fm8800s service manual b6 1-20-09

VHF RADIOTELEPHONE

FM-8800D/8800S

FM-8800S/D INTL Ver. FM-8800: 0550215-02.xx/03.xx HS-8800: 0550216-01.xx

FM-8800S Russian Ver. FM-8800: 0550220-01.xx HS-8800: 0550221-01.xx

ykimura

テキストボックス

The paper used in this manual

is elemental chlorine free.

・FURUNO Authorized Distributor/Dealer

9-52 Ashihara-cho,

Nishinomiya, 662-8580, JAPAN

Telephone : +81-(0)798-65-2111

Fax : +81-(0)798-65-4200

A : JUL 2005.Printed in JapanAll rights reserved.

B6 : JAN . 20, 2009

Pub. No. SME-56420-B6

*00015637400**00015637400*(NAYO ) FM-8800D/S*00015637400**00015637400*

* 0 0 0 1 5 6 3 7 4 0 0 *

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1

Check List Chapter 1. Overview

1.1 General ....................................................................................................................1-1 1.1.1 Configurations ...............................................................................................1-1

1.2 Operation .................................................................................................................1-3

1.2.1 LCD display ...................................................................................................1-3 1.2.2 LCD display and Operation ...........................................................................1-4

Chapter 2. Location of Parts

2.1 Main Unit .................................................................................................................2-1 2.1.1 Panel ..............................................................................................................2-1 2.1.2 Interior ...........................................................................................................2-2 2.1.3 Board .............................................................................................................2-7

2.2 Handset/Remote ......................................................................................................2-13

2.2.1 HS-2003 .........................................................................................................2-13 2.2.2 RB-8800/HS-8800 .........................................................................................2-14 2.2.3 RB-8810/HS-8800 .........................................................................................2-15

2.3 Junction Box/DMC IF .............................................................................................2-17

2.3.1 Junction Box: IF-8810 ...................................................................................2-17 2.3.2 DMC IF: IF-8820 ..........................................................................................2-18

2.4 VHF Console: RC-8800 ..........................................................................................2-19

2.5 Printer: PP-8800 ......................................................................................................2-20

Chapter 3. Menu Tree

3.1 Main Menu List (INTL Ver.) .....................................................................................3-1 3.1.1 User menu (INTL Ver.) ....................................................................................3-1 3.1.2 Option menu (INTL Ver.) ................................................................................3-3

3.2 DSC Call Menu (INTL Ver.) .....................................................................................3-7 3.3 Remote Handset Menu (INTL Ver.) ..........................................................................3-12

3.4 Main Menu List (Russian Ver.) .................................................................................3-14

3.4.1 User menu (Russian Ver.) ................................................................................3-14 3.4.2 Option menu (Russian Ver.).............................................................................3-16

Contents

Contents

2

3.5 DSC Call Menu (Russian Ver.)..................................................................................3-20 3.6 Remote Handset Menu (Russian Ver.).......................................................................3-24

Chapter 4. System Setting

4.1 Call up for Option Menu .........................................................................................4-1 4.2 ID Setting .................................................................................................................4-3

4.2.1 SELF ID .........................................................................................................4-3 4.2.2 GROUP ID .....................................................................................................4-4 4.2.3 Setting Remote Handset ID ...........................................................................4-6 4.2.4 INTERCOM NAMING .................................................................................4-7 4.2.5 Setting of Transceiver unit function ID .........................................................4-9 4.2.6 ATIS ID Setting .............................................................................................4-10

4.3 System Setting: User Menu .....................................................................................4-12

4.3.1 ALARM .........................................................................................................4-12 1. POSITION OLDER ....................................................................................4-12 2. EXT ALARM .............................................................................................4-13

4.3.2 AUTO ACK ...................................................................................................4-14 1. COMPLY STATUS, UNABLE REASON ..................................................4-14 2. POSITION CALL, POLLING CALL ........................................................4-15

4.3.3 MEMORY CHANNEL ..................................................................................4-15 4.3.4 MESSAGE FILE ENTRY .............................................................................4-16 4.3.5 POSITION .....................................................................................................4-18 4.3.6 RTC (Russian Ver.) ..........................................................................................4-19 4.3.7 PRINT OUT ...................................................................................................4-19 4.3.8 VOLUME ......................................................................................................4-20 4.3.9 AUTO CH (Russian Ver.) ..............................................................................4-21 4.3.10 PSTN CH (Russian Ver.) ...............................................................................4-21 4.3.11 SPECIAL CALL (Russian Ver.) ....................................................................4-21

4.4 System Setting: Option Menu .................................................................................4-22

4.4.1 AUTO 1W ......................................................................................................4-22 4.4.2 AUTO REVERD ...........................................................................................4-22 4.4.3 CH70 BOARD ...............................................................................................4-22 4.4.4 CH CONFIG ..................................................................................................4-23 4.4.5 CH MODE .....................................................................................................4-24 4.4.6 SCAN/DW .....................................................................................................4-24 4.4.7 SP MUTE .......................................................................................................4-26 4.4.8 TIMEOUT TIMER ........................................................................................4-26 4.4.9 REGULATION ..............................................................................................4-27 4.4.10 VDR OUTPUT LEVEL ...............................................................................4-27 4.4.11 STATION TYPE ..........................................................................................4-28

Contents

3

4.5 Jumper Setting .........................................................................................................4-29 4.5.1 Remote station ...............................................................................................4-29 4.5.2 Select Wing MIC ...........................................................................................4-31 4.5.3 When using Handset with removed (HS-2003) .............................................4-32

4.6 When TR Antenna is used for CH70 WR..................................................................4-33 4.7 μTP-80F Setup ......................................................................................................4-34

1. DIP Switch Setting ........................................................................................4-35 4.8 Change the Specification Power for PR-240-CE ....................................................4-36

Chapter 5. Block Description

5.1 Outline of Connection .............................................................................................5-1

5.2 I/O Port Specification ..............................................................................................5-2 5.2.1 IEC61162/REMOTE Port (D-Sub 37P) .......................................................5-2 5.2.2 PRINTER Port(D-Sub 25P) .........................................................................5-3 5.2.3 Handset MIC Connector ...............................................................................5-3

5.3 Outline of Boards ....................................................................................................5-4

5.4 Block Description ....................................................................................................5-6

5.4.1 CH70 RX (05P0775) ....................................................................................5-6 5.4.2 DUP RX (05P0777) ......................................................................................5-8 5.4.3 TX/RX (05P0774) ........................................................................................5-10 5.4.4 DUPLEXER .................................................................................................5-16 5.4.5 CPU (05P0773) ............................................................................................5-18 5.4.6 PWR (05P0776) ............................................................................................5-25 5.4.7 HS CONT (05P0781) ...................................................................................5-27

Chapter 6. Measurement

6.1 Adjustment ...............................................................................................................6-1 6.1.1 Output Power .................................................................................................6-1

6.2 Measurement ...........................................................................................................6-3

6.2.1 VHF Frequency .............................................................................................6-3 6.2.2 CH70 Output ..................................................................................................6-4 6.2.3 DSC Tone Frequency .....................................................................................6-5 6.2.4 Spurious Emission .........................................................................................6-7 6.2.5 Frequency deviation for a radiotelephone .....................................................6-8 6.2.6 Sensitivity of a radiotelephone: NQ method .................................................6-9

Contents

4

Chapter 7. Updating Program 7.1 Updating ..................................................................................................................7-1

7.1.1 Program file ...................................................................................................7-1 7.1.2 Note ...............................................................................................................7-3 7.1.3 Setup ..............................................................................................................7-4

7.2 Updating Procedure .................................................................................................7-7

7.2.1 Procedure .......................................................................................................7-7 7.2.2 Check the detailed program number ..............................................................7-10

Chapter 8. Maintenance

8.1 Self-test and Error Message .....................................................................................8-1 8.1.1 Daily test ........................................................................................................8-1

1. TX POWER ...................................................................................................8-1 2. TX/RX PCB ...................................................................................................8-2 3. CPU PCB .......................................................................................................8-2 4. CH70 RX PCB ...............................................................................................8-3 5. DUP RX PCB ................................................................................................8-3

8.1.2 Error messages ..............................................................................................8-4 1. PLL1 Unlock .................................................................................................8-4 2. PLL2 Unlock .................................................................................................8-4 3. GPS ERROR (EPFS ERROR) ......................................................................8-4 4. Printer PE .......................................................................................................8-4 5. NO MMSI ......................................................................................................8-4 6. System ERROR .............................................................................................8-4 7. RTC ERROR Input RTC ...............................................................................8-4

8.2 DSC Communication Test .......................................................................................8-6

8.3 T/A, TEST, RESET DSP .........................................................................................8-8

8.3.1 T/A..................................................................................................................8-8 8.3.2 TEST menu ...................................................................................................8-8

1. CPU ...............................................................................................................8-8 2. PANEL ...........................................................................................................8-10 3. CH70 RX .......................................................................................................8-12 4. TX/RX ...........................................................................................................8-13 5. DUP RX .........................................................................................................8-16 6. DDS/CODEC .................................................................................................8-16 7. RESET DSP ...................................................................................................8-17

8.4 Memory Clear ..........................................................................................................8-18 8.5 Compatibility of Boards ..........................................................................................8-19

8.6 Remote Handset Test ...............................................................................................8-21

