Furuno USA 9ZWRTR101 Transceiver for Radar model FAR-1518/1528 User Manual

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Document Description	Installation Manual Part 4
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Document Type	User Manual
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Date Submitted	2015-09-30 00:00:00
Date Available	2016-03-28 00:00:00
Creation Date	2015-09-14 17:34:24
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2. WIRING
LAN cable
If the LAN cable is not fitted with an RJ-45 connector, attach one as shown below.
Connect the cable to J202 (on the outside of the processor unit.)
25 mm
approx. 9 mm
Remove the outer sheath by
approx 25 mm. Be careful
not to damage inner shield
and cores.
Expose inner vinyl sheath.
Fold back the shield, wrap it
onto the outer sheath and
cut it, leaving 9 mm.
approx. 11 mm
approx. 9 mm
Drain wire
Fold back drain wire and
cut it, leaving 9 mm.
Straighten and flatten the
core in order and cut them,
leaving 11 mm.
Insert the cable into the modular
plug so that the folded part of
the shield enters the modular
plug. The drain wire must be on
the tab side of the jack.
Modular plug
Using special crimping tool
MPT5-8AS (PANDUIT CORP.),
crimp the modular plug.
Finally check the plug visually.
[Crossover cable]
1 WHT/GRN
2 GRN
3 WHT/ORG
4 BLU
5 WHT/BLE
6 ORG
7 WHT/BRN
8 BRN
WHT/ORG 1
ORG 2
WHT/GRN 3
BLU 4
WHT/BLE 5
GRN 6
WHT/BRN 7
BRN 8
[Straight cable]
1 WHT/ORG
2 ORG
3 WHT/GRN
4 BLU
5 WHT/BLE
6 GRN
7 WHT/BRN
8 BRN
WHT/ORG 1
ORG 2
WHT/GRN 3
BLU 4
WHT/BLE 5
GRN 6
WHT/BRN 7
BRN 8
2-15
2. WIRING
2.4.3
Where to connect cables inside the processor unit
Connect the antenna cable and the cables of optional equipment to the FRP_TB board
(03P9601) inside the processor unit as shown below.
J608
J619
Antenna cable
(ECDIS) (FAR-1518/1528) (Keyboard)
From left: J603, J602
From top:
J612 (SUB DISPLAY 2)
J611 (SUB DISPLAY 1)
J610 (No use)
J618
(AMS)
J615
(AIS)
AD-10
(Gyro
Conv.)
Antenna cable
(FAR-1513/1523)
From left:
J605, J606, J607
J601*2
(TX-HV)
J614
(HDG sensor)
J617
(SPEED sensor)
J613
(External alarm
contact signal)
J604*3
(Video IN)
(Coaxial cable)
J616
(GPS)
*1 Attach these crimp-on lugs to drain wire of TTYCLSA cables and fasten drain wires here.
*2 Connect the TX HV line here. For the FAR-1513, FAR-1523, cut the TX-HV lines at the base of the
connector and connect them here.
*3 Fasten the bare conductor. Do not use a crimp-on lug to make the connection, to prevent contact
resistance from increasing.
Fasten shield with clamp.
Fasten conductor with screw.
2-16
2. WIRING
2.4.4
How to install the optional processor unit IPX2 kit
The optional processor unit IPX2 kit (OP03-238) has two rainproofing covers that protect the cables and connectors of the processor unit to waterproofing standard IPX2.
Name
Rainproof Cover 2
Rainproof Cover
Type
03-186-1104
03-186-1105
Code no.
100-401-840-10
100-401-850-10
Qty
Note: The installation also uses the blind seal that is supplied with the processor unit
installation materials (CP03-36501).
Rainproof Cover 2
1. Unfasten the two screws circled in the figure below.
2. Fasten the Rainproof Cover 2 (03-186-1104) with the two screws unfastened at
step 1.
2-17
2. WIRING
Rainproof Cover
1. Unfasten the three screws circled in the figure below.
2. Fasten the Rainproof Cover (03-186-1105) with the three screws unfastened at
step 1.
2-18
2. WIRING
Blind seal
Attach the blind seal over the hole on the rear side of the unit.
Blind
seal
2.5
Trackball Control Unit
Connect the cable from the control unit to the port cable on the trackball control unit.
Cover the junction with vinyl tape. Cover the vinyl tape with heat shrink tubing and
heat.
Connect cables, then cover junction with vinyl tape.
Cover vinyl tape with heat shrink tubing and heat.
2-19
2. WIRING
2.6
VDR Connection
The processor unit has an RGB port for connection of a VDR. Use the optional RGB
cable (3COX-2P-6C 5m/10m) to connect the VDR.
About the RBG port
• The RGB port and DVI port have their own circuits. This prevents interruption of the
radar picture shown on the main monitor connected to the DVI port, if a fault condition occurs at the RGB port.
• The processor unit continuously outputs video signals from its DVI and RGB ports.
The operator cannot stop the output.
2-20
3.
ADJUSTMENTS
Note: After completing the settings and adjustments, copy the setting data to a SDcard (SD card slot is at the back of the processor unit), referring to section 1.51 in the
Operator's Manual. This will allow easy restoration of setting data after the SPU Board
is replaced, etc.
At the first power up after installation, open the protected menus to adjust the radar.
Follow the procedures in this chapter, in the order shown, to complete the adjustment.
Below are the controls on the control unit that are used to make the adjustments.
Touch pad
Power lamp
Power key
3.1
Setting knob
Left button Right button
How to Open the Radar Installation Menu
The [RADAR INSTALLATION] menu has the items for adjustment of the radar. Do the
following to access the menu.
