Morcom AE1800 Dual Frequency Navtex Receiver User Manual AE 1800 REF Manual Draft

Download:
Mirror Download [FCC.gov]
Document ID	1041979
Application ID	EBln821VG+PyJII2lMNxJg==
Document Description	User Manual AE1800
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	199.14kB (2489290 bits)
Date Submitted	2008-12-10 00:00:00
Date Available	2009-02-20 00:00:00
Creation Date	2008-01-25 10:16:05
Producing Software	Acrobat Distiller 7.0 (Windows)
Document Lastmod	2008-01-25 16:59:33
Document Title	Microsoft Word - AE-1800 REF Manual-Draft.doc
Document Creator	PScript5.dll Version 5.2
Document Author:	Administrator

AE–1800 Instruction Manual
UM–AE1800–1.0
First Edition January, 2008
ALDEN
NAVTEX RECEIVER
MODEL AE–1800
INSTRUCTION MANUAL
AE–1800 Instruction Manual
WARRANTY
WARRANT Y
MORCOM International, Inc. ( MORCOM ) warrants the AE–1800 NAVTEX Receiver
and its active antenna ANT–2000 against defects in materials and workmanship for a
period of one year from the date of shipping from the factory, during which time
MORCOM will, at its option, either repair or replace the products that prove to be
defective.
Users shall ship defective products, freight prepaid, back to a specified MORCOM dealer
for warranty service.
The warranty shall not apply to defects caused by:
●
●
●
●
●
●
●
●
Misuse or incorrect usage
Static discharges / lightning strikes to the antenna or to the receiver or other types of
natural disaster
RF power from radio transmitters in excess of 30V RMS at the antenna input
Improper or inadequate maintenance by the user
Unauthorized service including modification, realignment of the receiver/antenna
User–supplied software or interfacing
Operation outside the environmental specifications listed in the manual, or
Improper installation
The above warranty applies to the original user with a proof of purchase.
Before returning the unit to your MORCOM dealer for warranty service, please obtain
MORCOM ’s return authorization.
When shipping the unit to your dealers for service, please be sure to include the
following types of information:
･
･
･
･
･
･
Serial number
Software release date and revision ( REV.) number
Power supply voltage
Installation details, including antenna height and surrounding environment
Detailed description of trouble
Valid proof of purchase from authorized MORCOM dealer
MORCOM International, Inc.
3656 Center view Drive, Unit #1
Chantill y, VA 20151 – U. S. A.
PHONE : (703)263–9305
FAX : (703)263–9308
www.morcom.com
AE–1800 Instruction Manual
IIMPORTANT NOTES
IMPORTANT NOTES
1. RADIO FREQUENCY INTERFERENCE
This equipment has been tested and found to comply with the limits for a
Class A digital device pursuant to Part 15 of FCC Rules. These limits are
designed to provide reasonable protection against harmful interference
when this equipment is operated in a commercial environment.
This equipment generates, uses and can radiate radio frequency energy and,
if not installed and used in accordance with the instruction manual, may
cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful
interference in which case the user will be required to correct the
interference at his/her own expense.
2. PURPOSE OF THIS MANUAL
The purpose of this manual is to help the user operate and maintain the
equipment. The information provided is not to be considered as a contractual
specification.
3. USER’S RESPONSIBILITY
The Alden Model AE–1800 NAVTEX Receiver obtains data transmitted
from Government facilities. MORCOM International Inc. (MORCOM)
makes no claim as to the accuracy, completeness or currency of the data
since the AE–1800 only provides a means of receiving the data. Users are
completely responsible for verifying the correctness and currency of all
data received, and MORCOM shall not be liable to users for any loss,
damage or liability caused directly or indirectly by such use. Users are
solely responsible for action taken or not taken as a result of the reception
or non–reception of data.
MORCOM International, Inc.
3656 Center view Drive, Unit #1
Chantill y, VA 20151 – U. S. A.
PHONE : (703)263–9305
FAX : (703)263–9308
www.morcom.com
AE–1800 Instruction Manual
WARNINGS
< WARNINGS >
1. INSTALLATION & OPERATING ENVIRONMENT
THE DISPLAY CABINET IS IN THE “PROTECTED” EQUIPMENT
CATEGORY AS DEFINED UNDER IEC 60945(2002), AND IS NOT
WEATHERIZED FOR OUTDOOR INSTALLATION/OPERATION. ANY
DAMAGE CAUSED DIRECTLY OR INDIRECTLY THROUGH WATER
INTRUSION IS NOT COVERED BY THE MANUFACTURER’S OR
DEALER’S WARRANTY.
2. INSTALLATION & OPERATING PROCEDURES
ANY DAMAGE CAUSED BY INSTALLING OR OPERATING THE
EQUIPMENT OUTSIDE THE SPECIFICATIONS DESCRIBED IN THIS
MANUAL IS NOT COVERED BY THE MANUFACTURER’S OR
DEALER’S WARRANTY.
CONTACT YOUR DEALER FOR WARRANTY CONDITIONS.
3 . LIABILITY
●
OPERATION
NEITHER THE MANUFACTURER NOR ITS DEALER IS RESPONSIBLE
FOR ANY LOSS OF LIFE, PERSONAL INJURY OR DAMAGE TO THE
PROPERTY RESULTING FROM THE USE OF THIS EQUIPMENT OR
FROM BEING, FOR ANY REASON, UNABLE TO EITHER OPERATE
THE EQUIPMENT OR RECEIVE INTENDED NAVTEX MESSAGES.
●
MANUAL
REASONABLE PRECAUTIONS HAVE BEEN TAKEN TO PREPARE THIS
MANUAL. HOWEVER, NEITHER THE MANUFACTURER NOR ITS
DEALER ASSUMES ANY RESPONSIBILITY FOR ERRORS OR
OMISSIONS.
AE–1800 Instruction Manual
CAUTIONS
< CAUTIONS >
1: Operational – Memory Retention Period
Do not leave the equipment switched off for more than 10 days
continuously, or all stored messages will be erased, whether
they are protected or not. Important messages you wish to
preserve should be out put to an optional printer or to a PC via
an appropriate rear panel interface connector if the unit is to be
kept turned off for extended periods of time.
2: Operational – “Memory–Full” Indication
As soon as the equipment has stored a total of 199
messages, the following caution will show up in the bottom
command / prompts line along with 3 beeps:
MEMORY FULL !
[ CLR ] TO ACKNLG .
The oldest message will then be erased from memory
automatically af ter reception of a next new message. As
soon as you notice t he above warning, be sure to
acknowledge each unread message by pressing  , and if
necessar y, press  to protect important messages you
wish to retain for permanent storage.
3: Environmental Safety – Equipment Disposal
The display cabinet and the active antenna unit are
considered environmentally safe in their original, assembled
forms. However, if either unit is to be discarded for any reason,
be sure to follow all relevant local ordinances/regulations, and
contact your dealer or the manufacturer (contact information
given below) for assistance or instructions before disposing
of it. Do not destroy the cabinet or the antenna casing.
MORCOM International, Inc.
3656 Centerview Drive, Unit #1
Chantill y, VA 20151 – U. S. A.
PHONE : (703)263–9305
FAX : (703)263–9308
www.morcom.com
AE–1800 Instruction Manual
Index
1.
Typical NAVTEX Message Screen............................................................. 1-1
1.1.
Introduction........................................................................................................1-1
1.2.
Indication of Reception and Storage of New NAVTEX Message......................1-6
2.
Control Panel Functions ......................................................................... 2-1
3.
Basic Operating Procedure....................................................................... 3-1
4.
3.1.
Introduction........................................................................................................3-1
3.2.
Turning the Equipment On /Off.........................................................................3-1
3.3.
Adjusting Screen Brightness ...........................................................................3-2
3.4.
Adjusting Keypad Backlighting Level ..............................................................3-2
3.5.
Switching First and Second Receivers ..............................................................3-2
3.6.
Scrolling NAVTEX Messages.............................................................................3-3
3.7.
Stopping Audible and Visual Alarm ..................................................................3-4
3.8.
Protecting Messages for Permanent Storage....................................................3-5
3.8.1.
Int roduction ..............................................................................................3-5
3.8.2.
Protecting Procedure ..............................................................................3-5
3.8.3.
Removing Protection Tag ......................................................................3-6
Customizing Operation via Menu System................................................... 4-1
4.1.
Introduction........................................................................................................4-1
4.2.
Accessing the Menu System ..............................................................................4-1
4.3.
Selecting Screen Background Colors ................................................................4-2
4.4.
Selecting Message Font Types...........................................................................4-2
4.5.
Turning on/off Screen Sleep Mode.....................................................................4-3
4.5.1.
Int roduction ..............................................................................................4-3
4.5.2.
Turning Sleep Mode on ............................................................................4-3
4.5.3.
Setting Times to Reduced Brightness Levels ......................................4-4
4.6.
Selecting Frequencies for Second Receiver.......................................................4-4
4.7.
Turning on/off Keypress Beep ...........................................................................4-5
4.8.
Selecting and Rejecting Transmitters...............................................................4-6
4.8.1.
Introduction .............................................................................................4-6
4.8.2.
Set ting Procedure ...................................................................................4-6
4.9.
Selecting and Rejecting Message Types............................................................4-8
4.9.1.
Introduction.............................................................................................4-8
4.9.2.
Setting Procedure ..................................................................................4-8
4.10. Searching Memory for Stored Messages ......................................................... 4-11
4.11. Selecting Output Messages .............................................................................4-12
AE–1800 Instruction Manual
Index
4.11.1. Introduction ............................................................................................4-12
4.11.2. Outpu t t ing Live NAVTEX Messages ................................................4-13
4.11.3. Outputting All Stored Messages .......................................................4-14
4.11.4. Outputting NAVTEX Messages of Specific Receiver ....................4-15
4.11.5. Outpu t ting NAVTEX Messages of Specific Station ......................4-16
4.11.6. Outputting NAVTEX Messages of Specific Message Type...........4-17
4.11.7. Outputting All Displayed NAVTEX Messages ...............................4-18
4.11.8. Outputting Specific NAVTEX Message...........................................4-19
4.12. Setting Output Ports .......................................................................................4-20
4 . 1 2 . 1 . I n t r o d u c t i o n ..........................................................................................4-20
4.12.2. Enabling / Disabling I / O Ports .............................................................4-20
4.12.3. Se lecting Communications Protocols ...........................................4-22
4.12.4. Se lecting Bit Fo rmats and Data Transfe r Rate s ......................4-23
4.13. Performing Sel f –Diagnostic Tests ..................................................................4-26
4.13.1. Introduction ............................................................................................4-26
4.13.2. Activating Self–Diagnostic Test Function.........................................4-26
4.13.3. Checking Test Results .............................................................................4-27
4.14. Turning on/off Message Alarms.......................................................................4-28
4.15. Reset ting the System......................................................................................4-29
5.
User–Level Troubleshooting ..................................................................... 5-1
5.1.
Power–Up Problems...........................................................................................5-1
5.2.
No Message Reception .......................................................................................5-2
5.3.
Message Storage Problems ................................................................................5-4
5.4.
Poor Reception ...................................................................................................5-5
5.5.
Blank Message Screen .......................................................................................5-6
5.6.
Uncontrollable Screen Brightness.....................................................................5-6
5.7.
No Beep from Keypress .....................................................................................5-6
5.8.
No Response from Keypress ..............................................................................5-7
5.9.
No Message Alarm Indication ...........................................................................5-7
5.10. No Message Alarm Output ................................................................................5-8
5.11. No External Outputs .........................................................................................5-8
5.12. External Control Problem .................................................................................5-9
6.
User–Le vel Maintenance Instructions ................................................ 6-1
6.1.
Maintenance on the Equipment Cabinet ..........................................................6-1
6.2.
Maintenance on Electrical Connections............................................................6-1
6.3.
Maintenance on The Active Antenna Unit........................................................6-2
AE–1800 Instruction Manual
Index
7.
6.4.
Self–Diagnostic Tests .........................................................................................6-2
6.5.
Recommended Spare Parts................................................................................6-3
Installatio n ............................................................................................ 7-1
7.1.
7.1.1.
General Precautions ...............................................................................7-1
7.1.2.
Mounting the Receiver Cabinet..................................................................7-1
7.2.
Installation Site Requirements ..................................................................7-3
7.2.2.
Precautions for Cabling ..............................................................................7-3
Electrical Connections .......................................................................................7-5
7.3.1.
Introduction ..............................................................................................7-5
7.3.2.
Connector Pin Assignments and Connections ....................................7-7
7.4.
9.
Antenna Installation..........................................................................................7-3
7.2.1.
7.3.
8.
Receiver Cabinet Installation............................................................................7-1
INS Port Data and Command Sentences........................................................7-15
7.4.1.
Received NAVTEX Sentence Format .................................................7-15
7.4.2.
Controlling Receiver Operation via INS (RS–422) Port ...............7-17
7.4.3.
Checking Current Settings via INS (RS–422) Por t.......................7-18
7.4.4.
Alarm Output Sentence Formats.......................................................7-19
7.4.5.
Alarm Acknowledgement .....................................................................7-20
7.4.6.
Proprietary Sentence (Switching 2nd Receiver Frequency ) ........7-20
Summarized Theory o f Ope ratio n ........................................................ 8-1
8.1.
What is NAVTEX?..............................................................................................8-1
8.2.
Operating Frequencies ......................................................................................8-1
8.3.
Service Area........................................................................................................8-1
8.4.
Error Correction.................................................................................................8-1
8.5.
NAVTEX Receiver – General.............................................................................8-2
8.6.
The AE–1800 NAVTEX Receiver ......................................................................8-2
8.7.
Operating Principle of AE–1800........................................................................8-3
Spe cificatio ns ......................................................................................... 9-1
10. List of Alarms ...................................................................................... 10-1
10.1. Message Alarms ...............................................................................................10-1
10.2. Operational Alarms..........................................................................................10-1
11. List o f Abbre viations ........................................................................... 11-1
12. User Settings To Be Stored in Non–Volatile Memory ............................ 12-1
13. List of Components To Be Shipped ......................................................... 13-1
AE–1800 Instruction Manual
Typical NAVTEX Message Screen
1.
Typical NAVTEX Message Screen
1.1.
Introduction
The illustration below represents a typical NAVTEX message screen, showing a new
message received on the first ( 518 kHz) receiver. A similar screen will show up when
the equipment is switched to receive a second receiver (490 kHz or 4209.5 kHz) message.
A brief description of on–screen indications is given below and in the following pages.
Figure 1-1 Typical NAVTEX Message Screen ( First Receiver Page )
①
⑤
⑥
②
③
④
1ST RCVR MSG (12 /1 2)  
STANDBY
JD13
INEW MESSAGEIIALARM ! II
011400 UTC JAN
POLISH SAR INFO 003
SOUTHEASTERN BALTIC
FISHING VESSEL OF UNIDENTIFIED REGISTRY
IS ON FIRE AND IS IN DANGER OF SINKING IN
POSITION 55–22.23N 14–40.37E.
ALL SHIPS IN THE VICINITY ARE URGENTLY
REQUESTED TO RUSH TO THE SITE AND OFFER
ASSISTANCE.
NNNN
⑨
⑩
⑦
⑧
⑪
STORED (CER= 00%)
⑫
⑬
MORE NEW MSG LEFT !
① Indication of Receiver in Use to Display Current Messages
First receiver, 518 kHz
･
1ST RCVR:
･
2ND RCVR 1 : Second receiver, 490 kHz or 2ND RCVR 2 : 4209.5 kHz
The two receivers can be switched by pressing  or by means of a software
command from an IBS/INS terminal via the rear panel RS – 422 connector ( INS
port). See paragraph 7.4 for details.
② Message No. and Total No. of Messages Stored
The message number of the currently displayed message along with the total
number of stored messages is indicated in the following format:
Examples:
・ 12/12 :
・ 1/12:
Message #12 ( newest message ) of 12 messages stored
Message #1 ( oldest message ) of 12 messages stored
(continued on next page )
AE–1800 Instruction Manual
Typical NAVTEX Message Screen
1.
Typical NAVTEX Message Scree n ( continued – 2 / 6 )
1.1. Int roduction ( continued – 2 / 5 )
③ Message Scrolling Keys
The keys that can be used to manually scroll messages across the current screen
are indicated.
・  :
・  :
 /
Message–by–message scrolling by pressing /
Line–by–line scrolling by pressing
NOTE: When a type–D message (SAR, piracy and armed robbery information) is
received on either the first or second receiver, automatic scrolling will be disabled until
the user acknowledges the message with  or with a software command from an
IBS/INS terminal via the rear–panel RS – 422 connector. See paragraph 7.4 for details.
④ Receiver Operating Status Indication
The current status of receiver operation is indicated here.
・ ABORTED :
The receiver has failed to lock onto the current transmission,
due, for example, to weak signal level or noise interference.
No message will be displayed or stored.
・ ACQUIRING :
・ LOCKED :
・ RCVNG MSG:
・ STANDBY :
NOTE: Signal propagation conditions change greatly with time.
You might not be able to receive a signal in the daytime that can
be received at night; this is normal and should not be considered
as a sign of receiver malfunction.
The receiver is currently in the process of locking onto the
start of the current message transmission.
The receiver has locked onto current NAVTEX transmission,
allowing a message to be received. As soon as the equipmet
starts receiving the message, this indication will be replaced
by RCVNG MSG.
The receiver is properly receiving a message after locking
onto current transmission. This blinking indication will stay
until the end–of–message code NNNN (⑩) is received.
NOTE: Whether to display or output the message to external
devices depends on the character error rate (CER, ⑫) and on
the selection/rejection settings to be made via the procedure in
paragraph 4.8.
The receiver is idling, waiting for a NAVTEX message
transmission to begin. Most stations transmit messages every
4 hours.
⑤ Operating Status Line
The current status of receiver operation, text scroll keys, etc. are indicated here.
Examples:
・ 1ST RCVR MSG : Message received on the first receiver is currently displayed.
・ 2ND RCVR MSG : Message received on the second receiver (490 or 4209.5 kHz)
is currently displayed.
・  :
Message can be scrolled line by line by pressing
・ STANDBY :
Receiver is idling, waiting for a NAVTEX message
transmission. See ④ above for details.
 
(continued on next page )
AE–1800 Instruction Manual
Typical NAVTEX Message Screen
1.
Typical NAVTEX Message Screen ( continued – 3 / 6 )
1.1. Introduction ( continued – 3 / 5 )
⑥ Message Identification ( Message ID)
The ID of the currently displayed message is shown here. A red–colored ID
represents a warning message. A message ID consists of the following elements:
station ID, message type, and message serial number, as in the following example.
Figure 1-2 NAVTEX Message ID Format – Example
J D 1
*1 Transmitter ID
( B1 character )
*3 Message serial number
( B3 & B4 characters )
*2 Message
Type
( B2 character )
*1: ID of the transmitter from which the message was received.
Examples :
J in NAVAREA Ⅰ: Gislövshammar, Sweden
F in NAVAREA Ⅳ: Cape Cod /Boston, U.S.
I in NAVAREA Ⅱ: Las Palmas, Spain
* : Type (category) of this message ( subject indicator)
Examples :
A : Navigational warnings
B : Weather warnings
D : Search and rescue, piracy and armed robbery information
*3: Serial number of this message
Each message within the same category group is allocated a serial number between
00 and 99 by each transmitter. A message with number 00 is always received on
each transmission regardless of rejection settings, and will be displayed and stored
in memory.
⑦ Alarm Tag IIALARM !III
This tag represents a visual alarm and is turned on when a NAVTEX message of
one of the following types has been received.
･ Type–A Message: Navigational warning ( i nitially disabled)
･ Type–B Message: Weather warning ( initially disabled)
･ Type–D Message: Search and rescue, piracy and armed robbery information. All text
characters will be displayed in red to distinguish it from other
type alarm messages.
･ Type–L Message: Additional navigational warning ( initially disabled )
NOTE: When a type–D message has
been received, an audible alarm will
also be turned on, beeping at approx.
1–second intervals. To silence the
alarm sound, press  . A second
keypress resets the alarm and
removes the alarm tag.
< CAUTION >
Silencing the audible alarm constitutes
your acknowledgement of the current
alarm message.
The alarm for the message types A, B and L is initially disabled. It can be enabled
via SYSTEM MENU – 9:TURN ON / OFF MESSAGE ALARM. See paragraph 4.14 for details.
(continued on next page )
AE–1800 Instruction Manual
Typical NAVTEX Message Screen
1.
Typical NAVTEX Message Screen ( continued – 4 / 6 )
1.1. I n t r o d u c t i o n ( continued – 4 / 5 )
⑧ New Message Tag IINEW MESSAGEII
This indication ( tag) shows that the currently displayed NAVTEX text is a new
message that you have not yet read or acknowledged.
To acknowledge it, simply press

or
 , turning the tag off.
If two or more new messages have been left unread, the following caution message
will be displayed at the screen bottom, prompting you to read them. Press 
again to display, or scroll the text up to, the next one by pressing
 
MORE NEW MSG LEFT !
The NEW MESSAGE tag for the current message will be automatically removed 24
hours after its reception, if it is left unacknowledged ( i.e. if  is not pressed).
⑨ NAVTEX Message
If message text exceeds the screen display area, you can scroll it line–by–line by
. Holding down either key accelerates the scroll.
pressing
 

( for message–by–message scrolling).
To read other messages, press
Holding down either key accelerates the scroll.
Type–D messages ( S A R , piracy and armed robbery information) will be displayed
in red. A new type–D message will remain fixed on screen until:
･ it is acknowledged by pressing  or by means of a *1 software command
through an INS / IBS terminal interfaced to the rear panel RS– 422 connector, or
･ another new type–D message is received.
*1: See paragraph 7.4.5 for details.
NOTE: Forced carriage return

When the number of characters in a line exceeds 40, an internally generated carriage return
symbol, shown above, will be automatically inserted in the 40th character position to divide the
last word, forcing the rest of the characters in the word to shift to the top of the next line. This
symbol will be replaced by an underscore ( _ ) ( hex 5F ) when it is printed or output to an IBS / INS
device via the RS–422 port.
⑩ End–of–Message Indication NNNN
The appearance of these four successive N characters indicates the end of the
currently displayed NAVTEX message.
NOTE: Some messages including those from Chinese stations, end with NN ( 2 Ns)
instead of NNNN ( 4 Ns), in which case, the equipment will consider that the
transmission has not ended properly, and will not, therefore, display and store such a
message, or will append it to a new message, if received within a specified period of time,
and display the two messages combined. The RS–232C port (printer port) may be set to
output such messages. See paragraph 4.9 for setting instructions.
(continued on next page )
AE–1800 Instruction Manual
Typical NAVTEX Message Screen
1.
Typical NAVTEX Message Screen ( continued – 5 / 6 )
1.1. Introduction ( continued – 5 / 5 )
⑪ Indication of Message Storage Status
This indication shows whether or not the displayed NAVTEX message has been
stored in the internal non–volatile memory.
･ *1 STORED:
The message has been stored.
When message reception has been completed with a character error rate ( CER,⑫ )
of 33% or less, the received NAVTEX message together with its ID will be displayed
and stored in memory, making it possible to recall it onto the screen at a later time.
If the same message is received with a lower CER on the next transmission, the
previously stored message will be replaced with the new one. However, if the first
message was received with a CER of 4% or less, message replacement will not take
place on subsequent reception with a lower CER.
When the CER exceeds 33%, the message and its ID will not be displayed and will
not be stored in memory, allowing a retransmission of the same message to be
displayed and stored.
*1: If the message selection/rejection settings are made so that a particular message
type is rejected from storage, this indication will not be displayed regardless of a CER
being smaller than 33%. See paragraph 4.9 for the related setting instructions.
⑫ Character Error Rate (CER) Indication
CER is the percentage ratio of the total number of corrupt characters represented
by asterisks (*) to the total number of characters received in a message, including
control codes ( sync. signal, carriage returns, line feeds, letter/numeral shift, etc.).
If a message is received with a CER equal to or greater than 33%, the message will
not be displayed and stored in memory, allowing the same message to be received
again on its next transmission. No CER reading will be available on the current
transmission.
See paragraph ⑪ for more information on CER.
⑬ Message Prompt Line
This line indicates the receiver’s response for the user’s keypress or displays
prompts related to reception of new or alarm NAVTEX messages on the first or
second receiver, or related to message storage, like the examples below.
･
･
･
･
･
･
ALARM MESSAGE RECEIVED ON 2ND RCVR
MORE UNREAD ALARM *2 MSG LEFT
2ND *3 RCVR RECEIVED NEW MSG
MORE NEW MSG LEFT
STORAGE LIMIT IS REACHED
MEMORY FULL ! *4 [ CLR ] TO *5 ACKNLG.
*2 MSG = MESSAGE, *3 RCVR = RECEIVER
*4 [ CLR ] =