Contents

5

Chapter 9. Q & A Q1. How can we use VHF exclusively? ........................................................................9-1 Q2. What are the differences between FM-8800D and FM-8800S? .............................9-1 Q3. Please tell me the priority of communication order. ...............................................9-1 Q4. Do the Transceiver unit and Remote Handset have to be installed in designated

location? ................................................................................................................9-1 Q5. Receptible sentence. ...............................................................................................9-1 Q6. Please tell me about the Alarm output. ...................................................................9-2 Q7. Can Carbon MIC be used in place Wing MIC? ......................................................9-2 Q8. Can Remote Handset be used alone without Transceiver Handset on? ..................9-2 Q9. Does Remote Handset have to be wired in daisy chain? ........................................9-2 Q10. Can VHF antenna be used together with CH70 WR antenna? .............................9-2 Q11. Is a Junction Box:IF-8810 necessary? ..................................................................9-2 Q12. How to adjust LCD contrast? ...............................................................................9-3 Q13. How to cancel menu’s protection? ........................................................................9-3 Q14. Please tell me what to check after installing. ........................................................9-3 Q15. How do I adjust the frequency? ............................................................................9-3 Q16. How do I measure DSC tone frequency? .............................................................9-3 Q17. Will the Program-Ver. indication remain the same even after updating the

program? ................................................................................................................9-4 Q18. Is the Main program commonly used for FM-8800D and FM-8800S? ...............9-4 Q19. I cannot update the program/How do I update the program? (Case 1) .................9-4 Q20. I cannot update the program/How do I update the program? (Case 2) .................9-4 Q21. Remote Handset is not working properly. . ............................................................9-4 Q22. I cannot receive DSC signals although telephone is working just fine. ...............9-4 Q23. What are the differences between 05P0774A and B on TX/RX PCB? ................9-5 Q24. What is a DISTRESS MODE? .............................................................................9-5 Q25. How can I clear memory? .....................................................................................9-5 Q26. When I make All Ship Call from No.1 VHF, I could not receive signals

through No.2 VHF. Is the equipment broken? ...................................................9-5 Q27. Communication does not seem to be working correctly when Remote Handsets

are connected. ....................................................................................................9-5 Q28. When I turn on the power, alarm keeps going off and nothing comes up

on the display. ....................................................................................................9-5 Q29. Would disconnecting or short-circuiting antenna break Transceiver unit? ..........9-6 Q30. “DSC-5’’ indication appears after a self-test with DMC-5. Is this okay? ............9-6 Q31. Please tell me about where to install the antennas. ..............................................9-6 Q32. What is the min. horizontal length between VHF Antennas? ...............................9-6 Q33. Please tell me about where to install the VHF. .....................................................9-6 Q34. Does a VHF Rack-consol have a type? ................................................................9-6 Q35. Please tell me about RS-485. ................................................................................9-6 Q36. Please tell me about communication range? .........................................................9-7 Q37. An inspector cautioned me about contents of COMSAR/Cir.32

regarding installation of equipment. What is it about? ......................................9-8

Contents

6

Appendix 1) Specifications 1. General ......................................................................................................................AP1-1 2. Transmitter .................................................................................................................AP1-1 3. Receiver .....................................................................................................................AP1-2 4. DSC ...........................................................................................................................AP1-2 5. CH70 WATCH Receiver ............................................................................................AP1-2 6. Power Supply .............................................................................................................AP1-3 7. Digital Interface .........................................................................................................AP1-3 8. Environmental Conditions .........................................................................................AP1-3 9. Coating Color ............................................................................................................AP1-4

Appendix 2) Channel List

AP2.1 International/USA/Canadian/Inland Waterways ................................................AP2-1 AP2.2 US Weather Channel ..........................................................................................AP2-3 AP2.3 Private Channel ..................................................................................................AP2-4

Parts List .......................................................................................... D-1 Contents of Drawings ..................................................................... S-0

Check List

i

How to call up option menus (MMSI registration etc,) 1. Make a jumper connection between #2 and #15 on [PRINTER] port. Or, jumper

connection between #25 and #26 of IF-8810. 2. [Menu] -> System -> [ENT] -> Password: xxxxxx

(Same as FM-8500, Ref to FQ-2005-015)

No. Items Remarks and Reference Pages Judge

1. Installation

1.1 Make sure VHF ANT and CH70 ANT connecters are watertight.

1.2 Make sure of Grounding: Transceiver unit, Junction Box and DMC IF

1.3 As for the connections of Junction Box, DMC IF and a terminal board of Remote station, is the wiring correct? Are they connected tightly?

1.4 Does the emergency light turn on the light and control dimmer?

1.5 Is Transceiver unit supplied by the Reserve Source?

1.6 Make sure of ALM output wiring.

See page 4-13. In case of Normal Open (Close), alarm output is always active when receiving DIS/URG messages. Conform with the Drive circuits diagram.

2. Setup

2.1 Are Pos. and time data inputted automatically? See page 4-18. IEC61162-1: GGA > RMC > GNS > GLL, ZDA

2.2 Have you registered MMSI correctly?

See page 4-3. Menu->System->MMSI Note: DSC communication is not carried out without MMSI being registered.

2.3 Have you registered Remote Handset ID number?

See page 4-6. Turn on the power while pressing Remote Handset [Menu] key. To assign the same number is prohibited.

2.4 Have you registered the Name of Transceiver unitand Remote Handset? (Remote Handset Name)

See page 4-7. Register by [MENU] -> SYSTEM ->INTERCOM NAMING

2.5 Have you set up CH MODE? See page 4-24. The factory setting is INTL. MENU->SYSTEM->CH MODE

2.6 Have you set up OFFHOOK SPKR? (ON/OFF set up of SP at the time when a handset is OFF HOOK)

See page 4-20. Menu->VOLUME->OFF HOOK SPKR

Check List

Check List

ii

3. Adjustment and Measurement

3.1 Is TX output between 20 and 25 W? Is reflection power lower than 2 W (10%)?

See page 6-1. As for CH70 measurement, see page 6-4.

3.2 Is the frequency tolerance within +10 ppm? See page 6-3. There is no adjustment part.

3.3 Is the tone frequency tolerance within +10 Hz?

See page 6-5. , There is no adjustment part. It is measured by monitoring tone with other VHF because there is no checkpoint.

3.4 Is the output level for VDR appropriate? See page 4-27. 0 dBm is outputted by the factory setting.

4. Function Test

4.1 Is the Daily Test result all okay?

See page 8-1. Before the check, press PTT SW. In case of no transmitting, TX output check is shown NO CHECK.

4.2 Can you print out correctly?

See page 8-9 and 4-19. Print setup is carried out by Menu->Print out When the printer does not work, carry out a self-test of a printer.

- PP-510: LF + Power ON - uTP-80F: Feed + Power ON

4.3 Is the DSC communication test okay?

See page 8-6. To transmit DSC messages, - Call type: Individual

(SHIP CALL) - Category: Routine TX output is automatically reduced to 1 W.

4.4 Is the INTERCOM operation correct? See page 4-8.

4.5 Is the Remote Handset operation correct?

4.6 Are the Wing-MICs operation correct? See page 4-31. Dynamic MIC and Carbon MIC setup are J5 on the CPU board.

5. Other

5.1 Are MMSI and CS etc, labels stuck around Transceiver unit?

5.2 Have you had explained enough to the users about operation?

1.1 General

1-1

1.1 General FM-8800S and FM-8800D are the international VHF radiotelephones that are farther developed as successors to FM-8500 and FM-8700. Outline of the unit: 1. Built-in Class A DSC function and CH70 WR. 2. The FM-8800S offers simplex/semi-duplex, the FM-8800D offers simplex/full

duplex voice communication. In addition, Russian Ver. obtain Russian Type approval by FM-8800S.

3. PSTN (Public Switched Telephone Network) call function is installed. 4. Outputs the other ship’s position from DSC Distress message received information

by TLL sentences. 5. ATIS (Automatic Transmitter Identification System) is installed. 6. Remote Handset can be connected to the maximum of 4 sets via IF-8810 or/and

IF-8820. 7. Intercommunication system is available through each Remote Handset. 8. The CH70 WR antenna can be used either exclusively or can be shared with VHF

antenna. 9. The power supply is 24 VDC+30 % and –10 %. AC power supply unit (PR-240-CE)

is optional. 10. Connect the Printer directly and it prints out the DSC TX/RX messages, the DSC

communication logs and the test results. 1.1.1 Configurations Case - 1)

Total 4 sets RB-8800/HS-8800 or(and) RB-8810/HS-8800

EXT SP

GPS

AC-DC Power (PR-240-CE)

VHF ANT CH70 ANT

Printer: - PP-510, - PP-8800

EXT Alarm

VDR(AF output)

RB-8800/HS-8800

W-MIC W-MIC

RB-8810/HS-8800

TLL output

100-220VAC 24VDC

Chapter 1. Overview

Junction box(IF-8810)

Fig. 1.1.1 Connection Case-1

HS-2003

1.1 General

1-2

Case - 2) DMC-5 Installation Note; INTL Ver. only (except for Russian Ｖｅｒ.) DMC-5 is connected via DMC IF (IF-8820). Handset (RB-8800/HS-8800 and RB-8810/HS-8800) can be connected to the maximum of 4 sets via IF-8810 and/or IF-8820.

