Orolia MT-1 McMurdo/Transas MT-1 User Manual Installation Manual 89 041N

Orolia Ltd McMurdo/Transas MT-1 Installation Manual 89 041N

Installation Manual 89 041N

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Document DescriptionInstallation Manual 89 041N
Short Term ConfidentialNo
Permanent ConfidentialNo
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Document TypeUser Manual
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Date Submitted2004-01-21 00:00:00
Date Available2004-03-10 00:00:00
Creation Date2003-11-25 11:11:43
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Document Lastmod2003-11-25 12:31:43
Document TitleMicrosoft Word - 89-041N Iss5 UAIS Installation Manual content.doc
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Document Author: henros

Installation Manual
UAIS Transponder System
Method of connecting screens at the transponder
Screw Terminal
Board
Test and program connections
WARNING: Do not interfere with switch S1 or the links “Factory Test” and “Program Linker”.
These are specialised functions for use by factory technicians only. For the same reason, make
no connection to Test Port.
S5
S4
S2
S8
S6
S7
S4-6
89-041 Section 4 Issue 5
Power supply
Connected to the ship’s 24V DC emergency power source through a 2-pole switched fused
supply to allow isolation for servicing. The power requirements are 24V DC +30% -10%, 3.5A
maximum.
Standby power requirement
Peak power requirement
21 W; 0.9 Amp at 24V DC
75 W; 3.5 Amp at 24V DC
Required conductor area as a function of cable length
Power cable length
Required conductor area
0 – 10 metres
0.75 mm2
10 – 20 metres
1.5 mm2
20 – 40 metres
3.0 mm2
Isolation between the power supply connections and any other connection to the transponder is
1kV minimum.
The DC power source should comply with IMO guidelines for the class of vessel concerned.
National authorities and classification societies may have their own power supply requirements
that should also be considered.
If the available supply is AC, a converter, P/N 89-029, is available as an option.
DISP port - Display VDU
The DISP port connects the VDU Display unit with the Transponder. This port is vital to the
functionality of the transponder and the VDU and must be connected. To prevent any
malfunction of this port it is not possible to change the configuration.
Display cable:
Four twisted pairs, screened, PVC sheathed.
Cable length to display
0 – 100 metres
100 metres +
Required conductor area
0.8 mm2 each wire
1.5 mm2 each wire
The connection between the Screw terminal board and the VDU unit is given below, showing
the rear of the VDU and the 15-pin connector, and the pin identification of the connector.
Transponder
Rx common
Rx B
Rx A
Tx A
Tx B
Tx common
+ Bat out
- Bat out
VDU pin
12
13
The twisted pairs are assigned as (Rx A/B), (Tx A/B),
(common pair) and (battery pair)
The DISPLAY port can be connected to a Personal Computer, but two precautions are
necessary: special software is required to display the received information, and usually it is
necessary to convert the RS 422 signal from the transponder to a RS-232 signal in order to
interface to the PC.
89-041 Section 4 Issue 5
S4-7
SEN 1, 2, 3 ports - Sensors
The Sensor input port can be configured to receive data from the Gyro, the GNSS used for
navigation and the LOG. Each of the three sensor (SEN1, SEN2 and SEN3) ports can be
independently configured to receive information from one of these sensors. Alternatively ALL
sensor information can be received via ONE of the sensor ports.
The sensor ports require configuration before use; this is described in the Operation Manual.
The AIS must be connected to:
•
The GNSS unit used for navigation
•
The gyrocompass providing heading information
If available the following information can be connected to the AIS:
•
Rate-Of-Turn (ROT)
•
Speed over ground from Bottom referenced log
Recommended cable for connection of Sensors:
Single twisted pair, shielded, PVC sheathed.
Cable length to display
0 – 100 metres
Required dimension
0.8 mm2 each wire
Sensor wire connection
The twisted pair shall be assigned as RxA and RxB
SEN Ports necessary sentences:
The basic requirements are:
IEC 61162-2 standard
ITU-T V.11 electrical properties
Speed can be configured from 1200 - 38400 bits/sec
Data bits 8, Stop bits 1, Parity none
All required as well as optional sentences are listed in the table; ensure that the connected
sensor transmits at least the required sentences (as given by IEC 61162):
Sensor
GNSS
GYRO
LOG
S4-8
Data
Reference datum
Positioning system
Time of position
Latitude/longitude
Position accuracy
Speed over ground
(SOG)
Course over ground
(COG)
RAIM indicator
Route plan
Heading
Rate of turn (ROT)
Speed over ground
(SOG)
IEC 61162-2 sentence format
Required
Optional
DTM
GNS, GLL
GGA, RMC
VBW
VTG, OSD, RMC
RMC
VTG, OSD
GBS
RTE, WPL
HDT
ROT
VBW
OSD
89-041 Section 4 Issue 5
Course over ground
(COG)
Main and AUX high speed input/output ports
The Transponder has two high-speed communication ports. The ports are identical, the same
information is input and output on these ports. All information received and transmitted on the
VHF link will be reflected as correct IEC 61162 sentences. All error messages will also be
transmitted.
The Main port will primarily be used to connect external equipment such as ECDIS and ARPA
or another navigation information display system.
The AUX port will primarily be used for connection to the “pilot plug” - a connector installed on
the bridge near the pilot operation position so that the pilot can connect a Personal Pilot Unit,
which is normally a laptop computer with the pilot’s navigational software installed.
MAIN port
Three twisted pairs, shielded, PVC sheathed.
Cable length to display
0 – 100 metres
Required dimension
0.8 mm2 each wire
Main port wire connection
The twisted pairs shall be assigned as (RxA/RxB), (TxA/TxB) and (RxCom/TxCom).
AUX port, Pilot plug
Three twisted pairs, shielded, PVC sheathed.
Cable length to display
0 – 100 metres
Required dimension
0.8 mm2 each wire
AUX/Pilot port wire connection
The twisted pairs shall be assigned as (RxA/RxB), (TxA/TxB) and (RxCom/TxCom)
In the IMO installation guide for AIS transponders, the Pilot plug is recommended to be:
• AMP/Receptacle (Square Flanged), Shell size 11, 9 pin Std. Sex 206486-1/2 or
equivalent and the termination shall be as illustrated in the table.
Transponder
1 RxCOM
RxB
RxA
TxA
TxB
TxCOM
Pilot Plug
No
Connection
Pin 6
Pin 5
Pin 1
Pin 4
No
Connection
89-041 Section 4 Issue 5
S4-9
LRF port, Long Range Function
The AIS Long-Range Function requires a compatible long-range communication system e.g.
Inmarsat-C. If this is available, a connection to the Inmarsat-C system can be made. It is
required that the Inmarsat-C input/output port can be interfaced using IEC 61162-2 and
understand the long-range sentences as required by IEC 61993.
Recommended cable for connection of LRF-port:
Three twisted pairs, shielded, PVC sheathed.
Cable length to display
0 – 100 metres
Required dimension
0.8 mm2 each wire
LRF port wire connection
The twisted pairs shall be assigned as (RxA/RxB), (TxA/TxB) and (RxCom/TxCom)
RTCM port, Differential GNSS correction input/output port
The RTCM-port is the input/output port for differential correction. The UAIS Transponder can
receive differential correction in two ways:
• The RTCM port can be connected to a DGNSS unit. The DGNSS unit will then provide
differential correction to the AIS Transponder through the RTCM port.
• Through message 17 transmitted from a base station. The RTCM port will then work as
an output port, which can supply differential correction in RTCM format to other units.
Recommended cable for connection of RTCM-port:
Three twisted pairs, shielded, PVC sheathed.
Cable length to display
0 – 100 metres
Required dimension
0.8 mm2 each wire
RTCM port wire connection
The twisted pairs shall be assigned as (RxA/RxB), (TxA/TxB) and (RxCom/TxCom)
BIIT, Built In Integrity Test relay function
The AIS requires that an alarm output (relay) be connected to an audible alarm device or to the
ships alarm system, if available.
If any failure or malfunction is detected that will significantly reduce integrity or stop operation of
the AIS, an alarm is initiated. In this case:
• An alarm message is displayed on the VDU
• The alarm BIIT relay shall is activated
• An appropriate alarm message is output via the presentation interface (Main and AUXports) and repeated every 30 seconds.
The UAIS transponder provides a relay connection, which can be selected as normal closed or
normal open contacts.
Recommended cable for connection of BIIT relay:
One twisted pair, shielded, PVC sheathed. The required cable dimension is dependent on
the current necessary to activate the alarm indicator.