1. Open the cover of the power switch and press the switch to turn on the radar.
2. Press the MENU key five times while pressing the HL OFF key to open the [RADAR INSTALLATION] menu.
[RADAR INSTALLATION]
(1/2)
BACK
[ECHO ADJUST]
[OWN SHIP INFO]
[SCANNER]
[INSTALLATION]
[TT PRESET]
[BAUD RATE]
[ALERT I/F]
[INPUT PORT]
[NEXT]
[RADAR INSTALLATION]
(2/2)
BACK
[OTHERS]
[FACTORY]
Page 2
Page 1
3-1
3. ADJUSTMENTS
3.2
How to Use the Menu
1. Press the MENU key to open the main menu.
[MAIN MENU]
[ECHO]
[MARK]
[NAVTOOL]
[ALERT]
[TT•AIS]
[FILES]
[INFORMATION BOX]
[NAV LINE•WPT]
[INITIAL SETTING]
[RADAR INSTALLATION]
2. Operate the Setting knob to select a menu then push the knob.
3. Operate the Setting knob to select a menu item then push the knob.
4. Operate the Setting knob to select a menu option then push the knob.
5. If the menu option requires entry of numeric data, rotate the setting knob to set
then push the knob.
3.3
How to Initialize Tuning
1. Open the main menu.
2. Open the [ECHO] menu.
[ECHO]
BACK
2nd ECHO REJ
OFF/ON
TUNE INITIALIZE
PERFORMANCE MON
OFF/ON
PM ARC
2/3/5/6
SART
OFF/ON
ECHO AREA
CIRCLE/WIDE/
ALL/SIMPLE
WIPER
OFF/1/2
[ACE]
[CUSTOM SELECT]
3. Select [TUNE INITIALIZE], then press the Left button.
The indication "TUNE INITIALIZE" appears on the screen during the initialization.
4. After the tuning is completed, press the Right button twice to close the menu.
3-2
3. ADJUSTMENTS
3.4
How to Align the Heading
You have mounted the antenna unit facing straight ahead in the direction of the bow.
Therefore, a small but conspicuous target dead ahead visually should appear on the
heading line (zero degrees). In practice, you will probably observe some small bearing
error on the display because of the difficulty in achieving accurate initial positioning of
the antenna unit. The following adjustment will compensate for this error.
Correct bearing
(relative to heading)
Target
340
350 000
010
Apparent position
of target
020
030
330
320
Target
340
350 000
010
020
330
030
320
040
040
310
310
050
280
090
260
100
250
110
240
120
230
130
140
220
210
150
200
190
180
170
160
Antenna mounted error
Picture appears
to port (HDG SW advanced) deviated clockwise.
070
280
080
270
060
290
070
290
050
300
060
300
Apparent
position of
target
080
270
090
260
100
250
110
240
120
230
130
140
220
210
150
200
190
180
170
Correct
bearing
relative
to heading
160
Antenna mounted error
Picture appears
to port (HDG SW delayed) deviated counterclockwise.
1. Select a stationary target echo at a range between 0.125 and 0.25 NM, preferably
near the heading line.
2. Press the EBL key to turn on the EBL. Rotate the Setting knob to pass the EBL
through the center of the target echo.
3. Read the target bearing.
4. Measure the bearing of the stationary target on the navigation chart and calculate
the difference between the actual bearing and apparent bearing on the radar
screen.
5. Open the [RADAR INSTALLATION] menu, then open the [ECHO ADJUST] menu.
[ECHO ADJUST]
BACK
VIDEO ADJ
MAN/AUTO
VIDEO ADJ VALUE
30
HD ALIGN
000.0°
TIMING ADJ
MAN/AUTO
TIMING ADJ VALUE
200
MBS LEVEL
6. Select [HD ALIGN], then enter the bearing difference measured at step 4. The setting range is 0 to 359.9 degrees.
7. Confirm that the target echo is displayed at the correct bearing on the screen.
3-3
3. ADJUSTMENTS
3.5
How to Adjust Sweep Timing
Sweep timing differs with respect to the length of the signal cable between the antenna
unit and the processor unit. Adjust sweep timing at installation to prevent the following
symptoms:
• The echo of a "straight" target (for example, pier), on the 0.25 NM range, will appear
on the display as being pulled inward or pushed outward. See the figures below.
• The range of target echoes is incorrect.
(1) Correct
(2) Target pushed inward (3) Target pushed outward
1. Set the GAIN, A/C SEA and A/C RAIN controls as shown below.
GAIN: 80
A/C SEA: Fully counterclockwise (OFF)
A/C RAIN: Fully counterclockwise (OFF)
2. Open the [RADAR INSTALLATION] menu, then open the [ECHO ADJUST] menu.
3. Set [TIMING ADJ] to [AUTO] to activate the automatic adjustment, which takes
approx. two minutes.
4. After the adjustment is completed, set the radar to the minimum range. Confirm
that no echoes are "missing" at the center of the radar screen.
If echoes are missing, set [TIMING ADJ] to [MAN]. Select [TIMING ADJ VALUE],
then use the Setting knob to adjust the timing manually.
3.6
How to Suppress Main Bang
If main bang appears (a red ring at the screen center), suppress it as follows.
1. Transmit the radar on a long range and then wait 10 minutes.
2. Adjust the gain to show a slight amount of noise on the display.
3. Select the 0.125 NM range, then adjust the A/C SEA and A/C RAIN controls.
4. Go to the [RADAR INSTALLATION] menu, then open the [ECHO ADJUST] menu.
5. Select [MBS LEVEL], then use the Setting knob to enter a value that causes the
main bang to faintly disappear. The setting range is 0 to 255.