NOTE: Total 4 sets

RB-8800/HS-8800 or (and) RB-8810/HS-8800

Fig. 1.1.2 Connection Case-2, DMC-5 Installation

EXT SP

GPS

AC-DC Power(PR-240-CE)

VHF ANT CH70 ANT

Printer: - PP-510, - PP-8800

EXT Alarm

VDR (AF output)

RB-8800/HS-8800

W-MIC W-MIC

TLL output

100-220VAC 24VDC

DMC IF(IF-8820)


DMC-5

RB-8800/HS-8800 RB-8810/HS-8800

HS-2003

1.2 Operation

1-3

INTL

HiRx

DUP

SHIFT

AUTO ACK VOL5 SQA

AUTO CH : ENA

LAT: 34

LON: 135

10:45 UTCAUTO

SCAN16(1) (7)

(8)

(9)

(13)

(10)

(14)(15)

(18R)

(12)

(11)(20R)

(6)(4)(3)

(2)

(5)

(19R)1

11.1111’N

11.1111’E

1.2 Operation 1.2.1 LCD display

Fig. 1.2.1 FM-8800S/D Operation Panel

Fig. 1.2.2 Remote Handset Operation Panel

INTL

HiRx

DUP

SHIFT

AUTO ACK WATCH CH70LAT: 34 45’ NLON: 135 45’ E

10:45 UTCAUTO

SCAN

16(1) (7)

(8)

(9)(13)

(10)

(14)(15)(12)

(11)

(6)

(4)(3)

(2)

(5)

INTL

HiRx

DUP

SHIFT

AUTO ACK VOL5 SQA

WATCH CH70

LAT: 34 45’ NLON: 135 45’ E

10:45 UTCAUTO

SCAN16(1) (7)

(8)

(9)

(13)

(10)

(14)(15)

(16)

(12)

(11)(17)

(6)(4)(3)

(2)

(5)

(18)1

INTL Ver. Russian Ver.


INTL

HiRx

DUP

SHIFT

AUTO ACK AUTO CH: ENALAT : 34 45.1111’ NLON : 135 45.1111’ E

12:12

AUTOMMSI 432456789

SCAN

16(1) (7)

(8)

(9)(13R)

(10)

(14)

(15)

(12)

(11)(6)

(4)(3)

(2)

(5)

(16R)

(17R)

UTC

1.2 Operation

1-4

1.2.2 LCD display and Operation The following item numbers in Table 1.2.1 are the number displayed on LCD in the previous page. The same display is shown while operating Transceiver unit and Remote Handset. [SHIFT] selection must be made in 3 seconds. After 3 seconds, “SHIFT” indication on the LCD display disappears.

LCD dimmer adjustment: [SHIFT] -> [2] LCD contrast adjustment: [SHIFT] -> [SHIFT], [LOG] or CHANNEL knob

As for the number of the item which "R" is added, the program is Russian Ver.

Table 1.2.1 Operation

Item Indication Operation key Outline

1

INTL, USA, WX, CANADA, INLND-WA, PRIV, MEMO x

[SHIFT]->[7: INTL/USA]

Indicates an active mode NOTE: 1. Indicated according to a setup

[MENU]->SYSTEM->CH MODE 2. “MEMO x” is indicated when a setup is made

[MENU]->MEMORY CHANNEL.

2 SP mark (ON/OFF) [SHIFT]->[1: SP mark]

ON/OFF setting for SP manually NOTE: [MENU]->VOLUME->OFFHOOK SPKR setting

3 Hi, Lo [SHIFT]->[0: HI/LO]

Hi: 25W, Lo: 1W NOTE: 1. Indicated a mode channel allowed by

[MENU]->SYSTEM->CH MODE according to the power setting in [MENU]->SYSTEM->CH CONFIG

2. Output adjustment in [MENU]->SYSTEM->TX POWER

*Even if SWR worse or PA heat protection is activated, it continues current “Hi or Lo” indication.

4 Rx, Tx PTT ON: Rx, PTT OFF: Tx

Rx indication show when signal is being received. Tx will be indicated if TX RF signal is detected.

5 ANT mark (Display Bar: x3)

PTT ON: OFF, PTT OFF: ON

Bar indicates SINAD which is Rx signal 0: No signals 1: Less than 20 dB SINAD 2: 20 to 40 dB SINAD 3: More than 40 dB SINAD

6 Envelope mark (ON/OFF)

Indicated when there are unread messages in DSC Rx message log. NOTE:

[LOG]->RCVD ORDINARY, RCVD DISTRESS

7 SHIFT (ON/OFF) [SHIFT] Indicated when SHIFT function is available

8 CH (Max. 3 digits) In PRIV channel, indicates in a maximum of 3

digits. Cont’d

1.2 Operation

1-5

Item Indication Operation key Outline

9 DUP (ON/OFF)

Indicates “DUP” when selecting DUP channel NOTE:

Indicates a mode channel allowed by [MENU]->SYSTEM->CH MODE according to the power setting in [MENU]->SYSTEM->CH CONFIG

10 SCAN, DUAL DUAL: [SHIFT]->[9: DW]SCAN: [SHIFT]->[8: SCAN]

Indicates the operational SCAN or DW mode. When operating SCAN or DW, the channel indication also changes.

11

AUTO ACK, MANUAL ACK Transceiver DISTRESS MODE Handset DIST. MODE

[SHIFT]->[5: ACK]

1. ACK: When receiving ACK RQ message from DSC by ROUTINE, indicates the setting whether ACK BQ is transmitted by AUTO or MANUAL.

2. DISTRESS MODE: Indicates after transmitting Distress Alert

NOTE: Setting COMPLY STATUS in [MENU]->AUTO ACK

12 LAT/LON

Indicates Latitude/Longitude NOTE: 1. AUTO/MANUAL is selected by

[MENU]->POSITION, but MANUAL input is not available valid Pos. data is inputted from the GPS.

2. [MENU]->ALARM->POSITION OLDER sets up output interval of alarm indicating the updated Pos. data.

13 WATCH CH70

Indicates that WATCH CH70 is executed on the CH70 RX board.

*As for the transceiver unit, WATCH CH70 indication changes to DISTRESS MODE after

transmitting Distress Alert.

13R AUTO CH

The state of AUTO ACK is set to ON and ON-HOOK. When received the INDVIDUAL/ROUTINE call, Communication CH changes automatically after returning AUTO ACK. （ENA: Auto change, DIS: Manual change） [MENU] -> AUTO CH

14 xx : xx UTC

Indicates UTC NOTE: 1. Input selection of AUTO/MANUAL in

[MENU]->POSITION, but MANUAL input is not available when valid Pos. data is inputted from the GPS.

15 AUTO, MANUAL

Indication of inputted Pos./Time NOTE:

Input selection of AUTO/MANUAL in [MENU]->POSITION, but MANUAL input is not available when valid Pos. data is inputted from the GPS.

1.2 Operation

1-6

16 18R 1-4

Indicates Remote Handset number NOTE:

Turn on the power while pressing Remote Handset [MENU] key to set, and set Remote Handset ID number.

16R MMSI Display registered MMSI on [MENU] -> System -> Self-ID

17 20R VOL 0-10 VOL: [SHIFT]->[ ↑ ], [ ↓ ] VOL: SP volume adjustments for Remote Handset

17R Year/Day/Time

YEAR/DATE/TIME used to Time stamp of LOG are displayed. ZDA>RMC>auto data is displayed. In case of Manual input, set in the [MENU] -> RTC.

18 19R SQA, SQ 0-10

SQA: [SHIFT]->[SQ auto] SQ 0-10: [SHIFT]->[SQ]->[>], [<]

- SQA: Indicates when SQ Auto is set up. - SQ 0-10: Indicates when SQ is set up manually.

DISTRESS MODE (DIST. MODE) is:

This mode is displayed after transmitting Distress Alert by Transceiver unit or Remote station (Handset). In this mode setting, voice communication through Transceiver unit and Remote station is equally prioritized. For example, even if the Remote Handset side is OFF-HOOK, “OCCUPIDE xxxx” is not shown in Transceiver unit. This state continues until the power is turned off. Also, when the program is Russian Ver., it is continued until the power is OFF or until it continues pressing the [CANCEL] key 3 seconds or more. Unavailable functions by DISTRESS MODE are as below.

- [FILE] key operation - [MENU] key operation - Edit and call the DSC messages by [CALL] key operation - [SHIFT] -> Intercom function of [4:IntCom] - [SHIFT] -> Operation for changing ACK of [5: ACK] - [SHIFT] -> Operation for printing [6: Print] - SQ and AF Volume of Remote Handset cannot be adjusted. SQ control depends

on Transceiver SQ control.

1.2 Operation

1-7

ALARM Display Table 1.2.2 Alarm Display

Conditions LED conditions Alarm sounds How to stop

While pressing [Distress] button for 3 seconds

2200 Hz and 0 Hz (125 ms)

During the transmission of Distress Alert 2200 Hz continuous sound

After the transmission of Distress Alert

Red: continuous light

Receiving Distress Alert Red: blink 1300 Hz and 2200 Hz (250 ms)

Press [CANCEL] key.

Receiving Urgency Call Green: blink 1300 Hz and 2200 Hz (250 ms)

Receiving Safety Call Green: blink 1300 Hz and 0 Hz (250 ms)

Receiving Ship Business Call Green: blink Receiving Routine Call Green: blink

880 Hz and 440 Hz (500 ms)

Receiving PSTN Call Green: blink

750 Hz and 650 Hz (50 ms)

Repeat 10 times and OFF 1 second

Stops automatically after 2 minutes or press [CANCEL] key.

