d by Date Page 2004-03-30 1 (17) Document title Product Specification VDL 6000 AIS Class A System Distribution External purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 2 (17) DOCUMENT CHANGE RECORD Change order Date Pages affected Motive for and information on the change 2004-03-30 General update purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 3 (17) TALE OF CONTENTS 1 SCOPE... 5 1.1 IDENTIFICATION... 5 1.2 SYSTEM OVERVIEW... 5 1.3 ACRONYMS AND AREVIATIONS... 7 2 REFERENCED DOCUMENTS... 8 3 SYSTEM MODES... 9 3.1 NORMAL MODE... 9 3.2 DEGRADED MODE... 9 3.3 CONFIGURATION MODE... 9 4 SYSTEM CAPAILITY... 9 4.1 FUNCTIONALITY... 9 4.2 VDL 6000 TRANSPONDER... 10 4.2.1 Transceiver... 10 4.2.2 CPU oard... 10 4.2.3 GNSS Receiver... 10 4.3 MINIMUM KEYOARD AND DISPLAY (MKD)... 11 4.4 CONNECTION UNIT... 11 5 SYSTEM EXTERNAL INTERFACES... 11 5.1 INTERFACE IDENTIFICATION... 11 5.2 POWER SUPPLY INTERFACE (P1)... 13 5.3 MAINTENANCE INTERFACE (J1)... 13 5.4 DATA LINK INTERFACE (J2)... 13 5.5 VHF ANTENNA INTERFACE (J3)... 14 5.6 GNSS ANTENNA INTERFACE (J6)... 14 5.7 GROUND OLT (E 1)... 15 6 SAFETY ASPECTS... 15 7 SYSTEM ENVIRONMENT... 15 8 COMPUTER RESOURCES... 15 8.1 COMPUTER HARDWARE RESOURCE UTILIZATION... 15 8.2 COMPUTER SOFTWARE... 15 9 SYSTEM QUALITY FACTORS... 16 9.1 SYSTEM FLEXIILITY... 16 9.2 SOFTWARE UPGRADE... 16 9.3 INTERNAL GNSS NAVIGATION DATA... 16 9.4 FAULT MONITORING... 16 purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 4 (17) 9.5 MEAN TIME ETWEEN FAILURES... 16 9.6 MEAN TIME ETWEEN CORRECTIVE MAINTENANCE ACTION... 16 9.7 TESTAILITY... 16 10 TECHNICAL CHARACTERISTICS... 17 10.1 VHF TRANSCEIVER... 17 10.2 POWER SUPPLY... 17 10.3 PHYSICAL DIMENSIONS AND WEIGHT... 17 10.3.1 VDL 6000 Transponder... 17 10.3.2 Minimum Keyboard and Display Unit... 17 10.3.3 Connection Unit... 17 purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 5 (17) 1 SCOPE 1.1 Identification This document is the Product Specification for C.N.S. Systems AIS Class A System. C.N.S. Systems brand name of the product line specified herein is VDL 6000. 1.2 System Overview The AIS concept is based upon a transponder including a VHF Transceiver, a built-in GNSS receiver and an embedded computer system to implement the unique AIS functionality. AIS transponders are exchanging information through an advanced VHF data link network providing a reliable and secure communication channel requiring a minimum of manual involvement. Communication is performed both between ships and between ships and shore stations. The operation is based on several modes and includes autonomous and continuous, assigned or polled operation. AIS provides the following main functionality: Surveillance - improved situational awareness Applications for Vessel Traffic Services (VTS) Aids to Navigation - improved accuracy and safety by expedient update and high availability of navigational data Information distribution services, e.g. broadcast of ARPA targets, weather reports, safety related information and free text messaging VDL 6000 is an AIS Class A System intended for ship installation, compliant with the IMO requirements for SOLAS vessels. In addition to the VDL 6000 Transponder the system includes an external Minimum Keyboard and Display (MKD) unit for presentation of the received AIS target data, message handling and configuration of the system. The latest digital radio technology has been utilised in the VDL 6000 Transponder in order to provide outstanding performance and flexibility. purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 6 (17) VDL 6000 interconnects with existing onboard sensor equipment such as GPS, Gyro and optionally a Rate of Turn (ROT) gyro. From these sensors information on position, COG, SOG, ROT, heading etc is sent to the transponder and compiled into a position report message, which is broadcasted regularly on the VHF data link. The system also supports broadcasted or addressed tramsission of text messages, and distribution of other types of information serving as a generic data link. The system also supports connection to other onboard equipment such as radar or an ECS/ECDIS system, in order to display the received data in