3-4
3. ADJUSTMENTS
3.7
RADAR INSTALLATION Menu
This section provides descriptions of the [RADAR INSTALLATION] menu items not
previously mentioned.
3.7.1
OWN SHIP INFO menu
Enter the length and width of the ship, and scanner, GPS antenna and conning positions, referring to the description and figure below.
[OWN SHIP INFO]
BACK
LENGTH/WIDTH
LENGTH 0m
WIDTH 0m
SCANNER POSITION
BOW
0m
PORT
0m
GPS1 ANT POSITION
BOW
0m
PORT
0m
GPS2 ANT POSITION
BOW
0m
PORT
0m
CONNING POSITION
BOW
0m
PORT
0m
Example
L3
L2
L4
L1
W2
W3
W4
W1
L1:
W1:
L2:
W2:
L3:
W3:
L4:
W4:
Ship length
Ship width
Conning position (from bow)
Conning position (from port)
Scanner position (from bow)
Scanner position (from port)
GPS antenna position (from bow)
GPS antenna position (from port)
[LENGTH/WIDTH]: Enter the ship’s length and width.
[SCANNER POSITION]: Enter the distance from the scanner to both bow and port.
[GPS 1 ANT POSITION]: Enter the distance from the GPS antenna to both bow and
port. If a 2nd GPS antenna is installed, enter its position in [GPS 2 ANT POSITION].
[CONNING POSITION]: Enter the distance from the conning position to both bow and
port.
3-5
3. ADJUSTMENTS
3.7.2
INSTALLATION menu
[INSTALLATION 1/2]
BACK
IP ADDRESS
172.031.003.001
RANGE UNIT
NM/km/SM
RADAR NO
1/2/3/4
RADAR POSITION
FORE/MAIN-TOP/
MAIN-2ND/MAIN-3RD/
AFT/PORT/STARBOARD
MODEL
FAR-1513/FAR-1523/
FAR-1518/FAR-1528
TYPE
IMO/Non-IMO
[INSTALLATION 2/2]
BACK
ON TIME
000000.0H
TX TIME
000000.0H
PM GAIN ADJ
MAN/AUTO
255
NEXT
[IP ADDRESS]: Enter IP address. The default address is 172.031.003.001.
[RANGE UNIT]: Select the unit of range measurement, among [NM], [km], and [SM].
[RADAR NO]: Select the radar number, among 1, 2, 3, and 4.
[RADAR POSITION]: Select the radar position. The choices are [FORE],
[MAIN-TOP], [MAIN-2ND], [MAIN-3RD], [AFT], [PORT], and [STARBOARD].
[MODEL]: Select the model name, among [FAR-1513], [FAR-1523], [FAR-1518], and
[FAR-1528].
[TYPE]: Select the type of radar, [IMO] or [Non-IMO].
[ON TIME], [TX TIME]: These items show the number of hours the radar has been
turned on and transmitted, respectively. Value can be changed; for example, after replacing the magnetron. [TX TIME] can be reset to 0.
[PM GAIN ADJ]: Adjust the performance monitor gain, automatically or manually,
whenever the magnetron is replaced.
To adjust the performance monitor gain, do as follows:
1. Select automatic or manual adjustment. For automatic adjustment, no further operation is required; close the menu at the completion of the adjustment. For manual go to the next step.
2. Set the radar controls as shown below.
Range: 24 NM
Pulse Length: Long
A/C SEA: OFF (turn off manually)
A/C RAIN: OFF (turn off manually)
Echo Averaging (EAV): OFF
Video Contrast: 2-B
3-6
3. ADJUSTMENTS
3. Adjust the GAIN control so that a slight amount of white noise appears on the
screen. Arcs for the performance monitor appear on the screen.
4. Select [PM GAIN ADJ]. Operate the Setting knob so that the outer arc faintly appears. The setting range is 0 to 255. Wait at least eight scans then right click to
set.
Before setup
8.1 NM to
10.1 NM
After setup
8.1 NM to
10.1 NM
Approx. 12.1 NM (10 dB)
Example: [PM ARC] is set to [5]. (The location of arcs
changes with the setting of [PM ARC] in
[PERFORMANCE MON] in the [ECHO] menu.)
3.7.3
ECHO ADJUST menu
[VIDEO LEVEL ADJ]: Adjust the video level, automatically or manually. Set the radar
as follows:
Interference Rejector (IR): 2
Echo Stretch (ES): OFF
Echo Averaging (EAV): OFF
Gain: 80
Range: 24 NM
Pulse Length: Long
For manual adjustment, select [VIDEO ADJ VALUE]. Rotate the Setting knob so that
noise just disappears from the screen. The setting range is 0 to 99. After completion
of the adjustment the radar goes into standby.
3.7.4
SCANNER menu
[SCANNER]
BACK
SECTOR BLANK1
START 000°
ANGLE 000°
SECTOR BLANK2
START 000°
ANGLE 000°
ANT SW
OFF/ON/EXT
ANT STOPPED
STBY/TX
DEFAULT ANT HEIGHT
5/7.5/10/15/20/
25/30/35/40/45/
more50m
Heading
Start
bearing
Set
angle
Sector blank setting
[SECTOR BLANK1], [SECTOR BLANK2]: Set area(s) where to prevent transmission. Heading must be properly aligned (see section 3.4) before setting any blind sec-
3-7
3. ADJUSTMENTS
tor. For example, set the area where an interfering object at the rear of the antenna
would produce a dead sector (area where no echoes appear) on the display. To enter
an area, enter start bearing relative to the heading and dead sector angle. To erase
the area, enter 0 for both the [START] and [ANGLE] sections. The setting range of
[START] is 0° to 359° and [ANGLE] is 0° to 180°.