Russian Ver. The alarm sound level when receiving the DSC message increases in 4 steps. In case of ROUTINE, alarm sound is sounded 3 times, and it increases in 4 steps. In case of SAFETY, URGENCY, DISTRESS, alarm sound is sounded 4 times, and it increases in 4 steps.

2.1 Main Unit

2-1

2.1 Main Unit 2.1.1 Panel

Photo 2.1.1 FM-8800S/D Front Panel

Photo 2.1.2 FM-8800S/D, Rear Panel

Chapter 2. Location of Parts

110 mm

265 mm

3 W/4 ohm SP

AF Gain/Power SW SQ VR/Auto SQ SW CH SW/Enter SW

Handset: HS-2003

Printer port (PP-510) Protect OFF: Jumper between #2 and #15

IEC61162-1/Remote port EXT SP

CH 70 ANT

TR ANT +24 VDC IN

GND

3 W/4 ohm Max.: 5 W

2.1 Main Unit

2-2

2.1.2 Interior

Photo 2.1.3 FM-8800S/D, Bottom Shield

Photo 2.1.4 FM-8800S, Top Shield

285 mm

CPU

DU

P Rx

(FM-8800D

)

CH 70 Rx

Tx/Rx

PWR

2.1 Main Unit

2-3

Photo 2.1.5 FM-8800D, Top View

Photo 2.1.6 FM-8800D, Open View

PWR (05P0776)

Duplexer

Tx/Rx (05P0774B)

Duplexer (CDH_156_10_06A)

PWR

2.1 Main Unit

2-4

写真 2.1.7 FM-8800S下面

写真 2.1.8 FM-8800Ｄ下面

Photo 2.1.7 FM-8800S, Bottom View

Photo 2.1.8 FM-8800D, Bottom View

CH70 Rx (05P0775)

CPU (05P0773)

DUP Rx (05P0777)

CH70 Rx (05P0775)

CPU (05P0773)

2.1 Main Unit

2-5

Photo 2.1.9 FM-8800S, D Front Panel removed

Photo 2.1.10 FM-8800S, D For RTC board connector:J14 on CPU board

RTC(05P0804)

J14 (Connect to RTC board)

Russian Ver.

Russian Ver.

2.1 Main Unit

2-6

写真 2.1.9 FM-8800S上面

Photo 2.1.11 FM-8800S, Open View

Photo 2.1.12 FM-8800S/D, Panel

Tx/Rx (05P0774A)

PWR (05P0776)

PANEL (05P0772)

PANEL (05P0772)

CR5 (Remains of Key Back Light LED) 3 W/4 ohm SP

2.1 Main Unit

2-7

2.1.3 Board

Photo 2.1.13 CPU (05P0773), A side

Photo 2.1.14 CPU (05P0773), B side

U30 (H8S CPU)

U36 (LCD CONT)

TP2 (25.6 MHz)

TP1 (38.4 MHz)

J13 (REF OSC: 25.6 MHz) J3 (DUP REF: 25.6 MHz)

J11 (CH70 OSC 38.4 MHz)

J9 (Tx MIX: 45 MHz out)

[Prin

ter]

: 25

pin

[IEC

6116

2-1/

Rem

ote]

: 37

pin

RT1: (+15 VDC Line) RUE900

U20 (DSP) U29 (E2ROM) U31 (RAM)

U12 (AF AMP) TDA2003H

SP

Y1 (TCXO: 25.6 MHz)

J15 (Handset OFF)

J5 (Wing MIC sel.)

2.1 Main Unit

2-8

Photo 2.1.15 FM-8800S: Tx/Rx (05P0774A)

Photo 2.1.16 FM-8800D: Tx/Rx (05P0774B)

TP1 (Rx 1st Lo: F+51.2375 MHz)

TP4 (Rx 2nd Lo: 51.2 MHz)

J7 (Tx MIX 45 MHz) J8 (REF OSC: 25.6 MHz)

J5 (CH70 ANT and TR

ANT: common use)

J3 (ANT)

TP2 (PLL VCO CONT)

Jumper Between J1 and 2

J1 (DUP OUT) J2 (DUP IN1)

J3 (ANT)- Tx/Rx (05P0774A)

J1, 2, 4 NO - Tx/Rx (05P0774B)

J1, 2, 4 YES

PA (RA35H1516M)

PA (RA35H1516M)

U13 (Temperature sensor)

J4 (DUP IN2)

* Shield cover removed

2.1 Main Unit

2-9

Photo 2.1.17 FM-8800D: DUP Rx (05P0777)

Photo 2.1.18 CH70 Rx (05P0775)

J2 (DUP REF: 25.6 MHz)

J2 (ANT)

J1 (CH70 OSC: 38.4 MHz)TP4 (2nd Lo: 38.4 MHz)

TP1 (1st Lo: 118.1625 MHz)

J1 (ANT)

TP3 (2nd Lo: 51.2 MHz)

TP1 (1st Lo: F+51.2375 MHz)

TP4 (1st Lo VCO CONT)

2.1 Main Unit

2-10

Photo 2.1.19 PWR (05P0776), A side

Photo 2.1.20 PWR (05P0776), B side

+15 VDC out

J1 #1 to #3: +15 VDC#4: PWR SW P #5: PWR SW M #6 to #8: 0 V

DC-DC Converter:CBS2002415 T

2.1 Main Unit

2-11

Photo 2.1.21 PANEL (05P0772), A side

Photo 2.1.22 PANEL (05P0772), B side

LCD p.c.b

2.1 Main Unit

2-12

Photo 2.1.23 RTC board (05P0804)

Russian Ver.

2.2 Handset/Remote

2-13

2.2 Handset/Remote

2.2.1 HS-2003

Photo 2.2.1 Handset (HS-2003)

Condenser MIC (-49 dBm/1.6 k ohm)

PTT SW

Ear SP (1.5 mW/150 ohm)

05P0780

Hanger H=57 mm L=208 mm W=65 mm

Hanger

Magnet

2.2 Handset/Remote

2-14

2.2.2 RB-8800/HS-8800

Photo 2.2.3 RB-8800, Open view

Photo 2.2.2 RB-8800/HS-8800

H=77 mm L=208 mm W=140 mm

3 W/4 ohm SP Max. 5 W

05P0782

05P0779

TB3 (GND)

TB1

TB2

TB1 and TB2 are connected in parallel.

SP (0.5 W/8 ohm) RB-8800

HS-8800

2.2 Handset/Remote

2-15

2.2.3 RB-8810/HS-8800

Photo 2.2.4 RB-8810/HS-8800

Hanger H=57 mm L=208 mm W=65 mm

Handset: HS-8800

Hanger: RB-8810 0.4 W/8 ohm SP

05P0798

2.2 Handset/Remote

2-16

Photo 2.2.5 HS-8800

U2 CPU

Ear SP (1.5 mW/150 ohm)

Condenser MIC (-49 dBm/1.6 k ohm)

PTT SW 05P0781 B side

05P0781 A side LCD

05P0715 A side

LCD p.c.b

05P0715 B side

E2ROM

2.3Junction Box/DMC IF

2-17

2.3 Junction Box/DMC IF 2.3.1 Junction Box: IF-8810

Photo 2.3.1 Junction Box

H=40 mm L=150 mm W=290 mm

05P0790

Outer size of IF-8810and DMC IF is thesame.

2.3Junction Box/DMC IF

2-18

2.3.2 DMC IF: IF-8820

05P0778

U1: CPU

TP1: CPU CK (18.432 MHz)

TP2: GND

AD0: Not used

AD1: Not usedJ4: Termination

Photo 2.3.2 DMC I/F

2.4 VHF Console: RC-8800

2-19

2.4 VHF Console: RC-8800

Photo 2.4.1 VHF Console

500

330

190

Printer (μTP-80F)

Photo 2.4.2 Front cover, Open view

IF-8810

Photo 2.4.3 IF-8810, Open view

Power terminal board

Photo 2.4.4 Printer, Open view

Printer I/F: 05P0541

2.5 Printer: PP-8800

2-20

2.5 Printer: PP-8800

Photo 2.5.1 PP-8800 Photo 2.5.2 PP-8800, Rear panel

240

180

140

Installed μTP-80F

200

110

+24 VDC Printer Connector

Photo 2.5.4 Pulled out μTP-80F

Photo 2.5.5 Printer I/F: 05P0541

Photo 2.5.3 Cover, Open view

Printer I/F: 05P0541

Printer Power supply +5 VDC/6 A Power supply (DC-DC Converter: HGE05006)

3.1 Main Menu List(INTL Ver.)

3-1

3.1 Main Menu List (Program: INTL Ver. 0550215-02/03.xx) 3.1.1 User menu To call the below menus, press [MENU] key.

Table 3.1.1 User Menu List

Menu-1 Menu-2 Menu-3 Menu-4 Note 4 H 3 H 2 H 1 H

POSITION OLDER

0.5 H

DIST/URG ON Fixed on “ON” ON SAFETY OFF ON

ALARM

EXT ALARM

ROUTINE OFF

ABLE COMPLY STATUS UNABLE

NO REASON BUSY

EQUIP DISBLD MODE UNAVAIL

UNABLE REASON

CH UNAVAIL

Selects when COMPLY STATUS is UNABLE

ON POSITION CALL OFF

ON

AUTO ACK

POLLING CALL OFF

RCVD ORDINARY

RCVD DISTRESS ERASE LOG

TRANS- MITTED

INTL USA WX

CANADA INLND-WA

50 entry

Indicates when entering ATIS ID

MEMORY CHANNEL

ERASE

MESSAGE FILE ENTRY 100 entry

COAST CALL SHIP CALL GROUP CALL PSTN CALL AREA CALL

For editing message of each CALL type (Refer to the DSC Call menu.)