S4-10
89-041 Section 4 Issue 5
Built in alarm (BIIT) relay ratings:
Absolute maximum ratings
Maximum switching current in contacts
0.25 Amp
Maximum carry current
1.20 Amp
Maximum switching voltage
175 V (d.c. or a.c. peak)
N/C
Com
N/O
Transponder
Screw terminal board
Completion of Installation
The foregoing provides the information necessary to perform the installation. Other useful
information is contained in the sections following.
The Pre-Installation Inspection Record (Section 8) should have been completed before
installation commenced.
It is most important that the installed system is not switched on at this stage. The
inspection procedures given in the Operation Manual must be completed before power is
applied.
The Warranty and Acceptance Record can only be completed after the system is configured, as
detailed in the Operation Manual.
89-041 Section 4 Issue 5
S4-11
5 - Specification
General Data:
Power
consumption:
Power supply:
Default
frequencies:
Operating
temperature:
Storage
temperature:
Environmental:
Transponder
size/weight
VDU size/weight
GPS size/weight
GNSS receiver:
GNSS antenna:
75W peak
21W average
24 VDC –10% +30%
AIS1 (CH87B)
161.975 MHz
AIS2 (CH88B)
162.025 MHz
DSC (CH70)
156.525 MHz
-15°C to +55°C
-20°C to +70°C
IEC 60945 Protected Environment
(Antennas: Exposed Environment)
308 x 416 x 93 mm, 7kg
219 x 151 x 76 mm, 1kg
∅ 115mm x 76mm, 0.25kg
Used for TDMA timing. Optionally used
for navigational information.
Patch antenna with built-in 30dB preamplifier
Optional Glonass version available
GLONAS receiver
DSC Transmitter:
Power output:
12.5 W or 2.0 W
Frequency range:
156.025 – 162.025 MHz
Antenna
50 Ω
impedance:
TDMA Receivers:
Sensitivity:
(PER) < 10% at –107 dBm (25kHz)
Frequency range:
156.025 – 162.025 MHz
Channel spacing:
12.5 or 25 kHz
Modulation:
GMSK
Data rate:
9,600 bits/s
Frequency stability: < ± 1ppm
DSC Receiver:
Sensitivity:
BER <10-4 at 107 dBm
Frequency range:
155.3 – 162.5 MHz
Channel spacing
25kHz
Modulation
1300Hz/2100Hz - FSK
Frequency stability < ± 1ppm
Serial inputs/outputs:
SENS1/2/3
IEC61162-1/2 ( input only)
IEC61162-1/2 (input & output)
DISPLAY,
LONG RANGE,
MAIN,
AUX/PILOT, RTCM
89-041 Section 5 Issue 5
S5-1
Technical Information
RS-422 interfaces
The Transponder has seven RS-422 interfaces which are all available on the Screw Terminal
board:
• 3 sensor data input ports SEN1, SEN2 and SEN3
• 2 Bi-directional input/output ports MAIN and AUX/Pilot
• 1 Bi-directional input/output port RTCM
• 1 Bi-directional input/output port LR (Long Range)
All communication interfaces are compatible with IEC-61993-2 standards.
UAIS Interface Port Specification
Port
Main
Format
RS 422
IEC 61993-2
O/P Sentence
STD
Sentence
Unused
Fields
Proprietary
Aux/Pilot
Long
Range
RTCM
Sensor 1
Sensor 2
Sensor 3
S5-2
RS 422
IEC 61993-2
RS 422
IEC 61993-2
RTCM PAPER
11-98/SC104STD
(or compatible)
RS 422
IEC 61162-1/2
RS 422
IEC 61162-1/2
RS 422
IEC 61162-1/2
STD
Sentence
Unused
Fields
Proprietary
STD
Sentence
Unused
Fields
Proprietary
STD
Sentence
Unused
Fields
Proprietary
STD
Sentence
Unused
Fields
Proprietary
STD
Sentence
Unused
Fields
Proprietary
STD
Sentence
Unused
Fields
Proprietary
!AIVDO, !AIVDM, !AIABK,
!AIACA, $AITXT, $AIALR,
$AISSD, $AIVSD
I/P Sentence
$xxSSD; $xxVSD; $xxACA;
!xxABM; !xxBBM; !xxACK;
!xxAIR; !xxVDO; $xxAIQ,ACA;
$xxAIQ,HRST; $xxAIQ,SSD;
$xxAIQ,VSD
None
None
None
None
Same as Main port
Same as Main port
None
None
None
None
!AILRF, !AILR1, !AILR2,
!AILR3
!xxLRI, !xxLRF
None
None
None
None
Binary stream as defined
in RTCM specification
Binary stream as defined in
RTCM specification
None
None
None
None
N/A
DTM, GBS, GGA, GLL, GNS,
HDT, OSD, RMC, ROT, RTE,
VBW, VTG, WPL
None
None
None
None
N/A
DTM, GBS, GGA, GLL, GNS,
HDT, OSD, RMC, ROT, RTE,
VBW, VTG, WPL
None
None
None
None
N/A
DTM, GBS, GGA, GLL, GNS,
HDT, OSD, RMC, ROT, RTE,
VBW, VTG, WPL
None
None
None
None
89-041 Section 5 Issue 5
Termination
Termination resistors are required at each end of the RS-422 connection. The effect of the
termination is to increase the input loading of that port, as seen by the talker. The figures quoted
assume that the line is correctly terminated, and allow for that extra loading.
Output drive capability
Each talker output has a capability of driving a minimum of 12 listeners on a terminated cable.
Input loading
Each receiver presents a load of approximately 12kohm to the line. Line termination resistors
are 120 ohms.
Isolation
The interface isolation is 1kV minimum throughout.
Interpretation of IEC 61162-1 sentences
GPS and Sensor Input Sentences
DTM Datum Reference
If local code is other than WGS84, then the external position source is ignored.
Field
Comment
Local Datum Code
interpret If it’s WGS84 or not
Local Datum Subdivision Code
Ignored
Lat Offset (2 fields)
Ignored
Long Offset (2 fields)
Ignored
Altitude Offset
Ignored
Reference Datum Code
Ignored
GBS - GNSS Satellite Fault Detection
If this sentence is received, the RAIM flag will be set to TRUE. It must be repeated at least once every 10 seconds.
Field
Comment
UTC Time of GGA or GNS
Checks if this field isn’t empty
Expected Error In latitude
Checks if this field isn’t empty
Expected Error in longitude
ignored
Expected error in altitude
Ignored
ID number of most likely failed satellite
Ignored
Probability of missed detection
Ignored
Estimate of bias in meters
Ignored
Standard Deviation of bias estimate
ignored
89-041 Section 5 Issue 5
S5-3
GGA - Global Positioning System Fix Data
Field
Comment
UTC Of Position
used
Latitude (2 fields)
Used
Longitude (2 fields)
Used
GPS Quality Indicator
Used,
I ,3-> Position with Low Accuracy
2,4,5 -> Position with High Accuracy
6 -> Dead Reckoning with Low Accuracy
7 -> Manual mode with low accuracy
Number of Satellites in use
OTHER -> No Position
ignored
Horizontal Dilution of precision (HDOP)
ignored
Altitude re: main sea level (2 fields)
ignored
Geoidal Separation (2 fIelds)
Ignored
Age of Diff Data
Ignored
Diff Reference Station
Ignored
GLL - Geographic Position - Latitude I Longitude
Field
Comment
Latitude (2 fields)
Used
Longitude (2 fIelds)
Used
UTC of Position
used
Status
Used
A-> Allows look on Mode indicator or
Position with Low Accuracy if Mode
indicator is empty or has strange value
V-> Disallows using the sentence
Mode Indicator
A -> Position with Low Accuracy
D -> Position with High Accuracy
E -> Dead Reckoning Mode with Low
Accuracy
M -> Manual Mode with Low Accuracy
Empty or OTHER.> using Status only
GNS - GNSS Fix Data
If the Mode Indicator is a NULL field, the sentence is ignored.
Field
Comment
UTC of Position
used
Latitude (2 fields)
Used
Longitude (2 fields)
Used
Mode Indicator
A, P> Position with low accuracy
D, R, F -> Position with high Accuracy
E -> Dead Reckoning Mode with Low
accuracy
M -> Manual Mode with low accuracy
OTHER -> No Position
Tot Number of Satellites in Use
Ignored
HDOP
Ignored
Antenna Altitude
Used in aircraft mode else Ignored
Geoidal Separation
Ignored
Age Of Diff Data
Ignored
Diff Reference Station ID
Ignored
S5-4
89-041 Section 5 Issue 5
HDT - Heading, True
The use of this sentence is talker identifier dependent.