Note: Turn off a stern blind sector when adjusting the gain of the performance monitor,
in order to display the echo from the performance monitor properly.
[ANT STOPPED]: For serviceman.
Note: Select [OFF] at [ANT SW] to prevent antenna rotation. [ANT STOPPED] prevents transmission while the antenna is stopped in STBY.
[DEFAULT ANT HEIGHT]: Select the height of the radar antenna above the waterline.
3.7.5
TT PRESET menu
[TT DATA OUTPUT]
BACK
SELECT SENTENCE
OFF/TTM/TTD
TTM/TTD SENTENCE
REL/TRUE
[ACQ PRESET]
[TT PRESET]
BACK
[TT DATA OUTPUT]
MAX RANGE
24NM/32NM
TT ECHO LEVEL
13
QV DISPLAY
OFF/ON
TT W/O GYRO
OFF/ON
[ACQ PRESET]
[TRACK PRESET]
[TT SENSOR DATA]*
DEFAULT
* For the serviceman.
BACK
LAND SIZE
1600m
ANT SELECT
XN12AF/XN20AF/
XN24AF/XN12A/XN13A
AUTO ACQ CORRE
AUTO ACQ WEED
1SCAN
[TT DETAIL DATA]*
[TRACK PRESET]
BACK
GATE SIZE
S/M/L/LL
FILTER RESPONSE
1/2/3/4
LOST COUNT
9SCAN
MAX SPEED
150kn
START TIME TGT VECT
TIME/SCAN
0sec
0SCAN
NUMBER OF TT
50/100
[MAX RANGE]: Select the maximum TT (target tracking) range, 24 or 32 NM.
3-8
3. ADJUSTMENTS
[TT ECHO LEVEL]: Set the detection level of TT echoes.
[QV DISPLAY]: [OFF]: Normal picture, [ON]: Quantized video. The normal picture is
in effect whenever the power is turned on regardless of this setting.
[TT W/O GYRO]: Select [ON] to use TT without a gyro.
[DEFAULT]: Restore default settings for this menu.
TT DATA OUTPUT menu
[SELECT SENTENCE]: Select the target data sentence (TTM or TTD) to output. Select [OFF] for no output.
[TTM/TTD REFERENCE]: Select the output format (bearing) for the TTM/TTD sentence.
[REL] (Target bearing from own ship, degree relative, target course, degree relative),
or [TRUE] (Target bearing, degree true, target course, degree true).
ACQ PRESET menu
[LAND SIZE]: Set the land size in units of 100 m. The setting range is 100 to 3000 m.
A target whose length is equal to or greater than the length set here is judged as a
land target.
[ANT SELECT]: Select the antenna radiator type of your radar. The size of the echo
changes with radiator size. Select the correct radiator type to ensure proper performance.
[AUTO ACQ CORRE]: Set the correlation count of automatic acquisition. The setting
range is 3 to 10.
[AUTO ACQ WEED]: Set the cancel count of automatic acquisition. The setting range
is 1 to 5.
[TT DETAIL DATA]: For the service technician.
TRACK PRESET menu
[GATE SIZE]: Select the gate size, among [S], [M], [L], and [LL].
[FILTER RESPONSE]: Set the filter response function. The setting range is 1 to 4.
1: Filter response is improved.
4: Filter stability is improved.
[LOST COUNT]: Set the number of scans to allow between the time a target is lost
and is declared a lost target. The setting range is 1 to 20.
[MAX SPEED]: No use.
[START TIME TGT VECT]: Set the number of seconds or number of scans to wait before showing the vector for a newly acquired target. Select [TIME] or [SCAN] then enter value.
[NUMBER OF TT]: Select the maximum number of TT to track, 50 or 100.
TT SENSOR DATA menu
For the service technician.
3-9
3. ADJUSTMENTS
3.7.6
BAUD RATE menu
Set the baud rate, 4800 or 38400 (bps), for connected equipment - heading sensor,
AIS transponder, GPS navigator, Log, AMS, and ECDIS.
[BAUD RATE]
3.7.7
BACK
HDG
4800/38400
AIS
4800/38400
GPS
4800/38400
LOG
4800/38400
AMS
4800/38400
ECDIS
4800/38400
ALERT I/F menu
Four alert outputs are available, [ALERT OUT1] - [ALERT OUT4]. Set each alert out
referring to the description below.
[ALERT]
[ALERT OUT1 1/3]
BACK
ALERT OUT TYPE
ALERT OUT/
OPERATOR FITNESS/
ALERT ACK
ALERT OUT PRIORITY
NORMAL/INVERT
Page 1/3
3-10
BACK
[ALERT OUT1 3/3]
TT TGT FULL(MAN) (C)
AIS NEW TGT (A)
AIS NEW TGT (C)
AIS LOST TGT (A)
AIS LOST TGT (C)
AIS COLLISION (A)
AIS COLLISION (C)
AIS TGT ACT FULL (A)
AIS TGT ACT FULL (C)
AIS TGT DISP FULL (A)
AIS TGT DISP FULL (C)
AZIMUTH
HEADLINE
TRIGGER
VIDEO
TRANSFER
TT NEW TGT (A)
TT NEW TGT (C)
TT LOST TGT (A)
TT LOST TGT (C)
TT COLLISION (A)
TT COLLISION (C)
TT TGT FULL(AUTO) (A)
TT TGT FULL(AUTO) (C)
TT TGT FULL(MAN) (A)
NEXT
*Content same as
[ALERT OUT1].