AUTO LAT LON POSITION MANUAL TIME

Cont’d

Chapter 3. Menu Tree


3-2

Menu-1 Menu-2 Menu-3 Menu-4 Note AUTO XMTD CALL MANUAL

AUTO RCVD CALL MANUAL

AUTO

PRINT OUT

DAILY TEST MANUAL

KEY CLICK 8 (0 to 16) EARPIECE

LEVEL 9 (8 to 16)

INTERCOM VOLUME 8 (1 to 16)

ON

VOLUME

OFF HOOK SPKR OFF

It can be set up independently of Remote Handset.

SELF ID e.g. 432456789 Only for checking MMSI Refer to the next page for set up.

GROUP ID LIST

GROUP ID for GROUP CALL message recorded in MESSAGE FILE ENTRY menu is displayed.

INTERCOM NAMING

RT: FM8800 1: Handset 1 2: Handset 2 3: Handset 3 4: Handset 4

By pressing [Shift] -> [4:IntCom], the recorded name in the left box is indicated to recognize the caller side easily.

SYSTEM

PROGRAM VERSION

FM8800D/S 0550215-xx EXT: ENT

- DUP Rx board (Yes): FM8800D - DUP Rx board (No): FM8800S FM-8800D and FM-8800S are the same version.

SYSTEM (Option menu)

Password and Jumper setting are necessary to enter the next menu. See 4.1 for details.


3-3

3.1.2 Option menu As for Option menus, call up by the procedure of page 4-1.

Table 3.1.2 System Menu List

System menu 1 2 3 Note ID ENTRY SELF ID ID CLEAR

GROUP ID LIST GROUP ID for GROUP CALL message recorded in MESSAGE FILE ENTRY menu is displayed.

INTERCOM NAMING


By pressing [Shift] -> [4:IntCom], the recorded names in the left box are displayed to recognize the caller side easily.

PROGRAM VERSION

FM8800D/S 0550215-xx EXT: ENT


ON AUTO 1W OFF ON AUTO REVERT OFF

ID ENTRY xxxxxxxxx ID CLEAR

RIVER ATIS ID AREA RIVER & SEA Selectable by recording ATIS ID.

CH70 BOARD CH70 BOARD No function INTL USA WX

CANADA INLND-WA

MODE

PRIV CHANNEL XX

TX ENABLE RX ENABLE TRX

UNABLE DUP DUP/SIMP SIMP HI

CH CONFIG

TX POWER LOW

Switch by pressing [1] or [2] key. When pressing [CANCEL] key, “TURN OFF/ON” is displayed. And then, turn off the power to record.

Cont’d


3-4

System menu 1 2 3 Note ON INTL OFF ON USA/WX OFF ON CANADA OFF ON INLND OFF Switch ON/OFF by entering

ATIS ID. ON

CH MODE

PRIV OFF ON SCAN OFF ON SCAN/DW

DW OFF ON

SP MUTE OFF

Effective for FM-8800D, Set up ON/OFF for SP at the time of Duplex operation.

ON TIMEOUT TIMER OFF Effective for USA channel

HI 127 (0 to 255) LOW 127 (0 to 255) TX POWER

TEMP. REDUCE 127 (0 to 255) HI

POWER HI LOW

Select HI power or LOW power, and test by the selected power.

DSC or ATIS Select DSC or ATIS, and test by the selected mode.

MARK SPACE DOT

TONE TEST

CARRIER

Output by PTT ON

INTL REGULATION RUSSIAN 1 REMOTE ID 2

No function 1: Master 2: Slave

VDR OUTPUT LEVEL 8 (1 to 16)

ON Enter the password: 652111 NO CLEAR

MMSI CLEAR EEROM

PROTECTED OFF ALL CLEAR

T/A ** DSC RX TEST **

”OUTPUT RX DSC DATA TO NMEA PORT”

Cont’d


3-5

System menu 1 2 3 Note FSK LOOP REMOTE

LOOP

LOOP TEST NMEA LOOP

ALL RAM ROM MEMORY TEST

EEPROM

“ALL” is automatically executed. And then, RAM, ROM and EEPROM are checked.

PRINTER Prints out “FM-8800 PRINTER TEST”.

CPU

PROG. VER. FM-8800: 0550215-xx

The detailed version is displayed after pressing [Shift] -> [1] key 5 times.

LCD TEST BACK LIGHT 1 1 to 4

KEY CH

VOL SQ

PTT

PANEL UI TEST

HOOK

User Interface Test

AGC AGC Test out No function

CH70 RX LOOP P: 0 /A: 9066 Loop Back Test

155.00 MHz160.00 MHzPLL 165.00 MHz

To set the frequency data of PLL circuit, used in a factory.

AGC AGC Test out

APC No function CH

DUP/SIMP xx

RX IF LEVEL RX AF NOISE

CH70 RX IF LEVEL

CH70 RX AF NOISE PLL1 UL LEVEL

PLL2 UL LEVEL

Monitor the selected state by “CH DUP/SIMP xx” channel.

TEST

TX/RX

STATUS

EXIT: ENT

Cont’d


3-6

System menu 1 2 3 Note

155.00 MHz160.00 MHzPLL 165.00 MHz

To set the frequency data of PLL circuit, use in a factory. DUP RX


DDS P: 100 / A: 19655

4528 L P: 100 / A: 19962

TEST

DDS/CODEC

4528 R P: 100 / A: 19803

Input/Output Test for CODEC and DDS

SHIP STATION TYPE COAST Not to be changed.

RESET DSP

3.2 DSC Call Menu(INTL Ver.)

3-7

3.2 DSC Call Menu (Program: INTL Ver. 0550215-02/03.xx) To call DSC CALL message menus as below, press [CALL/MSG] key.

Table 3.2.1 DSC Call Menu List

Menu-1 Menu-2 Menu-3 Menu-4 Note COAST ID 00________

ROUTINE BUSINESS SAFETY

URGENCY Category

DISTRESS

Select Category

SIMPLEX TP DUPLEX TP

DATA TCmd1

FAX NO INFO

V.21 V.22

V.22 bis V.23

V.26 bis V.26 ter V.27 ter

TCmd2

V.32

When selecting DATA by the TCmd1

SELECT CH Selects CH from the list according to the TCmd1.

COAST CALL

CH NO INFO

SHIP ID xxxxxxxxx ROUTINE BUSINESS SAFETY

URGENCY Category

DISTRESS

Select Category


DATA TCmd1

FAX NO INFO

V.21 V.22

V.22 bis V.23


TCmd2

V.32



SHIP CALL

CH NO INFO

Cont’d


3-8

Menu-1 Menu-2 Menu-3 Menu-4 Note GROUP ID 0xxxxxxxx


URGENCY Category

DISTRESS

Select Category


DATA TCmd1

FAX NO INFO

V.21 V.22

V.22 bis V.23


TCmd2

V.32



GROUP CALL

CH NO INFO

COAST ID 00xxxxxx SIMPLEX TP TCmd1 DUPLEX TP

TCmd2 NO INFO Fixed on “NO INFO” PSTN CALL

TEL xxxxxxxxxxxxxxxx Max. 16 digits SAFETY

URGENCY Category DISTRESS

Select Category


DATA TCmd1

FAX NO INFO

V.21 V.22

V.22 bis V.23


TCmd2

V.32


SELECT CH xx Selects CH from the list according to the TCmd1.

ALL SHIPS

CH NO INFO

Cont’d


3-9

Menu-1 Menu-2 Menu-3 Menu-4 Note

AREA N/E, S/W Designates coordinate ROUTINE BUSINESS SAFETY

URGENCY Category

DISTRESS

Select Category


DATA TCmd1

FAX NO INFO

V.21 V.22

V.22 bis V.23


TCmd2

V.32


SELECT CH xx

AREA CALL

CH NO INFO SHIP ID xxxxxxxxx


URGENCY Category

DISTRESS

Select Category

TCmd1 POSITION REQUEST Fixed on “POSITION REQUEST”

POSITION

TCmd2 NO INFO Fixed on “NO INFO” SHIP ID xxxxxxxxx


URGENCY Category

DISTRESS

Select Category

TCmd1 POLLING Fixed on “POLLING”

POLLING

TCmd2 NO INFO Fixed on “NO INFO” URGENCY Category SAFETY Select Category

TCmd1 SIMPLEX TP Fixed on “SIMPLEX TP” TCmd2 NEUTRAL CRAFT Fixed on “NEUTRAL CRAFT”

NEUTRAL

CH CH16 Fixed on “CH16” Cont’d


3-10

Menu-1 Menu-2 Menu-3 Menu-4 Note Category URGENCY Fixed on “URGENCY” TCmd1 SIMPLEX TP Fixed on “SIMPLEX TP” TCmd2 MEDICAL TRSPRT Fixed on “MEDICAL TRSPRT” MEDICAL

CH CH16 Fixed on “CH16”

ID IN DIST xxxxxxxxx (NO INFO)

TCmd DISTRESS RELAY Fixed on “DISTRESS RELAY” UNDESIGNATED

Fire Flooding Collision

Grounding Listing Sinking

Disabled & Adr Abandoning

Piracy Man over board

NATURE

EPIRB AUTO GGA>RMC>GNS>GLL

MANUAL Time/Pos.: Manual POS NO INFO Time/Pos.: NO INFO

AT xx;xx Time for Pos.