*5 ACKNLG = ACKNOWLEDGE
AE–1800 Instruction Manual
Typical NAVTEX Message Screen
Typical NAVTEX Message Screen ( continued – 5 / 5 )
1.
1.2.
●
Indication of Reception and Storage of New NAVTEX Message
Indicating Reception of New Message – First Receiver
The equipment visually indicates the reception of a new NAVTEX message by
attaching a tag (i NEW MESSAGE i ) to the message ID, as in the example below.
The tag will be turned off 24 hours after reception or when you press  .
Figure 1-3 First Receiver Receiving New NAVTEX Message – Example
Tag indicating reception of new message
Message ID
NA28
INEW MESSAGEI
CCGD5 BNW 328–06
NJ – COASTAL – SURFACE AND SUB–SURFACE
DATA BUOY DEPLOYMENT
1. 60 SUBSURFACE AND 2 SURFACE MOORINGS
WILL BE DEPLOYED ON LINES EXTENDING FROM
39–09.6N, 073–22.05W TO 38–55.56N, 072–50.76W
AND OUT TO ･････････････････････････････････
･･････････････････････････････････････････････
･･････････････････････････････････････････････
｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡｡
NNNN
STORED ( CER= 00% )
End–of–message indication
Successful storage indication
●
Character error readout
Indicating Reception of New Message – Second Receiver
When the first receiver message screen is currently showing, the reception of a new
message on the second receiver is indicated with message “ 2ND RCVR RECEIVED
NEW MSG ” blinking in the prompt line at the screen bottom, as in the example
below. To read it, switch to the second receiver page by pressing  .
Figure 1-4 Indication of New Message Reception on Second Receiver – Example
..................................................
NNNN
STORED ( CER= 00% )
2ND RCV R RECEI VE D N E W M S G
This message blinks.
●
Indicating Successful Storage of New Message
When a new NAVTEX message has been received with a character error rate (CER)
of 33% or less, the message will be displayed and stored in non–volatile memory
together with its ID; this condition is displayed with indication “ STORED ” at the
end of the message together with its CER reading, as in the example above.
If the CER exceeds 33%, the currently received message will not be stored and will
not be displayed. No CER reading will be available.
AE–1800 Instruction Manual
Control Panel Functions
2.
Control Panel Functions
The figure below shows the control panel of the equipment. A summary description of
the functions the keys provides is given below and in the following pages.
Figure 2-1 Control Panel
①
③
⑤


②
④
① Screen Brightness Key
⑦
⑨



⑥
⑧
⑩
⑫
⑪
⑬
⑮


⑭
⑯
⑰

Repeated pressing of this key adjusts the screen brightness in a total of 8 steps
including a completely dark level. The last used level is stored in memory. The
brightness level returns to its maximum on next power–up when the equipment is
switched off with the level set to its minimum. See paragraph 4.5 for related
information.
② Power Key
 – 1/2
This key turns the unit on/off. A
first keypress turns it on,
displaying an opening message
like the example at right for
approximately five seconds.
To turn the unit off, press and
hold down  for 2–3 seconds
until a power–off countdown
window shows up as illustrated
at right, indicating that a
power–off sequence has started.
Keep on pressing the key until all
five bars have disappeared, and
then release it to completely
switch the unit off. This delayed
action
helps
prevent
an
accidental shutoff and resultant
loss of data.
Figure 2-2 Opening Message – Example
WELCOME TO NAVTEX RECEIVER
SOFTWARE VER. 1.0 REV_1.1A1
DATE OCT 06, 2007
Version and date information is an example.
Figure 2-3 Power–Off Countdown Window
SHUTTING DOWN NAVTEX RECEIVER
WAIT
!–––––
Countdown bars
Releasing the key with at least one countdown bar showing cancels the power–off
sequence.
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Cont rol Panel Functions ( continued – 2 / 1 2 )
② Power Key
 – 2/2
After the unit is switched on, the opening message window will be replaced with
another window listing the current settings of receiver control parameters, as in the
example below.
Figure 2-4 Current Settings of Receiver Control Parameters – Example
CURRENT SETTINGS
1: FIRST RECEIVER:
REJECTED STATIONS:
REJECTED MESSAGE TYPES:
2: SECOND RECEIVER:
REJECTED STATIONS:
REJECTED MESSAGE TYPES:
3: KEYPRESS BEEP:
4: DISABLED MSG ALARMS:
5: RECEIVING MSG OUTPUT:
6: 2ND RECEIVER FREQ.:
7: DISPLAY SLEEP MODE:
NO P Q R S T U W X Y
NO P Q R S T U W X Y
ON
A B L
OFF
4 90KHZ
5 MIN./ 30MIN.
IPRESS [ CLR] OR [ ENT] TO START.
Blinks in reverse video.
The above list will stay on for approximately 20 seconds before the message screen
shows up, replacing it automatically.
To turn the list off immediately, press
③ Keypad Dimmer Key

or
.

Pressing this key adjusts the keypad backlighting level in a total of 8 steps
including a completely switched–off level.
The last used level will be stored in memory. When the equipment is switched off
with the level at its minimum, the keypad will be lit at the highest level at next
power–up time.
④ Audible Monitor Key

Pressing this key allows you to audibly monitor the reception of a NAVTEX
transmission. To monitor the sound continuously, hold down the key. As soon as it is
released, the audible output is turned off.
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Control Panel Functions ( continued – 3 / 1 2 )
⑤ Screen Page Key

Pressing this key switches the message screen between the first receiver screen
page and the second receiver screen page.
For example, if the current screen is currently showing the first receiver page ( i.e.
518 kHz NAVTEX message display), a first keypress changes the display to show
the second receiver page ( i.e. 490 kHz /4209.5 kHz message display). A second press
changes it back to the first receiver page. See paragraph 3.5 for more details.
⑥ Alarm Stop Key

The equipment will alarm you audibly through a built–in buzzer and visually by
turning on an alarm tag ( iALARM ! I ) in reverse video on the message screen upon
reception of an important NAVTEX warning ( type–D message, for example). A
type–D message text will be displayed in red. See paragraph 3.7 for more details.
Pressing this key silences the
audible alarm. A second key–
press removes the alarm tag,
resetting the alarm. Observe the
CAUTION at right.
< CAUTION >
Silencing the audible alarm constitutes
your acknowledgement of the current
alarm message/condition.
If other types of warning messages ( e.g. type–A messages) were received in addition
to a D–type message, pressing the key silences the audible alarm for all warnings
at a time.
A new type–D message received on either the first receiver or second receiver will
remain fixed on screen and will not automatically scroll until:
･ this key is pressed *1twice to acknowledge it,
･ the user remotely *2acknowledges it from an IBS / INS terminal connected to the
rear–panel RS–422 connector ( INS port ), or
･ another new type–D message has been received on either receiver.
If more alarm messages are left unread in memory, a next alarm message will be
displayed after the above keypress. However, no audible alarm will be available.
*1: A first keypress turns off the alarm sound only.
*2: See paragraph 7.4 for information on the command format.
⑦ Up Key

･ When a NAVTEX message is being displayed, pressing this key scrolls the
message screen downward one line at a time, allowing you to view message lines
hidden beyond the screen’s upper text display limit. When the newest message
( e.g. 200 / 200 ) is reached, a further keypress displays the oldest one ( e.g. 1 / 200 ).
Holding down the key accelerates text scrolling.
･ When a menu is displayed, pressing this key selects vertically listed options
upward. Press  after highlighting the desired option.
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Cont rol Panel Functions ( continued – 4 / 1 2 )
⑧ Left Key

･ When a NAVTEX message is being displayed, a single press of this key scrolls the
message text by one message forward timewise, displaying a newer message.
･ Holding down the key accelerates the scroll.
When the screen is showing the newest message ( e.g. 200 / 200 ), a further
keypress returns you to the oldest message ( e.g. 1 / 200 ).
･ When a currently displayed menu has horizontally listed options, pressing this
key selects (i.e . highlights) those options in a leftward direction. Be sure to press
 after highlighting the desired option.
⑨ Enter Key

･ When a NAVTEX message is being displayed, pressing this key displays the
newest message ( e.g. 200/200).
･ When a menu is being displayed, pressing this key:
- completes the selection of a desired option,
- executes the function selected or,
- finalizes the current setting.
⑩ Down Key

･ When a NAVTEX message is being displayed, pressing this key scrolls the
message screen upward one line at a time, allowing you to view message lines
hidden beyond the lower text display limit of the screen.
･ When the screen is showing the oldest message ( e.g. 1/ 200), further keypress
returns you to the newest message (e.g. 200/ 200).
･ Holding down the key accelerates the scrolling.
･ When a menu is being displayed, pressing this key selects ( highlights) vertically
listed options downward. Be sure to press  after highlighting the desired
option.
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Control Panel Functions ( continued – 5 / 1 2 )
⑪ Message/Station Selection Key
 – 1/2
･ When the screen is showing a NAVTEX message, pressing this key displays a
summary list of the transmitter IDs and message types that are currently
selected as in the example below so that the equipment displays and stores
messages of the selected types from the selected transmitters.
Figure 2-5 List of Currently Selected Stations and Message Types – Example
< FIRST RECEIVER >
MEM. SELECTED STATIONS :
A B C D E F G H I J K L M
N O P Q R S T U V W X Y Z
MEM. SELECTED MESSAGES:
J K L
A B C D E F
MEM : to be stored in memory
SECOND RECEIVER 1: 490 kHz
SECOND RECEIVER 2: 4209.5 kHz
< SECOND RECEIVER 1 >
MEM. SELECTED STATIONS :
A B C D E F G H I J K L M
N O P Q R S T U V W X Y Z
MEM. SELECTED MESSAGES:
A B C D E F
J K L
All transmitters and most of major message types are initially selected so that
the equipment will display and store those selected types of messages from all
stations in the coverage area.
A particular station or a particular message type can be rejected from display or
storage via the menu system. Detailed instructions are given in paragraph 4.8.
 → SYSTEM MENU
→ 4:MAKE SEL / REJ SETTING → 1 / 2 / 3 → 1 / 2 →
To turn off the above lists, press

.
NOTE: Message types A ( navigational warning), B ( meteorological warning), D ( SAR,
piracy and armed robbery information) and L ( additional navigational warning) are
always selected for storage in memory and output to the I / O ports, and cannot be
rejected due to the relevant IMO resolutions and IEC requirements.
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2. Cont rol Panel Funct i ons ( continued – 6 / 1 2 )
⑪ Selection/Station Key
 – 2/2
･ When option “ 4:MAKE SEL / REJ SETTING ” on the SYSTEM MENU is currently
accessed for selection/rejection settings, this key selects the station or message
type you specify for display and storage, and/or output to the I/O ports (RS–232C,
RS–422 and I/O DATA connectors). An example of station selecting procedure is
illustrated below.
Currently selected stations (SL ) are shown in green. Rejected stations (RJ) are
in red.
 

and
, highlight first the ID of the station of which
Using
messages you wish to display, store, and/or output to the I/O ports, and then,
specify the target device ( ME for memory, PR for RS–232C & I/O DATA, IN for
RS–422). To select the currently rejected (RJ ) setting on each device, press  .
See paragraph 4.8 for details.
Figure 2-6 Selecting Stations – Example

SYSTEM MENU
Target Devices:
ME: memory
PR: printer port ( RS–232C )
I N : INS port ( RS–422 )
4:MAKE SEL / REJ SETTING
1:SYNCHRONIZ E BOTH RECEIVERS
2:FIRS T RECEI V ER ( 518KHZ )
3:SECOND
ER
2:FIRSTRECEI
RECEIVVER
1:STATIONSI
2:MESSAGES
1: STAT ION S
A:
B:
C:
D:
E:
F:
G:
H:
I:
ME PR
IN
SL
SL
RJ
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
RJ
SL
SL
SL
SL
SL
SL
( M Em o r y
J:
K:
L:
M:
N:
O:
P:
Q:
R:
PR in te r
ME PR
IN
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
IN s )
ME PR
S: SL
T: SL
U: SL
V: SL
W: SL
X: SL
Y: SL
Z: SL
SL
SL
SL
SL
SL
SL
SL
SL
IN
SL
SL
SL
SL
SL
SL
SL
SL
Station C is currently rejected from display and storage (ME),
and from output to printer ( PR). Its messages are to be output
to the INS ( IN ) terminal alone. To select it to display and store
its messages, press  after specifying ME using /.
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Cont rol Panel Functions ( continued – 7 / 1 2 )

⑫ Right Key
･ When a NAVTEX message is being displayed, a single press of this key scrolls the
message text by one message backward timewise, displaying an older message.
See NOTE below.
･ When the oldest message ( e.g. 1 / 200 ) is currently displayed, further keypress
returns you to the newest message ( e.g. 200 / 200 ).
･ Holding down the key accelerates the scroll.
･ When a menu has horizontally listed options, pressing this key selects
( highlights) those options in a rightward direction. Be sure to press  after
highlighting the desired option.
⑬ New Message Key

– 1/2
･ When a new NAVTEX message has been received and stored, a NEW MESSAGE
tag is automatically attached to the message ID as in the example below to
indicate that the message is new.
Figure 2-7 Indication of Reception of New Message
NEW MESSAGE Tag
NJ91
INEW MESSAGEI
STAKDBFE/ / 211745Z AUG 06/ /
DGPS BNW 736–06
ANNAPOLIS, MD DGPS BROADCAST SITE IS
UNMONITORED AS OF 211704Z AUG 06. NAVCEN
IS UNABLE TO VERIFY SIG INTEGRITY UNTIL
･･･････････････････････････････････････････････････
･･･････････････････････････････････････････････････
･･･････････････････････････････････････････････････
NNNN
STORED (CER= 00%)
MORE NEW MSG LEFT !
More new messages are left unread.
Scroll to next one by further pressing
 or  /  and /.
･ Pressing  removes the tag from the message ID, meaning that you have
acknowledged its reception.
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Cont rol Panel Fu n c t i o ns ( continued – 8 / 1 2 )
⑬ New Message Key

– 2/2
･ The new message tag will be automatically removed 24 hours after reception of
that message, even if you forget to acknowledge it.
< CAUTION >
Removal of the iNEW MESSAGEi tag
constitutes your acknowledgement of
the currently displayed new message.
･ The above example shows that a number of new messages have been received, as
indicated by the bottom line prompt “ MORE NEW MSG LEFT !.” Pressing 
will recall the next new message onto the screen It can also be displayed by
pressing
( fo r line–by–line viewing) or
( for message–by–
message viewing).
 

･ If no additional new message is left in memory, further keypress will cause the
following message to show blinking for a few seconds at the bottom, indicating an
operational error.
Figure 2-8 Indication of All New Messages Being Acknowledged
NNNN
STORED (CER= 00%)
NO NEW MSG LEFT !
No additional new message is left in memory
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Cont rol Panel Functions ( continued – 9 / 1 2 )
⑭ Message/Station Rejection Key

– 1/2
･ When a NAVTEX message text is currently being displayed, pressing this key
turns on a summary list of the transmitter IDs and message types that are
rejected ( deselected) via the *1 menu system on both the first and second
receivers as in the example below, and not to be displayed and stored.
Figure 2-9 List of Currently Rejected Stations and Message Types – Example
< FIRST RECEIVER >
MEM. REJECTED STATIONS :
MEM. REJECTED MESSAGES:
N O P Q R S T U W X Y
MEM: not to be stored in memory
SECOND RECEIVER 1: 490 kHz
< SECOND RECEIVER *21 >
SECOND RECEIVER 2: 4209.5 kHz
MEM. REJECTED STATIONS :
MEM. REJECTED MESSAGES:
N O P Q R ST U W X Y
*1:
 → SYSTEM MENU
→ 4:MAKE SEL / REJ SETTING
Detailed instructions are given in paragraph 4.8.
*2: SECOND RECEIVER 1 = 490 kHz, SECOND RECEIVER 2 = 4209.5 kHz
･ The following message types are always selected; they cannot be rejected due to
the relevant *3IMO resolutions and *4IEC regulations related to navigational
safety:
- Type A : Navigational Warning
- Type B : Meteorological Warning
- Type D : SAR ( search and rescue ), Piracy and Armed Robbery Information
- Type L : Additional Navigational Warning
*3 : IMO Resolution MSC.148 (77) *4 : IEC 61097–6 Ed.2
･ A message with serial number 00 will always be displayed and stored despite
rejection settings.
･ To turn off the above lists, press either  or
off and displays the SYSTEM MENU instead.
 . Pressing 
turns the lists
( continued on next page )
AE–1800 Instruction Manual
Control Panel Functions
2.
Control Panel Functions ( continued – 1 0 / 1 2 )

⑭ Message/Station Rejection Key
– 2/2
･ When option “ 4:MAKE SEL / REJ SETTING ” on the SYSTEM MENU is currently
accessed for selection/rejection settings, this key rejects the user–specified station
or message type so that its messages are not to be displayed and stored in
memory, not to be output to the printer port (RS–232C) or not to be output to the
INS port (RS–422).
An example of station rejecting procedure is illustrated below. The status of each
target device is either SL ( selected) or RJ ( rejected).
Figure 2-10 Rejecting Stations – Example

SYSTEM MENU
Target Devices:
ME: memory
PR: printer port ( RS–232C )
I N : INS port ( RS–422 )
4:MAKE SEL / REJ SETTING
1:SYNCHRONIZ E BOTH RECEIVERS
2:FIRS T RECEI V ER ( 518KHZ )
3:SECOND
ER
2:FIRSTRECEI
RECEIVVER
1:STATIONSI
2:MESSAGES
1: STAT ION S
A:
B:
C:
D:
E:
F:
G:
H:
I:
ME PR
IN
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
( M Em o r y
J:
K:
L:
M:
N:
O:
P:
Q:
R:
PR in te r
ME PR
IN
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
IN s )
ME PR
S: SL
T: SL
U: SL
V: SL
W: SL
X: SL
Y: SL
Z: SL
SL
SL
SL
SL
SL
SL
SL
SL
IN
SL
SL
SL
SL
SL
SL
SL
SL
Station C is selected so that its messages are to be displayed
and stored in memory (ME), and to be output to printer ( PR) and
INS ( IN) terminal. To reject C so as not to display and store its
messages, press  after specifying ME using /.


･ Using
and
/ , select the station ID first, specify the target device
( ME, PR or IN) to which you do not wish to store or output the station’s messages,
and then press  . Make sure that the status of the device changes from S L to
R J . For instance, when ME is set to the RJ status, any messages from that
station will not be displayed or stored.
･ While other menu is being displayed, pressing this key produces three quick
beeps to indicate an operational error.
( continued on next page)
AE–1800 Instruction Manual
Control Panel Functions
2.
Control Panel Functions ( continued – 11 / 1 2 )
⑮ Menu Key

･ Pressing this key opens a menu termed “SYSTEM MENU,” as shown below, to
customize the operation to suit your specific needs, to test the receiver
performance off–line, or to reset the entire system to the initial settings. See
paragraphs in section 4 for greater details.
Figure 2-11 SYSTEM MENU
･ To turn the menu off,
press  again or
*1  .
･ A desired menu option
can be selected by
highlighting it with
, followed by
.

SYSTEM MENU
1:
2:
3:
4:
5:
6.
7.
8.
9:
0.
MAKE DISPLAY SETTINGS
SELECT 2ND RECEIVER FREQUENCIES
TURN ON / OFF KEYPRESS BEEP
MAKE SEL / REJ SETTINGS
SEARCH FOR STORED MESSAGES
SELECT OUTPUT MESSAGES
SET OUTPUT PORTS
START SELF–DIAGNOSTIC TESTS
TURN ON/OFF MESSAGE ALARM
RESET TO FACTORY DEFAULTS
･ The functions of each option are summarized below.
1: MAKE DISPLAY SETTINGS :
Selects display background colors, turns
on/off screen sleep mode, or selects message
font types.
2: SELECT 2ND RECEIVER FREQUENCIES: Selects 490 or 4209.5 kHz.
3: TURN ON / OFF KEYPRESS BEEP:
2 4:
Turns on/off keypress beep.
Selects or rejects transmitters or message
types that are to be displayed and stored.
output to RS–232C, I/O DATA and RS–422
ports.
5: SEARCH FOR STORED MESSAGES : Search stored messages by station and/or
message type.
MAKE SEL / REJ SETTINGS :
6: SELECT OUTPUT MESSAGES :
7: SET OUTPUT PORTS:
8: START SELF–DIAGNOSTIC TESTS:
Selects messages to be output externally.
Sets output ports on/off, selects protocols,
formats, etc.
Executes self–diagnostic tests.
*3 9: TURN ON / OFF MESSAGE ALARM :
Turns on/ off message alarms.
*4 0: RESET TO FACTORY DEFAULTS:
Initializes user–made settings.
*1: Pressing this key turns the menu off and returns you to the first receiver screen.
*2: Types A, B, D and L messages cannot be rejected due to relevant IMO resolutions.
*3: Alarm for type–D messages cannot be turned off due to relevant IMO resolutions.
*4: Stored messages will not be erased from memory by executing this function.
Detailed information on each menu option is given in section 4.
( continued on next page)
AE–1800 Instruction Manual
Control Panel Functions
2. Control Panel Functions ( continued – 1 2 / 1 2 )
⑯ Store Message Key

･ This key is used to place a specific NAVTEX message in permanent storage,
thereby protecting it from being automatically erased from memory after the
maximum message storage limit ( 200 messages for each receiver) is reached.
･ Pressing this key attaches a “ PROTECTED” tag to the ID of the message you
wish to protect, and pressing  *removes the tag from the message, as in the
example below. *User confirmation is required. See ⑰ below.
Figure 2-12 Attaching / Removing Message Protection Tag – Example
Protection tag is attached.
KA66
170520 UTC JUN 07
UNDERWATER RESEARCH ･･･
OPERATED VEHICLE ･････････
･････････････････････････････
･････････････････････････････
･････････････････････････････


NNNN
KA66
PROTECTED
170520 UTC JUN 07
UNDERWATER RESEARCH ･･･
OPERATED VEHICLE ･････････
･････････････････････････････
･････････････････････････････
･････････････････････････････
NNNN
STORED (CER=00%)
STORED (CER=00%)
Protection tag is removed.
･ Up to 50 messages can be protected from automatic erasure ( for each of the first
and selected second receivers). An attempt to protect messages beyond this limit
causes an operational error, turning on the following caution message in the
message prompt line ( screen’s bottom line):
STORAGE LIMIT IS REACHED !
･ The message storage capacity will increase by 50 to 250 messages when 50
received messages in each receiver are protected.
⑰ Clear Key

The major functions this key provides are:
･ *1 removing message protection tag ( PROTECTEDI ) from the currently
displayed protected NAVTEX message.
･ removing new message tag ( IINEW MESSAGEII ) from a new message, and
･ turning off all menus at a time, returning to the first receiver message page when
making settings via the *2 menu system.
*1:Removing the message protection tag requires
your confirmation, as shown at right.
Use  /  to select the desired option and
then press  .
*2: See section 4 for more information.
ARE YOU SURE ?
1: NO ( CANCEL )
2: YES ( EXECUTE )
[▲ ]
[▼ ]
[ ENT ]
AE–1800 Instruction Manual
Basic Operating Procedure
3.
Basic Operating Procedure
3.1.
Introduction
This section describes the basic operating procedure, allowing you to operate your
NAVTEX receiver from the front keypad without prior knowledge of the NAVTEX
system. The functions that are available from the keypad are summarized in section 2
(Control Panel Functions). It is assumed that a specified antenna and appropriate
power supply are connected to the equipment.
3.2.
Turning the Equipment On /Off
To turn the equipment on, gently press
 once.
Figure 3-1 Opening Message – Example
An opening message like the
example at right will show up and
stay for approximately five seconds,
indicating
the
model
name,
software version number and
release date. The numbers shown
are examples.
WELCOME TO NAVTEX RECEIVER
SOFTWARE VER. 1.0 REV_1.1A1
DATE OCT 06, 2007
Turning Equipme nt Off
Figure 3-2 Power–Shutdown Countdown Window
To turn the unit off, press and hold
down
for two to three seconds
until a power–shutdown countdown
window shows up as illustrated at
right, indicating that a power–off
sequence has just started.

SHUTTING DOWN NAVTEX RECEIVER
WAIT
!–––
Countdown bars
･ Keep on pressing the key until all countdown bars have disappeared, and then
release the key to completely switch the unit off. This delayed action avoids an
accidental shutoff and loss of message data.
･ Releasing the key with at least one countdown bar still showing cancels the
power–shutdown sequence.
Turning Opening Message Off
･ After the unit is switched on, the opening message window will be replaced with
another window listing the current settings of receiver control parameters, as in the
example shown in Figure 2–4.
･ The above list will stay on for approximately 20 seconds before the NAVTEX
message screen shows up, replacing it automatically.
･
To turn the list off immediately, press

or
.
( continued on next page )
AE–1800 Instruction Manual
Basic Operating Procedure
Basic Operating Procedure – 2 / 7
3.
3.3.
･
Adjusting Screen Brightness
The screen brightness level can be changed in a total of eight steps to suit the
ambient lighting condition by repeatedly pressing

･ To extend the service life of the LED backlighting lamps, the level can be changed in
two steps automatically after a user–preset time period. See paragraph 4.5 for
detailed information on the screen sleep mode.
･
The screen background is initially white. You can change it to black or blue via the
instructions given in paragraph 4.3.
3.4.
･
Adjusting Ke ypad Backlighting Level
The keypad backlighting level can be changed in a total of eight steps to suit the
ambient lighting condition by repeatedly pressing

･ The last used level will be stored in memory. However, if the minimum level was
used last time, it will return to the maximum level on next power–up.
3.5.
Sw itching First and Second Receivers
･
The message display initially shows first receiver page, showing the NAVTEX
message received on the first ( 518 kHz ) receiver.
･
To display the second receiver page to show messages received on the second receiver
. A second keypress will switch the display
( * 490 kHz or * 4209.5 kHz ), press
back to the first receiver page. To externally switch the second receiver with a
command via the RS–422 connector ( INS port), see paragraph 7.4.6 for instructions.