[ALERT OUT1 2/3]
BACK
[ALERT OUT1]
[ALERT OUT2]*
[ALERT OUT3]*
[ALERT OUT4]*
ALERT DATA OUT
ALR/ALF
AIS ALERT I/F
OFF/LEGACY/IF1
BACK
KEY
PM COM ERROR
TUNE ERROR
GYRO
LOG(BT)
LOG(WT)
EPFS
UTC
XTE
ARRIVAL
DEPTH
ANCHOR WATCH
NEXT
Page 2/3
Page 3/3
3. ADJUSTMENTS
ALERT menu (main)
[ALERT OUT 1] - [ALERT OUT 4]: Select the alert to output for each alert out number.
[ALERT DATA OUT]: Select the alert output format, [ALR] (Set Alarm State) or [ALF]
(Alert Sentence).
[AIS ALERT I/F]: Set the AIS alert interface. [OFF] does not output AIS alert.
[LEGACY]: For connection to FA-100, or connection to FA-150 where the AIS mode
is LEGACY.
[IF1]: For connection to FA-150 where the AMS mode is AlertIF1.
ALERT OUT sub menus
[ALERT OUT TYPE]: Select the alert out format, [ALERT OUT], [OPERATOR FITNESS] or [ALERT ACK].
[ALERT OUT POLARITY]: Select the alert out polarity, [NORMAL] or [INVERT].
Meaning of “(A)”, “(C)” suffixed items:
“(A)”: Outputs the alert when the corresponding item is an unacknowledged alert.
“(C)”: Outputs the alert when the corresponding alert condition is found.
3.7.8
INPUT PORT menu
[INPUT PORT]
BACK
[GPS]
LOG
GPS/LOG/ECDIS/HDG/AMS
HEADING
GPS/LOG/ECDIS/HDG/AMS
WIND
GPS/LOG/ECDIS/HDG/AMS
CURRENT
GPS/LOG/ECDIS/HDG/AMS
WATER TEMP
GPS/LOG/ECDIS/HDG/AMS
DEPTH
GPS/LOG/ECDIS/HDG/AMS
[GPS]
BACK
GPS1
GPS/LOG/ECDIS/HDG/AMS
GPS2
GPS/LOG/ECDIS/HDG/AMS
PRIORITIZE GLL
OFF/ON
INPUT PORT menu
Select the source for LOG, GPS, HEADING, WIND, CURRENT, WATER TEMP, and
DEPTH..
[GPS] menu: Select the source for GPS navigator GPS1 and GPS2. [PRIORITIZE
GLL], when turned on, gives priority to the GLL sentence.
[LOG]: Select the source for speed data.
[HEADING]: Select the source for heading data.
[WIND]: Select the source for wind data.
[CURRENT]: Select the source for current (tide) for data.
[WATER TEMP]: Select the source for water temperature data.
[DEPTH]: Select the source for depth data.
3-11
3. ADJUSTMENTS
3.7.9
OTHERS menu
[OTHERS]
BACK
DEMO ECHO
OFF/EG/TT-TEST/PC
EAV W/O GYRO
OFF/ON
INS
OFF/SERIAL/LAN
SUB MONITOR
OFF/ON
AIS FUNCTION
OFF/ON
[DEMO ECHO]: Select the source for the demonstration echo, [EG] (Echo Generator),
[TT-TEST] or [PC]. Select [OFF] to deactivate the demonstration echo feature.
[EAV W/O GYRO]: The each averaging feature can be used without a gyrocompass.
Select [ON] to use the feature without a gyrocompass.
[INS]: Select the INS communication method, [SERIAL] or [LAN]. Select [OFF] for no
INS connection.
[SUB MONITOR]: No use.
[AIS FUNCTION]: Enable or disable the AIS function. (Available with non-IMO type
only.)
3.7.10
FACTORY menu
[FACTORY]
BACK
LANGUAGE
ENGLISH/JAPANESE/
CHINESE
FACTORY DEFAULT
FACTORY TEST
DISPLAY TEST
[LANGUAGE]: Select the language to use.
[FACTORY DEFAULT]: Restore factory default settings.
[FACTORY TEST]: Factory use.
[DISPLAY TEST]: Factory use.
3-12
4.
INPUT/OUTPUT DATA
Notice for FAR-1518(-BB)/FAR-1528(-BB)
These radars must be interconnected to the following type approved sensors:
EPFS meeting the requirements of the IMO resolution MSC.112(73).
Gyrocompass meeting the requirements of the IMO resolution A.424(XI).
SDME meeting the requirements of IMO resolution MSC.96(72).
4.1
Processor Unit
Input and output data are shown in the table below.
Input
Data
Heading signal
Speed signal
Navaid data
Specification
IEC 61162-2*
IEC 61162-1 Ed.4
IEC 61162-1 Ed.4
AIS signal
Alarm handling
signal
IEC 61162-2
Contact closure
IEC 61162-1 Ed.4
Contents
Remarks
Position, time and
date, datum, course,
speed, wind, current,
depth, temperature,
Navtex, etc.
Input from alarm system
Input from alarm system
* Data input cycle must be more than 40 Hz (high speed craft) or 20 Hz (conventional
ships).
Output
Data
Specification
Contents
Radar system data IEC 61162-1 Ed.4 RSD, OSD
TT data**
IEC 61162-1 Ed.4 TTD, TTM, TLB
Alarm signal
IEC 61162-1 Ed.4
Contact closure
Remarks
Four systems, output contents are selected on the
[ALARM] menu.