RELAY ALL

SIMP TP Fixed on “CH16” COAST ID 00xxxxxxx


TCmd DISTRESS RELAY Fixed on “DISTRESS RELAY” UNDESIGNATED




Piracy Man over board

NATURE

EPIRB AUTO GGA>RMC>GNS>GLL



RELAY SEL

SIMP TP Fixed on “CH16”

Cont’d


3-11

Menu-1 Menu-2 Menu-3 Menu-4 Note UNDESIGNATED Default




Piracy

NATURE

Man over board AUTO GGA>RMC>GNS>GLL



DISTRESS

SIMP TP Fixed on “CH16”

3.3 Remote Handset Menu(INTL Ver.)

3-12

3.3 Remote Handset Menu (Program: INTL Ver. 0550216-02.xx)

To call the below menus, press [MENU] key. Setting values in Remote Handset [MENU] and FM-8800S/D [MENU] are the same, and the way of setting also. DSC Call menu from Remote Handset is the same as “3.2 DSC Call menu.”

Table 3.3.1 Remote Handset Menu List


4 H 3 H 2 H 1 H

POSTION OLDER

0.5 H


ALARM

EXT ALARM

ROUTINE OFF


NO REASON BUSY


UNABLE REASON

CH UNAVAIL

Selectable when COMPLY STATUS is UNABLE


ON

AUTO ACK

POLLING CALL OFF

RCVD ORDINARY


TRANS- MITTED

INTL USA WX

CANADA INLND-WA

50 entry


MEMORY CH

ERASE

MESSAGE FILE 100 entry



Cont’d

3.3 Remote Handset Menu(INTL Ver.)

3-13



AUTO XMTD CALL MANUAL


AUTO

PRINT OUT

DAILY TEST MANUAL


LEVEL 9 (8 to 16)


ON

VOLUME

OFF HOOK SPKR OFF

SELF ID e.g. 432456789 Checks only MMSI Transceiver unit executes the setting.

GROUP ID LIST


INTERCOM NAMING

By pressing [Shift] -> [4:IntCom], the recorded name in the left box are displayed to find the other side easily.

SYSTEM

PROGRAM VERSION


Alternative Operations - Turn on the power while pressing [MENU] key.

Set the ID number for Handset (See Chapter 4 System Setting for details.)

- Turn on the power while pressing [TEST] key. Test mode of Handset

(See Chapter 8 Maintenance for details.) - Adjustment of Dimmer [SHIFT] -> [2] - Adjustment of Contrast

[SHIFT] -> [SHIFT], [LOG] or CHANNEL knob

3.4 Main Menu List (Russian Ver.)

3-14

3.4 Main Menu List (Program: Russian Ver. 0550220-01.xx) 3.4.1 User menu To call the below menus, press [MENU] key.

Table 3.4.1 User Menu List

Menu-1 Menu-2 Menu-3 Menu-4 Note 4H 3H 2H 1H

POSITION OLDER

0.5H


ALARM

EXT ALARM

ROUTINE OFF


NO REASON BUSY


UNABLE REASON

CH UNAVAIL

Selects when COMPLY STATUS is UNABLE


ON

AUTO ACK

POLLING CALL OFF

RCVD ORDINARY


TRANS- MITTED

ERASE xxxx ARE YOU SURE?

YES NO

INTL

USA

WX

CANADA

INLND-WA

50 entry


MEMORY CHANNEL

ERASE


COAST CALL SHIP CALL GROUP CALL PSTN CALL



Cont’d


3-15

Menu-1 Menu-2 Menu-3 Menu-4 Note DATE 2006-03-27 RTC TIME 06:32:55

Time stamp of Communication LOGZDA>RMC>Manual



AUTO

PRINT OUT

DAILY TEST MANUAL


LEVEL 9 (8 to 16)


ON

VOLUME

OFF HOOK SPKR OFF

It can be set up independently of Remote Handset.

ENABLE

AUTO CH AUTO CH DISABLE

The state of AUTO ACK is set to ON and ON-HOOK. When received the INDVIDUAL/ROUTINE call, Communication CH changes automatically after returning AUTO ACK. - ENABLE: Auto change, - DISABLE: Manual change

PSTN CH PSTN CH 00

When not specifying TEL CH from COAST with PSTN CALL of from COAST to SHIP, assign the CH, which is set in this time, to ACK BQ message.

ABLE NEUTRAL CALL UNABLE

ABLE SPECIAL

CALL MEDICAL CALL UNABLE

When setting ABLE, NEUTRAL CALL and MEDICAL CALL in SPECIAL menu of CALL TYPE for DSC are selectable.

SELF ID e.g. 432456789 Only for checking MMSI Refer to the next page for set up.

GROUP ID LIST


INTERCOM NAMING


By pressing [Shift] -> [4:IntCom], the recorded name in the left box is indicated to recognize the caller side easily.

SYSTEM

PROGRAM VERSION

FM8800D/S 0550220-01 EXT: ENT


SYSTEM (Option menu)

Password and Jumper setting are necessary to enter the next menu. See 4.1 for details.


3-16

3.4.2 Option menu (Program: Russian Ver. 0550220-01.xx) As for Option menus, call up by the procedure of page 4-1.

Table 3.4.2 System Menu List

System menu 1 2 3 Note ID ENTRY SELF ID ID CLEAR

GROUP ID LIST

GROUP ID for GROUP CALLmessage recorded in MESSAGE FILE ENTRY menu is displayed.

INTERCOM NAMING


By pressing [Shift] -> [4:IntCom], the recorded names in the left box are displayed to recognize the caller side easily.

PROGRAM VERSION

FM8800D/S 0550220-01 EXT: ENT

-DUP Rx board (Yes): FM8800D -DUP Rx board (No):

FM8800S FM-8800D and FM-8800S are the same version.

ON AUTO 1W OFF ON AUTO REVERT OFF

ID ENTRY xxxxxxxxx ID CLEAR

RIVER ATIS ID AREA RIVER & SEA

Selectable by recording ATIS ID.

CH70 BOARD CH70 BOARD No function INTL USA WX

CANADA INLND-WA

MODE

PRIV CHANNEL XX

TX ENABLE RX ENABLE TRX

UNABLE DUP DUP/SIMP SIMP HI

CH CONFIG

TX POWER LOW

Switch by pressing [1] or [2] key. When pressing [CANCEL] key, “TURN OFF/ON” is displayed. And then, turn off the power torecord.

Cont’d


3-17

System menu 1 2 3 Note ON INTL OFF ON USA/WX OFF ON CANADA OFF ON INLND OFF Switch ON/OFF by entering

ATIS ID. ON

CH MODE

PRIV OFF ON SCAN OFF ON SCAN/DW

DW OFF ON

SP MUTE OFF

Effective for FM-8800D, Set up ON/OFF for SP at the time of Duplex operation.

ON TIMEOUT TIMER OFF Effective for USA channel

HI 170(0 - 255) LOW 44(0 - 255) TX POWER

TEMP. REDUCE 134(0 - 255) HI

POWER HI LOW

Select HI power or LOW power, and test by the selected power.

DSC or ATIS Select DSC or ATIS, and test by the selected mode.

MARK SPACE DOT

TONE TEST

CARRIER

Output by PTT ON

INTL REGULATION RUSSIAN Should be set RUSSIAN

1 REMOTE ID 2 No function 1: Master 2: Slave

VDR OUTPUT LEVEL 8 (1 to 16)

ON Enter the password: 652111 NO CLEAR

MMSI CLEAR EEROM

PROTECTED OFF ALL CLEAR

T/A ** DSC RX TEST **

｢OUTPUT RX DSC DATA TO NMEA PORT｣

Cont’d


3-18

System menu 1 2 3 Note FSK LOOP REMOTE

LOOP

LOOP TEST NMEA LOOP

ALL RAM ROM MEMORY TEST

EEPROM

“ALL” is automatically executed. And then, RAM, ROM and EEPROM are checked.

PRINTER Prints out “FM-8800 PRINTER TEST”.

CPU

PROG. VER. FM-8800: 0550220-01

The detailed version is displayed after pressing [Shift] -> [1] key 5 times.

LCD TEST BACK LIGHT 1 1 - 4

KEY CH

VOL SQ

PTT

PANEL UI TEST

HOOK

User Interface Test


CH70 RX LOOP P: 0 /A: 9066 Loop Back Test

155.00 MHz160.00 MHzPLL 165.00 MHz

To set the frequency data of PLL circuit, used in a factory.

AGC AGC Test out

APC No function CH

DUP/SIMP xx

RX IF LEVEL RX AF NOISE

CH70 RX IF LEVEL

CH70 RX AF NOISE PLL1 UL LEVEL

PLL2 UL LEVEL

Monitor the selected state by “CH DUP/SIMP xx” channel.

TEST

TX/RX

STATUS

EXIT: ENT

Cont’d


3-19

System menu 1 2 3 Note 155.00 MHz160.00 MHzPLL 165.00 MHz

To set the frequency data of PLL circuit, use in a factory. DUP RX


DDS P: 100 / A: 19655

4528 L P: 100 / A: 19962

TEST

DDS/CODEC

4528 R P: 100 / A: 19803

Input/Output Test for CODEC and DDS

SHIP STATION TYPE COAST Not to be changed.