･ Pressing
will also return you to the first receiver page when you are making
settings via the menu system.
Figure 3-3 Switching First and Second Receivers
1ST RCVR M S G ( 15/ 15 )
IB07
210520 UTC JUN 07
･･････････････････････････････････
First Receiver Page

･･････････････････････････････････
NNNN
STORED (CER=00%)

2ND RCVR1 M S G ( 10/ 10 )
* Frequency Indication:
･ RCVR1 = 490 kHz
･ RCVR2 = 4209.5 kHz
See paragraph 4.6 for
instructions.
KA23
210635 UTC JUN 07
･･････････････････････････････････
Second Receiver Page
･･････････････････････････････････
NNNN
STORED (CER=00%)
( continued on next page)
AE–1800 Instruction Manual
Basic Operating Procedure
Basic Operating Procedure – 3 / 7
3.
3.6.
Scrolling NAVTEX Messages
The displayed NAVTEX text can be scrolled line by line or down or message by message
with the use of the following pairs of keys:
・
 / :
Line–by–line scrolling.

- Pressing
scrolls the text downward, allowing more message lines hidden
beyond the lower screen limit to show up. Holding down the key accelerates
scrolling.
When the top line of the newest message ( e.g. 13/ 13 ) is reached, further keypress
displays the last line of the oldest message ( e.g. 1/ 13 ).

- Pressing
acts in the opposite way, allowing more lines hidden beyond the
upper screen limit to show up. Holding down the key accelerates scrolling.
When the bottom line of the oldest message ( e.g. 1/13 ) is reached, further
keypress displays the top line of the newest message ( e.g. 13/ 13 ).
・
/:
Message–by–message scrolling.

- Pressing once scrolls the text by one message timewise forward to show a next
newer message, as in the example below.
Figure 3-4 Forward Message Scrolling – Example 1
1ST RCVR MSG 12 9 /130
1ST RCVR MSG 13 0 /130
- Holding down the key accelerates the scroll speed. After the newest message is
reached, further keypress displays the oldest one.
Figure 3-5 Forward Message Scrolling – Example 2
1ST RCVR MSG 13 0 /130
1ST RCVR MSG 1/130

- Pressing
once scrolls the text by one message timewise backward to show a
next older message, as in the example below.
Figure 3-6 Backward Message Scrolling – Example – 1
1ST RCVR MSG 110/130
1ST RCVR MSG 10 9 /130
- Holding down the key accelerates the scroll speed. After the oldest message is
reached, further keypress displays the newest one.
Figure 3-7 Backward Message Scrolling – Example – 2
1ST RCVR MSG 1/130
1ST RCVR MSG 13 0 /130
( continued on next page)
AE–1800 Instruction Manual
Basic Operating Procedure
3.
3.7.
Basic Operating Procedure – 4 / 7
Stopping Audible and Visual Alarm
Your equipment will warn you audibly and visually upon reception of a vital NAVTEX
message ( type–D message ), such as SAR information, piracy, or armed robbery warning.
An example type–D alarm message is given below, showing the visual alarm ( called the
alarm tag) attached to the message ID. The ID and text are also displayed in red to
indicate that the message below is a type–D alarm message, distinguishable from other
alarm messages (type–A: navigational, type–B: weather, or type–L: other alarm).
Figure 3-8 Visual Alarm Indication for Type–D Message – Example
Message ID and text are
shown in red also as visual
alarm.
Visual alarm indication ( alarm tag)
This can be turned off with second
pressing of  .
JD36
IIA LAR M! ii
210500 UTC JUN 07
SEARCH AND RESCUE OPERATION UNDERWAY FOR
A PASSENGER WHO WENT OVERBOARD･･･････････
･･････････････････････････････････････････････････
NNNN
STORED (CER=00%)
M O R E U N R E AD AL AR M M S G L E F T !
To silence the audible alarm, simply press
.
If another D type message was received before the
current one, its audible alarm will also be stopped.
This message indicates
more alarm messages are
left unread in memory
Pressing the key again will turn off the visual alarm indication ( iALARM !ii, alarm
tag), resetting the alarm.
A type–D message will remain fixed and will not automatically scroll until it is
acknowledged or until another D message is received on either receiver.
NOTE: Each alarm can be acknowledged and reset individually with the appropriate
software command via the RS–422 port. See paragraph 7.4.5 for details.
If additional alarm messages are left
unread in memory, that condition will be
indicated as in the example above.
Pressing  again will recall the next
unread alarm message onto the screen.
< CAUTION >
Silencing
the
audible
alarm
constitutes your acknowledgement
of the current alarm message.
Figure 3-9 Visual Alarm Indication for Type–A Message – Example
The equipment can also be
set to alert you to a
navigational warning ( type–A
message), a weather warning
( type–B message) or other
warning ( type–L message) via
the menu system described
in paragraph 4.14.
Message ID alone is shown in red.
KA88
IIA L A R M ! I I
270520 UTC JUN 07
BOMBING EXERCISE WILL BE CONDUCTED DAILY IN
･･････････････････････････････････････････････････
( continued on next page)
AE–1800 Instruction Manual
Basic Operating Procedure
3.
Basic Operating Procedure – 5 / 7
3.8.
Protecting Messages for Permanent Storage
3.8.1.
Int roduction
Initially, all stored NAVTEX messages will be automatically erased one by one from
memory on a first–in–first–out basis as the equipment continues receiving new
messages after the message storage capacity limit ( 200 messages) is reached. If you
wish to protect a specific message for permanent retention in memory, proceed via the
steps given below. Up to 50 messages can be protected across each receiver screen, and
are saved in a separate area of the non–volatile memory, allowing an additional 50 new
messages to be stored in each of the first receiver and the selected second receiver.
3.8.2.
Protecting Procedure
Figure 3-10 Protecting a Specific Message from Automatic Erasure – Step 1

 
(1) Using
and/or
, display the
message you wish to
save. If two or more
messages are being
shown, the ID of that
message should be
brought to the top
message line, as in
the example at right.
ID of message to be saved
To protect this message, press
.
KB67
211740 UTC JUN 07
DENSE FOG EXPECTED IN AREAS BOUNDED BY ･･･
･･････････････････････････････････････････････････
･･････････････････････････････････････････････････
NNNN
STORED (CER= 00%)
MORE UNREAD NEW MSG LEFT!
Figure 3-11 Protecting a Specific Message from Automatic Erasure – Step 2
(2) Press  . This will
attach a message
protection
tag
( PROTECTED tag) to
the message ID as
in the example at
right, indicating that
the message is now
protected
against
automatic erasure.
Message protection tag
KB67
IIPROTECTEDii
211740 UTC JUN 07
DENSE FOG EXPECTED IN AREAS BOUNDED BY ･･･
･･････････････････････････････････････････････････
･･････････････････････････････････････････････････
NNNN
STORED (CER= 00%)
M OR E UNR EAD N EW M S G L EF T!
NOTE: If the message you wish to protect is a new message, the NEW MESSAGE tag
will be replaced with the PROTECTED tag.
Storage Limit Indication
Attempting to protect messages in excess 50 will cause the following error message
to be turned on blinking in the message prompt line for a few seconds.
S TO R AG E L I M I T I S R E AC H E D !
AE–1800 Instruction Manual
Basic Operating Procedure
3.
Basic Operating Procedure – 7 / 7
3.8.3.
Removing Protection Tag
The protection tag on a specific message can be removed via the following steps:
 and/or  /  , display the message from which you wish to remove
(1) Using
the tag.
(2) Press  . This will cause the following caution window to pop up, asking you to
confirm your action.
ARE YOU SURE ?
1: NO ( CANCEL )i
2: YES ( EXECUTE )
[▲ ]
(3) Press
[▼ ]
[ ENT ]
 or  to highlight option “2:YES (EXECUTE)” and then press  .
(4) If there are more messages you wish to remove the protection tag from, repeat the
above steps.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.
4.1.
Customizing Operation via Menu System
Introduction
The equipment should work normally with the initial factory settings. Some of the
settings, such as keypress beep on/off, screen background color, rejection of certain
transmitters or message types and alarm on/off, however, may be changed to suit your
specific operating needs via the menu system without degrading the performance.
4.2.
Accessing the Menu S ystem
Figure 4-1 System Menu
The menu system can be accessed
by simply pressing  . The menu
shown at right should then be
turned on, indicating that you have
activated the menu system.
To turn the menu off, press
again or *1  .
SYSTEM MENU
1:
2:
3:
4:
5:
6.
7.
8.
9:
0.

*1: Pressing  returns you to the
first receiver page, if you are
operating on the second receiver.
MAKE DISPLAY SETTINGS
SELECT 2ND RECEIVER FREQUENCIES
TURN ON / OFF KEYPRESS BEEP
MAKE SEL / REJ SETTINGS
SEARCH FOR STORED MESSAGES
SELECT OUTPUT MESSAGES
SET OUTPUT PORTS
START SELF–DIAGNOSTIC TESTS
TURN ON / OFF MESSAGE ALARM
RESET TO FACTORY DEFAULTS
Figure 4-2 Returning to Previous Menu or Directly to Message Screen
1ST RCVR MSG (20/20)   STANDBY
IA05
NEW MESSAGE
220603 UTC
FOG INFORMATION AS OF220600UTC
･･････････････････････････････････････････････
･･････････････････････････････････････････････
SYSTEM MENU
NNNN
STORED (CER=00%)
1:SELECT BACKGROUND COLORS
････････････････････････････････
･････････････････････････････････
0:RESET TO FACTORY DEFAULTS
5:MAKE SEL/REJ SETTINGS

1:SYNCHRONIZE BOTH RECEIVERS
2:FIRST RECEIVER (518 KHZ)
3:SECOND RECEIVER
1:SYNCHRONIZE BOTH RECEIVERS

Menu options can be selected by pressing
, followed by  .
 
1:STATIONS
2:MESSAGES
2:MESSAGES
A:
B:
C:
D:
NAVIGATIONAL WARNING
WEATHER WARNING
ICE REPORT
SEARCH AMD RESCUE INFORMATION,
PIRACY/ARMED ROBBERY
E: WEATHER FORECAST
F: PILOT SERVICE MESSAGE
G: AIS
H: LORAN–C MESSAGE
I: AIS MESSAGE
J: SATNAV MESSAGE
K: OTHER ELECTRONIC NAVAID MSG
L: ADDITIONAL NAV WARNING
( continued on next page)
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.3.
Selecting Screen Background Colors
Figure 4-3 Selecting Screen Background Colors
Three different colors (white,
black and blue) are selectable
for the text screen background.
Initially the background is set
to white.
The two others can be selected
via the following steps:
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
1: MAKE
SETTINGS
3: SELECT
2ND DISPLAY
RECEIVER LANGUAGES
4: TURN ON / OFF KEYPRESS BEEP
1: SELECT
BACKGROUND COLORSI
5: MAKE
SEL / REJ SETTINGS
6. SELECT OUTPUT MESSAGES
2: SELECT
MESSAGE FONT TYPES
7. SET OUTPUT
PORTSBACKGROUND COLORS
1:SELECT
3: TURN
ON/OFF SLEEP
8. START
SELF–DIAGNOSTIC
TESTS MODE
1: /WHITEI
9: TURN ON
OFF MESSAGE ALARM
0. RESET2:
TOBLACK
FACTORY DEFAULTS
3: BLUE
(1) Highlight option “ 1:MAKE DISPLAY SETTINGS” by pressing
followed by  .
 /,
(2) Select option “ 1:SELECT BACKGROUND COLORS” in the same manner.
(3) Highlight the desired option with
(4) Press
4.4.

or

 /  again, and then press  .
to return to the text screen.
Selecting Message Font Types
NAVTEX messages are initially
displayed in a bold font for ease
of reading from a distance (2–3
meters away).
A thinner type (normal) font
can be selected via the following
steps.
(1) Highlight option “1:MAKE
DISPLAY SETTINGS” by
and
pressing
then  .
 
Figure 4-4 Selecting Message Font Types
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
1: MAKE
SETTINGS
3: SELECT
2ND DISPLAY
RECEIVER LANGUAGES
4: TURN ON / OFF KEYPRESS BEEP
1: SELECT
BACKGROUND COLORS
5: MAKE
SEL / REJ SETTINGS
6. SELECT OUTPUT MESSAGES
2: SELECT MESSAGE FONT TYPESI
7. SET OUTPUT PORTS
8. START
SELF–DIAGNOSTIC
TESTS MODE
3: TURN
ON/OFF SLEEP
2:SELECT
MESSAGE
9: TURN ON
/ OFF MESSAGE
ALARM FONT TYPES
0. RESET TO FACTORY DEFAULTS
1: BOLDI
2: NORMAL
(2) Select “ 2:SELECT MESSAGE FONT TYPES” in the same manner.
(3) Highlight “ 2:NORMAL” with
(4) Press

or

 /  again, and then press  .
to return to the text screen.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.5.
Turning on/off Screen Sleep Mode
4.5.1. Introduction
Figure 4-5 Turning Screen Sleep Mode on
The screen brightness initially
remains at the level set by
pressing

To extend the service life of the
backlighting lamps ( white *1LED
lamps), a screen sleep mode can
be activated, which automatically
reduces the brightness level in
two steps when no key is pressed
for a time period defined by the
user.
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
1: MAKE
SETTINGS
3: SELECT
2ND DISPLAY
RECEIVER LANGUAGES
4: TURN ON / OFF KEYPRESS BEEP
1: SELECT
BACKGROUND COLORS
5: MAKE
SEL / REJ SETTINGS
6. SELECT
OUTPUT
MESSAGES FONT TYPES
2: SELECT
MESSAGE
7. SET OUTPUT PORTS
3: TURN
ON/OFF SLEEP
8. START
SELF–DIAGNOSTIC
TESTS MODEi
9: TURN ON / OFF MESSAGE ALARM
0. RESET
TO FACTORY
DEFAULTS
3:TURN
ON/OFF
SLEEP MODE
The sleep mode is initially turned off. To
activate its function and set the time to
the sleep mode, follow the steps given in
the following paragraphs.
1: OFF
2: ONI
2:TURN ON/OFF SLEEP MODE
1: STANDARDI
2: USER–DEFINED MODE
*1: Light–Emitting Diode
4.5.2. Turning Sleep Mode on
(1) Highlight option “ 1:MAKE DISPLAY SETTINGS” by pressing
by  .
 /  , followed
(2) Select “ 2:TURN ON/OFF SLEEP MODE” in the same manner.
(3) Select “ 2: ON” in the same manner.
The following options are now selectable:
1:STANDARD :
1 minute to reduced level 1, 15 minutes to reduced level 2
2:USER–DEFINED MODE : times to reduced levels 1 and 2 are selectable in 1–minute
steps. See NOTE below.
NOTE :
Reduced level 1 = approx. half maximum brightness level
Reduced level 2 = backlighting switched off
(4) Select the desired option, and press
.
(5) If you selected “USER–DEFINED MODE ” at the above step, proceed to the next
paragraph ( 4.5.3 ) for the setting instructions.
(6) Press
 or  to return to the text screen.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.5.3. Setting Times to Reduced Brightness Levels
Figure 4-6 Setting Times to Reduced Brightness Levels
If you wish to set the times to
the reduced brightness levels,
follow the steps given below.
2:TURN ON/OFF SLEEP MODE
1: OFF
2: ONI
2:TURN ON/OFF SLEEP MODE
(1) Select option “ 2:ON.”
(2) Select option “ USER–DEFINED
MODE.”
1: STANDARD
2: USER–DEFINED MODEi
2:USER–DEFINED MODE
(3) Highlight option “1:TIME TO
BRT LEVEL 1” by pressing
 
1:TIME TO BRT LEVEL 1I
2:TIME TO BRT LEVEL 2
1 MIN
15 MIN
/.
Highlight option “ 2:TIME TO BRT LEVEL 2” by pressing  /  .
(4) Select the desired time period in one–minute steps by pressing
(5)
(6) Select the desired time period in one–minute steps in the same manner.
4.6.
Selecting Frequencies for Second Receiver
The following two frequencies
are selectable for the second
receiver’s operation:
･
･
490 kHz
4209.5 kHz
Figure 4-7 Selecting Second Receiver Frequencies
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: SELECT 2ND RECEIVER LANGUAGES
2: SELECT
RECEIVER
4: TURN
ON / OFF 2ND
KEYPRESS
BEEP FREQUENCIES
5: MAKE SEL / REJ SETTINGS
1: 490KHZI
6. SELECT
OUTPUT MESSAGES
7. SET
PORTS
2: OUTPUT
4209.5KHZ
8. START SELF–DIAGNOSTIC TESTS
9: TURN ON / OFF MESSAGE ALARM
0. RESET TO FACTORY DEFAULTS
Initially the second receiver is
set to 490 kHz. Several
countries, including
Canada,
France, Portugal and U.K., are
currently broadcasting national
language messages on this channel, catering mainly for local users. The NAVTEX
service on 4209.5 kHz is primarily intended for users in tropical regions. This shortwave
frequency can be chosen via the following steps:
(1) Highlight option “2:SELECT 2ND RECEIVER FREQUENCIES” by pressing
, followed by  .
 
(2) Highlight option “ 2: 4209.5KHZ,“and then press
(3) Press
.
 or  to return to the text screen.
The above setting will be remembered until the system is reset.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.7.
Turning on/off Ke ypress Beep
Figure 4-8 Turning on / off Keypress Beep
Pressing a front panel key
causes the equipment to
beep,
indicating
proper
actuation of that key; this is
the initial setting.
If you wish to turn off the
keypress beep, follow the
steps given below.
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL/REJ SETTINGS
3: TURN ON /OFF KEYPRESS BEEP
5:
6.
7.
8.
9:
MAKE SEL / REJ SETTINGS
1: OFFOUTPUT MESSAGES
SELECT
SET
OUTPUT
PORTS
2: O
START SELF–DIAGNOSTIC TESTS
TURN ON / OFF MESSAGE ALARM
To silence keypress
beep, select this option
and press  .
(1) Highlight option “2: OFF” by pressing
(2) Press

or

 /  , followed by  .
to return to the previous NAVTEX text screen.
The above setting will be remembered until the system is reset.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.8.
Selecting and Rejecting Transmitters
4.8.1. Introduction
Initially the equipment is set to *1 display NAVTEX messages from all stations on the
air within the coverage area, *1 store those messages in memory and output them to the
printer port (RS–232C ), *2 I / O DATA port and INS port ( RS–422). There may be cases
where you do not wish to display, store, or output future messages from specific
transmitters that are not of your concern to your navigational needs. Carrying out the
following procedure allows you to select or reject transmitters independently for
message display and storage in memory, for message output to the printer port, and
message for output to the INS port.
A list of the transmitters that are currently rejected from display and storage can be
checked by pressing  with the message screen showing.
*1: A message will be displayed and stored in memory unless its character error rate (CER)
exceeds 33%. CER is the ratio of the number of the correctly received characters to the
number of corrupt characters per message.
*2: The I/O DATA port (I/O DATA) outputs the same message output as the printer port.
4.8.2. Set ting Procedure
To reject a specific station, execute the following step–by–step instructions:
 
(1) Highlight option “4: MAKE SEL / REJ SETTINGS” by pressing
, and
then  . This opens a submenu as shown below with the following options:
1: SYNCHRONIZE BOTH RECEIVERS: Applies same settings to both receivers.
2: FIRST RECEIVER (518KHZ) :
Makes settings for first receiver alone.
3: SECOND RECEIVER:
Makes settings for second receiver alone.
< CAUTION >
There are NAVAREAs where the same ID is shared by two transmit ters, one on
518 kHz and t he other on 490 or 4209.5 kHz, located in two different countries in
the same ser vice area. In such cases, choosing option “1:SYNCHRONIZE BOTH
RECEIVERS” will result in unintended rejection set tings on either frequency.
Figure 4-9 Making Settings for First Receiver – Step 1
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL/ REJ SETTINGS
5 SEARCH STORED MESSAGES
4: MAKE
SEL
/ REJ SETTINGS
6. SELECT
OUTPUT
MESSAGES
7. SET OUTPUT PORTS
1: SYNCHRONIZE
8. START
SELF–DIAGNOSTIC BOTH
TESTS RECEIVERS
9: TURN
ON / OFFRECEIVER
MESSAGE ALARM
2: FIRST
(518KHZ)i
0. RESET TO FACTORY DEFAULTS
3: SECOND RECEIVER
2: FIRST RECEIVER (518KHZ)
1: STATIONSI
2: MESSAGES
( continued on next page )
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.8.2.
Setting Procedure – 2 / 3
(2) Highlight the desired option, and then press  . The above example shows that
you selected option “ 2: F IRST REC EIVER ” to make settings to the first receiver
alone. Another submenu will then open with the following options:
1: STATIONS:
Selects or rejects transmitters.
2: MESSAGES:
Selects or rejects message types.
(3) Select “1:STAT ION S ” and then press  . This will open a table listing the station
IDs, their memory ( ME ) storage statuses, printer (PR) and INS ( IN) port output
statuses, as in the example below. The status indication is either SL ( selected ) or
RJ ( rejected ). Initially all stations are in the SL status ( i.e. selected) and messages
from every station will be displayed and stored in memory, output to the printer
port (RS–232C connector) and output to the INS port (RS– 422 connector).
Figure 4-10 Making Settings for First Receiver – Step 2
2: F IR ST R E C E IVER ( 5 18KH Z )
1 : STAT ION SI
2 : M ESSAG ES
1: STAT ION S
A:
B:
C:
D:
E:
F:
G:
H:
I:
ME PR
IN
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
( M Em o r y
J:
K:
L:
M:
N:
O:
P:
Q:
R:
PR in te r
ME PR
IN
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
IN s )
ME PR
S: SL
T: SL
U: SL
V: SL
W: SL
X: SL
Y: SL
Z: SL
SL
SL
SL
SL
SL
SL
SL
SL
IN
SL
SL
SL
SL
SL
SL
SL
SL
 
(4) Using
, highlight the station whose NAVTEX messages you wish to display
and store in memory, to output to the printer port or to output to the INS port.
, highlight the status indication ( SL or R J ) of the target device ( ME,
(5) With
PR or I N ).
(6) To change the status to R J , press  and to change it back to SL , press  .
The example below shows that you wish to output the messages from station B to
the INS port alone, while preventing them from being displayed and stored in
memory or from being output to the printer port.
Figure 4-11 Making Settings for First Receiver – Step 3
ME PR
A: SL
B: RJ
Not to be stored
in memory
SL
RJ
IN
SL
SL
Not to be output to
printer (RS–232C)
ME PR
J: SL
K: SL
SL
SL
IN
SL
SL
To be output to
INS (RS–422)
ME PR
S: SL
T: SL
SL
SL
IN
SL
SL
( continued on next page )
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.8.2.
Set ting Procedure – 3 / 3
(7) Likewise, repeat steps (4), (5) and (6) to make the desired RJ/SL settings for other
transmitter IDs.
/ .
Do not press  after setting the status with

(8) Press  to return to the previous menu, or
previous text message screen.
 to close all menus to return to the
This completes the procedure for changing the display and memory storage status,
printer port output status and INS port output status.
NOTE: Those settings can be externally controlled via the INS port with appropriate
commands from a PC or IBS/INS device. See paragraph 7.4 for details.
4.9.
Selecting and Rejecting Message Types
4.9.1. Introduction
Initially all message types are to be displayed and stored in memory, to be output to the
printer port ( RS–232C ), I/O DATA port ( I / O DATA) and to the INS port ( RS–422 ),
except for the following types:
Figure 4-12 Initially Rejected Message Types
N O
P Q R
If you wish to select some of these types for display and storage in memory or for output
to the printer / INS ports, or to prevent other messages types from being stored, or from
being output to the ports, follow the procedure outlined below.
NOTES:
(1) Message types A ( Navigational warning), B ( Meteorological warning), D ( SAR, piracy
and armed robbery information) and L (Additional navigational warning) are always
selected for storage in memory, output to the printer, I/O DATA and INS ports;
these types cannot be rejected ( i . e . cannot be set to the “ RJ” status).
(2) A message with serial number 00 will always be displayed and stored regardless of
storage rejection settings.
(3) Those settings can be externally controlled via the INS port with appropriate
commands from a PC or IBS / I NS device. See paragraph 7.4 for details.
4.9.2. Setting Procedure
To select some of the above initially rejected message types ( e.g. type G: AIS messages)
or to reject additional message types, execute the following step–by–step instructions. It
is assumed that the SYSTEM MENU is currently being displayed.
 