** The output sentence can be set on the [TT DATA OUTPUT] menu (see page 3-9).
4-1
4. INPUT/OUTPUT DATA
4.2
IEC 61162 Sentences
Input sentence and sentence priority
Data
Heading (true)
Heading (magnetic)*
Magnetic deviation*
AIS target message, alert
Time and date
Position
Datum
GNSS satellite malfunction detection
Course over the ground (COG)
Speed over the ground (SOG) (GPS)
Speed over the ground (LOG (BT))
Speed through the water (STW)
Alert
Waypoint
Route data
Wind speed and angle (true)
Wind speed and angle (relative)
Depth
Water temperature
Current
Sentence priority
THS>HDT>HDG*>VHW*
HDG>HDM>VHW
HDG
VDM, VDO, ABK, ALR
ZDA
GNS>GGA>RMC>GLL
DTM
GBS
VTG>RMC>VBW
VTG>RMC
VBW
VBW>VHW
ACK, ACN, HBT
RMB>BWR>BWC>WPL
RTE+WPL
MWV>VWT
MWV>VWR
DPT>DBT>DBS>DBK
MTW
CUR, VDR
* No use with IMO-type radar.
Output sentences
Data
AIS message, alert
Alert sentence
Operator fitness
Own ship data
Radar system data
Target data
Target L/L position
4-2
Sentence
ABM, BBM, ACK, VSD
ALR, ALC, ALF, ARC, HBT
EVE
OSD
RSD
TTM, TLB, TTD
TLL
APPENDIX 1 JIS CABLE GUIDE
Cables listed in the manual are usually shown as Japanese Industrial Standard (JIS). Use the following guide to locate
an equivalent cable locally.
JIS cable names may have up to 6 alphabetical characters, followed by a dash and a numerical value (example:
DPYC-2.5).
For core types D and T, the numerical designation indicates the cross-sectional Area (mm2) of the core wire(s) in the
cable.
For core types M and TT, the numerical designation indicates the number of core wires in the cable.
1. Core Type
2. Insulation Type
3. Sheath Type
D: Double core power line
P: Ethylene Propylene
Rubber
Triple
core
power
line
T:
M: Multi core
TT: Twisted pair communications
Y:
PVC (Vinyl)
DPYCY
(1Q=quad cable)
4. Armor Type
5. Sheath Type
6.
C:
Y:
S:
-S:
SLA:
Steel
Anticorrosive vinyl
sheath
Shielding Type
TPYCY
All cores in one sheath
Indivisually sheathed cores
All cores in one shield, plastic
tape w/aluminum tape
-SLA: Individually shielded cores,
MPYC-4
plastic tape w/aluminum tape
2 3
EX: TTYCYSLA - 4
Designation type
# of twisted pairs
MPYC - 4
Designation type
TTYCSLA-4
# of cores
The following reference table lists gives the measurements of JIS cables commonly used with Furuno products:
Type
Area
Core
Diameter
Cable
Diameter
DPYC-1.5
1.5mm2
DPYC-2.5
2.5mm
2.01mm
12.8mm
DPYC-4
4.0mm2
2.55mm
13.9mm
DPYC-6
6.0mm
DPYC-10
10.0mm2
1.56mm
11.7mm
Type
Area
Core
Diameter
Cable
Diameter
0.75mm2
1.11mm
10.1mm
TTYCS-1T
0.75mm
1.11mm
10.6mm
TTYCS-1Q
0.75mm2
1.11mm
11.3mm
TTYCS-1
3.12mm
15.2mm
TTYCS-4
0.75mm
1.11mm
16.3mm
4.05mm
17.1mm
TTYCSLA-1
0.75mm2
1.11mm
9.4mm
DPYCY-1.5
1.5mm
1.56mm
13.7mm
TTYCSLA-1T
0.75mm
1.11mm
10.1mm
DPYCY-2.5
2.5mm2
2.01mm
14.8mm
TTYCSLA-1Q
0.75mm2
1.11mm
10.8mm
DPYCY-4
4.0mm
2.55mm
15.9mm
TTYCSLA-4
0.75mm
1.11mm
15.7mm
MPYC-2
1.0mm2
1.29mm
10.0mm
TTYCY-1
0.75mm2
1.11mm
11.0mm
MPYC-4
1.0mm
1.29mm
11.2mm
TTYCY-1T
0.75mm
1.11mm
11.7mm
MPYC-7
1.0mm2
1.29mm
13.2mm
TTYCY-1Q
0.75mm2
1.11mm
12.6mm
MPYC-12
1.0mm
1.29mm
16.8mm
TTYCY-4
0.75mm
1.11mm
17.7mm
TPYC-1.5
1.5mm2
1.56mm
12.5mm
TTYCY-4S
0.75mm2
1.11mm
21.1mm
TPYC-2.5
2.5mm
2.01mm
13.5mm
TTYCY-4SLA
0.75mm
1.11mm
19.5mm
TPYC-4
4.0mm2
2.55mm
14.7mm
TTYCYS-1
0.75mm2
1.11mm
12.1mm
TPYCY-1.5
1.5mm
1.56mm
14.5mm
TTYCYS-4
0.75mm
1.11mm
18.5mm
TPYCY-2.5
2.5mm2
2.01mm
15.5mm
TTYCYSLA-1
0.75mm2
1.11mm
11.2mm
TTYCYSLA-4
1.11mm
17.9mm
TPYCY-4
4.0mm
2.55mm
16.9mm
0.75mm
AP-1
APPENDIX 2 DIGITAL INTERFACE
Digital Interface
Input sentence
ABK, ACK, ACN, ALR, BWC, BWR, CUR, DBK, DBS, DBT, DPT, DTM, GBS, GGA, GLL, GNS,
HBT, HDG, HDM, HDT, MTW, MWV, RMB, RMC, RTE, THS, VBW, VDM, VDO, VDR, VHW,
VSD, VTG, VWR, VWT, WPL, ZDA
Output sentences
ABM, ACK, ALC, ALF, ALR, ARC, BBM, EVE, HBT, OSD, RSD, TLB, TLL, TTD, TTM, VSD
Data reception
Data is received in serial asynchronous form in accordance with the standard referenced in IEC
61162-2 or IEC 61162-1 Ed.4.
