表用海上传真接收机

この規格は，国際無線通信諮問委員会（CCIR)の勧告343-1，及び世界気象機関(WMO）のDoc.No.386, Part Ⅲ-7に従って規定されている“無線装置による気象図のファクシミリ送信”に基づいて，送信された気象図を受信する船用ファクシミリ受信機の構造，性能，形式試験及び検査について規定する。

Ships and marine technology -- Marine facsimile receivers for meteorological charts

IEC 61996:2000 海上导航和无线电通信设备及系统 船用航程数据记录仪(VDR) 性能要求 测试方法和要求的测试结果

This International Standard specifies the minimum performance requirements, technical characteristics and methods of testing, and required test results, for shipborne voyage data recorder (VDR) installations as required by chapter V of the International Convention for Safety of Life at Sea (SOLAS), as amended. It takes account of IMO resolution A.694 and is associated with IEC 60945. When a requirement in this standard is different from IEC 60945, the requirement in this standard takes precedence. This standard incorporates the applicable parts of the performance standards included in IMO Resolution A.861. NOTE All text of this standard, whose wording Is identical to that of IMO Resolution A.861, is printed in italics, and the Resolution and associated performance standard paragraph numbers are indicated in brackets.

Maritime navigation and radiocommunication equipment and systems - Shipborne voyage data recorder (VDR) - Performance requirements; methods of testing and required test results

JT/T 8100.35-2000 船用通信导航设备的安装、使用、维护、修理技术要求救生艇(筏)双向甚高频便携式无线电话

Technical requirement for the installation,operation,maintenance and repair of marine navigation equipment Survival craft two-way VHF radio telephone apparatus

CB/T 3930-1999 船用收信多路耦合器技术条件

Specification of multiplex receiving coupler for ship