, and
(1) Highlight option “4: MAKE SEL / REJ SETTINGS” by pressing
then  . This opens a submenu as shown below with the following options:
1: SYNCHRONIZE BOTH RECEIVERS: Applies same settings to both receivers.
2: FIRST RECEIVER ( 518KHZ ) :
Makes settings for first receiver alone.
3: SECOND RECEIVER:
Makes settings for second receiver alone.
( continued on next page )
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.9.2.
Set ting Procedure – 2 / 3
(2) Highlight the desired option, and then press  . The example below shows that
you selected option “ 1: SYNCHRONIZE BOTH RECEIVERS” to make the same
settings for the first and second receivers simultaneously. Another submenu will
then open with the following options:
1: STATIONS:
2: MESSAGES:
Selects or rejects transmitters.
Selects or rejects message types.
(3) Select “2:MESSAGES” and then press
.
This will open a table listing the message types and titles, their memory (ME)
storage statuses, printer (PR) and INS ( IN) port output statuses, as in the example
below. The status indication is either SL ( selected ) or RJ ( rejected ).
The statuses of the rest of the message types ( M through Z ) will show up one by one
, as in the example in Figure 4–14.
with repeatedly pressing of

Figure 4-13 Making Same Settings for First and Second Receivers – Step 1
SYSTEM MENU
NOTE: The settings for PR apply
the I/O DATA port.
1: MAKE DISPLAY SETTINGS
also to
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL/ REJ SETTINGS
5 SEARCH STORED MESSAGES
4: MAKE
SEL
/ REJ SETTINGS
6. SELECT
OUTPUT
MESSAGES
7. SET OUTPUT PORTS
1: SYNCHRONIZE
8. START
SELF–DIAGNOSTIC BOTH
TESTS RECEIVERS
9: TURN
ON / OFFRECEIVER
MESSAGE ALARM
2: FIRST
(518KHZ)
0. RESET TO FACTORY DEFAULTS
3: SECOND
RECEIVER
1: SYNCHRONIZE
BOTH RECEIVERS
1: STATIONS
2: MESSAGESi
2: MESSAGES ( MEmory PRinter
INs ) ME
PR
IN
A: N AV I G AT I O N A L WA R N I N G
SL
B: M E T E O R O L O G I C A L WA R N I N G
SL
C: I C E R E P O R T
SL
D: S E A R C H A N D R E S C U E I N F O R M A – SL
T I O N / P I R A C Y A N D A R M E D R O B B E RY
E: METEOROLOGICAL FORECAST
SL
F: P I L O T S E RV I C E M E S S A G E
SL
G: A I S
RJ
H: L O R A N – C M E S S A G E
SL
I: P R E S E N T LY N O T U S E D
RJ
J: SATNAV MESSAGE
SL
K: OTHER ELECTRONIC NAVAID MSG. SL
L: A D D I T I O N A L N AV. WA R N I N G
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
RJ
SL
RJ
SL
SL
SL
SL
SL
RJ
SL
RJ
SL
SL
SL
･ Destination Devices : ME: memory PR: printer port ( RS–232C ) IN: INS port ( RS–422)
･ Status :
SL : selected RJ: rejected
( continued on next page )
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.9.2.
Set ting Procedure – 3 / 3
Figure 4-14 Checking Statuses of Other Message Types – Example
E:
F:
G:
H:
I:
J:
K:
L:
M:
N:
O:
P:
METEOROLOGICAL FORECAST
P I L O T S E RV I C E M E S S A G E
AIS
LORAN–C MESSAGE
P R E S E N T LY N O T U S E D
SATNAV MESSAGE
OTHER ELECTRONIC NAVAID MSG.
A D D I T I O N A L N AV. WA R N I N G
MESSAGE TYPE M
MESSAGE TYPE N
MESSAGE TYPE O
MESSAGE TYPE P
SL
SL
RJ
SL
RJ
SL
SL
SL
RJ
RJ
RJ
RJ
Rest of message types partially shown by pressing
SL
SL
RJ
SL
RJ
SL
SL
SL
RJ
RJ
RJ
RJ
SL
SL
RJ
SL
RJ
SL
SL
SL
RJ
RJ
RJ
RJ

 
(4) Using
, highlight the message type that you wish, or do not wish, to store
in memory (ME), to output to the printer port (PR) or to output to the INS port (IN).
Types A, B, D and L cannot be selected at any time, and will be skipped.

/ , highlight the status indication ( SL or R J ) of the target device ( ME,
(5) With
PR or I N ). To change the status to R J , press  and to change it back to SL , press
 . The example below shows that you wish to output type G messages (AIS) to
the INS port alone, while preventing them from being stored in memory or from
being output to the printer port.
Figure 4-15 Making Same Settings for First and Second Receivers – Step 2
2: MESSAGES ( MEmory PRinter
INs ) ME
PR
IN
A: N AV I G AT I O N A L WA R N I N G
SL
B: M E T E O R O L O G I C A L WA R N I N G
SL
C: I C E R E P O R T
SL
D: S E A R C H A N D R E S C U E I N F O R M A – SL
T I O N / P I R A C Y A N D A R M E D R O B B E RY
E: METEOROLOGICAL FORECAST
SL
F: P I L O T S E RV I C E M E S S A G E
SL
G: A I S
RJ
H: L O R A N – C M E S S A G E
SL
I: P R E S E N T LY N O T U S E D
RJ
J: SATNAV MESSAGE
SL
K: OTHER ELECTRONIC NAVAID MSG. SL
L: A D D I T I O N A L N AV. WA R N I N G
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
SL
RJ
SL
RJ
SL
SL
SL
SL
SL
SL
SL
RJ
SL
SL
SL
AIS messages are to be output to INS port alone
(6) Likewise, repeat steps (4) and (5) to make the desired RJ/SL settings for other
message types. Do not press  after setting the status with
/ .

(7) Press
 to close all menus to return to the previous text message screen.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.10. Searching Memor y f or Stored Messages
NAVTEX messages stored in non–volatile memory are searchable by station and / or
message type via the following steps.

(1) Highlight option “ 5: SEARCH FOR STORED MESSAGES ” by pressing
, followed by  . This opens a submenu with a list of all station IDs, as shown
below. The wild card character (＊) represents all station IDs.

Figure 4-16 Searching for Stored Messages

SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGESI
6. SELECT OUTPUT MESSAGES
5: SEARCH
FOR STORED MESSAGES
7. SET
OUTPUT PORTS
8. START SELF–DIAGNOSTIC TESTS
SEARCH
BY STATION
9: TURN
ON / OFF MESSAGE
ALARM
0. RESET TO FACTORY DEFAULTS
Wild Card representing
all stations
Ai B C D E F G H I J K L M
N O P Q R S T U V W X Y Z ＊
SEARCH BY MESSAGE TYPE
Ai B C D E F G H I J K L M
N O P Q R S T U V W X Y Z ＊
Wild card representing all message types
(2) Using
for.
 /  //, select the station of which messages you wish to search
For example, if you wish to search for all stored messages sent from station A,
highlight A . If you wish to search for messages of a specific type from all stations,
highlight the wild card character (＊) which represents all transmitter IDs.
(3) Press  . This opens a menu listing all the message types. The wild card (＊)
represents all message types.
  
/ / , select the desired message type. If you wish to specify all
(4) Using
message types from the station selected at step (2), highlight ＊.
(5) Press  . This allows all messages to be displayed that meet the conditions you
set at above steps (2) and (4).
The displayed messages can be scrolled across the screen line–by–line by pressing
or message–by–message by pressing / .
 
To return to the menu, press
text screen, press it once again.

.
To return to the previous NAVTEX
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11. Selecting Output Messages
4.11.1.
Introduction
The NAVTEX message that is currently being received or previously received messages
stored in memory can be output to external devices ( e.g., a printer, an INS/IBS device)
via the rear panel interface connectors ( I / O p o r t s , i . e . RS–232C, RS–422, I / O DATA ).
The execution of the following instructions allows you to selectively output the desired
messages by specifying various parameters, such as live ( on–line ) or recall–
from–storage mode, receiver type, transmitter ID and message type.
(1) Press
 , opening the SYSTEM MENU.
Figure 4-17 Accessing Output Selection Menu

SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGES
6. SELECT OUTPUT MESSAGES
7. SET OUTPUT PORTS
6: SELECT
OUTPUT MESSAGES
8. START
SELF–DIAGNOSTIC
TESTS
9: TURN ON / OFF MESSAGE ALARM
1: RECEIVING
MSGi
ON
IOFFI
0. RESET
TO FACTORY
DEFAULTS
2: ALL STORED MSG
3: MSG SELECTED BY FREQUENCY
4: MSG SELECTED BY STATION
5: MSG SELECTED BY TYPE
6: DISPLAYED MSG
7: SELECTED MSG
 
(2) Highlight “ 6: SELECT OUTPUT MESSAGES” by pressing
, followed
by  . This opens a submenu as illustrated above, with the following output mode
options:
1: RECEIVING MSG:
2: ALL STORED MSG:
3: MSG SELECTED BY FREQUENCY:
4: MSG SELECTED BY STATION:
5: MSG SELECTED BY TYPE:
6: DISPLAYED MSG:
7: SELECTED MSG:
Message currently being received
All stored messages
Messages selected by specifying receiver
Messages selected by specifying transmitter
Messages selected by specifying message type
All messages currently displayed
Individual messages selected from those
appearing on display
Before the desired output can be obtained, the target output connector ( output port )
must be enabled ( set to ON) via the instructions in paragraph 4.12. Note that all ports
are initially enabled unless set otherwise previously by your dealer.
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F ) when it
is output to an IBS / INS terminal or a printer.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11.2. Outpu t t ing Live NAVTEX Messages
This output mode is to be activated when an optional printer is plugged in for realtime,
on–line message printing or when a live NAVTEX output is required for other onboard
applications.
To output live messages as they are received, follow the steps given below. Be sure to set
the printer ( e.g. *1PR–900) or other receiving device properly.
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F )
when it is output to an IBS / INS terminal or a printer.
(1) Highlight option “1:RECEIVING MSG” on the SELECT OUTPUT MESSAGES
submenu, and then press  .

(2) Press
to highlight “ * 2 O N ,” and then press  . Another submenu will then
show up, allowing you to select the first or second receiver, as illustrated below.
Figure 4-18 Outputting Live NAVTEX Message
Select this option with ,
and then press  .
6: SELECT OUTPUT MESSAGES
1: RECEIVING MSGi
iONi
OFF
2: ALL STORED MSG
1: RECEIVING
MSG
3: MSG
SELECTED BY
FREQUENCY
4: MSG
SELECTED
BY
STATION
1: FIRST RECEIVER (518KHZ)i
5: MSG SELECTED BY TYPE
2: SECOND RECEIVER (490KHZ)
6: DISPLAYED MSG
7: SELECTED MSG
Select desired receiver with
 
 
(3) Using
, select the desired receiver, and then press  . The equipment
will then start outputting live messages from the receiver selected.
The settings you made via the above steps will be stored in memory.
(4) Press  to return to the previous menu or
message screen.

to return to the first receiver
*1: Before the printer can be used, the data transfer speed through the RS–232C port must
be set to 110 baud ( B IT RATE: 0.11) via the instructions given in 4.12.4.2.
*2: This setting is remembered in memory. It will return to “ OFF” when you execute the
system reset via the instructions in paragraph 4.15.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11.3. Outputting All Stored Messages
To output all the messages stored in memory, follow the steps given below.
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F )
when it is output to an IBS / INS terminal or a printer.
(1) Highlight “ 2:A LL STORED MSG ” on the SELECT OUTPUT MESSAGES submenu,
and then press  .
The stored messages will then be output one by one.
Figure 4-19 Outputting All Stored Messages
6: SELECT OUTPUT MESSAGES
1: RECEIVING MSG
ON
IOFFI
2: ALL STORED MSGI
3: MSG SELECTED BY FREQUENCY
4: MSG SELECTED BY STATION
5: MSG SELECTED BY TYPE
6: DISPLAYED MSG
7: SELECTED MSG
Select this option with
then press  .
/ ,
and
The following window will pop up to indicate the outputting action in progress.
OUTPUTTING STORED MESSAGES.
TO CANCEL, PRESS [ CLR ] .
The window will be turned off automatically upon completion of outputting.
To cancel the action, press  .
(2) Press  to return to the previous menu or
message screen.

to return to the first receiver
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11.4.
Outputting NAVTEX Messages of Specific Receiver
If you wish to output all NAVTEX messages received from either receiver ( first or
second receiver) alone, carry out the following step–by–step procedure:
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F ) when it
is output to an IBS / INS terminal or a printer.
(1) Highlight option “ 3:MSG SELECTED BY FREQUENCY ” on the SELECT
OUTPUT MESSAGES submenu, and then press  . This turns on another
submenu with the following options, enabling you to select the desired receiver, as
in the example illustrated below:
1: FIRST RECEIVER ( 518 KHZ ): Outputs first receiver messages.
2: SECOND RECEIVER :
Outputs second receiver messages.
Figure 4-20 Outputting Stored Messages of First Receiver – Example
6: SELECT OUTPUT MESSAGES
1: RECEIVING MSG
ON
IOFFI
2: ALL STORED MSG
3: MSG SELECTED BY FREQUENCYi
4: MSG SELECTED BY STATION
3: MSG
SELECTED
BY FREQUENCY
5: MSG
SELECTED
BY TYPE
6: DISPLAYED
MSG
–
ALL
1: FIRST RECEIVER ( 518 KHZ )
7: DISPLAYED MSG – SPECIFIC
2: SECOND RECEIVER
To derive first receiver messages from
memory, select this option with
, and then press  .


(2) Highlight the desired option, and then press  . The following window will pop up
to indicate the outputting action in progress.
OUTPUTTING STORED MESSAGES.
TO CANCEL, PRESS [ CLR ] .
The window will be turned off automatically upon completion of outputting.
To cancel the action, press
.
(3) Press  to return to the previous menu or
message screen.

to return to the first receiver
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11.5. Outpu t ting NAVTEX Messages of Specific Station
If you wish to output all messages received from a specific NAVTEX transmitting
station, carry out the following step–by–step procedure:
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F ) when it
is output to an IBS / INS terminal or a printer.
(1) Highlight option “ 4:MSG SELECTED BY STATION” on the SELECT OUTPUT
MESSAGES submenu, and then press  . This turns on another submenu with a
list of station IDs, enabling you to select the desired transmitter, as in the example
illustrated below:
Figure 4-21 Outputting Stored Messages Received from Station D – Example
6: SELECT OUTPUT MESSAGES
1: RECEIVING MSG
ON
IOFFI
2: ALL STORED MSG
3: MSG SELECTED BY FREQUENCY
4: MSG SELECTED BY STATIONi
5: MSG SELECTED BY TYPE
4: MSG SELECTED
BY STATION
6: DISPLAYED
MSG – ALL
7: DISPLAYED
A B C MSG
iDi – SPECIFIC
E F G H I
N O P Q R S T U V
J K
W X
Select desired station ID with
and then press  .
/ ,

(2) Using
, highlight the desired ID, and then press  . The following window
will pop up to indicate the outputting action in progress.
OUTPUTTING STORED MESSAGES.
TO CANCEL, PRESS [ CLR ] .
The window will be turned off automatically upon completion of outputting.
To cancel the action, press
.
(3) Press  to return to the previous menu or
message screen.

to return to the first receiver
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11.6.
Outputting NAVTEX Messages of Specific Message Type
If you wish to output all messages of a specific message type, carry out the following
step–by–step instructions:
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F ) when it
is output to an IBS / INS terminal or a printer.
(1) Highlight option “ 5: MSG SELECTED BY TYPE” on the SELECT OUTPUT
MESSAGES submenu, and then press  . This turns on another submenu with a
list of message types, enabling you to select the desired message type, as in the
example illustrated below:
Figure 4-22 Outputting Stored Messages of Message Type D – Example
6: SELECT OUTPUT MESSAGES
1: RECEIVING MSG
ON
IOFFI
2: ALL STORED MSG
3: MSG SELECTED BY FREQUENCY
4: MSG SELECTED BY STATION
5: MSG SELECTED BY TYPEi
6: DISPLAYED MSG – ALL
5: MSG SELECTED BY TYPE
7: DISPLAYED MSG – SPECIFIC
A B C iDi E F G H I
N O P Q R S T U V
J K
W X
Select desired message type with/,
and then press  .

(2) Using
, highlight the desired message type, and then press  . The
following window will pop up to indicate the outputting action in progress.
OUTPUTTING STORED MESSAGES.
TO CANCEL, PRESS [ CLR ] .
The window will be turned off automatically upon completion of outputting.
To cancel the action, press
.
(3) Press  to return to the previous menu or
message screen.

to return to the first receiver
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11.7. Outputting All Displayed NAVTEX Messages
If you wish to output all messages currently displayed, follow the steps given below.
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F ) when it
is output to an IBS / INS terminal or a printer.
(1) Highlight “ 6: D I S P L AY E D MSG” on the SELECT OUTPUT MESSAGES submenu,
and then press  . This turns all menus off, showing the current message screen,
as in the example illustrated below.
Figure 4-23 Outputting All Currently Displayed Messages – Example
Select this option with
 /  , and then press  .
6: SELECT OUTPUT MESSAGES
1: RECEIVING MSG
ON
IOFFI
2: ALL STORED MSG
3: MSG SELECTED BY FREQUENCY
4: MSG SELECTED BY STATION
5: MSG SELECTED BY TYPE
6: DISPLAYED MSG
7: SELECTED MSG
KB53
020310 UTC JUL 07
IMPORTANT WARNING FOR KUSHIRO NAVTEX AREA.
STATIONARY FRONT FROM 37N 115E TO 37N 120E,
37N 130E TO 36N 142E
NNNN
STORED (CER= 00%)
IA27
020240 UTC JUL 07
SAR EXERCISES BY AEROPLANES, STARTING AT
2300Z TO 1800Z, DAILY FROM 30 JUN TO JUL.
AREA BOUNDED BY 33-46N 134-45E, 33-46N 135-08E,
33-30N 135-22E, 33-24N-135-45E, 32-44N 135-52E.
NNNN
STORED (CER= 00%)
PRESS [ ENT ] TO O U T PU T O R [ C L R] TO E X I T
All currently displayed messages will be output by pressing
(2) Press

to output all the displayed messages, or


to cancel the function.
The previous message screen will return automatically upon completion of the
output.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.11.8. Outputting Specific NAVTEX Message
If you wish to output a specific message out of all currently displayed messages, carry
out the following procedure:
NOTE: A forced carriage return ( ) will be replaced by an underscore ( _ ) (hex 5F ) when it
is output to an IBS / INS terminal or a printer.
(1) Highlight “ 7: SELECTED MSG” on the SELECT OUTPUT MESSAGES submenu,
and then press  . This turns all menus off, showing the current message screen,
as in the example illustrated below.
Figure 4-24 Outputting Specific Message – Example
Select this option with
 /  , and then press  .
6: SELECT OUTPUT MESSAGES
1: RECEIVING MSG
ON
IOFFI
2: ALL STORED MSG
3: MSG SELECTED BY FREQUENCY
4: MSG SELECTED BY STATION
5: MSG SELECTED BY TYPE
6: DISPLAYED MSG
7: SELECTED MSG
KB53
020310 UTC JUL 07
IMPORTANT WARNING FOR KUSHIRO NAVTEX AREA.
STATIONARY FRONT FROM 37N 115E TO 37N 120E,
37N 130E TO 36N 142E
NNNN
STORED (CER= 00%)
i IA27
020240 UTC JUL 07
SAR EXERCISES BY AEROPLANES, STARTING AT
2300Z TO 1800Z, DAILY FROM 30 JUN TO JUL.
AREA BOUNDED BY 33-46N 134-45E, 33-46N 135-08E,
33-30N 135-22E, 33-24N-135-45E, 32-44N 135-52E.
NNNN
STORED (CER= 00%)
PRESS [ENT] TO OUTPUT OR [CLR] TO EXIT
To output this message, select its ID with
 /  and then press  .
 
, highlight the ID of the desired message as in the example above,
(2) Using
and then press  .
To cancel the function, press

instead of
.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.12. Setting Output Ports
4.12.1. Introduction
In order for external devices ( e.g. printer, IBS/INS component) to receive live or stored
NAVTEX messages properly through the desired rear panel I/O connector ( RS–232C,
RS–422 or I / O DATA connector), it is necessary to set the following parameters to the
port selected.
Figure 4-25 Opening Submenu for Setting Output Ports
SYSTEM MENU
Output Port Parameters:
･
･
･
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON/OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGES
6. SELECT OUTPUT MESSAGES
7. SET OUTPUT PORTS
8. START SELF–DIAGNOSTIC TESTS
7: SET
PORTS
9: TURN
ON /OUTPUT
OFF MESSAGE
ALARM
0. RESET TO FACTORY DEFAULTS
Status ( enabled or disable d )
Communications Protocol
Bit Format and Output Rate
The following instructions allow you
to set these parameters as required
by the data–receiving device plugged
into the desired connector.
(1) Press
1: SET PORTS ON / OFF
2: SELECT PROTOCOLS
3: SET BIT FORMAT & RATE
 , opening the SYSTEM MENU.
 
(2) Highlight “ 7: SET OUTPUT PORTS” by pressing
, followed by
This opens a submenu as illustrated above, with the following output options:
.
1: SET PORTS ON/OFF :
Enables or disables desired port.
2: SELECT PROTOCOLS:
Selects protocols for desired port.
3: SET B IT FORMAT & RAT E: Sets correct bit format and data rate.
4.12.2.
Enabling / Disabling I / O Ports
4.12.2.1. RS–232C Port
The RS–232C port is mainly intended as a printer interface, and is initially enabled so
that the message types selected in paragraphs 4.11.2 through 4.11.8 will be output via
this port. If, for any reason, you wish to disable it, follow the steps given below.
Figure 4-26 Selecting Output Ports for Enable /Disable Settings – 1
(1) Highlight “1:RS–232C” and press
(2) Using
/, highlight “ OFF.”
(3) Press

to complete or
 to
.
cancel.
(4) Press  to return to the previous
submenu or  to return to the first
receiver text page.
7: SET OUTPUT PORTS
1: SET PORTS ON / OFF
2: SELECT PROTOCOLS
1: SET PORTS ON / OFF
3: SET BIT FORMAT & RATE
1: RS– 232Ci
ON
OFF
2: RS–422
ON
OFF
3: I / O DATA
ON
OFF
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.12.2.2. RS–422 Port
The RS– 432 port, designed as an interface with an IBS/INS system, is also initially
enabled so that the NAVTEX message types selected in paragraphs 4.11.2 through
4.11.8 will be output via this port. If, for any reason, you wish to disable it, follow the
steps given below.
Figure 4-27 Selecting Output Ports for Enable /Disable Settings – 2
(1) Highlight “2 : RS–422” and press
(2) Using
/ , highlight “ OFF.”
(3) Press
 to complete, or  to
.
7: SET OUTPUT PORTS
cancel.
1: SET PORTS ON / OFF
2: SELECT PROTOCOLS
1: SET PORTS ON / OFF
3: SET BIT FORMAT & RATE
1: RS–232C
ON
OFF
2: RS – 422i
ON
OFF
3: I / O DATA
ON
OFF
(4) Press  to return to the previous
submenu or  to return to the first
receiver text page.
NOTE: The input lines to the RS–422 connector are insulated from the ship’s ground by
opto–isolators.
4.12.2.3. I / O DATA Port
The I / O DATA port is also initially enabled so that the message types selected in
paragraphs 4.11.2 through 4.11.8 will be output via this port. If, for any reason, you
wish to disable it, carry out the following step–by–step instructions:
Figure 4-28 Selecting Output Ports for Enable /Disable Settings – 3
(1) Highlight “ 3 : I / O DATA” and press
(2) Using
/, highlight “ OFF.”
(3) Press

to complete or
 to
.
cancel.
(4) Press  to return to the previous
submenu or  to return to the first
receiver text page.
7: SET OUTPUT PORTS
1: SET PORTS ON / OFF
2: SELECT PROTOCOLS
1: SET PORTS ON / OFF
3: SET BIT FORMAT & RATE
1: RS–232C
ON
OFF
2: RS–422
ON
OFF
3: I / O DATAi
ON
OFF
NOTE: The message outputs available from the I/O DATA port are the same as those
from the printer port ( RS–232C).
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.12.3. Selecting Comm unications Protocols
The following communications protocols are initially assigned to the three output ports
described in paragraph 4.12.
･ IEC 61162–1 ( NMEA–0183 Ver. 2.0 & greater ):
･ Asynchronous non–handshaking:
RS–422 Port
RS–232 Port and I / O DATA Port
Of the three ports, only the I / O DATA port can select either the IEC 61162–1 or the
asynchronous non–handshaking transfer mode. If your application using that port
requires the IEC 61162–1 as its protocol, follow the steps given below.
NOTE: If you wish to connect a serial printer other than the PR–900 to the RS–232C or the
I / O DATA port, be sure to turn off its hardware flow control and set it to “ X–ON / X–OFF,” if
available, or an erratic printout can result.
(1) Highlight option “2:SELECT PROTOCOLS” on the SET OUTPUT PORTS submenu,
and press  . This turns on another submenu for selection of the protocols, as
illustrated below.
Figure 4-29 Accessing Submenu for Selection of Protocols for I / O DATA Port
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGES
6. SELECT OUTPUT MESSAGES
7. SET OUTPUT PORTS
8. START SELF–DIAGNOSTIC TESTS
7: SET
PORTS
9: TURN
ON /OUTPUT
OFF MESSAGE
ALARM
0. RESET TO FACTORY DEFAULTS
(2) To change the protocol
for the I / O DATA port to
the IEC 61162–1, press
, highlighting option
IEC61162, as shown
below.