The following parameters are used:
Baud rate: 38,400 bps (HDT, THS, !AIVDM, !AIVDO, !AIABK, $AIALR. The baud rate of all other
sentences is 4800 bps
Data bits: 8 (D7=0), Parity: none, Stop bits: 1
D0
D1
D2
Start
bit
D3
D4
Data bits
D5
D6
D7
Stop
bit
Data Sentences
Input sentences
ABK - UAIS Addressed and binary broadcast acknowledgment
$**ABK,xxxxxxxxx,x,x.x,x,x,*hh
2 3 4 5
1. MMSI of the addressed AIS unit (9 digits) (No use)
2. AIS channel of reception (No use)
3. Message ID (6, 8, 12, 14) (No use)
4. Message sequence number (0 - 9) (No use)
5. Type of acknowledgement (See below)
0 = message (6 or 12) successfully received by the addressed AIS unit
1 = message (6 or 12) was broadcast, but not ACK by addressed AIS unit
2 = message could not be broadcast (quantity of encapsulated data exceeds five slots)
3 = requested broadcast of message (8, 14 or 15) has been successfully completed
4 = late reception of message (7 or 13) ACK that was addressed to this AIS unit (own ship)
and referenced a valid transaction
5 = message has been read and acknowledged on a display unit.
ACK - Acknowledge alarm
$**ACK,xxx,*hh
1. Local alarm number (identifier) (001 - 999)
AP-2
APPENDIX 2 DIGITAL INTERFACE
ACN - Alert command
$**ACN,hhmmss.ss,aaa,x.x,x.x,ca,a*hh
2 3 4 5 6
1. Time (hh=00 - 23, mm=00 - 59, ss.ss=00.00 - 60.99) (No use)
2. Manufacturer mnemonic code (3 digit alphanumeric code), null
3. Alert identifier (10001 - 10999)
4. Alert instance (null)
5. Alert command (A/Q/O/S)
A=ACK from ext. equipment,
Q=Request from ext. equipment
O=Responsibility transfer
S=Silence from ext. equipment
6. Sentence status flag (C)
(C should not be null field. Sentence without C is not a command.)
ALR - Set alarm state
$**ALR,hhmmss.ss,xxx,A,A,c—c,*hh
2 3 4 5
1. Time of alarm condition change, UTC (No use)
2. Unique alarm number (identifier) at alarm source (001 - 999)
3. Alarm condition (A/V)
A=threshold exceeded V=not exceeded
4. Alarm acknowledge state (A/V)
A=acknowledged V=not acknowledged
5. Alarm description text (alphanumeric characters, max. 32)
BWC - Bearing and distance to waypoint - great circle
$ **BWC,hhmmss.ss,llll.ll, a,IIIII.II,a,yyy.y,T, yyy.y,M,yyy.y,N,c--c,A,*hh
2 3 4 5 6 7
8 9 10 11 12 13
1. UTC of observation (No use)
2. Waypoint latitude (0000.00000 - 9000.00000)
3. N/S (N/S)
4. Waypoint longitude (00000.00000 - 18000.00000)
5. E/W (E/W)
6. Bearing, degrees true (No use)
7. Unit, True (No use)
8. Bearing, degrees (No use)
9. Unit, Magnetic (No use)
10. Distance, nautical miles (No use)
11. Unit, N (No use)
12. Waypoint ID (Max. 15 characters)
13. Mode Indicator (A/D)
A=Autonomous
D=Differential
E=Estimated (dead reckoning) mode
S=Simulator
N=Data not valid
AP-3
APPENDIX 2 DIGITAL INTERFACE
BWR - Bearing and distance to waypoint - rhumb line
$ **BWR,hhmmss.ss,llll.ll,a,IIIII.II,a,yyy.y,T,yyy.y,M,yyy.y,N,c--c,A,*hh
2 3 4 5 6 7 8 9 10 11 12 13
1. UTC of observation No use)
2. Waypoint latitude (0000.00000 - 9000.00000)
3. N/S (N/S)
4. Waypoint longitude (00000.00000 - 18000.00000)
5. E/W (E/W)
6. Bearing, degrees true (0.00 - 360.00) (No use)
7. Unit, True (No use)
8. Bearing, degrees magnetic (No use)
9. Unit (No use)
10. Distance, nautical miles (No use)
11. Unit (No use)
12. Waypoint ID (Max. 15 characters)
13. Mode Indicator (A/D)
A=Autonomous
D=Differential
E=Estimated (dead reckoning) mode
S=Simulator
N=Data not valid
CUR - Current
$**CUR,A,x,x.x,x.x,x.x,a,x.x,x.x,x.x,a,a,*hh
1 2 3 4 5 6 7 8 9 1011
1. Validity of data (A)
A=valid, V=not valid
2. Data set number (No use)
3. Layer number (1 - 3)
4. Current depth in meters (No use)
5. Current direction in degrees (0.00 - 360.00)
6. Direction reference in use (No use)
7. Current speed in knots (0.00 - 99.94)
8. Reference layer depth in meters (No use)
9. Heading (No use)
10. Heading reference in use (No use)
11. Speed reference (No use)
DBK - Depth below keel
$**DBK,x.x,f,x.x,M,x.x,F
1 2 3 4 5 6
1. Water depth (0.00 - 99999.994)
2. f = feet (fixed)