Field
Comment
Heading
Used If Valid indicator is T
Valid Indicator
Used
OSD- Own Ship Data
Field
Comment
Heading, Degrees TRUE
Used if heading status Is ‘A’
Heading Status
Used
Vessel Course
Used as COG if reference is B,R or P
Course Reference
Used
Vessel Speed
Used as SOG if reference is B,R or P
Speed Reference
Used
Vessel Set
Ignored
Vessel Drift
ignored
Speed Units
Used to convert SOG to knots
RMC - Recommended Minimum Specific GNSS Data
Field
Comment
UTC of Position Fix
Used
Status
Used as in GLL
LatItude (2 fields)
Used
Longitude (2 fields)
Used
SOG, knots
Used
COG, degrees
Used
Date
Ignored
Magnetic Variation (2 fields)
ignored
Mode Indicator
Used as in GLL
ROT - Rate Of Turn
The rate of turn value is only used if the talker identifier is TI.
Otherwise the value is only used to determine the direction, i.e. “Moving Right” or “Moving Left”.
Field
Comment
Rate of turn
Used when status is A. The value is rounded
to the closest integer.
Status
89-041 Section 5 Issue 5
Used
S5-5
VBW - Dual Ground I Water Speed
The current position source must be external GPS, and heading must be available for the transponder to accept this
sentence.
Field
Comment
Longitudinal Water Speed
Ignored
Transverse Water Speed
Ignored
Status: Water Speed
Ignored
Longitudinal Ground Speed
Used if Status is set to A
Transverse Ground Speed
Used if Status is set to A
Status: Ground Speed
Used
Stern Transverse Water Speed
Ignored
Status Stern Water Speed
Ignored
Stern Transverse Ground Speed
Ignored
Status Stern Ground Speed
ignored
VTG - Course Over Ground and Ground Speed
Field
Comment
COG, degrees True (2 fields)
Used
COG, degrees Magnetic (2 fields)
ignored
SOG, knots (2 fields)
Used
SOG, km/h (2 fields)
Ignored
Mode Indicator
Used
AIS Specific Input Sentences
ABM - Addressed Binary and safety-related Message
Field
Comment
Total Number of Sentences
Used if in interval 1 ..9, otherwise the sentence is ignored
Sentence Number
Used if in interval 1. .total sentences, otherwise the sentence
Is ignored
Sequential Message Identifier
Used if in Interval 0..3, otherwise the sentence is ignored
MMSI of Destination
Used
AIS Channel
Used
Message Id
Used If 6 or 12, otherwise the sentence is ignored
Encapsulated Data
Used
Number of filled bits
Used
S5-6
89-041 Section 5 Issue 5
ACA - MS Regional Channel Assignment Message
The zone created of this sentence must be accepted by the channel management rules (size of zone, distance to
own position, valid channel number etc). If the zone isn’t accepted, the zone will be ignored
Field
Comment
Sequence Number
Ignored
NE Latitude (2 fields)
Used
NE Longitude (2 fIelds)
Used
SW Latitude (2 fields)
Used
SW Longitude (2 fields)
Used
Transitional Zone Size
Used
Channel A
Used
Channel A Bandwidth
Used
Channel B
Used
Channel B Bandwidth
Used
Tx/Rx Mode
Used
Power Level
Used
In Use Flag
Ignored
Time of In Use Change
Ignored
ACK - Acknowledge Alarm
Field
ID of the alarm source
Comment
Used
AIQ - Query Sentence
Field
Approved sentence formatter of data being
requested
Comment
It’s possible to query the following sentences:
ACA, SSD, VSD,HRST
AIR - AIS Interrogation Request
This sentence may be used to perform a “UTC Request”. It is always sent on both Channel A and Channel B, for the
reason that this is a multiple addressed sentence.
Field
Comment
MMSI 1
Used, may be NULL
Message Id 1.1
Used, may be NULL
Message Sub Section
ignored
Message Id 1.2
Used, may be NULL
Message Sub Section
Ignored
MMSI 2
Used, may be NULL
Message Id 2.1
Used, may be NULL
Message Sub Section
ignored
89-041 Section 5 Issue 5
S5-7
BBM - Broadcast Binary Message
Field
Comment
Total Number of Sentences
Sentence Number
Used if in interval 1 ..9, otherwise rejected
Used if In interval 1…[total number of sentences],
otherwise rejected.
Sequential Message Identifier
Used If in interval 0..9, otherwise rejected
AIS Channel
Used
Message Id
Used if 8 or 14
Encapsulated Data
Used
Number of filled bits
Used
SSD - Ship Static Data
Field
Call Sign
Name
Pos Ref A
DTE
Source Identifier
Comment
Used, may be NULL
Used, may be NULL
Used to change position reference for the position source
in use. May be NULL.
Used to change position reference for the position source
in use. May be NULL.
Used to change position reference for the position source
in use. May be NULL.
Used to change position reference for the position source
In use. May be NULL.
Used
Ignored
VSD - Voyage Static Data
Field
Comment
Type Of Ship And Cargo
Used
Maximum Present Draught
Used
Persons On-Board
Used
Destination
Used
Est. UTC of arrival
Used
Est. Day of arrival
Used
Est. Month of arrival
Used
Navigational Status
Used
Regional Application Flags
Ignored
Pos Ref B
Pos Ref C
Pos Ref D
S5-8
89-041 Section 5 Issue 5
6 - Serial interface communications protocols
As previously stated, the Transponder has seven RS-422 interfaces which are all available on
the Screw Terminal board:
• 3 sensor data input ports SEN1, SEN2 and SEN3
• 2 Bi-directional input/output ports MAIN and AUX/Pilot
• 1 Bi-directional input/output port RTCM
• 1 Bi-directional input/output port LR (Long Range)
Sensor data interface
The Sensor data input ports receive navigational data in NMEA–0183 format from the
connected sensors. The connected sensors can be a GNSS unit used for navigation, a
gyrocompass and a bottom track log. These data are processed in the UAIS unit and
transmitted as dynamic data. The data received by other stations over the VHF link form an
image of the sensor data. It is therefore vital that the sensor data are correct and that the port is
correctly configured.
The sensor ports of the UAIS Transponder understand the following IEC 61162 sentences. The
priority order of listing is left to right:
Latitude & Longitude: GNS, RMC, GGA, GLL
Speed Over Ground: VBW, RMC, VTG, OSD
Course Over Ground: RMC, VBW, VTG, OSD
Heading: HDT, OSD
Rate Of Turn: ROT, calculated from heading (HDT, OSD).
Navigational data must be received via the sensor ports within certain intervals; the maximum
intervals are listed in the table below. If NMEA sentences containing identical information arrive
at the sensor input ports, the UAIS Transponder will choose the information with the highest
priority level.
The built-in GNSS unit will under normal conditions only be used for TDMA slot timing. However
if no data are received from the external sensors, the built-in GNSS unit can be set to take over
automatically and supply navigational information for the VHF data link transmission. The
changeover between internal GNSS information use and external sensor information use
happens automatically, information received from the external sensors has priority and will
always be used when available.
List of messages received from sensors
Data type
Date
UTC
Max update
interval [s]
NMEA application
Default parameter value
Year 2000, month. 0, day 0
24:60:60
Lat, Lon
Datum
SOG,
COG
Altitude
Heading
Turn rate
RAIM
30
RMC
GNS, RMC, GGA,
GLL
GNS, RMC, GGA,
GLL
DTM
RMC, VBW, OSD
10
10
10
GNS
HDT
ROT
GBS
89-041 Section 6 Issue 4
91°00′00″ nl, 181°00′00″ wl
Not defined
102.3, 360°
4095
511
-128
Ok
S6-1
Route plans with positions are transmitted in RTE (Routes) and WPL (Waypoint location)
sentences. There is no update interval for these data, therefore the last updated Route plan will
be kept in memory until data are updated or the power is switched off, as the data are not kept
in the permanent memory.
The UAIS Transponder will only accept the RTE sentence if the “w” attribute is in its 4th field
(current Route plan). WPL sentences can be sent before or after the RTE sentence. The
Transponder supports memory space for 22 Route plan positions; inactive positions are
gradually removed from memory and replaced with new data.
Main and AUX port reception and transmission of UAIS data
Specific UAIS Transponder functions are available via the Main and AUX ports. The ports are
identical and will transmit all received VDL (VHF Data Link) messages as well as Transponder
error messages. A request for information may be sent from equipment connected to the Main
and AUX ports, ether a request for information or a request for the Transponder to carry out a
specific task. The communication protocol is text, but in non-readable sentences which contain
compressed binary data.