1: SET PORTS ON / OFF
2: SELECT PROTOCOLS
3: SET BIT FORMAT & RATE
2: SELECT PROTOCOLS
1: RS– 232C
2: RS– 422
3: I / O DATAI
I EC61162
I EC61162
I EC61162
NONE (ASCII)
NONE (ASCII)
NONE (ASCII)
Protocols are selectable for this port only.
(3) Press  to complete
the selection.
Figure 4-30 Selecting Protocol for I/O DATA Port
2: SELECT PROTOCOLS
1: RS– 232C
2: RS– 422
3: I / O DATAI
I EC61162
I EC61162
iI EC61162i
NONE (ASCII)
NONE (ASCII)
NONE (ASCII)
(4) Press  to return to the previous submenu or  to return to the first receiver
text page.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.12.4. Selecting Bit Formats and Data Transfer Rates
4.12.4.1.
Introduction
The following instructions allow you to select the correct bit format ( number of data bits,
stop bits, parity bit status) and bit rate ( baud rate: 110, 4800, 9600 etc.) that are
required by the application using each I/O port for correct data transfer.
Figure 4-31 Accessing Submenu for Selection
of Bit Formats and Rates
(1) Highlight option “ 3:SET BIT
SYSTEM MENU
FORMAT & RATE” on the SET
OUTPUT PORTS submenu, and
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
then press  .
Another submenu ( SET BIT
FORMAT & RATE ) will then be
turned on as shown at right to
specify the port for which you
wish to select those para–
meters.
(2) Using
3:
4:
5:
6.
7.
8.
9:
0.
 /  , select the desired port.
The procedure given below assumes
that the SET BIT FORMAT & RATE
submenu is currently displayed.
TURN ON / OFF KEYPRESS BEEP
MAKE SEL / REJ SETTINGS
SEARCH FOR STORED MESSAGES
SELECT OUTPUT MESSAGES
SET OUTPUT PORTS
START SELF–DIAGNOSTIC TESTS
7: SET
PORTS
TURN
ON /OUTPUT
OFF MESSAGE
ALARM
RESET TO FACTORY DEFAULTS
1: SET PORTS ON / OFF
2: SELECT PROTOCOLS
3: SET B IT FORMAT & RATE
3: SET BIT FORMAT & RATE
1: RS– 232C
2: RS– 422
3: I / O DATA
4.12.4.2. Selecting Parameters for RS–232C Port
The parameters for the RS–232C port are initially set as follows:
Figure 4-32 Checking Current Parameters for RS–232C
･
･
･
･
Data Bits:
Stop Bits:
Parity:
Bit Rate:
8 bits
1 bit
None
110 baud
The current parameter
values can be checked by
selecting “1:RS–232C ”
as shown at right.
3 : SET BIT FORMAT & RATE
1: RS– 232C
2: RS– 422
1: RS–232C
3: I / O DATA
1:
2:
3:
4:
DATA BITSI 7
I8I
STOP BITS I1I
PARITY
ODD INONEI
BIT RATE
i0.11
4.8
9.6
NOTES:
19.2
38.4
0 . 11 = 11 0 baud
(1) If an optional P R – 90 0 printer is plugged into the RS–232C port, be sure to select the
following parameters before it can be used to print messages correctly:
DATA BITS = 8, STOP BITS = 1, PARITY = NONE,
BIT RATE = 0.11 (110 baud)
(2) If you wish to connect a serial printer other than the PR–900 to the RS–232C port, be
sure to turn off its hardware flow control and set it to “ X–ON / X–OFF,” if available, or
an erratic printout can result.
( continued on next page)
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.12.4.2. Selecting Parameters for RS–232C Port ( continued – 2 / 2 )
If your RS–232C application requires a different set of parameters, select the
appropriate values by following the steps given below:
(1) Press
 /  to highlight the desired parameter.
For example, to change the parity bit status to non–parity, highlight “ 3:PARITY.”
(2) Press
/to highlight the desired value, and then press  .
For example, highlight “ NONE” and press
.
Figure 4-33 Changing Parity Bit Status Parameter – Example
1: RS–232C
1:
2:
3:
4:
DATA BITS
STOP BITS
PARITYI
BIT RATE
I8I
I1I
ODD INONEI
i0.11 4.8
9.6
(1) Highlight this with
(2) Highlight this with
19.2
38.4
 / .
/, and press  .
(3) Press  to return to the previous submenu or  to return to the first receiver
text page.
4.12.4.3.
Selecting Parameters for RS–422 Port
The parameters for the RS–422 port are initially set as follows:
Figure 4-34 Checking Current Parameters for RS–422
･
･
･
･
Data Bits:
Stop Bits:
Parity:
Bit Rate:
8 bits
1 bit
Odd parity
4800 baud
The current parameter values
can be checked by selecting
“ 2:RS–422” as shown at right.
3: SET BIT FORMAT & RATE
1: RS– 232C
2: RS– 422
3: I / O DATA
2: RS–422
1: DATA BITSI 7
2: STOP BITS I1I
I8I
3: PARITY
4: BIT RATE
NONE
4.8
9.6
iODD
0.11
19.2
38.4
Each parameter can be changed in the same manner as in the example given above
( paragraph 4.12.4.2). Be sure to press  after selecting the desired value.
(continued on next page )
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.12.4.4.
Selecting Parameters for I / O DATA Port
The parameters for the I/O DATA port are initially set as follows:
･
･
･
･
Data Bits:
Stop Bits:
Parity:
Bit Rate:
8 bits
1 bit
Odd parity
4800 baud
NOTES:
(1) The message outputs available from the I/O DATA port are the same as those
from the printer port ( RS–232C).
(2) If you wish to connect a serial printer other than the PR–900 to the I / O DATA port, be
sure to turn off its hardware flow control and set it to “ X–ON / X–OFF,” if available, or
an erratic printout can result.
The current parameter values can be checked by selecting “ 3:I / O DATA” on the SET BIT
FORMAT & RATE submenu, as shown below.
Figure 4-35 Checking Current Parameters for I/O DATA Port
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGES
6. SELECT OUTPUT MESSAGES
7. SET OUTPUT PORTS
8. START SELF–DIAGNOSTIC TESTS
7: SET
PORTS
9: TURN
ON /OUTPUT
OFF MESSAGE
ALARM
0. RESET TO FACTORY DEFAULTS
1: SET PORTS ON / OFF
2: SELECT PROTOCOLS
3: SET B IT FORMAT & RATE
3: SET BIT FORMAT & RATE
1: RS– 232C
2: RS– 422
3: I / O DATA
3: I / O DATA
1:
2:
3:
4:
DATA BITSI 7
I8I
STOP BITS i1i
PARITY
iODDi NONE
BIT RATE
0.11 I4.8I
9.6
19.2
38.4
  and / in the same man–
Each parameter value can be changed using
ner as in the example given in paragraph 4.12.4.2.
Be sure to press
 after selecting the desired value.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.13. Performing Sel f –Diagnostic Tests
Figure 4-36 Starting Self–Diagnostic Test
4.13.1.
Introduction
Selecting option “ 8: START
SELF–DIAGNOSTIC TESTS ”
opens a test report window
as shown at right and at the
same time initiates auto–
matically
the
built–in
function of self–diagnostic
tests to check the integrity of
important hardware com–
ponents of the equipment.
NOTE: The test functions cannot
be executed during live message
reception.
The self–diagnostic tests should
be conducted once a year as a
part of regular maintenance.
The following components will be
checked:
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGES
6. SELECT OUTPUT MESSAGES
7. SET OUTPUT PORTS
8. START SELF–DIAGNOSTIC TESTS
9: TURN ON / OFF MESSAGE ALARM
8: START
SELF–DIAGNOSTIC
TESTS
0. RESET
TO FACTORY
DEFAULTS
SELF–DIAGNOSTIC TEST REPORT
1: TESTING RECEIVERS
1ST RCVRI(518KHZ)I
STARTING
2ND RCVR (490KHZ)
2: TESTING ROM
3: TESTING RAM
4: TESTING ALARM
5: TESTING KEYPAD LAMPS
SOFTWARE VER. 1.0
DATE OCT 06, 2007
REV_1.1A1
･ First Receiver ( 518 kHz )
･ Second Receiver ( 490 kHz or 4209.5 kHz, currently selected )
･ ROM ( flash memory embedded in CPU chip, for software storage )
･ RAM ( DRAM embedded in CPU chip , for software execution) and ( SRAM mounted on
CPU PCB, capacitor – b a c k e d , for message /ID storage)
･ Alarm ( audible)
･ Keypad dimmer lamps
4.13.2.
Activating Self–Diagnostic Test Function
(1) Allow the equipment to warm up for at least 30 minutes before activating the test
function if the unit was switched off before the test.
(2) Press  to open the system menu, highlight “ 8: START SELF–DIAGNOSTIC
TESTS ” and press  . A test report window will show up as in the example above,
and the tests will start automatically. To cancel the execution, press  . If
reception of a NAVTEX message is already in progress, the function cannot be
activated, and the following caution will be turned on, blinking in reverse video.
iWAIT FOR MESSAGE RECEPTION TO END!i
Press

to turn it off, returning to the text screen.
(continued on next page )
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.13.3.
Checking Test Results
Figure 4-37 Results of Self–Diagnostic Test – Example
The
function
will
be
terminated automatically just
after completion of the keypad
dimmer lamp test ( TESTING
KEYPAD LAMPS on the test
report). The test report window
will remain to allow the user to
check the tests results. The
figure at right shows an
example of the test report
showing the results of the self–
diagnostic tests.
8: START SELF–DIAGNOSTIC TESTS
SELF–DIAGNOSTIC TEST REPORT
1: TESTING RECEIVERS
1ST RCVR((518KHZ)((518KH OK
0123456789 ( ).,=?
ABCDEFGHIJKLMNOPQRSTUVWXYZ
OK
2ND RCVR (490KHZ )
0123456789 ( ).,=?
ABCDEFGHIJKLMNOPQRSTUVWXYZ
2: TESTING ROM
OK
3: TESTING RAM
OK
COMPLETE
4: TESTING ALARM
5: TESTING KEYPAD LAMPS COMPLETE
SOFTWARE VER. 1.0
DATE OCT 06, 2007
REV_1.1A1
The result of each check will be available in one of the following indications:
・ OK:
Tested hardware is functioning normally ( for test items 1, 2 and 3).
・ FAILED:
Malfunction of tested hardware is detected ( for test items 1, 2 and 3 ).
If this indication shows up, see section 5 ( User–Level Trouble–
shooting) for actions to be taken, or contact your dealer for assistance.
NOTE: If the receiver test result is “ FAILED,” check to be sure that the
unit has been turned on for at least 30 minutes before starting the test.
This warm–up period is necessary for the internal test oscillators to
become stable. The “ FAILED ” indication should not be immediately
interpreted as a sign of receiver malfunction if the unit was tested
shortly after power–up.
・ COMPLETE: Test is completed ( for test items 4 and 5 ). The user should check
whether the tested hardware component functioned correctly.
(1) Result of Audible Alarm Test
Execution of the test “4:TESTING ALARM ” checks the buzzer function of the
audible alarm circuit. On successful completion of the test, the buzzer should sound
three slow beeps. If no sound is heard, see section 5 (User–Level Troubleshooting)
for actions to be taken, or contact your dealer for assistance.
(2) Result of Keypad Backlighting Lamp Test
Execution of the test “ 5:TESTING KEYPAD LAMPS ” checks the light–emitting
diodes (LEDs) that illuminate the keys and their control circuit. All keys should be
lit blinking at the maximum level during the test. If no key is lit or if some of the
keys remain extinguished, see section 5 ( User–Level Troubleshooting) for actions to
be taken, or contact your dealer for assistance.
This test result should be checked in a dark environment for ease of checking.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.14. Turning on/off Message Alarms
The alarm function for types A ( navigational warning), B ( meteorological warning) and
L ( additional navigational warning) messages is initially disabled unless it was already
set otherwise by your dealer. If you wish to enable some or all of the message alarms,
follow the steps given below. The alarm for type–D messages ( SAR, piracy and armed
robbery information) cannot be disabled due to the relevant IMO resolutions.
(1) Press
 , opening the system menu.
 
(2) Using
, highlight “ 9: TURN ON/OFF MESSAGE ALARMS” and then press
 . The current alarm ON / OFF status will then be displayed on a submenu as in
the example below.
Figure 4-38 Initial Alarm Status
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGES
6. SELECT OUTPUT MESSAGES
7. SET OUTPUT PORTS
8. START SELF–DIAGNOSTIC TESTS
9: TURN ON / OFF MESSAGE ALARMS
0. RESET TO FACTORY DEFAULTS
9: TURN ON/OFF MESSAGE ALARMS
1: MESSAGE A:I
2: MESSAGE B:
3: MESSAGE D:
4: MESSAGE L:
ON
ON
ON
ON
iOFF
iOFF
iOFF
Enabled / Disabled Status
 
(3) Highlight the desired message type with
, and then highlight status
indication “ ON ” by pressing , as in the example below.

Figure 4-39 Enabling Alarm for Type–B Messages
9: TURN ON/OFF MESSAGE ALARMS
1: MESSAGE A: ON
2: MESSAGE B:i iONi
3: MESSAGE D: ON
4: MESSAGE L:
ON
iOFFi
OFF
iOFFi
Press to highlight ON.
Be sure to press

after selecting the desired setting.
(4) Press  to return to the previous submenu or  to return to the first receiver
text page.
AE–1800 Instruction Manual
Customizing Operation via Menu System
4.15. Reset ting the S yste m
If, for any reason, you wish to reset the system to return all current operational settings
to the initial factory settings, follow the steps given below. Initialization of the settings
does not affect the message storage; all stored messages will be retained.
Figure 4-40 Resetting the System – Step 1
(1) Press
menu.

, opening the system
 
(2) By pressing
, highlight
“ 0:RESET TO FACTORY DEFAULTS”
and then press  . This opens a
submenu, asking you to confirm
whether to reset the system, as
illustrated at right.
SYSTEM MENU
1: MAKE DISPLAY SETTINGS
2: SELECT 2ND RECEIVER FREQUENCIES
3: TURN ON / OFF KEYPRESS BEEP
4: MAKE SEL / REJ SETTINGS
5: SEARCH FOR STORED MESSAGES
6. SELECT OUTPUT MESSAGES
7. SET OUTPUT PORTS
8. START SELF–DIAGNOSTIC TESTS
9: TURN ON / OFF MESSAGE ALARMS
0. RESET TO FACTORY DEFAULTS
0: RESET TO FACTORY DEFAULTS
ARE YOU SURE ?
1: NO ( CANCEL )
2: YES ( EXECUTE )
(3) Press
 to highlight “ 2: YES ( EXECUTE ) ” as shown below.
Figure 4-41 Resetting the System – Step 2
0: RESET TO FACTORY DEFAULTS
ARE YOU SURE ?
1: NO ( CANCEL )
2: YES ( EXECUTE )
Press  after highlighting
this option with