RESET DSP M943-11

COMPATIBLE M943-10

When setting to M943-11, TCmd1, TCmd2 of RX message is checked. If it is TCmd which is not defined as M943-11, it does not receive,

3.5 DSC Call Menu (Russian Ver.)

3-20

3.5 DSC Call Menu (Program: Russian Ver. 0550220-01.xx) To call DSC CALL message menus as below, press [CALL/MSG] key.

Table 3.5.1 DSC Call Menu List

Menu-1 Menu-2 Menu-3 Menu-4 Note COAST ID 00________

ROUTINE SAFETY Category

URGENCY Select Category

TELEPHONE TCmd1 DATA When the category is SAFETY or URGENCY, TELEPHONE is fixed.

TCmd2 NO INFO

CH NO INFO

- When the category is Safety, CH is selected from CH list when selecting SELECT CH. Also, the optional CH can be inputted when selecting MANUAL.

- When the category is URGENCY, CH16 is fixed.

- When the category is ROUTINE, NO INFO is fixed.

COAST CALL

EOS RQ Fixed on “RQ”

SHIP ID xxxxxxxxx

ROUTINE SAFETY Category

URGENCY Select Category

TELEPHONE TCmd1 DATA When the category is SAFETY or URGENCY, TELEPHONE is fixed.

TCmd2 NO INFO

SELECT CH

CH

MANUAL

- When the category is ROUTINE, SAFETY, CH is selected from SIMP-CH list when selecting SELECT CH. Also, the optional CH can be inputted when selecting MANUAL.

- When the category is URGENCY, CH16 is fixed. Also, Non-MANUAL display.

SHIP CALL

EOS RQ Fixed on “RQ” GROUP ID 0xxxxxxxx

TCmd1 TELEPHONE Fixed on “ TELEPHONE” TCmd2 NO INFO Fixed on “ NO INFO”

SELECT CH CH

NO INFO

When selecting SELECT CH, CH is selected from SIMP-CH list. Also, the optional CH can be inputted when selecting MANUAL.

GROUP CALL

EOS EOS Fixed on “EOS”

Cont’d


3-21


COAST ID 00xxxxxx ALLMODES TP

DUPLEX TP TCmd1 DATA

Specify the CH setting by [MENU] -> PSTN CH.

TCmd2 NO INFO Fixed on “NO INFO” TEL xxxxxxxxxxxxxxxx Max. 16 digits

PSTN CALL

EOS RQ

SAFETY Category URGENCY

TCmd1 TELEPHONE Fixed on “ TELEPHONE” TCmd2 NO INFO Fixed on “NO INFO”

SELECT CH xx

CH

MANUAL

- When the category is SAFETY, CH is selected from SIMP-CH list when selecting SELECT CH. Also, the optional CH can be inputted when selecting MANUAL.

- When the category is URGENCY, CH16 is fixed. Also, Non-MANUAL display.

ALL SHIPS

EOS EOS Fixed on “EOS” SHIP ID xxxxxxxxx Category SAFETY Fixed on “SAFETY”

TCmd1 POSITION REQUEST Fixed on “POSITION REQUEST ”

TCmd2 NO INFO Fixed on “NO INFO”

POSITION


STATION ID xxxxxxxxx

Category SAFETY Fixed on “SAFETY” TCmd1 TEST Fixed on “TEST” TCmd2 NO INFO Fixed on “NO INFO”

TEST


Cont’d


3-22



TCmd DISTRESS RELAY Fixed on “ DISTRESS RELAY” UNDESIGNATED

Fire

Flooding

Collision

Grounding

Listing

Sinking

Disabled & Adr

Abandoning

Piracy

Man over board

NATURE

EPIRB

AUTO GGA>RMC>GNS>GLL MANUAL Time/Pos.: Manual input POS NO INFO Time/Pos.: NO INFO

AT xx;xx Time for Pos. TELEPHONE

RELAY ALL

EOS EOS Fixed on “EOS” COAST ID 00xxxxxxx


TCmd DISTRESS RELAY Fixed on “ DISTRESS RELAY” UNDESIGNATED

Fire

Flooding

Collision

Grounding

Listing

Sinking

Disabled & Adr

Abandoning

Piracy

Man over board

NATURE

EPIRB

AUTO GGA>RMC>GNS>GLL MANUAL Time/Pos.: Manual input POS NO INFO Time/Pos.: NO INFO

AT xx;xx Time for Pos. TELEPHONE Fixed on “CH16”

RELAY SEL


Cont’d


3-23


NEUTRAL CRAFT Fixed on “NEUTRAL CRAFT” Category URGENCY Fixed on “URGENCY” TCmd1 TELEPHONE Fixed on “TELEPHONE”

TCmd2 NEUTRAL CRAFT Fixed on “NEUTRAL CRAFT”


NEUTRAL

EOS EOS Fixed on “EOS” MEDICAL

TRANSPORT Fixed on “MEDICAL TRANSPORT”

Category URGENCY Fixed on “URGENCY” TCmd1 TELEPHONE Fixed on “TELEPHONE”

TCmd2 MEDICAL TRANSPORT Fixed on “MEDICAL TRANSPORT”


SPECIAL

NOTE)

MEDICAL

EOS EOS Fixed on “EOS” UNDESIGNATED Default

Fire

Flooding

Collision

Grounding

Listing

Sinking

Disabled & Adr

Abandoning

Piracy

NATURE

Man over board

AUTO GGA>RMC>GNS>GLL MANUAL Time/Pos.: Manual POS NO INFO Time/Pos.: NO INFO

AT xx;xx Time for Pos. TELEPHONE

DISTRESS

EOS EOS Fixed on “EOS”

Note;

When setting NEUTRAL, MEDICAL of [MENU] -> SPACIAL CALL to ABLE, these menus can be opened.

3.6 Remote Handset Menu（Russian Ver.）

3-24

3.6 Remote Handset Menu (Program: Russian Ver. 0550221-01.xx)

To call the below menus, press [MENU] key. Setting values in Remote Handset [MENU] and FM-8800S/D [MENU] are the same, and the way of setting also. DSC Call menu from Remote Handset is the same as “3.5 DSC Call menu.”

Table 3.6.1 Remote Handset Menu List

Menu-1 Menu-2 Menu-3 Menu-4 Note 4H 3H 2H 1H

POSITION OLDER

0.5H


ALARM

EXT ALARM

ROUTINE OFF


NO REASON BUSY


UNABLE REASON

CH UNAVAIL

Selectable when COMPLY STATUS is UNABLE


ON

AUTO ACK

POLLING CALL OFF

RCVD ORDINARY


TRANS- MITTED

ERASE xxxx ARE YOU SURE?

YES NO

INTL

USA

WX

CANADA

INLND-WA

50 entry


MEMORY CHANNEL

ERASE


COAST CALL SHIP CALL GROUP CALL PSTN CALL


Cont’d

3.6 Remote Handset Menu（Russian Ver.）

3-25

Menu-1 Menu-2 Menu-3 Menu-4 Note AUTO

LAT LON POSITION MANUAL TIME

DATE 2006-03-27 RTC TIME 06:32:55



AUTO

PRINT OUT

DAILY TEST MANUAL

KEY CLICK 8 (0 to 16) EARPIECE 9 (8 to 16) INTERCOM 8 (1 to 16)

ON VOLUME

OFF HOOK SPKR OFF

ENABLE AUTO CH AUTO CH DISABLE PSTN CH PSTN CH 00

ABLE NETRAL CALL UNABLE ABLE

SPECIAL CALL MEDICAL CALL UNABLE

SELF ID e.g. 432456789 Checks only MMSI Transceiver unit executes the setting.

GROUP ID LIST


INTERCOM NAMING


By pressing [Shift] -> [4:IntCom], the recorded name in the left box are displayed to find the other side easily.

SYSTEM

PROGRAM VERSION

FM8800D/S 0550220-01 EXT: ENT


Alternative Operations - Turn on the power while pressing [MENU] key.

Set the ID number for Handset (See Chapter 4 System Setting for details.)

- Turn on the power while pressing [TEST] key. Test mode of Handset

(See Chapter 8 Maintenance for details.) - Adjustment of Dimmer [SHIFT] -> [2] - Adjustment of Contrast

[SHIFT] -> [SHIFT], [LOG] or CHANNEL knob

4.1 Call up for Option Menu

4-1

4.1 Call up for Option Menu MMSI, Channel and Power settings can be set up by going to SYSTEM menu and then to �option�. Following is the procedure. Procedure 1. With the power off, make a jumper connection between 2 and 15 of

[PRINTER] port. Or, jumper connection between #25 and #26 of IF-8810. However, it is correspondence from production in December 2005.

Chapter 4. System Setting

PRINTERJumper between #2 and #15

Adjustment of LCD Dimmer: [SHIFT] -> [2]

Adjustment of LCD Contrast: [SHIFT] -> [SHIFT], [LOG] or CHANNEL knob

J1: [PRINTER]

TB1

J2: [IEC61162-1/REMOTE]

1234

13141516

STROBE ND0D1D2

SELECTALF NERROR NINIT N

12345678

+15VDC+15VDC+15VDC+15VDCN.CN.CTXD(H)RXD(C)

Jumper#2 - #15

Jumper#25 - #2624

252627

NOT USED-1NOT USED-2

FM-8800S/D

IF-8810

CPU (05P0773)

IF-8810

jumper connectionbetween 25 and 26

Case-2)

Case-1)

- OR -

4.1 Call up for Option Menu

4-2

2. Turn on the power and press [MENU] key. Then menu list comes on. 3. Select SYSTEM using the [▼] key from the menu list and press [ENT] key.