The Transponder Main/AUX input port can accept requests:
• To send a short text message or a small binary data array to a specified address
(MMSI) or as a broadcast message
• To send a static or voyage information request to a specified address (MMSI)
• To change AIS radio frequencies and/or parameters of access to AIS channels
(radiating power, frequency band etc.)
The Transponder Main/AUX input port can accept:
• Static and voyage related data
• Navigation or dynamic data, similar to sensors data interface
• Error situation message acknowledgement.
The Transponder Main/AUS output port can transmit:
• Notifications about every VHF message received and transmitted via AIS channels
with the VHF message included;
• Acknowledgement of requests from other stations;
S6-2
89-041 Section 6 Issue 4
7 - Warranty Registration & Acceptance Record
IMPORTANT! To validate product warranty, please fax a completed copy of this form to: McMurdo Customer Services on +44 23 9262 3824
Vessel Data
Vessel Name
Flag State
Owner / Company
Radio Call Sign
On-Board Contact
Name
Telephone
Number(s)
Superintendent’s
Name
Telephone
Number(s)
Office:
GSM:
Office:
GSM:
Installers Data
Company Name
Stamp:
Technician’s Name
Address Line 1
Address Line 2
City / Town
Province / State
Post / Zip Code
Country
Scope Of Supply
Serial No.
Part No.
Description
89-051-001A
Transponder
89-052-001A
VDU
89-021-001A
GPS Antenna
89-020-001A
VHF Antenna
903-01
Mast Bracket
903-02
Mast/Bulkhead Bkt.
89-028
Gyro Interface Unit
89-029
AC/DC Converter
89-038
Installation Kit
89-362
GPS Antenna Adapter
QTY
Location
This is an acceptance record of the installation and commissioning of the UAIS on-board
the above-mentioned vessel. 24-months Warranty is valid on signing this form.
89-041 Section 7 Issue 4
S7-1
Note: The order of the following information is that in which it appears on the VDU
General Set-up
MMSI (Maritime Mobile Service Identity)
IMO (International Maritime
Organisation)
RAIM Present (Automatically Selected)
Yes
No
Addressed message filter (Automatically
Selected)
On
Off
Media analyser mode (Automatically
Selected)
On
Off
Set-up password (Max. 8 Characters)
Max. repeating message 6, 12
4 (default)
Transmission w/o sync
Yes
No
Enable deleting regions
Yes
No
Enabled
Disabled
Extra Set-up
Internal GNSS position
Distance Internal GNSS to Bow
Metres
Distance Internal GNSS to Stern
Metres
Distance Internal GNSS to Port side
Metres
Distance Internal GNSS to Starboard
Metres
Out position to MAIN & AUX
Yes
No
Alarm Signals
Tx malfunction
On (default)
Off
Antenna VSWR exceeds limit
On (default)
Off
Rx channel A malfunction
On (default)
Off
Rx channel B malfunction
On (default)
Off
Rx channel DSC malfunction
On (default)
Off
General failure
On (default)
Off
VDU connection lost
On (default)
Off
External EPFS lost
On (default)
Off
No sensor position in use
On (default)
Off
No valid SOG information
On (default)
Off
No valid COG information
On (default)
Off
Heading lost / invalid
On (default)
Off
No valid ROT information
On (default)
Off
No TDMA synchronisation
On (default)
Off
Tx Amplifier malfunction
On (default)
Off
No own reports mode
On (default)
Off
S7-2
89-041 Section 7 Issue 4
RS-422 Set-up
Port
General
Baud rate
Stop
bits
Parity
Main
On
Off
1200
2400
4800
9600
38400
None
Odd
Even
Aux
On
Off
1200
2400
4800
9600
38400
None
Odd
Even
LR
On
Off
1200
2400
4800
9600
38400
None
Odd
Even
RTCM
On
Off
1200
2400
4800
9600
38400
None
Odd
Even
Sen 1
On
Off
1200
2400
4800
9600
38400
None
Odd
Even
Sen 2
On
Off
1200
2400
4800
9600
38400
None
Odd
Even
Sen 3
On
Off
1200
2400
4800
9600
38400
None
Odd
Even
DNSS Broadcasting Set-up
Ref. Station 0 ID
Latitude
Longitude
Ref. Station 1 ID
Latitude
Longitude
Transmission
Disable
On Channel 1
On Channel 2
Installer’s Signature
Owners Representative’s
Signature
Installer’s Name
Owners Representative’s
Name
89-041 Section 7 Issue 4
Alternate Channels
Commissioning Date
S7-3
8 - Pre-Installation Inspection Record
1. Vessel Data (
Tick appropriately )
Vessel Name
IMO Number
Flag State
MMSI Number
Owner / Company
Radio Call Sign
On-Board Contact
Telephone Number(s)
Name & Position
Office:
GSM:
Shore-based Contact
Telephone Number(s)
Name & Position
Office:
GSM:
Type of Vessel
Gross Tonnage
gt
Beam
L.O.A
Comments:
2. Installation (
Tick appropriately )
Ship’s Emergency Power Source & Location
Cable length to Transponder =
12VDC
24VDC
50Hz
110VAC
220VAC
60Hz
Optional AC to DC Converter (89-029) Required
UAIS Transponder Proposed Location
UAIS Display Proposed Location
4 Twisted Pair + Drain Cable length to Transponder
UAIS GNSS Antenna Proposed Location
RG58 Cable length to Transponder =
Optional Antenna Adapter (89-362) Required
UAIS VHF Antenna Proposed Location
RG214 Cable length to Transponder =
Optional VHF Antenna (89-020-001) Required
Optional Antenna Mast Mount (903-01) Required
Optional Antenna Mast/Bulkhead Mount (903-02) Required
UAIS Pilot Plug* Proposed Location
Cable length to Transponder =
Ship’s Ground Connection Location
Cable length to Transponder =
Ship’s Alarm Panel Location
Cable length to Transponder =
* If a Pilot Plug is fitted, a mains power supply for a PC should be made available nearby
Optional Installation Kit (89-038) Required
Comments:
89-041 Section 8 Issue 4
S8-1
Bridge Layout Drawing: Position of all parts & interface pick-off points
3. Heading Sensor(s)* (
Source
Tick appropriately )
Option A
Option B
Manufacturer
Model
Type
Output NMEA Message
GyroCompass
GyroCompass
GNSS Compass
Fluxgate Compass
Fluxgate Compass
Transmitting Magnetic Compass
Transmitting Magnetic Compass
Required:-
Required:-
IEC 61162-2 RS422
HDT
Optional:-
If no NMEA
Optional Gyro Interface
Unit (89-028) Required
GNSS Compass
ROT**
OSD
Optional:-
90:1
Phase Voltage =
Frequency =
180:1
OSD
Reference Voltage =
Reference Voltage =
Ratio -
ROT**
Synchro
Synchro
Phase Voltage =
HDT
360:1
Ratio -
90:1
Frequency =
180:1
360:1
Stepper
Stepper
Positive Step
Negative Step
Step Voltage =
Positive Step
Negative Step
Step Voltage =
Ratio -
90:1
180:1
360:1
Ratio -
90:1
180:1
360:1
Location
Cable length to
Transponder
* Heading information is a mandatory sensor input to the UAIS. A converter will be needed if the ship’s compass has no IEC61162 output.
** If a rate-of-turn indicator is available and it includes an IEC61162 output it should be connected to the UAIS
Comments:
S8-2
89-041 Section 8 Issue 4
4. Position Sensor(s)* (
Source
Tick appropriately )
Option A
Option B
Manufacturer
Model
Type
Output NMEA Message
GPS
GLONASS
Required:-
DTM
RMC
IEC 61162-2 RS422
GBS
Differential
GNS
RTE
Optional:-
GPS
GLL
WPL
GLONASS
Required:GLL
RMC
GGA
Differential
DTM
GNS
GBS
RTE
WPL
Optional:-
GGA
Location
Cable length to
Transponder
Antenna Location
External Position Source
GNSS Antenna
UAIS Internal Position
Source GNSS Antenna
Dimension
Limits
A = Distance to Bow
0- 511m
B = Distance to Stern
0 - 511m
C = Dist. to Port-Side
0 - 63m
D = Dist. to Starboard
0 - 63m
* Position information is a mandatory sensor input to the UAIS.
Comments:
5. Speed Sensor(s)* (
Source
Tick appropriately )
Option A
Option B
Manufacturer
Model
Type
Output NMEA Message
Bottom Track Log
Required:-
Bottom Track Log
VBW
Required:-
VBW
IEC 611622-2 RS422
Location
Cable length to
Transponder
* If a Bottom Track Log is available and it includes an IEC61162 output it should be connected to the UAIS.