(4) Press  . This will reset the system and initialize all the settings you have made,
and then return you automatically to the first receiver text page.
Attention to NAVTEX Printer Users
If you are using an optional PR–900 printer or other serial printer plugged into the
RS–232C connector to print NAVTEX messages on–line, be sure to set the menu option
RECEIVING MSG on the SELECT OUTPUT MESSAGES submenu to “ ON” again via
the instructions in paragraph 4.11.2 on completion of the resetting. No printout will
result if the above menu option is set to “OFF,” which is the default setting.
AE–1800 Instruction Manual
User-Level Troubleshooting
5.
User–Level Troubleshooting
A list of common troubles the user may experience while operating the equipment is
given below along with recommended remedies for such troubles. If a problem persists,
contact your dealer for assistance, giving as much information as possible about the
symptom, self–diagnostic tests results ( paragraph 4.13 ), power supply voltage, antenna
configuration, operating frequency, control and menu settings used, serial number of,
and *1 software version (VER.) and revision (REV.) numbers of, your equipment.
*1 The software version and revision numbers are displayed in the opening message window
that appears briefly at power–up. Those data will also be displayed when the self–diagnostic
tests are conducted (paragraph 4.13).
< WARNING >
NO USER–SERVICEABLE PARTS ARE INSIDE THE CABINET. QUALIFIED
PERSONNEL SHOULD MAKE IT SURE TO SWITCH THE EQUIPMENT OFF AND
UNPLUG THE POWER CORD BEFORE OPENING THE CABINET FOR INSPECTION
OR REPAIRS.
5.1.
Pow er–Up Problems
The following description of the symptoms assumes that the equipment was working
correctly for some time after its initial installation.
Symptom
Suggested Solution
1. Check if the power cord is plugged into the
three–pin rear panel connector ( POWER).
2. Check if the power cord is connected to the
ship’s DC power source with the correct
polarity.
NOTE: Reversing the power cord polarity
causes the fuse ( 3A) to blow.
3. Check the voltage of the power source.
NOTE: The nominal power supply voltage is 24
VDC. The equipment works safely over the
voltage range from 11 to 36 VDC.
The equipment cannot be turned on.
4. Check the fuse inside the rear panel fuse
holder. If it is found blown, replace it with
a correct replacement ( 3A, 5.2X20mm).
5. If it blows again, unplug the active
antenna cable from the rear panel
connector, and then check if the problem
persists. If it does not, suspect that the
antenna amplifier or the cable developed
a short. Replace the antenna and cable.
6. If replacing the antenna still does not
correct the problem, suspect that the
Main PCB has become defective. Ask your
dealer/qualified engineer to check each
board by replacement.
7. If all attempts above fail, ask your
dealer/qualified service engineer to
replace the CPU PCB.
AE–1800 Instruction Manual
User-Level Troubleshooting
5.2.
No Message Reception
The following description of the symptoms assumes that NAVTEX messages were
properly received for some time after initial installation.
Symptom
Suggested Solution
No messages can be displayed 1. Check the current message rejection (RJ)
settings by pressing  .
except for warning messages.
No NAVTEX messages can be received, 2. Select all desired message types for
except for navigational warnings,
display and memory storage, via the steps
weather warnings, SAR /piracy/armed
given in paragraph 4.9.
robbery warnings or other warnings.
No messages can be displayed 1. Check the current station rejection (RJ)
settings by pressing  .
from desired transmitters.
No NAVTEX messages can be 2. Select the IDs of all desired transmitters
displayed from some transmitters at
for display and storage in memory, via the
any time even if you are within the
steps given in paragraph 4.8.
coverage areas.
1. The same message was received before or
the currently receiving message has a
character error rate (CER) > 33%.
See subparagraphs ④ , ⑪ and ⑫ in
paragraph 1.1 for details.
2. Run the self–diagnostic tests via the steps
given in paragraph 4.13, and check if the
receiver test result is “ OK.”
No messages can be displayed
despite correct selection settings
and appearance of “RCVNG MSG.”
If the test result indication shows
“ FAILED,” suspect that the receiver PCB
has become defective. Ask your dealer or
qualified engineer to check all wiring
harnesses to / from the PCB and to replace
the PCB if necessary. The chance of any
receiver being out of tune is very small in
normal usage.
No NAVTEX messages can be displayed
regardless of the correct display and
storage selection ( S L ) settings for all
desired messages or transmitters, or 3. Check if you are located within the service
regardless of the “RCVNG MSG”
area covered by the ground wave of the
status indication during reception.
desired station. The ground wave
coverage normally extends to 200 – 400
nautical miles from each station during
daytime hours.
4. Check the broadcast schedule of the
desired station. Each station usually
transmits messages for 5 to 10 minutes at
intervals of 4 hours.
5. Check the active antenna unit and / or
cabling by replacement.
(continued on next page )
AE–1800 Instruction Manual
User-Level Troubleshooting
5.2.
No Message Reception – 2 / 3
Symptom
Suggested Solution
1. Check if you are located within the service
area covered by the ground wave of the
desired station. The area is normally 200
to 400 nautical miles from each station
No messages can be received in the
during daytime hours. At night, MF
daytime.
NAVTEX signals ( 518 / 490 kHz) can
travel
distances in excess of 1000
No NAVTEX messages can be received
nautical miles depending on the season
and ionospheric conditions. Nighttime
on 518 kHz or 490 kHz during daytime
signal propagation changes greatly with
hours despite appropriate station and
the season.
message type selection ( S L ) settings.
2. Check the broadcast schedule of the
desired station. Each station usually
transmits for 5 to 10 minutes at intervals
of 4 hours. Currently transmitting
stations may be outside the coverage area.
1. Check if the antenna cable is correctly
plugged into the rear panel BNC
connector receptacle.
2. Check if the BNC plug is properly
installed onto the cable.
Check also the coupling connectors, if
used for cable extension.
3. Check by replacing the active antenna.
The antenna preamplifier unit may have
been destroyed by static discharges.
If a correct replacement is not available,
run at least 5 meters of insulated wire
from the BNC connector’s center
conductor as a temporary long wire
No messages can be received even
antenna, and place it as high as possible
during a broadcasting time and while
from the ground level.
in the service area.
< WARNING >
DO NOT SHORT THE OTHER END OF
No NAVTEX messages can be received
THE WIRE ANTENNA TO GROUND, OR
regardless of being in the service area of
DAMAGE TO THE UNIT’S POWER
a currently transmitting station and of
SUPPLY WILL RESULT.
appropriate message type and station
4. If replacing the antenna still does not
selection settings.
solve the problem, check the voltage at
the center conductor of the antenna
connector. It should be 8V+ at 490 and
518 kHz, and 12V+ at 4209.5 kHz.
If no voltage is present or if it is extremely
low, ask your dealer/qualified engineer to
check the wiring to / from the Main PCB
first and to replace the PCB, if necessary.
5. If all attempts above fail to correct the
problem, ask your dealer/qualified
engineer to check the related connections
to/from the Main PCB first and to replace
the PCB, if necessary.
(continued on next page )
AE–1800 Instruction Manual
User-Level Troubleshooting
5.2.
No Message Reception – 3 / 3
Symptom
Suggested Solution
The symptom is an indication that the
antenna circuit has become defective.
1. Replace it with one known to be good.
No messages can be received at any
If a correct replacement antenna is not
time on the first or the second 2. available,
run approx. 5 meters of
receiver with a good replacement
insulated wire from the center conductor
antenna plugged in, but the results of
of the appropriate connector as a
temporary long wire antenna, and place it
the self–diagnostic tests are “OK” for
as high as possible from the ground level.
both receivers.
< WARNING >
No NAVTEX messages can be received
DO NOT SHORT THE OTHER END OF
at any time and anywhere on either
THE WIRE ANTENNA TO GROUND, OR
the first or the second receiver after
DAMAGE TO THE UNIT’S POWER
the antenna is replaced with one
SUPPLY WILL RESULT.
known to be good. The self–diagnostic
tests (paragraph 4.13) show that both 3. If replacing the antenna still does not
receivers are working properly.
solve the problem, ask your dealer/
qualified engineer to check the antenna
coupler/selector circuit inside the rear
apron for faulty or broken connections.
No messages can be received at any
time on the first or the second
receiver with a good replacement
antenna plugged in, and the results
of the *self–diagnostic tests are
“ FAILED” for both receivers.
* 30 minute warm–up period required
before test.
5.3.
1. The symptom suggests that either
receiver has got out of alignment. Ask
your dealer/qualified engineer to check
the connections to/ from the receiver PCB
and / or replace the PCB.
2: The Main PCB has also become defective
and/or some of the internal connections to
the PCB have become faulty or broken.
Ask your dealer/ qualified engineer to
check the related wiring harnesses
to/ from the CPU PCB first and to replace
the PCB, if necessary.
Message Storage Problems
Symptom
Suggested Solution
Messages will be erased from memory after
Some stored messages disappear 60 hours, unless they are protected from
automatic erasure.
from memory after some time.
Put the “ PROTECTED” tag to each desired
message via the steps in paragraph 3.8.
The symptom indicates that the memory
None of the received messages is backup circuit on the CPU PCB is failing. Ask
stored after power–off.
your dealer or qualified engineer to replace
the CPU PCB.
All messages disappear from
memory after continued power–off
for some time.
The memory retains stored messages for at
least 10 days after power–off. Print out
desired messages using an optional printer
before switching the unit off for extended
periods of time continuously.
AE–1800 Instruction Manual
User-Level Troubleshooting
5.4.
Poor Reception
The following description of the symptoms assumes that NAVTEX messages were
properly received for some time after initial installation time, and all message types and
transmitter IDs you wish to receive are selected ( via the steps in paragraphs 4.8 & 4 .9 ).
Symptom
Suggested Solution
1. Check if you are located within the service
area covered by the ground wave of the
desired station. The area is normally 200
to 400 nautical miles from each station
during daytime hours. At night, NAVTEX
signals can travel distances in excess of
1000 nautical miles depending on the
season and ionospheric conditions.
2. Run the self–diagnostic tests as per
paragraph 4.13, and check the receiver
test results. If the result for the receiver
in question is “ FAILED,” ask your
dealer/qualified service engineer to check
the related wiring harnesses to / f rom the
receiver PCB or replace the PCB.
Messages can be received in the
daytime, but with many error
characters ( ) at all times.
NAVTEX messages can be received but
with many error characters (asterisks)
and often cannot be stored.
3. Check if you have recently installed an
electronic device near the receiver cabinet
receiver or near the antenna. Turn off or
relocate such equipment away from the
NAVTEX receiver, and see if any
improvement can be obtained.
4. Unplug the antenna cable from the rear
panel BNC connector, and check the
voltage at the center conductor. It should
be 8V+ on the ACTIVE ANT and 518 kHz
connectors, and 12V+ on the 490 /4209.5
kHz connector. If no voltage is present or
the voltage is extremely low, ask your
dealer/qualified service engineer to check
the related connections to / from the Main
PCB first and to replace the PCB, if
necessary.
5. Suspect that the preamplifier in the
active antenna unit is failing or water
intruded into the cable via the junction.
Check by replacing the amplifier unit
and /or the cable.
If a correct replacement antenna is not
available, run at least 5 meters of
insulated wire from the center conductor
of the appropriate connector as a
temporary long wire antenna, and place it
as high as possible from the ground level.
< WARNING>
DO NOT SHORT THE OTHER END OF
THE WIRE ANTENNA TO GROUND, OR
DAMAGE TO THE UNIT’S POWER
SUPPLY WILL RESULT.
AE–1800 Instruction Manual
User-Level Troubleshooting
5.5.
Blank Message Screen
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
Suggested Solution
1. Check to be sure that the power source
voltage is within the 11–36V range.
2. Repeatedly press  to check if the
normal brightness returns.
The NAVTEX receiver can be
turned on but the message screen
remains blank.
3. Suspect that the LCD module or Main
PCB has become defective. Ask your
dealer/ qualified service engineer to check
the related connections to/ from the
module and the Main PCB, and replace
the module and / or the PCB.
4. Suspect that the Main PCB has become
defective. Ask your dealer/qualified
engineer first to check the related
connections to / from the PCB, and to
replace the PCB, if necessary.
5.6.
Uncontrollable Screen Brightness
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
Suggested Solution
1. Check to be sure that the power source
The NAVTEX receiver can be
voltage is within the 11–36V range.
turned on but the message screen
2. Suspect that the Main PCB has become
brightness cannot be controlled.
defective. Ask your dealer/qualified
engineer to check the wiring harnesses
The brightness level does not change
to /from the PCB first and to replace the
by pressing  .
PCB, if necessary.
5.7.
No Beep from Ke ypress
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
No keypress beep is heard.
Suggested Solution
1. Check if the keypress beep function is
disabled. Refer to paragraph 4.7 for
instructions.
2. Ask your dealer /qualified engineer to
check the related wiring to /from the
keypress buzzer.
AE–1800 Instruction Manual
User-Level Troubleshooting
5.8.
No Response from Ke ypress
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
Suggested Solution
1. Check to be sure that the power source
voltage is within the 11–36V range.
2. Reset the system, returning all settings to
the factory’s initial settings via the
procedure given in paragraph 4.15.
The NAVTEX receiver can be
Suspect that the Main PCB or the Keypad
turned on but does not respond to 3. PCB
has become defective. Run the
any keypress.
self–diagnostic tests ( as per paragraph
4.13), and check the result of the RAM
and ROM tests. If the either test result is
“ FAILED,” ask your dealer/ qualified
service engineer to check the related
connections to /from these PCBs first, and
to replace either or both PCBs, if
necessary.
5.9.
No Message Alarm Indication
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
Suggested Solution
No audible or visual alarm indication
The alarm function for type–A and type–B
is available when navigational
messages are initially disabled. To turn it on,
warnings ( type–A messages) or
refer to paragraph 4.14 for instructions.
meteorological warnings ( type–B
messages) are received.
1. Run the self–diagnostic tests as per the
steps given in paragraph 4.13, and check
the result of the alarm test.
No audible alarm indication is
available when a Search & Rescue
( SAR ) or distress message is
received.
If no beep is heard on completion of the
tests, suspect that a fault has developed
in the wiring harness to/from the message
buzzer or the buzzer has become
defective. Ask your dealer/qualified
engineer to check the related wiring
harnesses and the buzzer.
2. Suspect that the Main PCB has become
faulty. Run the self–diagnostic tests and
check the result of the RAM and ROM
tests. If the result is “ FAILED,” ask your
dealer/qualified engineer to check the
PCB by replacing.
AE–1800 Instruction Manual
User-Level Troubleshooting
5.10. No Message Alarm Output
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
Suggested Solution
1. The alarm function for type–A and type–B
messages are initially disabled. To turn it
on, refer to paragraph 4.14.
No alarm output is available from
the rear panel ALARM connector.
2. Run the self–diagnostic tests via the steps
in paragraph 4.13, and check the results
of the RAM and ROM tests. If the test
result is “ FAILED,” suspect that the Main
PCB has become faulty. Ask your
dealer/qualified engineer to check the
PCB by replacing.
3. Suspect that some of the connections
to/f rom the connector have loosened or
the Main PCB has become faulty. Ask
your dealer/qualified engineer to check
the related wiring harness terminations.
5.11. No External Outputs
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
Suggested Solution
1. Check to be sure that all ports are enabled
( set to ON) and that the communications
protocol of your application matches that
of the port (rear panel connector) in use.
See paragraph 4.12.
2.
No messages can be output from
the memory to the printer or I / O
DATA port or to the INS port
despite correct connections to the
appropriate rear panel connector.
3.
Press  and then check that the
memory storage (ME), printer port output
(PR) and INS port output (IN) settings are
set to the “ SL” status. See paragraphs 4.8
and 4.9 for details.
Suspect that some of the connections
to / from the connectors have become
loosened or broken. Ask your dealer/
qualified engineer to check for faulty
wiring harness terminations.
4. Suspect that the Main PCB has become
defective. Ask your dealer / qualified
engineer to check the PCB first and
replace it if necessary.
AE–1800 Instruction Manual
User-Level Troubleshooting
5.12. External Control Problem
The following description of the symptom assumes that your NAVTEX receiver was
properly working for some time after initial installation time.
Symptom
Suggested Solution
1. Check to be sure that the RS–422 ( INS)
port is enabled ( set to ON ). See
paragraphs 4.12.1 through 4.12.4 for
details.
2. Check to be sure that the communications
protocol of your application matches that
of the RS–422 ( INS ) port. See paragraph
4.12.2.2 for details.
3. Check the bit format and baud rate of
your application match those of the RS–
422 port parameters. See paragraph
4.12.4 for details.
Alarm acknowledgement cannot be
controlled remotely from IBS / INS
terminals
despite
correct
4. Suspect that some of the internal
connections to the INS port (RS–422
connections to / from the connectors have
connector).
become loosened or broken. Ask your
dealer/qualified engineer to check for
faulty wiring harness terminations.
5. Run the self–diagnostic tests as per
paragraph 4.13, and check the results of
the RAM and ROM tests.
If the indication of either result is
“ FAILED,” suspect that the Main PCB has
become defective. Ask your dealer /
qualified engineer to check the PCB and
related wiring harnesses first and to
replace it if necessary.
AE–1800 Instruction Manual
User-Level Maintenance
6.
User–Level Maintenance Instructions
To ensure long–term trouble–free operation, the user should regularly follow the
maintenance instructions described in this section.
6.1.
Maintenance on the Equipment Cabinet
Keep the equipment, away from sea splashes, direct sunlight and other heat–generating
sources, and make sure that air around the cabinet is circulating freely. If the
equipment is not going to be used for extended periods of time, dismount the cabinet
from the vessel and place them in dry storage. Be sure to switch the equipment off
before removing electrical connections from the rear panel.
< WARNINGS >
1. BE SURE TO TURN IF OFF AND UNPLUG THE POWER CABLE BEFORE OPENING
THE CABINET FOR INSPECTION.
2. CHEMICAL SOLVENTS, SUCH AS PAINT THINNERS AND BENZENES, MUST NOT
BE USED TO CLEAN THE CABINET OR SCREEN FILTER, OR PERMANENT
DAMAGE TO THOSE PARTS WILL RESULT.
3. ALL MESSAGES STORED IN MEMORY, INCLUDING PROTECTED ONES, WILL BE
ERASED IF THE UNIT IS TO BE TURNED OFF CONTINUOUSLY IN EXCESS OF 10
DAYS. IMPORTANT MESSAGES SHOULD BE PRINTED OUT OR SAVED INTO
APPROPRIATE STORAGE MEDIA VIA A PC CONNECTED TO THE RS–422 PORT.
To clean the cabinet surface, a neutral type household detergent intended for office
equipment is recommended. Cleaning the acrylic filter on the LCD screen should be a
maintenance routine to avoid using a high brightness level. To clean the screen filter,
use a piece of slightly wet cloth. If stains persist, the cloth may be moistened with a
neutral type household detergent.
To prolong LCD Screen’s Service Life
To increase the service life of the LCD screen ( life of the white LED lamps for
backlighting), it is recommended that the screen sleep mode be activated as per the
instructions in paragraph 4.5.
6.2.
Maintenance on Electrical Connections
The high humidity marine environment can cause electrical contacts in the rear panel
connectors to corrode over time. Vibrations and shocks normally encountered on the
vessel in motion can cause the electrical contacts to become loosened. Corroded or loose
contacts will become responsible for erratic, intermittent operation or performance
degradation. To avoid such possible problems, conduct the following maintenance
operations at least once a year:
●
Unplug all the cables from the rear panel, and check to be sure that contact surfaces,
including the pins in the rear–panel mounted receptacles are free from corrosion.
●
Check the connections at the ship’s DC power source for freedom from any sort of
corrosion.
Correct any problem using a high quality contact–cleaning agent (contact
rejuvenator).
< WARNINGS >
1. BE SURE TO TURN THE EQUIPMENT OFF BEFORE REMOVING / INSTALLING THE
CONNECTIONS FROM / TO THE REAR PANEL CONNECTORS.
●
2. SANDPAPER WILL DAMAGE THE CONTACT SURFACE AND MUST NOT BE USED.
AE–1800 Instruction Manual
User-Level Maintenance
6.3.
Maintenance on The Active Antenna Unit
The ANT–2000M active antenna or an optional active antenna unit ( e . g . ANT– 900 , a l l
consisting of a 1.2m fiberglass whip, a preamplifier housing and coaxial cabling),
requires maintenance at least once every six months:
1. Whip Section
・ Clean the surface with a piece of soft cloth moistened with neutral household
detergent, while checking for any sign of damage.
・ Check to be sure that the whip is tightly screwed into the socket on the
preamplifier case, and that the set screw ( hex socket head type) is tightened.
・ Check to be sure that the knurled metallic base is free from damage or corrosion.
Corrosion may be removed with a piece of wood, and then coated with water–
proofing paint. A metallic tool can damage the surface and should not be used
2. Preamplifier Housing
・ Clean the surface with a piece of soft cloth moistened with neutral household
detergent, while checking for any sign of damage.
・ Check to be sure that the housing is securely screwed onto the pole ( if installed
on a marine mount) or the mounting hardware is properly secured to the mast ( if
user– or dockyard–supplied hardware is used). Do not open the housing ; no
user–serviceable parts are inside.
3. Cabling
・ Clean the exposed section with a soft cloth moistened with neutral household
detergent, while checking to be sure that the surface is free from any sign of
damage.
・ If the installation uses a double–ended female coaxial coupler for cable extension,
check to be sure that the jointed section is properly protected with self–bonding
taping and there is no sign of damage.
< WARNING >
THE CENTER CONDUCTOR OF THE COAXIAL CABLE IS AT +8 / +12VDC
WHEN THE EQUIPMENT IS SWITCHED ON. DO NOT SHORT THE
CENTER CONDUCTOR TO GROUND, OR DAMAGE TO THE INTERNAL
POWER SUPPLY CIRCUIT CAN RESULT.
6.4.
Self–Diagnostic Tests
Once every 12 months, conduct the self–diagnostic tests as per the procedure described
in paragraph 4.13, and consult your dealer / qualified service engineer for advice if the
result indication of any tested item shows “FAILED.” repeatedly.
AE–1800 Instruction Manual
User-Level Maintenance
6.5.
Recommended Spare Parts
A list of the spare parts recommended for the maintenance and servicing for three to
five years is given below. Replacing parts, except for the active antenna unit, should be
done by your dealer or a qualified service engineer. The user should not open the
receiver cabinet for inspection or replacing suspected parts. The part number of each
product may change depending on its production lot or its availability. If ordered parts
are not available, equivalent substitutes will be supplied.
Table 6-1 Recommended Spare Parts
Part Name
Part Number
Quantity
Fuse
3A / 5.2X20mm
10
Plugs:
Coaxial Cable Plug ( Antenna Plug)
Power Cable Plug
* I / O DATA Plug
*2 RS–422/232C Plug
*3 Coaxial Cable Plug ( Extension)
BNC–58 / U
14–P3F
CP111–8P
HDEB–9S
PL–259
Active Antenna Unit:
Preamplifier Unit
Whip Element ( 1.2m)
ANT–2000M
ANT–2KM–BASE
ANT–2K–RODE
Printed Circuit Boards ( PCBs ):
Receiver PCB
Main PCB
Keypad PCB
S602–RCV–X*4
M613–MAIN–X*4
M401–KEY–X*4
*1 Not needed unless the I /O DATA port is used in your applications.
*2 Not needed unless RS–232C /RS–422 port is used in your applications.
*3 Dealer–supplied. Not needed unless the cable is extended with a PL–258 connector.
*4 The suffix (last digit) will change depending on production lot.
Table 6-2 Other Parts Available As Replacements
Part Name
Part Number
TFT LCD Module ( LCD display panel)
LQ057AC111
AE–1800 Instruction Manual
Installation
7.
Installation
7.1.
7.1.1.
Receiver Cabinet Installation
General Precautions
The receiver cabinet is constructed to withstand the humid and corrosive marine
environment, but is designed to be installed or operated inside the wheelhouse or
chartroom. The cabinet is a “protected” category product under the IEC 60945–2002
standard, and is not waterproof. Serious damage will result to the electronics inside the
cabinet when it is exposed to salt water spray or splash.
Additional Requirements:
(1) For long term trouble–free service, the proposed site for installation should be:
・ dry, well–ventilated and free as much as possible from shocks and engine
vibrations.
・ away as much as possible from high temperature outlets ( such as exhaust fans
and heaters ), and as much as possible from areas where the unit is likely to be
constantly exposed to direct sunlight.
(2) To prevent reception of weak NAVTEX signals from being interfered with, the unit
should also be located away as much as possible from other onboard electronics,
especially those emitting pulsed signals, such as echo sounders and radars.
7.1.2. Mounting the Receiver Cabinet
The receiver cabinet is primarily designed to be mounted on a tabletop with the
mounting bracket supplied and weights approximately 2.3 kg in total. The dimensions
necessary for installation are given in Figure 7–1. Provide sufficient clearance behind
the cabinet for cabling termination and maintenance checks.
Using a total of four appropriate wood screws or bolt/nut combinations through its four
mounting holes ( 9 mm in diameter each), secure the bracket to the selected site.
Make sure that the mounting surface is strong enough to support the unit against
shocks or vibrations that are likely to be encountered with the ship in motion.
Compass Safe Distances ( in energized condition):
・ Receiver Cabinet alone:
0.45m ( standard),
0.30m ( steering)
・ Cabinet with Bracket:
0.60m ( standard),
0.35m ( steering)
< WA R NI N GS >
1. DO NOT PLACE THE UNIT IN AN UNVENTILATED, SEALED ENCLOSURE,
SUCH AS A THEFT–DETERRENT CABINET, OR OVERHEATING AND
MALFUNCTION WILL RESULT.
2. DAMAGE CAUSED BY EXPOSURE TO WATER SPRAY OR TO DIRECT SUNLIGHT
WILL NOT BE COVERED BY THE MANUFACTURER’S WARRANTY.
( continued on next page )
AE–1800 Instruction Manual
Installation
7.1.2. Mounting the Display Cabinet ( continued – 2 / 2 )
Be sure to attach a serrated plastic washer to the inside of each arm before placing the
cabinet in the bracket. This pair of washers is supplied separately in the plastic bag
that contains the power cable, fuses, plugs, etc., and prevents the cabinet from leaning