a clear way. This requires however that the external equipment support AIS information. VDL 6000 also provides additional interfaces for configuration and maintenance purposes and connection of a long-range communication device and e.g. a Pilot s laptop. A typical ship installation is described in Figure 1. VHF Antenna GNSS Antenna AIS Transponder VDL 6000 Configuration MKD Interface Cable Connection Unit Power Supply Sensor input e.g. GNSS Sensor input e.g. Gyro Sensor input e.g. ROT External Display Long Range Pilot/AUX Figure 1 VDL 6000 Installation Overview purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 7 (17) 1.3 Acronyms and Abbreviations The following acronyms and abbreviations are used in this document: Acronym AIS ATP IIT COTS DSC IMO GNSS MTF TDMA UTC VDL VHF VSWR Description Automatic Identification System AIS Transponder Protocol uilt-in Integrity Test Commercial Off-The-Shelf Digital Selective Calling International Maritime Organization Global Navigation Satellite System Mean Time etween Failure Time Division Multiple Access Universal Coordinated Time VHF Data Link Very High Frequency Voltage Standing Wave Ratio purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 8 (17) 2 REFERENCED DOCUMENTS Applicable Documents [1] Software Considerations in Airborne Systems and Equipment Certification, RTCA/DO-178/ED-12b. [2] Recommendation on performance standards for AIS, IMO Resolution MSC.74(69) Annex 3 Standards [3] Technical characteristics for a universal shipborne Automatic Identification System (AIS) using TDMA in the VHF maritime mobile band, ITU-R M.1371-1 [4] Maritime navigation and radio communication equipment and systems - General requirements - Methods of testing and required test results, IEC 60945 [5] 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 test and required test results, IEC 61993-2 [6] Maritime navigation and radio communication equipment and systems Digital interfaces - Part 1: Single talker and multiple listeners, IEC 61162-1 [7] Maritime navigation and radio communication equipment and systems Digital interfaces - Part 2: Single talker and multiple listeners, high-speed transmission, IEC 61162-2 purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 9 (17) 3 SYSTEM MODES The VDL 6000 Transponder has the following system modes: Normal mode Degraded mode Configuration mode 3.1 Normal Mode The VDL 6000 Transponder is said to be in Normal mode when it offers full functionality and performance. The VDL 6000 Transponder can handle all operational modes and messages applicable for AIS Class A Station operation, as defined in [3]. 3.2 Degraded Mode The VDL 6000 Transponder is said to be in Degraded mode when a failure condition has been detected. Degraded mode is announced in accordance with the IIT requirements in [5]. 3.3 Configuration Mode The VDL 6000 Transponder is said to be in Configuration mode when it is set for configuration. In this mode it is possible to change the configuration of the system, in accordance with [5], and perform software upgrade. In configuration mode the normal services are not available. 4 SYSTEM CAPAILITY 4.1 Functionality The VDL 6000 supports the functionality required by AIS Class A systems, according to [3] and [5]. The system includes the following parts: VDL 6000 Transponder Minimum Keyboard and Display unit (MKD) Connection Unit Interface Cables between the units above purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 10 (17) The following additional equipment is required for a complete ship installation and can optionally be provided as a part of the delivered system: VHF Antenna and cable GNSS Antenna and cable 4.2 VDL 6000 Transponder 4.2.1 Transceiver The transceiver in the VDL 6000 Transponder fulfils all requirements in [3] and [5]. The transceiver is equipped with one transmitter, which is alternately used for transmissions on independent frequencies. The transceiver is equipped with three receivers for simultaneously operation on independent frequencies, two are used for AIS TDMA operation and one is dedicated for DSC reception. 