Comments:
89-041 Section 8 Issue 4
S8-3
6. ARPA / ATA RADAR(s) (
Source
Tick appropriately )
Option A
Option B
Manufacturer
Model
Type
In/Output NMEA
Message
IEC 61162-2 RS422
Location
Cable length to
Transponder
Comments:
7. ECDIS / ECS(s) (
Source
Tick appropriately )
Option A
Option B
Manufacturer
Model
Type
In/Output NMEA
Message
IEC 61162-2 RS422
Location
Cable length to
Transponder
Comments:
8. Notes
Include comments relative to installation: Cable routing, Deck glands to be opened, Hot work required, Interfacing, Mounting, Earthing,
etc…
S8-4
89-041 Section 8 Issue 4
9 - Glossary
4S
AIS
ALM
ANT
ARPA
ATA
AtoN
AUTO
AUX
BAT
BIIT
BRG
BRILL
CG
CH
CHG
CLR
CNCL
CNS
COG
CONTR
CPA
CPU
CSE
DEL
DEST
DG
DGLONASS
DGNSS
DGPS
DISP
DIST
DSC
DTE
ECDIS
ECS
EGNOS
ENC
ENT
EPA
EPFS
EPIRB
ERR
ETA
EXT
FCC
FREQ
GLO or
GLONASS
GMDSS
GND
GNSS
GPS
GYRO
HDG
HS
HSC
I/O
IBS
ID
IEC
IMO
IN
INFO
INS
ITU-R
Ship-to-Ship & Ship-to-Shore
Automatic Identification System
Alarm
Antenna
Automatic Radar Plotting Aid
Automatic Tracking Aid
Aid to Navigation
Automatic
Auxiliary
Battery
Built-In Integrity Test
Bearing
Display Brilliance
Coast Guard
Channel
Change
Clear
Cancel
Communication, Navigation & Surveillance
Course Over Ground
Contrast
Closest Point of Approach
Central Processing Unit
Course
Delete
Destination
Dangerous Goods
Differential GLONASS
Differential GNSS
Differential GPS
Display
Distance
Digital Selective Calling
Data Terminal Equipment
Electronic Chart Display and Information
System
Electronic Chart System
European Geo-stationary Navigational
Overlay System
Electronic Navigation Chart
Enter
Electronic Plotting Aid
Electronic Position Fixing System
Electronic Position Indicating Radio
Beacon
Error
Estimated Time of Arrival
External
Federal Communications Commission
Frequency
Global Orbiting Navigation Satellite
System
Global Maritime Distress and Safety
System
Ground
Global Navigation Satellite System
Global Positioning System
Gyro Compass
Heading
Hazardous Substances
High Speed Craft
Input / Output
Integrated Bridge System
Identification
International Electotechnical Commission
International Maritime Organisation
Input
Information
Integrated Navigation System
International Telecommunications Union –
Radiocommunications Bureaux
89-041 Section 9 Issue 4
KN
L/L
LAT
LON
LOST TGT
MAG
MAN
MED
MF/HF
MID
MIN
MKD
MMSI
MOB
MP
NAV
NM
NUC
OOW
OS
OUT
POSN
PPU
PWR
RAIM
RNG
RORO
ROT
RR
RTCM
RTE
Rx
SAR
SEL
SOG
SPD
SPEC
STBD
STBY
STW
TCPA
TDMA
TGT
TPR
TRK
TSS
TTG
Tx
Tx/Rx
UAIS
UHF
UTC
VDU
VHF
VOY
VSWR
VTS
WAAS
WCV
WGS
WIG
WPT
Knots
Latitude / Longitude
Latitude
Longitude
Lost Target
Metres
Magnetic
Manual
Marine Equipment Directive
Medium Frequency/High Frequency
Maritime Identification Digit
Minimum
Minimum Keyboard and Display
Maritime Mobile Service Identity
Man Overboard
Marine Pollutant
Navigation
Nautical Mile
Not Under Command
Officer Of the Watch
Own Ship
Output
Position
Portable Pilot Unit
Power
Receiver Autonomous Integrity Monitoring
Range
Roll On, Roll Off
Rate Of Turn
Range Rings
Radio Technical Commission for Maritime
services
Route
Receive / Receiver
Search And Rescue
Select
Speed Over Ground
Speed
Specification
Starboard
Standby
Speed Through Water
Time to Closest Point of Approach
Time Division Multiple Access
Target
Transponder
Track
Traffic Separation Scheme
Time To Go
Transmit / Transmitter
Transceiver
Universal Automatic Identification System
Ultra High Frequency
Universal Time Co-ordinate
Visual Display Unit
Very High Frequency
Voyage
Virtual Standing Wave Ratio
Vessel Traffic Systems
Wide Area Augmentation System
Waypoint Closure Velocity
World Geodetic System
Wing In Ground
Waypoint
S9-1
2.
3.
Refer to previous page for illustration of
fitted clamping screw
External illumination
The VDU does not require external illumination during operation, as it has an internal backlight;
the use of on-screen keys ensures that all controls are visible in the screen backlight.
However, it is recommended that some form of illumination, possibly temporary, is provided
during installation and maintenance.
S3-10
89-041 Section 3 Issue 4
Antenna units
The UAIS Transponder has to be connected to two antennas: a VHF antenna and a GNSS
antenna.
Antenna mounting position
In accordance with IMO guidelines, antennas should be mounted in positions which, as far as
possible, minimise interaction between them. The sketch summarises the recommendations:
Vertical
separation
2m
GNSS antenna
180°
Horizontal
separation
10m
360°
VHF antenna
The VHF antenna is an important part of the receiver and transmitter system; the reception
range is heavily dependent on the antenna installation. The VHF antenna must be installed as
high as possible and free of shadow effects from the ship superstructure; effective installation
will maximise the range of the system. The antenna must also be mounted so as to achieve the
safety standards detailed on Page 3 of the Preface.
WARNING: The antenna must have sufficient bandwidth to suit the UAIS system, as otherwise
the high VSWR produced may cause the transponder to shut down. It is recommended to use
an omni-directional vertical polarised VHF antenna with a gain of 3 – 5 dBi, and a bandwidth
sufficient to maintain VSWR <1.5 over the frequency range 156 – 163MHz. A suitable antenna
is available from McMurdo as an option, part number 89-020-001.
GNSS antenna
The Transponder package contains a GNSS antenna and a mounting bracket. The mounting
bracket is designed for welding to the ship’s superstructure.
Installation of the GNSS antenna is critical for the performance of the GNSS, which is used for
timing of the transmitted time slots and for the supply of navigational information should the
main navigational GNSS fail.
1. The GNSS antenna must be mounted in an elevated position and free of shadow effect
from the ship’s superstructure
2. The GNSS antenna must have a free view through 360 degrees with a vertical angle of 5
to 90 degrees above the horizon.
89-041 Section 3 Issue 4
S3-11
3. As the received GNSS signal is very sensitive to noise and interference generated by
other onboard transmitters, ensure that the GNSS antenna is placed as far away as
possible from Radar, Inmarsat and Iridium transmitters. Ensure the GNSS antenna is free
from direct view of the Radar and the Inmarsat beam
WARNING: Screw the rod into the GNSS antenna by turning the rod. Do not turn the GNSS
antenna as this will twist the cable and damage the connection.
S3-12
89-041 Section 3 Issue 4
Weld on plate mounting of the GNSS antenna
Cable Preparation
Ensure grommet is fitted before connector
89-041 Section 3 Issue 4
S3-13
Mast assembly for GNSS antenna
Note: The GPS Antenna
Adapter, P/N 89-362, is
required to mount a GPS
antenna on the Antenna
Bracket 903-01. VHF
antennas mount directly on
the bracket.
S3-14
89-041 Section 3 Issue 4
4 - Electrical connections
This installation guide takes into account the IMO “Guidelines for installation of Shipborne
Automatic Identification System”. However both the IMO publication and these instructions must
be taken as guidance only; individual circumstances must take precedence.
This guide is concerned only with the installation of the UAIS transponder unit and does not
cover the installation of any peripheral equipment connected to the transponder. For proper
installation and connection of peripheral equipment to the transponder refer to the installation
manual for these products.
Connection
24.0 VDC power supply
GNSS antenna
VHF antenna
Display system (VDU)
Pilot plug
Alarm Relay
ECDIS (Main port)
ARPA (Main port)
Long range function
RTCM, differential GNSS info.