forward or backward with the clamping knobs tightened.
After tilting the cabinet to a desired viewing angle, tighten each knob firmly.
Figure 7-1 Installation Dimensions
215
Dimensions in millimeters
Weight (approx.):
・ Cabinet only:
1.7 kg
・ Cabinet + Bracket: 2.3 kg
Compass Safe Distances:
・ Cabinet only:
45 cm ( STD), 30 cm ( STG)
・ Cabinet + Bracket:
60 cm ( STD), 35 cm ( STG)
AE–1800 Instruction Manual
Installation
7.2.
Antenna Installation
The dimensions of the active antenna unit (ANT–2000M) is given in Figure 7–2.. The
equipment does not support the use of a wire antenna. The receiver input is low
impedance and is not suitable for wire antenna connection.
7.2.1. Installation Site Requirements
For best results and a prolonged service life, the active antenna unit should be installed:
・ at a site free from continuous heavy shocks and vibrations,
・ away as much as possible from the feedpoint or radiating elements of HF / MF
communications antennas, radar scanners and INMARSAT antennas, and
・ away as much as possible from, and above, any metallic obstructions.
< WARNING >
LOCATING THE ACTIVE ANTENNA CLOSE TO THE FEED POINT OR
RADIATING ELEMENTS OF AN HF/MF TRANSMITTING ANTENNA CAN
DESTROY THE PREAMPLIFIER IN THE CYLINDRICAL HOUSING.
7.2.2. Precautions for Cabling
・ To minimize the effect of interference from other onboard electronics, the coaxial
cable from the antenna unit should not be run close to, and in parallel with, transmit
antenna feed lines, radar waveguides, echo sounder transducer cables, control cables,
power cables, etc. from such equipment. The same requirements apply to the routing
of the long wire antenna.
・ If the cable is extended with coaxial connectors ( e.g. PL–258/PL–259 pairs) , be sure
to make the junctions waterproof using self–bonding tape or other appropriate
sealant.
< WARNING >
THE CENTER CONDUCTOR OF THE COAXIAL CABLE IS AT +8 VDC ( OR AT +12V
WITH THE SECOND OPERATING AT 4209.5 KHZ ) WITH THE EQUIPMENT
SWITCHED ON. DO NOT SHORT THE CENTER CONDUCTOR TO GROUND OR
DAMAGE TO THE INTERNAL CIRCUITRY CAN RESULT.
< CAUTION >
Water intrusion into the coax cable will electrically damage the cable, making
it impossible to use it as a feeder any longer. A serious drop in sensitivity will
result.
( continued on next page )
AE–1800 Instruction Manual
Installation
7.2.2.
Precautions for Cabling ( continued –2 / 2 )
Figure 7-2 ANT–2000M Active Antenna Unit Dimensions
The dimensions are in millimeters except for
the socket section at the base of the
preamplifier housing.
The socket is internally threaded so that it
can accept a 1”–14 straight thread standard
marine pole. To prevent possible loosening,
apply a suitable locking compound over the
threads before screwing the socket over the
pole.
< WARNING >
DO NOT USE A WRENCH, PLIERS OR
SIMILAR TOOL TO SCREW THE HOUSING
ONTO THE POLE, OR DAMAGE TO THE
SOCKET’S THREADS WILL RESULT.
The preamplifier housing may be secured to a
suitable pole of less than 9 centimeters in
diameter, using a set of appropriate mounting
hardware ( e.g. stainless steel hose clamps
and bands ).
Whip ANT–2K–ROD
Preamplifier Housing ANT–2KM–BASE
Not Supplied
AE–1800 Instruction Manual
Installation
7.3.
7.3.1.
Electrical Connections
Introduction
All electrical connections to the equipment are to be made via the connector receptacles
and terminal installed on the rear panel and the rear apron. The figure below shows the
rear view of the equipment. Overall connections are illustrated in Figure 7–4. A
summary description of the necessary connections to each component is given in the
next paragraphs.
< CAUTIONS >
1. All cables should be plugged in with the equipment switched off.
2. Power cables specif ied for use with the F–2000 /F– 3 000 or DEBEG
4620/ DEBEG 4630 Navigation Sounders cannot be used as alternative
cables.
Figure 7-3 Rear View
⑧
⑦
⑥
③
④
①
⑤
②
(continued on next page)
AE–1800 Instruction Manual
Installation
7.3.1.
Int roduction ( continued –2 / 2 )
Figure 7-4 Overall Connections
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections
The pin assignments of the connectors and connections to the pins are illustrated below.
① Power Supply Receptacle
Figure 7-5 Power Supply Receptacle ( Front View)
Pin # 3 (Ground )
Pin # 1 ( * 1 24V+)
Pin # 2 ( – )
・ Mating Female Type Plug: 14–P3F
The power cable supplied is approx. 3 meters long and is of two–wire shielded type,
normally terminated in a 3–hole female type plug at one end, with 3 conductors
open–ended each at the other end. Exercise CAUTIONS 1 below.
After pushing the plug into the above receptacle and tightening its coupling ring,
connect the three conductors as follows:
・ Black conductor:
・ White conductor:
・ Shield ( braid ):
to negative ( – ) terminal of ship’s power source
to positive ( + ) terminal of ship’s power source (*124 VDC)
to ship’s earth ground
*1Nominal input voltage. The equipment operates safely over the 11–to–40V range.
< CAUTIONS >
1. The DC power cable specified for use with the F–2000/F–3000W or
DEBEG 4620/DEBEG 4630 cannot be plugged into the above receptacle.
2. Reversing the power cable polar i t y (black and white connections) causes
the fuse to blow.
② Cabinet Ground Terminal
Figure 7-6 Cabinet Ground Terminal
The receiver cabinet, which is electrostatically
coated inside, can be grounded to the vessel’s earth
ground without grounding the negative line of the
ship’s power source. In situations where it is
required, or desirable, to ground the cabinet for
safety reasons or *2EMC compliance, connect from
this terminal to an appropriate earth ground in the
vessel using a thick wire. The ground wire should
be as short as possible to reduce the chance of
picking up interference from other onboard
electronics.
*2EMC = electromagnetic compatibility
(continued on next page )
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections ( continued – 2 / 8 )
③ Fuse Holder
Figure 7-7 Fuse Holder
A 3–ampere (3A) cartridge fuse ( 5.2X20 mm,
slow–blow type) is inserted in the holder.
Reversing the power cable polarity causes the fuse to blow.
< WARNING >
AN INCORRECTLY RATED FUSE OR INCORRECT TYPE FUSE WILL BLOW AT
POWER–UP OR WILL NOT PROTECT THE EQUIPMENT IN THE REMOTE EVENT
OF A TROUBLE OVERLOADING ITS POWER SUPPLY.
④ Antenna Receptacle (BNC) for Active Antenna ANT–2000M
Figure 7-8 Antenna Connector for ANT–2000M
Plug the ANT–2000M three–frequency active
antenna into this connector receptacle.
+8V/12V at center conductor
・ Mating Plug: BNC–58/U or equivalent
ANT
< WARNING >
THE CENTER CONDUCTOR OF THE BNC RECEPTACLE IS AT 8V/12V+ WHEN
THE EQUIPMENT IS TURNED ON. DO NOT SHORT THE CENTER
CONDUCTOR TO GROUND OR DAMAGE TO INTERNAL PARTS MAY RESULT.
NOTE: Use of Long Wire Antenna
Since this input connector is designed to impedance–match the active antenna unit
(50Ω nominal), it is not suitable for connection to a wire antenna that requires a
high input impedance for good results. However, if you wish to use a long wire
antenna as an emergency backup, be sure to insulate the other end of the wire to
avoid short–circuiting the preamplifier power supply (8V or 12V) to ground.
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections ( continued – 3 / 8 )
⑤ RS–422 Connector
Connections from an IBS/INS device are to be plugged into this receptacle. A
D–Sub 9 female type plug mates with this connector. The pin assignments are
illustrated below.
Figure 7-9 RS–422 Connector Pin Assignments (Front View)
Pin # 1 (NC)
Pin# 5 ( GND)
# 9 (TX–), Sig. Line B
# 6 ( R X + ), Sig. Line A
# 7 ( R X – ), Sig. Line B
# 8 ( T X + ), Sig. Line A
NOTES:
(1) This interface consists of a MAX3490 RS–422 transceiver. Brief specs. are given
below. For details, see the parts manufacturer’s ( MAXIM ) data sheets.
- Input High Voltage : 2V (min.), Input Low Voltage : 0.8V (max.)
- Input Current ( signal lines A & B ) : 1.0 mA @12V, –0.8 mA @ –7V
- Receiver Input Impedance: 12 kΩ
(2) Pins #1, #2, #3 and #4 : No internal connections ( NC)
(3) Input lines (pins #6 and #7) are insulated from ship’s ground by opto–isolators.
・
Mating Plug: HDEB–9S (supplied) or equivalent
After making connections, check to be sure that the RS–422 port is enabled ( as per
paragraph 4.12.2 ) and that a correct set of parameters is selected ( as per
paragraphs 4.12.3 and 4.12.4 ) for your applications.
The command formats used to control communications with an INS/IBS device are
given in paragraph 7.4.
( continued on next page )
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections ( continued – 4 / 8 )
RS–422 Transceiver Data Sheet – 1 / 3
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections ( continued – 5 / 8 )
RS–422 Transceiver Data Sheet – 2 / 3
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections ( continued – 6 / 8 )
RS–422 Transceiver Data Sheet – 3 / 3
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections ( continued – 7 / 8 )
⑥ RS–232C Connector
An optional serial printer (PR–900) is to be plugged into this receptacle. A D–Sub 9
female type plug mates with this connector. The pin assignments are illustrated
below.
Figure 7-10 RS–232C Connector Pin Assignments (Front View)
Pin # 2 ( RXD)
Pin # 3 ( TXD)
Pin # 1 (NC)
Pin# 5 ( GND)
Pin # 6 ( NC)
Pin # 9 (NC)
NOTE: Pins #1, #4, #5, #6, #7, #8 and #9 : No internal connections ( NC)
・
Mating Plug: HDEB–9S (supplied) or equivalent
After making connections, check to be sure that the RS–232C port is enabled ( as
per paragraph 4.12.2 ) and that a correct set of parameters is selected ( as per
paragraphs 4.12.3 and 4.12.4) for your applications.
Connections to PR–900
The connections from the RS–232C port to the PR–900 serial printer are illustrated
below. A 2–meter cable, terminated in appropriate mating plugs at both ends is
normally supplied with each printer.
Figure 7-11 Connections between RS–232C Port and PR–900
CP111–8P
Port Parameter Settings for PR–900
The PR–900 requires the following parameter settings for the RS–232C port:
･ DATA BITS: 8
･ STOP BITS: 1
･ PARITY:
NONE
･ BIT RATE: 0.11 (=110 baud)
See paragraph 4.12 for detailed instructions.
Flow Control for Other Brand Printers
If other brand serial printer ( e.g. SEIKOSHA DPU–414) is to be connected, be sure
to disable its hardware flow control, and set the flow control to “ X–ON/X–OFF.”
The AE–1800 does not support a handshaking protocol.
( continued on next page )
AE–1800 Instruction Manual
Installation
7.3.2.
Connector Pin Assignments and Connections ( continued – 8 / 8 )
⑦ I / O DATA Connector
The I/O DATA port is primarily for data communications with other onboard
devices using IEC 61162–1 ( NMEA–0183 ) as the interface. It also provides a port
( comprising pins #4, #5 and #6) for software updating, and a regulated 12V DC 200
mA output for powering light–duty applications.
Figure 7-12 I/O DATA Connector Pin Assignments (Front View)
# 1 ( IEC 61162 In + ), Sig. Line A
# 2 ( IEC 61162 In – ), Sig. Line B
# 3 ( IEC 61162 Out + ), Sig. Line A
# 4 ( Reserved for software updating)
・ Mating Plug: CP111–8P or equivalent (supplied)
Pin # 7 ( +12V, 200 mA )
# 8 ( IEC 61162 Out – ) ,S. Line B
# 6 ( Reserved for software
updating)
# 5 ( Reserved for software
updating)
< WARNINGS >
1. PINS #4, #5 AND #6 ARE TO BE USED EXCLUSIVELY FOR THE SPECIFIED
PROGRAMMING TOOL. CONNECTING ANY OTHER DEVICE TO THESE PINS
CAUSES THE EQUIPMENT TO BE LOCKED UP.
2. CURRENT DRAIN FROM PIN # 7 MUST NOT EXCEED 200 MILLIAMPS.
⑧ ALARM Output Connector
The ALARM output connector provides an open/close (make/break) switch
simultaneously via two pairs of replay contacts, electrically isolated from each other
and from the equipment circuitry, when the message alarm is activated. This
connector is to be used to activate an alarm sounder mounted at a remote location.
The pin assignments are given below.
To connect an external alarm device, use pins #1–#2 pair or pins #3–#4 pair.
Figure 7-13 ALARM Output Connector Pin Assignments (Front View)
Pin #1 (Alarm 1)
Pin #4 (Alarm 2)
Pin #2 (Alarm 1)
Pin #3 (Alarm 2)
・ Mating Plug: CP111–4P or equivalent ( supplied)
NOTE: Alarm messages compliant with IEC 61162–1 $CRARL sentence format are
available from the RS–422 (INS) port, and not from this connector.
AE–1800 Instruction Manual
Installation
7.4.
INS Port Data and Command Sentences
The equipment supports the following IEC 61162–1 data sentence formats for
communications with an INS / IBS system via the RS–422 port. It is assumed that the
port is set to “ON” via the procedure given in paragraph 4.12.2.2.
7.4.1.
Received NAVTEX Sentence Format
The first line of a NAVTEX message text will be output in the following format:
, ,,,,, . , . , ,
$CRNRX XXX XXX XX aaXX X
X X X X A c - - - - - c *hh< CR > < LF >
①
②
③
④ ⑤ ⑥
⑦ ⑧ ⑨
⑩
① Number of sentences 001 – 999
② Sentence number 001 – 999
③ Sequential message number 00 – 99 ( used to uniquely identify messages of same ID)
④ NAVTEX message ID characters (B 1, B 2 , B 3 , B 4 )
⑤ Frequency index: 0 = not received over air, 1 = 490 kHz, 2 = 518 kHz, 3 = 4209.5 kHz
⑥ Null fields (UTC, day, month and year data characters not available. See NOTE 1 . )
⑦ Total number of characters in this series of NRX sentences
⑧ Total number of bad characters
⑨ Status indication:
･ Status “ A” = reception of NAVTEX message in correct format
･ Status “ V ” = reception of NAVTEX message in incorrect format
⑩ Message body (first line of message text characters). A forced carriage return () on
screen will be replaced with an underscore ( _ ) ( hex 5F ) when it is output. See
NOTE 2 for information on the output format for undefined ASCII characters ( IEC
61162–1, paragraph 5.1.3 )
The data characters in fields ④, ⑤, ⑥, ⑦, ⑧ and ⑨ are output in the first message
line only; they are null fields in the subsequent message lines, as shown below.
$CRNRX XXX XXX XX
, , , , , , , , , , c - - - - - c*hh < CR > 
NOTES:
1: The equipment does not have a built–in realtime clock (RTC) and does not interface with
a GPS sensor. Therefore, the UTC, day, month and year data characters are output as
null fields. To check message aging, an internal time reference derived from the CPU
clock (24.00 MHz) by frequency division is used.
2: Undefined characters used in a displayed /stored NAVTEX message are communicated to
the INS port in hexadecimal form using code delimiter ( ^, hex 5E ) as follows:
･ *1Comma ( ):
･ *2Error character asterisk ( * ):
･ Carriage return < CR > and line feed < LF > :
^2C
^2A
^0D ^0A
*1: To discriminate from field delimiter
*2: To discriminate from checksum field delimiter
An example INS output of a NAVTEX message is given below.
(continued on next page )
AE–1800 Instruction Manual
Installation
7.4.1.
Received NAVTEX Sentence Format ( continued –2 / 2 )
An example 518 kHz NAVTEX message text is given below.
IB45
260909 UTC MAR 07
WWJP83 RJTD 260600
VITAL WARNING FOR YOKOHAMA NAVTEX AREA
260600UTC ISSUED AT 260900UTC
COLD FRONT FROM 48N 157E TO 42N 156E 36N
151E 30N 147E 25N 140E
GALE WARNING WESTERN SEA OFF SANRIKU
WITH MAX WINDS 35 KNOTS
WARNING(NEAR GALE) EASTERN SEA OFF
SANRIKU, NORTHERN SEA OFF KANTO,
SOUTHERN SEA OFF KANTO, EASTERN SEA OFF
TOKAI
NEXT WARNING WILL BE ISSUED BEFORE
261500UTC
NNNN
The INS port output from the above message consists of 11 NRM sentences, numbered
001 through 011, ( message ID = IB45, *1total characters= 426 with no corrupt
characters) as follows:
$CRNRX , 011 , 001 , 15 , IB45 , 2 , , , , , 426 , 0 , A , IB45^0D^0A260909 UTC MAR 07^0D^0AWWJP83
*02
$CRNRX , 011, 002 , 15 , , , , , , , , , , RJTD 260600^0D^0AVITAL WARNING FOR YOKOHAMA NAVTEX*03
$CRNRX , 011, 003 , 15 , , , , , , , , , , AREA^0D^0A260600UTC ISSUED AT 260900UTC^0D^0ACOLD*69
$CRNRX , 011, 004 , 15 , , , , , , , , , , FRONT FROM 48N 157E T O 42N 156E 36N^0D^0A 151E 30*1F
$CRNRX , 011, 005 , 15 , , , , , , , , , , N 147E 25N 140E^0D^0AGALE WARNING WESTERN SEA OFF
*70
$CRNRX , 011, 006 , 15 , , , , , , , , , , SANRIKU ^0D^0AWITH MAX WINDS 35 KNOTS^0D^0AWARNING*0E
$CRNRX , 011, 007 , 15 , , , , , , , , , , (NEAR GALE) EASTERN SEA OFF ^0D^0ASANRIKU^2C NORTH*0E
$CRNRX , 011, 008 , 15 , , , , , , , , , , ERN SEA OFF KANTO^2C^0D^0ASOUTHERN SEA OFF KANTO*16
$CRNRX , 011, 009 , 15 , , , , , , , , , , ^2C EASTERN SEA OFF ^0D^0ATOKAI^0D^0ANEXT WARNING *10
$CRNRX , 011, 010 , 15 , , , , , , , , , , WILL BE ISSUED BEFORE ^0D^0A261500UTC^0D^0A =^0D^0A*07
$CRNRX , 011, 011 , 15 , , , , , , , , , , ^0D^0ANNNN^0D^0A
*41
*1: Total characters include carriage return (CR) and line feed (LF) codes.
AE–1800 Instruction Manual
Installation
7.4.2.
Controlling Receiver Operation via INS (RS–422) Port
To externally control receiver operation via the RS–422 port, the equipment supports
the following command sentence ( IEC 61162–1 format ). Up to 10 commands will be
stacked and executed sequentially. Using the transmitter mask and message mask, the
user can select the station IDs and message types for message storage in the
non–volatile memory, for message output to the RS–422 port ( INS port ) or to the
RS–232C port ( printer port ). Message types A, B, D and L, however, cannot be rejected.
Previous selection/rejection settings manually entered via the keypad will be changed
accordingly.
$ - - NRM , X , X , hhhhhhhh , hhhhhhhh *hh < CR > < LF >
①
② ③
④
⑤
⑥
① Device identifier ( e.g. IN=INS device, AI=AIS)
② Function code: 0 to 9
0 = request messages, 1 = set/report storage mask, 2 = set/report printer mask
3 = set/report INS mask, 4 to 9 = reserved
③ Frequency index: 1 to 9
1= 490 kHz, 2 = 518 kHz, 3 =4209.5 kHz, 4 to 9 = reserved
CAUTION: If the index for the second receiver that is not currently
selected is specified, the command will be ignored.
④ Transmitter ID mask in hex ( 32 bits in total)
LSB = station A, bit 1 = station B, bit 25 = station Z, bits 26 to 32 = reserved
To select a station, its corresponding bit should be set to “ 1.” To reject a station, its
corresponding bit should be set to “ 0.”
For example, to select only stations E, J, M and T for storage, or output to the INS or
printer port, set the transmitter ID masks as follows:
0 0 0 8 1 2 1 0 hex
0000
0000
ZY
0000
XWVU
1000
TSRQ
0001
PONM
0010
LKJI
0001
HGFE
0000
DCBA
( hex)
( binary)
(station)
⑤ Message type mask in hex ( 32 bits in total):
LSB = type A, bit 1= type B, bit 25 = type Z,
bits 26 to 32 = reserved
To select message types only A, B, D, F and L for storage or output to the INS or
printer port, set the message ID masks as follows:
0000
0000
ZY
0000
XWVU
0 0 0 0 0 8 2 B hex
0000
TSRQ
0000
PONM
1000
LKJI
0 010
HGFE
10 11
DCBA
( hex)
( binary)
(type)
NOTE: Message types A, B, D and L must always be selected due to the relevant IMO
resolution, and their corresponding bits cannot be set to “0.”
⑥ Checksum in hex
The checksum value must be calculated by the user.
The current settings can be checked by a query command described in next paragraph.
AE–1800 Instruction Manual
Installation
7.4.3.
Checking Current Settings via INS (RS–422) Por t
The equipment accepts the following query command sentence via the RS–422 port
(INS port), and reports to the user the current B1B 2 mask settings, indicating the
status of message storage in the non–volatile memory, and message output to the INS
port and the RS–232C port ( printer port) for all frequencies.
$ - - CRQ , NRM * hh< CR >< LF >
①
②
① Device identifier ( e.g. IN=INS device, AI=AIS)
② Checksum in hex
Example: Device identifier = IN ( INS device), checksum= 3A hex
$ INCRQ , NRM * 3A< CR >< LF >
A total of nine output sentences will then be sent back to the INS device like the
examples below.
$CRNRM,1,1,03FFFFFF,02200EBF * 32:
$CRNRM,2,1,03FFFFFF,02200EBF * 31:
$CRNRM,3,1,03FFFFFF,02200EBF * 30:
$CRNRM,1,2,03FFFFFF,02200EBF * 31:
$CRNRM,2,2,03FFFFFF,02200EBF * 32:
$CRNRM,3,2,03FFFFFF,02200EBF * 33:
$CRNRM,1,3,03FFFFFF,02200EBF * 30:
$CRNRM,2,3,03FFFFFF,02200EBF * 33:
$CRNRM,3,3,03FFFFFF,02200EBF * 32:
Settings for 490 kHz, to non–volatile memory
Settings for 490 kHz, to printer port
Settings for 490 kHz, to INS port
Settings for 518 kHz, to non–volatile memory
Settings for 518 kHz, to printer port
Settings for 518 kHz, to INS port
Settings for 4209.5 kHz, to non–volatile memory
Settings for 4209.5 kHz, to printer port
Settings for 4209.5 kHz, to INS port
NOTE: The above examples represent the default mask settings.
AE–1800 Instruction Manual
Installation
7.4.4.
7.4.4.1.
Alarm Output Sentence Formats
Output Format for Alarm Being Activated
An alarm output sentence like the example below will be output to the RS–422 (INS)
port when the equipment receives an alarm NAVTEX message or if the equipment
develops a failure or malfunction. The output will be repeatedly available at 30–second
intervals until the alarm condition is acknowledged and reset manually by pressing 
twice*1 on the equipment or until the appropriate acknowledgement command
(paragraph 7.4.5) is fed via the port from the INS terminal.
$CRALR ,, 003 , A , V , NAVTEX : Search and Rescue information*72< CR > < LF >
①
② ③
④
⑤
NOTE: The equipment does not use UTC as the time source, and therefore sends a null field
in place of the time–of–alarm–condition–change field.
① Local alarm number:
001 = Navigational warning ( type–A message )
002 = Meteorological warning ( type–B message )
003 = SAR, piracy, armed robbery information ( type–D message )
004 = Receiver malfunction
005 = Self–diagnostic test failure
006 = General failure
② Alarm conditions:
A= threshold exceeded ( i.e. alarm condition exists )
V= threshold not exceeded ( i.e. alarm condition is non–existent )
③ Alarm acknowledgement status
A= acknowledged
V= unacknowledged
④ Alarm description text
⑤ Checksum
03 = Navigational warning
0F = Meteorological warning
72 = SAR, piracy and armed robbery information
The other alarm output sentences are as follows:
$CRALR ,, 001 , A , V , NAVTEX:Navigational warning*03< CR > < LF >
$CRALR ,, 002 , A , V , NAVTEX:Meteorological warning*0F< CR > < LF >
*1: Pressing the key once silences the audible indication alone, allowing the output sentence
continue every 30 seconds. A second keypress resets all the currently active alarms.
7.4.4.2.
Output Format for Alarm Being Acknow ledged
When active alarms are acknowledged, the following sentences will be output once:
$CRALR ,, 001 , V , A , NAVTEX :Navigational warning *03< CR > < LF >
$CRALR ,, 002 , V , A , NAVTEX :Meteorological warning *0F< CR > < LF >
$CRALR ,, 003 , V , A , NAVTEX : Search and Rescue information*72< CR > < LF >
to
AE–1800 Instruction Manual
Installation
7.4.4.3.
Output Format After Alarm Being Acknowledged
Within one minute after the issuance of the above sentences or after the  key is
pressed twice, the following outputs will be repeated at one–minute intervals. This
condition will continue until another alarm message is received.
$CRALR ,, 001 , V , V , NAVTEX : Navigational warning*14 < CR > < LF >
$CRALR ,, 002 , V , V , NAVTEX : Meteorological warning*18 < CR > < LF >
$CRALR ,, 003 , V , V , NAVTEX : Search and Rescue information*65 < CR > < LF >
7.4.5.
Alarm Acknowledgement
The following command format is supported to acknowledge and reset the current
alarm condition via the RS–422 ( INS ) port:
$– – ACK , 003 *h h < CR > < LF >
①
②
③
① Device identifier ( e.g. IN=INS device, AI=AIS)
② Local alarm number
001 = Navigational warning
002 = Meteorological warning
003 = Search and rescue (SAR) information
③ Checksum:
If the device identifier is IN (INS device), for example, the above command format
for each alarm is as follows:
$INACK , 001 *5 3 < CR > < LF > : to acknowledge Navigational warning
$INACK , 002 *5 0 < CR > < LF > : to acknowledge Meteorological warning
$INACK , 003 *5 1 < CR > < LF > : to acknowledge SAR information
7.4.6.
Proprietary Sentence (Switching 2nd Receiver Frequency)
The following command ( I E C 6 11 6 2 – 1 proprietary format sentence) is used to
externally switch the second receiver frequency between 490 kHz and 4209.5 kHz:
$PJMCR , 0 , 1
*hh < CR > < LF >
① ② ③
① Receiver index:
0 = Second receiver
1 to 9 = Reserved
② Receive frequency index:
1 = 490 kHz
2 = Not assigned
3 = 4209.5 kHz
③ Checksum:
See the examples below.
Examples:
To switch the frequency, an INS device should send the following command sentences to
the equipment via the RS–422 port:
･ Switching to 490 kHz:
$PJMCR , 0 , 1 *47< CR >< LF >
･ Switching to 4209.5 kHz: $PJMCR , 0 , 3 *45< CR >< LF >
AE–1800 Instruction Manual l
Theory of Operation
8.
8.1.
Summarized Theor y of Operation
What is NAVTEX?
NAVTEX, a system of broadcast and automatic reception of global maritime safety
information by means of direct display/printing telegraphy, is part of the *1 GMDSS
infrastructure, defined by *2 IMO Assembly resolution A.706 (17). Broadcasting is
accomplished by a worldwide network of dedicated coastal stations regularly sending
weather information, navigational warnings, search–and–rescue (SAR) information and
other related messages, all in an easy–to–read text format, to mariners free of charges.
8.2. Operating Frequencies
At present three frequencies are officially allocated by the *3 ITU for NAVTEX
broadcasting service: 518 kHz, 490 kHz and 4209.5 kHz. All *4 SOLAS convention
vessels are required to carry a receiver dedicated to receiving NAVTEX transmissions
automatically on all the above frequencies.
Transmissions on 518 kHz are in English and of general interest to vessels navigating
international waters, while the 490 kHz service is primarily targeted at those working
most of the time in areas close to transmitting stations, providing more localized
information in national languages. Some stations also broadcast information to local
users on 4209.5 kHz. Stations on each frequency transmit NAVTEX messages usually
for a period of 10 minutes on a time–sharing basis to avoid cross–station interference.
8.3.
Service Area
The coverage area of a 518 kHz station is normally 200 to 400 nautical miles in daytime
hours, depending on the transmitting power level, and a signal travels along the surface.
At night some of the signal often travels more than double the daytime coverage by
being reflected a number of times between the surface and the ionosphere, a band of
ionized atmospheric layers 50 to 400 km above the surface. The 490 kHz service area is
less than the 518 kHz coverage due to lower transmit power levels, but the nighttime
coverage often extends greatly due to ionospheric reflections. The 4209.5 kHz broadcast,
though catering mainly for inshore users and covering much less areas in the daytime,
can be received from more than 1000 miles away during hours of darkness.
8.4.
Error Correction
Signal propagation conditions constantly vary with time of the day and also with the
season. The signal arriving at the receiver can be corrupted or distorted at any time by
static discharges, natural noise, abnormal solar activity, unstable ionospheric conditions,
interference between the signal coming directly from the transmitter and the one
reflected from the ionosphere, etc. It is therefore likely that a vital NAVTEX message
can be missed due to signal corruption or distortion at the receiving end.
In order to ensure that each message is properly received within its intended area of
coverage, a station sends out the same message twice, some hours apart, each with its
identification code ( known a s B1 character), message type code ( B 2 character) and a
two–digit serial number ( B 3B 4 , ranging 00 to 99). In addition, the system employs a
mode of transmission called forward error correction (FEC), transmitting each
alphanumeric character in the message twice at very short intervals. If the same
character is received twice, the receiver considers it to be a true character. If either of
the received characters is different or corrupted, the receiver treats it as an invalid
letter, and displays or prints an asterisk (*) in its place, thereby securing the reliability
of a received message.
( continued on next page )
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theor y of Operation ( continued – 2 /10 )
8.5.
NAVTEX Receiver – General
A NAVTEX receiver that complies with the relevant IMO resolutions and regulations for
wheel mark certification is programmed to automatically receive and display/print a
message, and avoids a repeated reception of the same message by checking the ID and
numbering of each message. Using the ID and message type data attached to each