4.2.2 CPU oard The VDL 6000 Transponder has an embedded computer module that executes both the AIS functionality software and the DSP software for the transceiver. This module also provides all external signal interfaces. 4.2.3 GNSS Receiver The VDL 6000 Transponder is equipped with a 12-channel GNSS receiver used for time synchronization. Under normal operating conditions the transponder maintains time synchronization such that the start of each frame is synchronized with the start of any Universal Coordinated Time (UTC) minute. If the primary time source, i.e. the internal GNSS receiver, is malfunctioning, information received from other AIS stations will be used for indirect synchronization in accordance with [5]. Data from the internal GNSS receiver, such as position, COG and SOG, is also used for back-up purposes in case of a failure of the external sensor. As an option it is possible to receive differential corrections from external equipment such as a beacon receiver to enhance position accuracy in back-up mode. purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 11 (17) 4.3 Minimum Keyboard and Display (MKD) The MKD is a stand-alone unit to be mounted on the bridge. It fulfils all requirements as defined in [5]. The MKD is used for the following main tasks: Initialisation and Configuration of the system Presentation of data for received AIS targets Reception and transmission of text messages 4.4 Connection Unit The Connection Unit is used for convenient connection of ship s equipment such as sensors and external systems for monitoring and control of AIS information. Power supply to the system is also provided through the Connection Unit, which is easily connected to the VDL 6000 Transponder via the enclosed interface cables. 5 SYSTEM EXTERNAL INTERFACES The VDL 6000 provides several serial interfaces for information exchange with external equipment. This includes ports representing the Presentation Interface (PI), as defined in [5]. In addition to the Presentation Interface the VDL 6000 Transponder provides an interface based upon the C.N.S. Systems internally developed protocol ATP (AIS Transponder Protocol) that supports additional functionality for configuration and maintenance of the unit. 5.1 Interface Identification The VDL 6000 has the interfaces shown in Figure 2 and specified in the following sections. The figure shows the interfaces of the VDL 6000 Transponder, all physical connections except for the antennas are made through the Connection Unit. purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 12 (17) Minimum Keyboard and Display RS485 GNSS Antenna (J6) GNSS Receiver RS485 Sensor Input 1 (J2) VHF Transceiver Transmitter Embedded Computer RS485 RS485 Sensor Input 2 (J2) Sensor Input 3 (J2) VHF Antenna (J3) TDMA Receiver RS485 RS485 External Display (J2) Pilot/Auxilary (J2) TDMA Receiver RS485 Long-range (J2) DSC Receiver RS232 Differential GNSS Corrections (J2) RS232 Maintenance (J1) Alarm Relay Alarm (J2) Ground olt (E1) Power Supply (P1) Figure 2 VDL 6000 Transponder Interfaces purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 13 (17) 5.2 Power Supply Interface (P1) Mechanical interface: Electrical Interface: D-sub, 9 pole, male 24 V DC (-10%, +30%), max 3A The power supply shall be isolated. The transponder is delivered with a pre-connected interface cable to connect the Transponder connector P1 with the Connection Unit, to which the ship s power supply is then connected. 5.3 Maintenance Interface (J1) The VDL 6000 Transponder has, beside the interfaces required by the AIS standard, an easily accessible front mounted interface for connection to a standard PC serial port. This interface makes it possible to perform configuration and maintenance activities in a convenient way. Mechanical interface: Electrical interface: Logical interface: D-sub, 9 pole, female RS-232 C.N.S. Systems AIS Transponder Protocol (ATP) 5.4 Data Link Interface (J2) Mechanical interface: D-sub, 44 pole (High Density), female Electrical interface: Logical interface: RS-485/RS-232 See table below purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 14 (17) The following interfaces are available: Type Designation Electrical interface Logical interface 1 Input Sensor 1 RS-485 IEC 61162-1 configurable as -2 2 Input Sensor 2 RS-485 IEC 61162-1 configurable as -2 3 Input Sensor 3 RS-485 IEC 61162-1 configurable as -2 4 Input/output Pilot/Auxiliary RS-485 IEC 61162-2 5 Input/output External Display RS-485 IEC 61162-2 6 Input/output Long Range RS-485 IEC 61162-2 7 Input/output MKD RS-485 N/A 8 Output Alarm Relay Closed/Not closed Normally Closed 9 Input DGNSS corr. RS-232 RTCM-SC-104 Type 1 and Type 9 The transponder is delivered with an interface connection cable to connect the Transponder connector J2 with a Connection Unit, to which the ship s sensors and other equipment are then connected. 