Position
Heading
Rate of turn
Speed and Course
Must connect
Yes
Yes
Yes
Yes
Optional
Yes
Yes (if available)
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Installation kit (optional)
This installation kit comprises the following:
Item
Power Cable, 2.5mm 2-core flex
VHF antenna cable, RG214 Coax
GPS antenna cable, RG58 Coax
Signal cable, 0.5mm 4 twist pair + drain
Cable tie
Cable marker
Crimp tool
Tape, self-amalgamating
Quantity
20m
30m
30m
60m
200
20
2 reels
Signal cable connections for UAIS Transponder
As shown in the table above, the UAIS Transponder must be or may be connected to different
types of peripheral units; these can be divided in three groups:
• Coax connection to the antennas
• signal cable connection to the sensors (GNSS, Gyro, Log)
• signal cable connections to the five-input/output ports (Main, AUX/Pilot, long-range,
RTCM, Display)
Connecting the three types of interfaces is described in detail in the following chapters.
The signal connections are all connected via a serial RS422 type interface; baud rates are from
1200 to 38400.
In some cases, particularly in retrofit installations, it may not be possible to connect the UAIS
directly to the required sensor, because some sensors do not provide the IEC 61162-2 (NMEA)
sentences required by the UAIS unit. In such cases a protocol converter is required between the
sensor and the UAIS unit. Converters are available from different manufacturers, either as direct
89-041 Section 4 Issue 5
S4-1
protocol converters or frequently as repeater instruments for the sensor. A Gyro Interface Unit,
P/N 89-028, is available from McMurdo as an optional extra.
VHF and GNSS (GPS) antenna cable connections
The VHF and the GNSS antenna cables are connected directly to the transponder through a
UHF and a TNC plug respectively.
The coax cable plugs must be attached directly to the cables; the outer insulation must not be
connected in the cable cleat but in the coax plug as illustrated below.
VHF antenna
The VHF antenna is an important part of the receiver and transmitter system; the reception
range is heavily dependent on the antenna installation. It is recommended to use an omnidirectional vertical polarised VHF antenna with a gain of 3 – 5 dB. The VHF antenna must be
installed as high as possible and free of shadow effects from the ship superstructure; effective
installation will maximise the range of the system.
In accordance with the IMO guidelines, an exclusion zone is defined around a VHF antenna;
other antennas must be mounted outside this zone.
To make sure that the transmitted and received VHF signal is not interfering with Radar signals,
other VHF transmission or power lines it is important that the connection between the VHF
antenna and the transponder is of a high quality double shielded coax cable. It is recommended
to use a RG214 cable and PL259 or N-type connectors.
If the cable has to be longer than 40 metres, it is recommended to use a cable with lower loss; a
40 metre RG214 coax cable has a signal attenuation of 3 dB at 150MHz, thus the signal
strength is reduced to half its value due to cable attenuation.
S4-2
89-041 Section 4 Issue 5
GNSS (GPS) antenna
The GNSS (GPS) antenna has to have a clear view of the sky, the objective is to see the
horizon freely through 360 degrees with a vertical view of 5 to 90 degrees above the horizon.
As the received GNSS signal is very sensitive to noise and interference generated by other
onboard transmitters ensure that the GNSS antenna is placed as far away as possible from
Radar, Inmarsat and Iridium transmitters. Ensure the GNSS antenna is free from direct view of
the Radar and the Inmarsat beam.
It is also important that the MF/HF and other VHF transmitter antennas are kept as far away as
possible from the GNSS antenna. It is good practice never to install a GNSS antenna within a
radius of 5 meters from these antennas.
The GNSS operates in the ultra high frequency band (1.575 GHz). The signal attenuation in
cables is therefore substantial and has to be taken into account when the coax cable between
the antenna and the UAIS unit is chosen. To compensate for this signal attenuation the supplied
GPS antenna includes a pre-amplifier with a gain of 36 dB.
The optimum combination of coax cable and GPS antenna gain will have a resulting installation
gain (pre-amplifier–cable attenuation) within 0 to 10 dB. The table below shows examples of
coax cables.
Cable description
RG 58
RG214
Attenuation / 100metre
70 dB @ 1.5GHz
37 dB
Maximum cable length
40 metres
90 metres
Connectors used must be TNC throughout.
89-041 Section 4 Issue 5
S4-3
Screw terminal board
The UAIS Transponder has a build in screw terminal board which makes it very easy during
installation to connect cables to the power sources, to sensors, to the VDU and to other display
units through the Main and AUX ports.
Refer to the wiring diagram, attached as an appendix, for details of connections to the screw
terminal board.
Fuse values
The main system fuse (10 amp) is located on the screw terminal board. A separate fuse (1 amp)
on the screw terminal board protects the VDU. Both power supplies are reverse polarity
protected.
Fuse description
Main system fuse
VDU system fuse
Fuse value
10.0 Amp
1.0 Amp
Part No.
99-077
99-076
Signal line termination
Signal lines may need termination by a resistor across the inputs. These resistors are
incorporated on the screw terminal board and can be switched in or out by the switches S2, S4,
S5, S6, S7, S8. The switches are identified on the Screw Terminal Board diagram on Page 6.
Note:
1. Each switch is a double unit
2. S2 and S5 each control two signals individually
3. S4, S6, S7 and S8 – both switches should be moved together
4. S3 has been deleted
S4-4
89-041 Section 4 Issue 5
Whether termination at the terminal board is required depends on how the other units are
connected, and whether any of these other units provides termination for the signal line. The
following sketch shows the principle:
There is only one talker per twisted pair; there can be several listeners. The requirement is that
terminations must be provided by the devices at the ends of the line, regardless of whether they
are listeners or the talker, and that no other device should provide a termination.
A terminal is provided for the common connection at each port on the screw terminal board;
particular care should be taken to ensure that the cable screen is connected to ground only at
the talker.
Do not connect the cable shield to ship’s ground at both ends of the cable as this may cause
ground loops and interference to the signals.
Note: For clarity, the sketch shows the devices connected to the twisted pair by spurs; in
practice, the twisted pair is looped through each device in turn.
It is good practice to use screened cables in all ship cable installations. In the transponder unit
the screen from some cable entries should be connected to ground at the entry to the
transponder unit, as shown in the table. The technique of connecting the screen is illustrated
below.
Switch
S2 (brown)
S2 (red)
S4
S5 (brown)
S5 (red)
S6
S7
S8
DISP
LR
AUX
MAIN
RTCM
SEN 1
SEN 2
SEN 3
Lines terminated by resistor
Display (VDU) port
Long Range port
Auxiliary or Pilot port
Main port
RTCM port for differential correction
Sensor 1 port
Sensor 2 port
Sensor 3 port
Connect screen
at transponder
YES
PREFERRED
PREFERRED
PREFERRED
PREFERRED
NO
NO
NO
PREFERRED means that the screen may be connected either at the remote device or at the
transponder; if no other considerations apply, connection at the transponder is recommended.
89-041 Section 4 Issue 5
S4-5
4.
5.
S3-4
89-041 Section 3 Issue 4
6.
Refer to the fold-out wiring diagram at the rear of the manual for cable details.
89-041 Section 3 Issue 4
S3-5
7.
Insert all cover screws loosely, then tighten to complete assembly.
External illumination
The transponder does not require external illumination during operation. However, some form of
illumination should be provided while installing or maintaining the transponder; this could be
portable or temporary.
S3-6
89-041 Section 3 Issue 4
UAIS VDU (Display)
UAIS VDU trunnion assembly
The VDU can be either trunnion mounted or flush mounted.
1.
FRONT
Drilling drawing
Select hole size to suit method of
fixing mountings – clear or
tapped holes.
89-041 Section 3 Issue 4
S3-7
2.
3.
Mounted dimensions:
Height:
Width:
Depth:
S3-8
150mm
270mm
120mm
(over connector)
89-041 Section 3 Issue 4
UAIS VDU flush mount assembly
A cutting template is supplied with the flush mounting kit. This template carries full fitting
instructions.
Template (reduced size)
1.