message, the user can also program the receiver to reject certain transmissions and
message types that are not of importance while in the current area, except for SAR and
other urgent warning messages classified as type D messages.
An audible and visual alarms are automatically triggered upon reception of such a
message. To silence the alarm, the user must manually, or via an appropriate command
from an INS terminal, acknowledge the message arrival. Received messages are either
printed on paper ( for a receiver with a built–in printer) or displayed on a screen with
memory for storage and retrieval ( for a receiver with an integral LCD screen).
8.6.
The AE–1800 NAVTEX Receiver
The AE–1800 receiver has two built–in receivers on the same receiver board, with the
first receiver devoted to receiving 518 kHz broadcast at all times and the second
receiver receiving either 490 kHz or 4209.5 kHz signal as selected by the user through
the menu system. Received messages are displayed across an 8–inch liquid crystal
display ( LCD) and stored permanently or temporarily as specified by the user.
Up to 200 messages, each with an average of 500 characters, received on the first and
second receivers are separately stored and then automatically erased from memory 60
hours after the time of reception on a first–in–first–out basis. However, up to 25
messages can be protected against automatic erasure, and are stored in a separate area
of the non–volatile message memory, in which case an additional 50 new messages can
be stored in memory for each receiver.
When a transmission occurs on the first and second receiver frequencies at the same
time, the equipment receives both signals, displaying the first receiver message while
storing the second receiver message in memory for later retrieval. An appropriate
caution message shows up in the screen bottom prompt line to indicate the reception of
a new NAVTEX message on the second receiver.
Reception of a type–D message ( SAR, piracy and armed robbery information) activates
the audible and visual alarms. The received message text then is shown in red, making
it easy to discriminate it from navigational ( type–A) and weather ( type–B) warnings.
The audible alarm also sounds differently to indicate that a type–D message has been
received. The alarm can be acknowledged remotely by an IBS/INS terminal connected
to the RS–422 port on the rear panel. When a type–D message is received on the second
receiver alone, the display automatically switches to the second receiver page, showing
its message in red while sounding the alarm in the same manner as on the first receiver.
The stored messages can be output via three interface ports mounted on the rear panel
for IBS/INS or other onboard applications The user can specify the ID, frequency and
type of the messages you wish to output. An optional printer can also be plugged in to
print the current message in real time or those recalled from the non–volatile memory.
*1 : Global Maritime Distress and Safety System, *2 : International Maritime Organization
*3 : International Telecommunications Union, *4 : Safety of Life at Sea
( continued on next page )
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theory of Operation ( continued – 3 / 10 )
8.7.
Operating Principle of AE–1800
Figure 8–1 shows interconnections between the printed circuit boards (PCBs)
comprising the AE–1800 system and interface connections from the PCBs to data
input/output ports and peripheral devices. A functional block diagram of the receiver
PCB is given in Figure 8–2..
To follow the circuit description below, see also the block diagram and schematics of the
receiver PCB and Main PCB attached.
Receiver Circuit
To receive the three NAVTEX frequencies (518 kHz, 490 kHz and 4209.5 kHz), the
system incorporates two independent receivers ( first and second receivers) plus a local
oscillator that is switched into operation when the second receiver frequency is changed
to 4209.5 kHz. All receivers are mounted on the receiver PCB (S602–RCV–A).
Both 518 and 490 kHz signals picked up at the *active antenna’s preamplifier pass
through a bandpass filter (L4, L19) and are then amplified by a common RF amplifier
(Q4).
*The
active antenna contains three passband filters, independently tuned to the three frequencies,
each followed by a single stage preamplifier. The 490 kHz filter and 4209.5 kHz filter are switched by a
relay when the second receiver frequency is changed.
The amplified signals are then separately filtered by crystal filters (F1 for 518 kHz, F2
for 490 kHz) to avoid cross–channel interference and reject interference adjacent to
each frequency.
A 4209.5 kHz signal goes through its devoted bandpass filter ( L3, L6). After being
amplified by RF amplifier Q5, it is fed to a diode mixer ( D3, D4), which converts the
4209.5 kHz signal into a 490 kHz signal through heterodyne action using a local
oscillator output ( 3719.5 kHz) derived from crystal oscillator U3 ( 29.756 MHz) through
a divide–by–8 frequency divider ( embedded in U3’s package). The 490 kHz output is
then fed to the 490 kHz crystal filter F2 through a switch (U1, Q6).
After passing through the appropriate crystal filter, each signal is again amplified ( by
Q10 for 518 kHz, Q11 for 490 kHz ) and then fed to an FM detector ( U9 for 518 kHz, U10
for 490 kHz ), which demodulates a frequency–shifted (carrier±85 Hz) RF NAVTEX
signal into a stream of baseband pulses at 100 baud using quadrature detection
technique. The detected output is then fed to the CPU via a lowpass filter and
comparator chain (U11 for 518 kHz, U12 for 490 kHz) and an opto–isolator (K7 for 518
kHz, K8 for 490 kHz).
To test whether each receiver is functioning properly, two NAVTEX signal generators
are provided on the same PCB, each consisting of crystal–controlled oscillator (U5 for
first receiver, U4 for second receiver) and common divide–by–16 frequency divider U2.
When the self–diagnostic test function is activated via the menu, each generated signal
will be mixed by diode mixer D5 with the 3719.5 kHz output from local oscillator U3,
producing test signals at 518 kHz and 490 kHz. They will then be fed to their respective
amplifiers in the same manner as live NAVTEX signals are processed.
( continued on next page )
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theory of Operation ( continued – 4 / 10 )
8.7. Operat ing Principle of AE–1800 ( continued –2 / 2 )
CPU Circuit
The Main PCB (M613–MAIN–X) carries a CPU circuit and a power supply circuit. The
CPU is a 16–bit single–chip microcomputer (U10) clocked at 24 MHz by
crystal–controlled oscillator X1, and on–chip flash ROM for program software and
on–chip RAM providing memory space for data processing of the demodulated signals.
An external static RAM (SRAM) chip (U5, 512 kB) is mounted for the storage of
messages and IDs, and is backed up by large capacity capacitor C6 (1.0 farad) for
approx. 10 days in the event the unit is placed in a continuous power–off condition. A
portion of the memory capacity is allocated as a video RAM (VRAM) to hold text for
display on the LCD screen.
U3 is factory–programmed to act as a display controller to perform various display
control functions and text scrolling. The input / output interface between the CPU and
externally connected devices consists of three external ports: U4 for the RS–232C and
I/O DATA ports, U12 for the RS–422 port.
Power Supply Circuit
The power supply circuit consists mainly of a switch–mode voltage regulator (U55), a
power transformer (T51), a DC–to–DC converter (U52) (or U57 3–terminal voltage
regulator) and a 3–terminal voltage regulator (U56), producing various regulated
outputs (3.3V for IC chips, ±12V for RS–232C port, +12V for the receiver PCB, +5V for
RS–422 port, etc.) required for operation of the entire Main PCB circuitry.
The voltages (+8V and +5V) required for receiver operation are derived from the +12V
output through 3–terminal regulators (U7 and U8) on the receiver board.
Should the power line polarity be reversed accidentally, diode D51 will cause the fuse F1
(3A) to blow, thereby protecting the input circuit from possible damage. A varistor
(VA51) is placed across the DC input line to protect the power supply circuit from
possible damage in the event voltage transients on the ship’s power line voltage exceed
40V.
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theory of Operation ( continued – 5 / 10 )
Figure 8-1 Interconnections
( continued on next page )
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theor y of Operation ( continued – 6 / 10 )
Figure 8-2 Functional Block Diagram – Receiver Board
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theor y of Operation ( continued – 7 / 10 )
Figure 8-3 CPU Circuit – Main Board
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theor y of Operation ( continued – 8 / 10 )
Figure 8-4 Power Supply Circuit – Main Board
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theor y of Operation ( continued – 9 / 10 )
Figure 8-5 LCD Backlight Control Circuit – Main PCB
AE–1800 Instruction Manual l
Theory of Operation
8.
Summarized Theor y of Operation ( continued – 10 / 10 )
Figure 8-6 Keypad Board
AE–1800 Instruction Manual
Specifications
9.
Specifications
(1) IEC 60945–2002 Equipment Category:
Protected
･ Receiver Cabinet :
Exposed
･ Active Antenna Unit :
(2) Receive Frequencies :
･ First Receiver :
･ Second Receiver :
(3) Type of Receiver :
･ First Receiver:
･ Second Receiver:
- 490 kHz :
- 4209.5 kHz :
(4) Antenna Input:
(5) Input Protection:
518 kHz
490 kHz and 4209.5 kHz, front panel–selectable or by
*1proprietary command sentence via RS–422 port
518 kHz straight amplifier
490 kHz straight amplifier
Down–conversion to 490 kHz
Coaxial : 50 Ω ( nominal), matched with ANT–2000M
active antenna
30 VRMS for 15 minutes over 100 kHz–28 MHz range
(6) Active Antennas:
・Standard:
Preamplified 1.2m glass–fiber whip ( ANT–2000M) for
reception of 518 kHz, 490 kHz and 4209.5 kHz, with
1–meter RG–58 /U coaxial cable attached, terminated
in BNC and PL–259 plugs for cable extension.
(7) Message Display:
5.7” ( diagonal) color TFT, QVGA (320X240 pixels)
(8). Receiver Sensitivity :
Better than the following value for message reception
with character error rate (CER) of less than 4%:
･ 1 μV e.m.f. to coaxial input
(9) Demodulator :
Quadrature detector, crystal–controlled
(10) Mode of Reception :
F1B with forward error correction ( AnnexⅡ to ITU–R
REC. 476–3, M.540–2 and 625 B–mode)
･ Single Frequency:
Automatic reception and display of message
transmitted on 518 kHz or on user–selected second
receiver frequency ( 490 kHz or 4209.5 kHz)
･ Dual Frequency:
Automatic, simultaneous reception of 518 kHz and
user–selected second receiver frequency (490 kHz or
4209.5 kHz), with automatic display of first receiver’s
live messages while storing second receiver messages in
memory when NAVTEX broadcasts occur at both
frequencies simultaneously.
(11) Second Receiver Selection:
(12) Source of Time :
(13) User Interface Language :
490 kHz or 4209.5 kHz selectable via menu system or
*1 proprietary command sentence via RS–422 port
*1 :See paragraph 7.4.6 for detail.
Derived from CPU clock 24.00 MHz for calculation of
time passage to handle message aging. No real time
clock (RTC) is used.
English ( menus, status, prompts, cautions)
( continued on next page )
AE–1800 Instruction Manual
Specifications
9.
Specifications ( continued – 2 / 4 )
(14) Text Display:
･ NAVTEX Messages :
40 characters per line, 18 lines per screen. A forced
carriage return symbol *2() divides the last word at
40th character position if the number of character in a
line exceeds 40.
Maximum capacity of characters / line: 4096
* 2 Hex 5F ( _ ) is output to RS–232C or RS–422 port.
･ Statuses & Prompts :
1 line (40 characters maximum) at screen’s upper and
lower edges
(15) Indication of Message Reception and Storage
･ Message Reception:
Tag iNEW MESSAGEi is attached to message ID.
･ Storage:
Indication “ STORED” is turned on at the end of each
satisfactorily received message together with a
character error rate (CER= XX%) readout
(16) Message Scrolling:
Automatic, except for new SAR messages
･ Live Messages :
･ Stored Messages :
Manual, line–by–line or page–by–page scrolling
(17) Message Storage:
･ Capacity :
200 messages ( average 500 characters per message) for
each of 518 kHz, 490 kHz and 4209.5 kHz receivers. Up
to an additional 50 messages can be stored ( for 518
kHz and 490 kHz or 4209.5 kHz) if stored messages are
protected.
Maximum storage of characters: 106,496 / frequency
Maximum characters/ message: More than 8000
If the equipment receives a message with a character
error rate (CER) of > 4% and ≦ 33%, it will store the
message but will receive the same message to be
transmitted subsequently. If the subsequent message
has a lower CER, it will automatically replace the
previously stored one. If a message is received with a
CER > 33%, it will not be stored.
･ Duration :
・Storage without Power:
(18) Message Protection:
60 hours 20 minutes from successful reception of each
message, or until the storage limit is reached, after
which old messages will be automatically erased from
memory on a first–in–first–out basis except for
user–protected messages that cannot be erased from
memory until their protection tags are removed
manually. Time source is derived from the CPU clock
(24.00 MHz) to compute message aging.
Protected messages are stored for at least 10 days after
power is removed continuously.
Up to 50 messages on each receiver screen can be
protected against automatic erasure, and are saved in a
separate area of the non–volatile message memory.
Protection of a user–selected message can be cancelled
to allow automatic erasure after a 60–hour time
passage.
Protected messages are indicated with
iPROTECTEDi attached to the message ID.
*3 Removing the tag requires user confirmation.
*3 tag
( continued on next page )
AE–1800 Instruction Manual
Specifications
9.
Specifications ( continued – 3 / 4 )
(19) Message ID Storage:
･ Capacity :
･ Duration :
(20) Stored Message Outputs :
200 IDs of successfully received messages (with CER
≦33%) on each of 518 kHz, 490 kHz and 4209.5 kHz
60 hours 20 minutes after receipt or until the storage
limit ( 200 for each frequency) is reached.
The following messages can be selectively output via
the RS–422, RS–232C and I / O DATA ports manually
through the menu system or externally with station
and message ID mask settings from an INS terminal:
･ All currently displayed messages or currently
displayed messages of user’s choice
･ All stored messages
･ Stored messages of user’s choice by specifying
frequency, transmitter or message type
(21) External I/O Interfaces:
･ Printer Interface :
RS–232C port ( M A X 3 2 3 2 transceiver)
RS–422 port ( M A X 3 4 9 0 transceiver) with input lines
optically isolated
･ NMEA–0183/IEC 61162–1: 8–pin connector ( I/O DATA port)
･ IBS/INS :
･ Alarm Activation Output : 2 isolated pairs of relay contacts ( ALARM port)
･ Control Commands:
IEC 61162–1 formatted sentences. Up to 10 commands
can be stacked for sequential execution.
(22) Message Alarm Specifications:
･ Audible Indication:
Beeping from front–facing piezoelectric buzzer
- 1–second intervals: Type D messages
- 3–second intervals: Types, A, B and L messages
･ Visual Indication:
Red tag iALARM !i attached to ID
ID and message text displayed in red color for type–D
messages.
･ Acknowledgement/Muting: Manually with front panel button or by means of IEC
61162–1 format command ( $- -ACK command) via
RS–422 input port.
･ Alarm Conditions Output: IEC 61162–1–compliant $CRALR sentences containing
local alarm number and alarm text via RS–422 output
port. See paragraph 7.4.4 for details.
NOTE : See section 10 (List of Alarms) for additional information on alarms.
(23) Power Requirements:
24 VDC ( nominal), approx. 11W. Floating ground. The
unit operates safely over a 11–to–40V range.
(24) Cabinet Size & Weight:
238/ 196 ( W ) X 217/ 196 ( H) X 194 ( D ) mm
Approx. 2.3 kg with mounting bracket attached
( continued on next page )
AE–1800 Instruction Manual
Specifications
9.
Specifications ( continued – 4 / 4 )
(25) Compass Safe Distances ( in Energized Condition):
・ Cabinet with Bracket:
・ Cabinet only:
60 cm ( standard ), 35 cm ( steering)
45 cm ( standard ), 30 cm ( steering)
(26) Ambient Temperatures:
–15 to 55 C ( cabinet, operating)
–40*1 to 70 C ( cabinet, storage)
–25 to 55 C ( active antenna, operating)
–40*2 to 70 C ( active antenna, storage)
(27) Compliance Standards:
IMO Resolution MSC.148(77
IMO Resolution A.694(17)
IEC 61097–6 Ed.2
IEC 60945 Ed.4 ( 2002)
IEC 61162–1, IEC 61162–2
ITU–R 540–2
ITU–R 625–3
EN 300 065V 1.1.3
EN 301 011V 1.1.1
ﾟ
ﾟ
ﾟ
ﾟ
*1:The temperature must be returned to, and left at –15ﾟC and above for at least 1 hour,
before the equipment can be switched on.
*2:The temperature must be returned to, and left at –25ﾟC and above for at least 1 hour,
before the equipment can be switched on.
NOTE: Specifications, other than those specified under the above standards, are subject to
change without notice or obligation.
AE–1800 Instruction Manual l
List of Alarms
10.
List of Alarms
10.1. Message Alarms
●
Alarm for D–Type Message
･ Enabled / Disabled Status:
Enabled at all times.
･ Triggering Condition:
To be triggered upon reception of a D–type message.
･ User Interface:
- Audible:
- Visual:
●
Beeping at approx. 1–sec. intervals by alarm buzzer.
Attaching iA L A R M ! i tag to message ID and
displaying both message ID and text in red.
Alarm for A–, B–, and L–Type Messages
･ Enabled/Disabled Status:
Initially disabled, and can be individually enabled by
the user. See paragraph 4.13 for instructions.
･ Triggering Condition:
To be triggered upon reception of an A–, B– or L–type
message.
･ User Interface:
- Audible:
- Visual:
Beeping at approx. 3–sec. intervals by alarm buzzer.
Attaching iA L A R M ! i tag to message ID and
displaying message ID in red.
10.2. Operational Alarms
●
Storage Limit Alarm:
･ Enabled/Disabled Status:
･ Triggering Condition:
･ User Interface:
- Audible:
- Visual:
●
Memory–Full Alarm:
･ Enabled/Disabled Status:
･ Triggering Condition:
･ User Interface:
- Audible:
- Visual:
●
Invalid Keypress Alarm:
･ Enabled/Disabled Status:
･ Triggering Condition:
Enabled at all times.
To be triggered at time of trying to protect NAVTEX
messages for permanent storage in excess of 50.
Beeping 3 times in quick succession by small buzzer.
Displaying warning “ STORAGE LIMIT IS REACHED ! ”
in prompt line at screen’s bottom.
Enabled at all times.
To be triggered on reception of additional new
NAVTEX message with 199 messages already stored.
Beeping 3 times in quick succession by small buzzer.
Displaying warning “ MEMORY FULL ! [ C L R ] TO
A C K N L G.” in prompt line at screen’s bottom.
Enabled at all times.
To be triggered when any key not valid for current
operation is pressed.
･ User Interface:
- Audible:
- Visual:
Beeping 3 times in quick succession by small buzzer.
Displaying warning “ INVALID KEYPRESS,” blinking.
AE–1800 Instruction Manual
List of Abbreviations
11. List of Abbreviations
The abbreviations used in this manual and menus, on screen, control panel and rear
panel are listed below.
A:
ACKNLG:
AI:
AIS:
ALM:
ALR:
ANT:
BNC:
BRT:
BSH:
BV:
CER:
CH:
CLR :
CPU:
CR:
CR:
D:
dB :
DC/AC:
DIM:
DOS/V:
DRAM:
EMC:
EN :
ENT:
F:
FEC:
FL :
FM :
FREQ :
FSK :
FWE :
F/C :
GMDSS :
GND :
GPS :
H:
HF:
ID :
IEC :
IMO :
IN:
INS/IBS:
ISO :
I/O :
kB :
kg :
LED:
LSB:
LST:
LAT/LON:
LCD :
LF:
amperes
Acknowledge
Automatic identification system (typical device identifier of AIS equipment)
Automatic identification system
Alarm
Alarm (header of alarm output sentence from INS port)
Antenna
Type of coaxial connector
Brightness control key
Bundesamt für Seeschiffahrt und Hydrographie ( Federal Maritime and
Hydrographic Agency, Germany)
Bureau Veritas (France ), EU notified body
Character Error Rate ( ratio of asterisks to total number of characters)
Operating channel ( receiver currently in use)
Clear key
Central Processing Unit ( core of single–chip microcomputer on CPU PCB)
Communications receiver ( device identifier of NAVTEX receiver)
Carriage Return code (0D in hexadecimal notation, unprintable)
Depth ( part of cabinet dimensions)
decibels ( unit of relative power strength)
DC–to–AC ( DC–to–AC voltage inverter for screen backlighting lamp)
Dimmer key ( f or keypad backlighting)
Disk Operating System/V ( PC operating system for IBM–compatibles)
Dynamic Random Access Memory
Electromagnetic Compatibility
Europäische Norm ( = European Standards)
Entry key
Frequency
Forward Error Correction ( error–correcting protocol in NAVTEX system)
Fluorescent Lamp ( screen backlighting lamp)
Frequency Modulation
Frequency
Frequency Shift Keying ( modulation technique for NAVTEX transmission)
Flash–memory Write Enable ( CPU–embedded flash memory programming)
Frequency Converter ( used to receive 4209.5 kHz on second receiver)
Global Maritime Distress and Safety System
Ground
Global Positioning System, GPS receiver/sensor
Height ( part of cabinet dimensions)
High frequency band ( including 4209.5 kHz second receiver frequency)
Identification code (identification of transmitter)
International Electrotechnical Commission
International Maritime Organization
Integrated Navigation (device identifier of INS equipment)
Integrated Navigation System/Integrated Bridge System
International Standardization Organization
Input / Output
kilobytes
kilograms
Light–Emitting Diode
Least Significant Bit
Local Standard Time
Latitude / Longitude coordinates
Liquid Crystal Display
Line Feed code (0A in hexadecimal notation, unprintable)
( continued on next page )
AE–1800 Instruction Manual
List of Abbreviations
11.
List of Abbreviations (c o n t in u e d – 2 / 2 )
m:
mA:
min:
mm:
ME or MEM :
MF :
MON :
MSG :
MPU:
NC :
NMEA :
NNNN :
NRX:
para.:
PC :
PCB :
PR :
PWR :
QVGA :
meters
milliamperes
minutes
millimeters
Memory ( non–volatile memory for message storage)
Medium frequency broadcast band ( including 490 kHz and 518 kHz)
Monitor ( audible monitor)
Message ( NAVTEX message)
Microprocessing Unit
No connection ( no internal connection)
U.S. National Marine Electronics Association
End–of–message indication ( specified under IMO/IEC regulations)
NAVTEX receiver ( header of message output from INS port)
paragraph
Personal Computer
Printed Circuit Board
Printer
Power
Quarter VGA ( screen resolution, 320X240 pixels)
RAM :
RCVNG :
RCVR :
REC :
REF :
REJ :
REV:
RH:
RJ:
ROM :
RTC :
RX :
RMRS :
S:
SAR :
SEL :
SIG :
SL:
SOLAS :
SRAM :
STD :
STG :
STO :
TFT:
TX :
TXD :
UTC :
V:
VCC :
VDC :
VER :
VGA:
W:
W:
WX:
XTAL :
Z:
Random Access Memory ( embedded in CPU chip)
Receiving
Receiver
Recommendation ( ITU Recommendation)
Reference
Reject, rejected
Revision ( software revision number)
Relative Humidity
Reject, rejected
Read–Only Memory ( embedded in CPU chip)
Real Time Clock
Receive, receiver
Russian Maritime Register of Shipping
Signal
Search And Rescue
Select, selected
Signal
Select, selected
Safety of Life at Sea
Static RAM ( non–volatile memory for message storage)
Standard compass
Steering compass
Store
Thin–Film Transistor ( technology of color LCD )
Transmit, transmitter
Transmit data ( Send data )
Universal Time Coordinated ( = GMT in common usage)
volts
Operating voltage of IC chips used
Volts DC
Version ( software version)
Video Graphics Array ( screen resolution, 640×480 pixels )
Width ( part of cabinet dimensions )
watts
Weather
Crystal ( quartz crystal oscillator)
GMT (Greenwich Mean Time )
AE–1800 Instruction Manual
User–made Settings
12. User Settings To Be Stored in Non–Volatile Memory
The following user–made settings will be stored in the non–volatile memory. Settings
indicated in Italic type fonts are factory defaults.
●
Screen Brightness Level:
Last used level
●
Keypad Dimmer Level:
Last used level
●
Settings via Menu System
・ Background Color:
WHITE, BLACK, BLUE
・ Message Font Type:
NORMAL, BOLD
・ Screen Sleep Mode
- On/Off Status:
- On/Off Time Period:
ON, O F F
STANDARD, USER–DEFINED MODE
・ *1Second Receiver Frequency: 490 KHZ, 4209.5 KHZ
・ Keypress Beep:
ON, OFF
・ *2Station Selection/Rejection Settings ( common to first and second receivers)
- Storage in Memory:
Selected Stations:
Rejected Stations:
A to Z ( all stations )
None
- Output to Printer Port (RS–232C) and I/O DATA port:
Selected Stations:
A to Z ( all stations )
Rejected Stations:
None
- Output to INS Port (RS–422):
Selected Stations:
A to Z ( all stations )
Rejected Stations:
None
・ *2Message Type Selection/Rejection ( common to first and second receivers)
- Storage in Memory:
Selected Types:
A, B, C, D, E, F, H, J, K, L , V , Z
Rejected Types:
G, I, M, N , O, P, Q, R, S, T, U, W, X, Y
- Output to Printer Port (RS–232C) and I/O DATA port:
Selected Types:
A, B, C, D, E, F, H, J, K, L , V , Z
Rejected Types:
G, I, M, N , O, P, Q, R , S, T, U, W, X, Y
- Output to INS Port (RS–422):
Selected Types:
A, B, C, D, E, F, H, J, K, L , V , Z
Rejected Types:
G, I, M, N , O, P, Q, R , S, T, U, W, X, Y
・ Output Port Settings ( On/Off, Protocol, Bit Format, Baud Rate):
- RS–232C and I/O DATA:
- RS–422:
- I/O DATA:
ON, NON E, 8 DATA BITS, 1 STOP B IT, ODD, 0.11
ON, I EC61162, 8 DATA BITS, 1 STOP BIT, ODD, 4.8
ON, NON E, 8 DATA BITS, 1 STOP BIT, ODD, 4.8
( continued on next page)
AE–1800 Instruction Manual
User–made Settings
12. User Settings To Be Stored in Non–Volatile Memory ( continued –2 / 2 )
･ Message Output ( for printing live messages on–line)
- RECEIVING MSG:
ON, OFF
・ *3Message Alarms On/Off
- Type A Message:
- Type B Message:
- Type D Message:
- Type L Message:
ON, OFF
ON, OFF
ON
ON, OFF
*1: Can be controlled via RS–422 port with IEC 61162–1 proprietary command. Last
setting is stored in memory.
*2:
Can be controlled via RS–422 port with IEC 61162–1 $CRNRM command. Last settings
are stored in memory. Message types A, B, D and L cannot be rejected.
*3: Type D message alarm is always set to ON; the user cannot change the status.
AE–1800 Instruction Manual
List of Components To Be Shipped
13.
List of Components To Be Shipped
The following set of components is usually shipped by the manufacturer, either as
standard or optionally. The same information is usually given in the shipping
documents ( INVOICE, PACKING LIST, e t c . as requested by the user) to be attached
to the shipment. If your equipment is purchased from one of MORCOM–authorized
dealers, a different set of components may be delivered. Contact your dealer for details.
●
Receiver Console (Cabinet), AE–1800:
Standard
1 set
●
Active Antenna Assembly, ANT–2000M:
Standard
1 set
・ Preamplifier with *110m coax cable terminated in BNC plug
・ Whip, 1.2m
●
Receiver Mounting Bracket:
Standard
1 pc
●
Cabinet Clamping Knob, M8X15:
Standard
2 pcs
●
Power Supply Cable :
Standard
3m, 2–conductor shielded, terminated in type 14–P3F plug
1 set
●
*2 Plugs:
・ CP111–4P ( ALARM port):
・ CP111–8P ( I / O DATA port):
・ HDEB–9S ( RS–232C, RS–422 ports):
Standard
Standard
Standard
1 pc
1 pc
2 pcs
●
Fuse (3A, 125V, 5.2 X20 mm):
Standard
2 pcs
●
Reference Manual, *3 UM–AE1800–1.0:
Standard
1 copy
*1 OEM models are supplied with 1m RG58 / U coax cable terminated in a PL–259.
*2: Equivalent substitutes may be supplied.
*3: Edition number may change depending on delivery time.
AE–1800 Instruction Manual
MORCOM INTERNATIONAL, INC.
3656 Center view Drive, Unit #1
Chant ill y, VA 20151, U. S. A.
1st Edition, January., 2008
UM–AE1800–1.0
Printed in Japan

---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.4
Linearized                      : No
XMP Toolkit                     : 3.1-702
Producer                        : Acrobat Distiller 7.0 (Windows)
Creator Tool                    : PScript5.dll Version 5.2
Modify Date                     : 2008:01:25 16:59:33-05:00
Create Date                     : 2008:01:25 10:16:05+09:00
Metadata Date                   : 2008:01:25 16:59:33-05:00
Format                          : application/pdf
Title                           : Microsoft Word - AE-1800 REF Manual-Draft.doc
Creator                         : Administrator
Document ID                     : uuid:462b62a3-13ab-49f0-b554-80e6356af01b
Instance ID                     : uuid:39844d5c-83a6-4bf7-b97a-ea3c57256008
Page Count                      : 114
Author                          : Administrator

EXIF Metadata provided by EXIF.tools