5.5 VHF Antenna Interface (J3) The VDL 6000 Transponder uses one common VHF antenna, for both reception and transmission. Mechanical interface: Type N, female Electrical interface: Impedance 50 Ω, Antenna VSWR max 1:1.5 5.6 GNSS Antenna Interface (J6) Mechanical interface: TNC, female Electrical interface: Impedance 50Ω, the total gain of the antenna/preamplifier minus attenuation of the cable shall be 13-19 d, power supply of active antenna max 100 ma at 5 V DC The VDL 6000 Transponder is prepared for reception of differential GNSS corrections according to RTCM-SC-104 Type 1 or Type 9. This interface is provided through the Data Link Connector J2. purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 15 (17) 5.7 Ground olt (E 1) The Transponder has a ground bolt, which shall be connected to ship s ground. 6 SAFETY ASPECTS The design of the VDL 6000 System is in accordance with the safety aspects as defined by relevant parts of [4]. 7 SYSTEM ENVIRONMENT The transponder fulfils environmental conditions in accordance with [4] and the relevant sections for protected installation. 8 COMPUTER RESOURCES 8.1 Computer Hardware Resource Utilization The processor and memory utilization is such that upgrade with additional services will not affect performance. 8.2 Computer Software The computer software in the VDL 6000 Transponder consist mainly of: Real-Time Operating System (COTS) AIS application software Digital Radio software Embedded software in the GNSS receiver (COTS) The AIS application software and the digital radio software are developed in accordance with the requirements of [1], level D. The programming language is C. purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 16 (17) 9 SYSTEM QUALITY FACTORS 9.1 System Flexibility The architecture of the software is such that added functionality easily can be introduced without major software redesign. 9.2 Software Upgrade In Configuration mode it is possible to upgrade all software in the VDL 6000 Transponder, except for the embedded GNSS receiver software, via the maintenance interface. 9.3 Internal GNSS Navigation Data The navigation data provided by the internal GNSS receiver will be used as sensor input if the normally utilised external source is malfunctioning. 9.4 Fault Monitoring The VDL 6000 Transponder has a uilt-in Integrity Test (IIT) capable of detecting failures in the system in accordance with [5]. 9.5 Mean Time etween Failures The Transponder has a calculated MTF better than 20000 hours of operation. 9.6 Mean Time etween Corrective Maintenance Action The VDL 6000 System does not require any corrective maintenance. 9.7 Testability The Transponder supports a detailed PC-based test that encompasses the following areas: Hardware status Software integrity purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C
d by Date Page 2004-03-30 17 (17) 10 TECHNICAL CHARACTERISTICS 10.1 VHF Transceiver Frequency range: 156.025 162.025 MHz Channel bandwidth: Channel separation: Output power: Modulation: Data rate: 12.5/25 khz 12.5 khz 2/12.5 W nominal (selectable) GMSK (AIS TDMA)/GFSK (DSC) 9600 bps 10.2 Power Supply Input: 24 30 V DC, max 3 A 10.3 Physical Dimensions and Weight The VDL 6000 System has the following dimensions: 10.3.1 VDL 6000 Transponder Size: 175 x 81 x 276 mm (W x H x L) Weight: 3.9 kg 10.3.2 Minimum Keyboard and Display Unit Size: 120 x 180 x 45 mm (W x H x L) Weight: 1.2 kg 10.3.3 Connection Unit Size: 175 x 345 x 75 mm (W x H x L) Weight: 1.1 kg purposes than what has been confirmed by C.N.S. Systems in writing C.N.S. Systems A, SWEDEN. L 0016 C