89-041 Section 3 Issue 4
S3-9
Contents
P - PREFACE ............................................................................................................................................... 5
APPLICABILITY OF THIS MANUAL ................................................................................................................... 5
SECTION UPDATE RECORD ........................................................................................................................... 5
INSTALLING THE UAIS TRANSPONDER SYSTEM SAFELY ................................................................................ 6
RADIO FREQUENCY EXPOSURE WARNING .................................................................................................... 7
1 - INTRODUCTION ..................................................................................................................................... 1
ABOUT THIS MANUAL ................................................................................................................................... 1
UAIS BUILDING BLOCKS .............................................................................................................................. 2
Options ................................................................................................................................................. 2
2 - UAIS TRANSPONDER SYSTEM ........................................................................................................... 1
SYSTEM OVERVIEW ..................................................................................................................................... 1
SYSTEM CONFIGURATION ............................................................................................................................ 2
3 - MECHANICAL MOUNTING OPTIONS AND GUIDELINES .................................................................. 1
LOCATION ................................................................................................................................................... 1
UAIS TRANSPONDER UNIT .......................................................................................................................... 1
Transponder main dimensions ............................................................................................................. 1
UAIS VDU (DISPLAY)................................................................................................................................. 7
UAIS VDU trunnion assembly .............................................................................................................. 7
UAIS VDU flush mount assembly......................................................................................................... 9
Antenna units...................................................................................................................................... 11
Antenna mounting position ................................................................................................................. 11
VHF antenna....................................................................................................................................... 11
GNSS antenna.................................................................................................................................... 11
Weld on plate mounting of the GNSS antenna .................................................................................. 13
Cable Preparation............................................................................................................................... 13
Mast assembly for GNSS antenna ..................................................................................................... 14
4 - ELECTRICAL CONNECTIONS .............................................................................................................. 1
INSTALLATION KIT (OPTIONAL) ...................................................................................................................... 1
SIGNAL CABLE CONNECTIONS FOR UAIS TRANSPONDER............................................................................... 1
VHF AND GNSS (GPS) ANTENNA CABLE CONNECTIONS .............................................................................. 2
VHF antenna......................................................................................................................................... 2
GNSS (GPS) antenna........................................................................................................................... 3
SCREW TERMINAL BOARD ............................................................................................................................ 4
Fuse values .......................................................................................................................................... 4
Signal line termination .......................................................................................................................... 4
Test and program connections ............................................................................................................. 6
Power supply ........................................................................................................................................ 7
DISP port - Display VDU...................................................................................................................... 7
SEN 1, 2, 3 ports - Sensors.................................................................................................................. 8
SEN Ports necessary sentences: ......................................................................................................... 8
Main and AUX high speed input/output ports....................................................................................... 9
MAIN port.............................................................................................................................................. 9
AUX port, Pilot plug .............................................................................................................................. 9
LRF port, Long Range Function ......................................................................................................... 10
RTCM port, Differential GNSS correction input/output port................................................................ 10
BIIT, Built In Integrity Test relay function............................................................................................ 10
COMPLETION OF INSTALLATION .................................................................................................................. 11
5 - SPECIFICATION..................................................................................................................................... 1
TECHNICAL INFORMATION ............................................................................................................................ 2
INTERPRETATION OF IEC 61162-1 SENTENCES ........................................................................................... 3
6 - SERIAL INTERFACE COMMUNICATIONS PROTOCOLS................................................................... 1
SENSOR DATA INTERFACE............................................................................................................................ 1
MAIN AND AUX PORT RECEPTION AND TRANSMISSION OF UAIS DATA............................................................ 2
7 - WARRANTY REGISTRATION & ACCEPTANCE RECORD................................................................. 1
P2
89-041 Preface Issue 5
8 - PRE-INSTALLATION INSPECTION RECORD ..................................................................................... 1
9 - GLOSSARY ............................................................................................................................................ 1
89-041 Preface Issue 5
P3
P - Preface
Applicability of this manual
This manual is valid for all hardware and software issues of the equipment described, and is kept
current by update of the appropriate section(s).
When updates are posted, any incompatibility with earlier issues of hardware and/or software will
be highlighted here.
Section update record
Section
Preface
Issue
Date
06/10/03
06/10/03
06/10/03
06/10/03
06/10/03
06/10/03
06/10/03
06/10/03
06/10/03
06/10/03
Comment
Disclaimer
Information contained in this manual is supplied in good faith, but is liable to change without notice.
McMurdo Limited disclaims any liability for consequences arising from omissions or inaccuracies in the
manuals and documentation provided with this product.
IMPORTANT: Please take time to read this manual carefully and to
understand its contents fully, so that you can install your Transceiver
correctly.
Once installed please read the Operation Manual fully to make sure you
understand how to use your new UAIS.
 2003 McMurdo Ltd.
89-041 Preface Issue 5
P5
Installing the UAIS Transponder System Safely
Installation
WARNING: Do not connect the UAIS transponder system to a mains (line) AC electrical
supply, as an electric shock or fire hazard could result.
CAUTION: Do not connect the Transponder to a DC supply exceeding 32V or reverse the
supply polarity. Damage to the transceiver can result.
CAUTION: Do not bypass the built in fuses
CAUTION: The Transponder system is designed for operation in the temperature range
-15°C to +55°C. Do not install (or use) the transponder system in environments which exceed
this range.
CAUTION: The UAIS Transponder is not water-resistant. Consequently, the Transponder
must be installed in a dry place and must be protected from direct contact with water.
WARNING: Do not install the Transponder system in a position where;
a) the controls of your vessel may be obstructed.
b) it may obstruct your normal movement around your vessel.
c) it may cause bodily injury.
d) it cannot be easily accessed in an emergency.
Use
WARNING: Certain parts of the Transponder chassis can become hot during extended
periods of operation, notably the rear panel. Avoid touching these areas when the Transponder
is operating.
WARNING: Do not dismount the cover of the Transponder before the power is switched off.
Do not touch the antenna connections when the Transponder is operating and do not touch the
antenna whip (mast) or connecting cable when the Transponder is in operation, for RF
exposure and electrical safety reasons. Refer to Radio Frequency Exposure Warning.
WARNING: Unauthorised opening of the Transponder system will invalidate the warranty.
Maintenance
CAUTION: Avoid using chemical solvents to clean the Transponder system as some
solvents can damage the case material.
NOTE: Apart from the fuses located on the Screw Terminal Board, the Transponder system
contains no user serviceable parts. Return to your Service Agent for repair if replacing the fuses
fails to make the equipment servicable.
P6
89-041 Preface Issue 5
Radio Frequency Exposure Warning
To meet the current requirements for Radio Frequency Exposure it is necessary to install the
antenna mast correctly and operate the equipment according to the instructions.
The assumptions used in this assessment are: full transmit power is used, a good antenna is
used (assumed to be a 6dBi-gain omni-directional type).
Where no suitable structure exists to achieve a 3 metre vertical separation then the antenna
base must be mounted at least 1 metre above the head of any person within range and all
persons must stay outside the 3-metre safety radius.
Failure to adhere to these limits could expose persons within the 3 metre radius to RF radiation
in excess of the MPE / SAR limits.
WARNING: The antenna mast must be mounted at a
minimum distance (vertical separation) of 3 metres from the
head of any person standing on deck to meet international safety
directives on Maximum Permissible Exposure (MPE) / Specific
Absorption Rate (SAR).
WARNING: Do not transmit when persons are closer than 3
metres to the antenna. If any person (e.g. the operator) must be
closer, then a grounded RF shield should be interposed between
that person and the antenna.
Rules of Operation
Licensing
IMPORTANT: In most countries the operation of the UAIS
Transponder is a part of the radio regulations and therefore the
ship must possess a current VHF radio telephone licence which
lists the UAIS system, and the equipment must be registered
(Call Sign and MMSI number). Please contact the relevant
authority in your country for more information.
Refer to the UAIS Transponder Operation Manual for the full operating procedure.
Good Practice
The installer is expected to be familiar with IMO SN/Circ.227 Guidelines for the Installation of a
Shipborne Automatic Identification System, and to comply with these recommendations. The
document contains detailed information which supplements the instructions in this manual.
89-041 Preface Issue 5
P7
1 - Introduction
It is recommended that the vessel should be surveyed prior to commencing any installation
work to determine the suitability of the existing on-board sensors. Section 8 of this Manual
contains a ‘Pre-Installation Inspection’ form to assist this process.
Installation of the UAIS Transponder has been designed to be as easy as possible and requires
few tools. However as the UAIS equipment forms a vital part of the ship’s navigational
equipment the installation must be performed with great care and with attention to detail.
The UAIS is considered part of the ship’s radio station and is surveyed together with the radio
installation. Surveys on Convention ships should be carried out in accordance with the rules laid
down in IMO Res. A 746(18) Survey Guidelines under the harmonised system of survey and
certification and Protocol of 1988 relating to the International Convention for the Safety of Life at
Sea 1974
For the AIS installation the following drawings shall be submitted for the survey:
• Antenna layout for the VHF and the GNSS antenna installation (prepared by the installer)
• AIS Arrangement drawing (included in this manual)
• Block diagram showing the interconnection to other units (included in this manual)
It is also necessary to complete an installation report, which shall be kept on board.
About this manual
This manual provides step-by-step guidance through the installation of the UAIS Transponder
system. Please read the manual carefully and make sure to follow the instructions.