3. Water depth (0.00 - 99999.994)
4. M = Meters (fixed)
5. Water depth (0.00 - 99999.994)
6. F = Fathom (fixed)
DBS - Depth below surface
$**DBS,x.x,f,x.x,M,x.x,F
1 2 3 4 5 6
1. Water depth (0.00 - 99999.994)
2. f = feet (fixed)
3. Water depth (0.00 - 99999.994)
4. M = Meters (fixed)
5. Water depth (0.00 - 99999.994)
6. F = Fathom (fixed)
AP-4
APPENDIX 2 DIGITAL INTERFACE
DBT - Depth below transducer
$**DBT,xxxx.x,f,xxxx.x,M,xxxx.x,F
1 2 3
4 5
1. Water depth (0.00 - 99999.994)
2. f = feet (fixed)
3. Water depth (0.00 - 99999.994)
4. M = Meters (fixed)
5. Water depth (0.00 - 99999.994)
6. F = Fathom (fixed)
DPT - Depth
$**DPT,x.x,x.x,x.x,*hh
1 2 3
1. Water depth relative to the transducer, meters (0.00-99999.994)
2. Offset from transducer, meters (IMO: -99.994 - 99.994,
Other than IMO: -99.994 - 99.994, null)
3. Minimum range scale in use (No use)
DTM - Datum reference
$**DTM,ccc,a,x.x,a,x.x,a,x.x,ccc,*hh
1 2 3 4 5 6 7 8
1. Local datum (W84/W72/S85/P90)
W84=WGS84 W72=WGS72 S85=SGS85 P90=PE90
2. Local datum subdivision code (No use)
3. Lat offset, min (No use)
4. N/S (No use)
5. Lon offset, min (No use)
6. E/W (No use)
7. Altitude offset, meters (No use)
8. Reference datum (No use)
GBS - GNSS satellite fault detection
$**GBS, hhmmss.ss, x.x, x.x, x.x, xx, x.x, x.x, x.x,hh*hh
2 3 4 5 6 7 8 910
1. UTC time of GGA or GNS fix associated with this sentence (No use)
2. Expected error in latitude (0.0 - 999.9)
3. Expected error in longitude (0.0 - 999.9)
4. Expected error in altitude (No use)
5. ID number of most likely failed satellite (No use)
6. Probability of missed detection for most likely failed satellite (No use)
7. Estimate of bias in meters on most likely failed satellite (No use)
8. Standard deviation of bias estimate (No use)
9. GNSS Signal ID (No use)
10. GNSS System ID (No use)
AP-5
APPENDIX 2 DIGITAL INTERFACE
GGA - Global positioning system fix data
$**GGA,hhmmss.ss,llll.lll,a,yyyyy.yyy,a,x,xx,x.x,x.x,M,x.x,M,x.x,xxxx,*hh
2 3
5 6 7 8 9 10 11 12 13 14
1. UTC of position (no use)
2. Latitude (0000.00000 - 9000.00000)
3. N/S (N/S)
4. Longitude (0000.00000 - 18000.00000)
5. E/W (E/W)
6. GPS quality indicator (1 - 8)
0 = fix not available or invalid
1 = GPS SPS mode
2 = differential GPS, SPS mode
3 = GPS PPS mode
4 = Real Time Kinematic. Satellite system used in RTK mode with fixed integers
5 = Float RTK. Satellite system used in RTK mode with floating solution
6 = Estimated (dead reckoning) mode
7 = Manual input mode
8 = Simulator mode
7. Number of satellite in use (No use)
8. Horizontal dilution of precision (0.0 - 999.9)
9. Antenna altitude above/below mean sea level (No use)
10. Unit, m (No use)
11. Geoidal separation (No use)
12. Unit, m (No use)
13. Age of differential GPS data (0 - 999, null)
14. Differential reference station ID (No use)
GLL - Geographic position, latitude/longitude
$**GLL,llll.lll,a,yyyyy.yyy,a,hhmmss.ss,A,a,*hh
1 2
6 7
1. Latitude (0000.00000 - 9000.00000)
2. N/S (N/S)
3. Longitude (0000.00000 - 18000.00000)
4. E/W (E/W)
5. UTC of position (No use)
6. Status (A)
A=data valid V=data invalid
7. Mode indicator (A/D/E/M/S)
A=Autonomous D=Differential E=Estimated M=Manual input S=Simulator N=Data not valid
GNS - GNSS fix data
$**GNS,hhmmss.ss,llll.lll,a,IIIII.III,a,c--c,xx,x.x,x.x,x.x,x.x,x.x,a*hh
2 3 4 5 6 7 8 9 10 11 12 13
1. UTC of position (No use)
2. Latitude (0000.00000 - 9000.00000)
3. N/S (N/S)
4. Longitude (0000.00000 - 18000.00000)
5. E/W (E/W)
6. Mode indicator (A/D/P/R/F/E/M/S)
N=No fix A=Autonomous D=Differential P=Precise R=Real Time Kinematic
F=Float RTK E=Estimated Mode M=Manual Input Mode S=Simulator Mode
7. Total number of satellites in use (No use)
8. HDOP (0.00 - 999.99)
9. Antenna altitude, meters (No use)
10. Geoidal separation, meters (No use)
11. Age of differential data (0 - 999)
12. Differential reference station ID (No use)
13. Navigational status indicator(S/C/U/V, null)
S=Safe, C=Caution, U=Unsafe, V=Not valid
AP-6

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