In this manual only the installation of the UAIS stand-alone configuration will be described. If the
UAIS unit is to be connected to other display devices, refer to the manual for that display.
However the setup must always be performed with the display unit. Other display units will be
additional to the IMO required installation.
The procedures required for installation can be summarised:
1. Obtain a copy of the UAIS Pre-installation Inspection form; check that it is filled in with all the
data necessary for the installation. If the form has not been filled in, it is advisable to do it at
this stage, as this is a good way to make sure that all information is available for the
installation.
2. The available UAIS Transponder system building blocks are listed in section 1.2. Before
starting the installation ensure that everything needed for the installation is to hand.
3. Locate the places to install the different units. The templates and the drilling instructions are
provided in this manual.
4. Connect the units and the sensors as shown in this manual.
5. DO NOT SWITCH ON THE SYSTEM AT THIS STAGE. It is most important to read the
Operation Manual, which contains the commissioning information, before power is applied.
The Warranty Registration & Acceptance Record, Section 7 at the rear of this manual, must be
completed and signed when the system has been commissioned and accepted.
89-041 Section 1 Issue 4
S1- 1
UAIS building blocks
VDU Transponder/display system
Transponder Only
VDU Display Only
GPS antenna assembly
89-001-001
89-051-001
89-052-001
89-021-001
Transponder
89-051-001
Transponder unit, packed with accessories:
2off PL 239 male plug for VHF antenna interface
2off TNC male for GNSS antenna interface
4off M6 x 40mm machine screws for bulkhead mounting
Installation manual
Optional:
The Transponder unit can be delivered with a combined GLONAS/GPS receiver
VDU Display system (MKD)
89-052-001
Display unit, packed with accessories:
15 pin D-sub connector
Trunnion Mounting Bracket
4off No10 x 25mm self-tapping screws for mounting Trunnion Bracket
Flush mounting kit, including seal
Cutting template for flush mounting
Operation manual
GPS antenna assembly
GPS antenna unit, packed with accessories:
Mounting pole and mounting plate
2 off ‘U’-bolts for mounting pole and plate
Options
MT-1 Transponder
MT-1 VDU
MT-1 GPS antenna
VHF Antenna
S/S Stand-off bracket for VHF antenna
S/S Stand-off/Bulkhead bracket for VHF antenna
GPS Antenna Adapter
Gyro interface unit
AC/DC converter
Installation kit
Installation kit consists of:
2mm 2 core flex power cable
RG214 Coax VHF antenna cable
RG58 Coax GPS antenna cable
0.5mm 4-twisted pair signal cable
Cable tie
Cable marker
Crimp tool
Self amalgamating tape
S1-2
89-021-001
89-051-001
89-052-001
89-021-001
89-020-001
903-01
903-02
89-362
89-028
89-029
89-038
20m
30m
30m
60m
200
20
89-041 Section 1 Issue 4
2 - UAIS Transponder System
System overview
Universal Automatic Identification System (UAIS) is a maritime VHF-based transponder system
that provides high-speed automated communication from ship-to-ship and ship-to-shore, of
vessel, voyage and safety related data. This UAIS transponder and touch screen VDU display
system is the latest in state-of-the-art technology and is designed to meet the latest IMO
SOLAS requirements.
The UAIS transponder transmits the ship’s navigational data to other vessels, and also to shore
based VTS systems utilising various marine VHF channels. UAIS is primarily designed as a
ship-borne mobile station and consists of an integral GNSS engine used for timing, one VHF
transmitter, three VHF receivers and a computer unit. Interfacing to external GNSS used for
navigation, a VHF antenna, a gyrocompass, and an optional ECDIS or ARPA display system is
made easy by the built-in screw terminal board and the intuitive operating menu system on the
touch-screen display unit.
The VDU is designed to fulfil the minimum SOLAS requirements for system set-up and display
of the received target information (Minimum Keyboard and Display – MKD). However the large
touch screen LCD display also gives the user easy access to the menu system that controls the
system, and displays the received targets on a graphical, radar-like display.
Note: SOLAS requirements specify this equipment as Minimum Keyboard and Display (MKD).
Because all keyboard functions are implemented through the touch screen, it is more logical to
use the term VDU (Visual Display Unit); this terminology is used throughout this manual.
Compliance
This UAIS is designed to comply with current international standards and is approved in
accordance with the high standards of the European Marine Equipment Directive.
Compliances:
• MSC.74(69)
• ITU-R M.1371-1 1998
• EN 60945 4th edition, 2002; IEC 61993-2, 1st edition, 2001; IEC 61162-1, 2nd edition,
2000; IEC 61162-2, 1st edition 1998; IEC 61108
• ETS 300 113
89-041 Section 2 Issue 5
S2-1
System Configuration
The UAIS system can be installed either as part of an existing bridge installation, or as an
integrated part of a new bridge layout.
The main three configurations are:
1 a stand-alone system
2 a system connected to an ECS
3 a system integrated into the bridge ARPA and ECDIS displays.
The stand-alone installation as illustrated below meets the SOLAS requirement for an AIS
installation. This installation uses the minimum display (VDU) as the main display for setting up
of own ship’s information and for display of the received navigational information.
The VDU provides the received navigational information in a graphical mode making it very
easy to achieve a situation overview.
S2-2
89-041 Section 2 Issue 5
In the Electronic Chart System (ECS) installation the stand-alone installation and an ECS
display have been integrated. This installation meets the SOLAS requirements for an AIS
installation. The VDU will mainly be used for input of own ship’s information and a compatible
ECS capable of decoding the NMEA standard implemented for UAIS will display the received
navigational information as AIS targets. This of course will greatly enhance the use of the
received target information, as the targets now will be displayed in the environment used for
navigation of the ship.
89-041 Section 2 Issue 5
S2-3
Integrating the AIS into an integrated bridge system (IBS) will display the received AIS target
information on a compatible ARPA or ECDIS giving the navigator the optimum use of the
received navigational information. The target information is then displayed in a way that makes
it easy for the navigator to see course, speed, rate and direction of turn of other approaching
vessels.
If the ARPA or ECDIS equipment is approved for use together with the AIS transponder the
VDU may not be required in the installation. However in many cases it will be necessary to
install the VDU to meet the SOLAS requirements. In these installations the VDU will be used to
load the transponder with own ship data and the ARPA or ECDIS equipment will be used to
display the received target information.
S2-4
89-041 Section 2 Issue 5
Transponder
The Transponder consists of a backplate to which a Screw Terminal Board, the Transponder
module and the cover are attached. The Transponder is connected to the Screw Terminal
Board via ribbon cables, making the Transponder easily to disconnect without the need to
disturb the interface cables. This feature makes it very easy to interchange Transponders,
keeping repair time to a minimum.
Installation of the Transponder is made as easy as possible, as interface cables can be
connected directly to the built in Screw Terminal Board. The keyholes in the back plate make it
simple to attach the Transponder to a bulkhead.
89-041 Section 2 Issue 5
S2-5
Display
The display unit (VDU) can be tabletop or bulkhead mounted. The necessary brackets for
mounting are included and are very easy to use. A single cable connects the VDU to the
Transponder unit.
Note: SOLAS requirements specify this equipment as Minimum Keyboard and Display (MKD).
Because all keyboard functions are implemented through the touch screen, it is more logical to
use the term VDU (Visual Display Unit); this terminology is used throughout this manual.
S2-6
89-041 Section 2 Issue 5
3 - Mechanical Mounting options and guidelines
Location
The Transponder unit may be mounted in any convenient location. However, it is classed as
protected equipment and thus should be located inside in a dry environment. Normally the
transponder is located in the Radio Room. The transponder compass safe distance is 2.3m.
The VDU (MKD) should be available to the mariner at the position from which the ship is
normally operated. The VDU compass safe distance is 0.6m.
The Pilot Plug should be installed on the bridge near the pilot’s operating position.
Special considerations apply to antennas. These are outlined in the appropriate section; for
detailed advice, see the IMO Guidelines.
UAIS Transponder unit
The Transponder is attached to the bulkhead by four M6 screws. Keyhole slots in the
Transponder allow the screws to be inserted in the bulkhead, then the Transponder to be
mounted on the screws and to be self-supporting while the screws are tightened.
It is recommended to leave at least 300 mm free space below the Transponder to allow for
connection cables, as shown below right.
Transponder main dimensions
Note: When open, the transponder
chassis projects 350mm from the
mounting surface
89-041 Section 3 Issue 4
S3-1
1.
2.
S3-2
89-041 Section 3 Issue 4
3.
Drilling drawing
Select hole size to suit method of
fixing mountings – clear or tapped
holes.
89-041 Section 3 Issue 4
S3-3

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