* SYSTEM SETUP MENU * SELF ID - - - - - - - - - - -

GROUP ID LIST INTERCOM NAMING PROGRAM VERSION

4. Enter the password [x][x][x][x][x][x]. Then �▼� mark appears to the left of

PROGRAM VERSION and all of the system menus are called up.

* SYSTEM SETUP MENU * SELF ID - - - - - - - - - - -

GROUP ID LIST INTERCOM NAMING

▼PROGRAM VERSION Additional mark

4.2 ID Setting

4-3

INTL

Hi 16DSC NOT USABLELAT : 35 10’ NLON : 135 11’ E AUTO

Rx

10 : 10 UTC

INTL

Hi 16AUTO ACK WATCH CH 70LAT : 35 10’ NLON : 135 11’ E AUTO

Rx

10 : 10 UTC

4.2 ID Setting 4.2.1 SELF ID When your own ID (MMSI) is not registered FM-8800S/D becomes the only operable VHF function.

1. DSC communication is not available. Even if you press �CALL� key, �NO MMSI� comes on, switch to DSC display can not be made, and editing DSC TX message can not be done.

2. Even if you press [LOG] key, NO MMSI comes on, and DSC logs does not open.

3. Distress Alert, All Ship Calls, Group Call and Area Call for the DSC cannot be received.

4. Even if the position data are not inputted, alarm informing the input error of position data does not go off.

NOTE)

In Russsian Ver., when turning on the power with the unregistered MMSI, “This unit CAN’T send any DSC calls until ship’s MMSI is entered. Press any key!” pop-up menu is displayed.

INTL Ver. : Non-registered screen for MMSI INTL Ver. : Registered screen for MMSI

INTL

HiRx

AUTO ACK AUTO CH: ENALAT : 34 45.1111’ NLON : 135 45.1111’ E

12:12

AUTOMMSI 432456789

16UTC

INTL

HiRx

DSC NOT USABLELAT : 34 45.1111’ NLON : 135 45.1111’ E

12:12

AUTOMMSI ---------------

16UTC

Russian Ver. : Non-registered screen for MMSI Russian Ver. : Registered screen for MMSI

4.2 ID Setting

4-4

Procedure 1. Call up the option menu. See page.4-1 for details.

[MENU] -> SYSTEM -> [ENT] -> Input the password -> [ENT] 2. Select �SELF ID ______� and press [ENT] key. 3. ID ENTRY and ID CLEAR pop-up menus will appear.

ID ENTRY ID CLEAR

4. Select ID ENTRY and press [ENT] key. 5. Enter your own ship�s MMSI and press [ENT] key. How to clear /edit registered MMSI

To clear the registered MMSI: By the second operation mentioned in above Procedure section, select ID CLEAR and press [ENT] key.

To update the registered MMSI: By the second operation in above Procedure section, select ID ENTRY, then ID CLEAR to input new MMSI.

4.2.2 GROUP ID GROUP ID can be registered by [MENU] -> MESSAGE FILE ENTRY. Up to the maximum of 100 IDs can be registered. Confirmation of registered ID can be done by [MENU] -> SYSTEM -> GROUP ID LIST.

Procedure 1. Select [MENU] -> MESSAGE FILE ENTRY.

* MESSAGE FILE /13 * 1: SAKURA MARU 2: KOBE MARU 3:

8:

4.2 ID Setting

4-5

2. Bring a cursor onto the file number to register and press [ENT] key.


3. Bring a cursor onto GROUP CALL and press [ENT] key. GROUP ID consists of 9 digits that starts from �0�.

MESSAGE FILE x ENTRY CALL TYPE: GROUP CALL GROUP ID: 0 ROUTINE TCmd1: SIMPLEX TP TCmd2: NO INFO CH: 16 NAME: REGIST ERASE

4. Bring a cursor onto GROUP ID and press [ENT] key, then enter ID number. 5. Enter easily recognizable name. (NAME in Max. 16 characters) 6. Bring a cursor onto REGIST and press [ENT] key to enter ID number.

How to erase registered GROUP ID Select the number to clear by [MENU] -> MESSAGE FILE ENTRY and press [ENT] key which brings MESSAGE FILE x ENTRY display on and then, bring a cursor onto ERASE and press [ENT] key.

How to confirm GROUP ID

Confirm by [MENU] -> SYSTEM -> GROUP ID LIST. The registered file number and ID will be displayed.

GROUP LIST 1/1

1: 012345678

2: 043256789


COAST CALLSHIP CALL GROUP CALLPSTN CALL

MESSAGE FILE x ENTRY CALL TYPE: GROUP CALL GROUP ID: 0 ROUTINE TCmd1: TELEPHONE TCmd2: NO INFO CH: 16 NAME: REGIST ERASE


4.2 ID Setting

4-6

4.2.3 Setting Remote Handset ID Transceiver unit can be connected to a maximum 4 Handsets (RB-8800/HS-8800 and/or RB-8810/HS-8800). A parallel connection is made with the data line between Transceiver unit and Remote Handsets. Communication between each Remote Handset and Transceiver unit is carried out on the basis of ID number set up for each Remote Handset. When more than one handset is connected, set up each Remote Handset with different ID. If the same ID number is in use with different Handset, the system does not function properly. Procedure 1. Turn on the power of Transceiver unit while pressing Remote Handset�s [Menu] key.

Other way, Unplug Remote Handset from RB-8800/8810 and then plug it back in. 2. Indicated information in the box below will be displayed on the handset monitor,

which brings you to handset ID setup mode.

Version No. 0550216-01.0x

Now ID=1

Input New ID (1�4) =

3. Enter numerical ID that you like to set up and press inputted ID numbers will go into

�Now ID� in the bottom of the handset monitor above 4. Turn off the power. 5. Take the same procedures from 1 through 4 to set up the ID numbers for other

Remote Handsets.

4.2 ID Setting

4-7

Prioritizing of Remote Handset The lower the ID number, the higher the priority level.

- Priority in this case means that indication/display of the Remote Handset�s detailed program Ver. starts with the lowest ID number on top followed by the second lowest ID number down to other program versions with higher ID numbers. Confirmation can be made by [MENU] -> SYSTEM -> TEST -> CPU -> PROG.VER.

PROGRAM VERSION FM-8800 : 0550215-02 HS-8800 : 0550216-01 HS-8800 : 0550216-01 HS-8800 : 0550216-01 HS-8800 : 0550216-01 IF-8820 : 0550217-01

- Remote Handset program updating is carried out from a low ID number in order. - Remote Handset priority is carried out from a low ID number in order.

Transceiver unit > Remote-1 > Remote-2 > Remote-3 > Remote-4 Wing MIC though, has no correlation with above-mentioned contents. For example, when Wing MIC is in use, Transceiver unit�s MIC and Remote Handset cannot be used. Also, when Transceiver unit�s MIC and Remote Handset are in use, Wing MIC cannot be used.

4.2.4 INTERCOM NAMING Assign a name to Transceiver unit and Remote Handset. (Ex. assigning a name to the location of installed Remote Handset lets you know easily which where Remote Handset that you called is when using INTERCOM.) When using INTERCOM, a assigned name will be displayed on both Transceiver unit and Remote Handset side. Procedure 1. Select [MENU] -> SYSTEM -> INTERCOM NAMING and press [ENT] key. Then,

�Intercom Naming Menu� will appear.

* Intercom Naming Menu * RT: FM-8800

1: Handset 1 2: Handset 2 3: Handset 3 4: Handset 4

2. Select item to be set up and press [ENT] key, which will open a pop-up window with currently assigned name in it. Then, register a new name and press [ENT] key. (Max. 12 characters)

- Remote Handset version number is indicatedfrom a low ID number in order.

- Version number of the unconnected unit is not indicated.

The connected Remote Handset (the assignedname) is displayed. Handset display numberis Remote Handset number which is set up bythe section 4.2.3.

4.2 ID Setting

4-8

How to use INTERCOM INTERCOM can be used between two Remote Handsets, and/or, between a Remote Handset and Transceiver unit. While INTERCOM is being used caller�s Intercom Naming: �OCCUPIED xxxxx� is displayed on other Handset, which is meant to indicate that the intercom is in use. To call up Remote Handset from Transceiver unit is as below. Same procedure is to be taken when connecting between Remote Handsets, and/or, between a Remote Handset and Transceiver unit. INTERCOM time out is 5 minutes. If the call is not picked up in 5 minutes (OFF HOOK), the call is automatically cancelled. 1. Press [SHIFT] -> [4:IntCom] key.

* Intercom Call Menu * RT: FM-8800

1: Handset 1 2: Handset 2 3: Handset 3 4: Handset 4

2. Select Remote Handset to call up and press [ENT] key. 3. When a Handset is called up the beep goes off and the caller�s assigned ID will be

shown on the display of the Handset called up at the same time. To cancel your call, press [CANCEL] key. Both Transceiver unit and Remote Handset return to their normal display.

INTERCOM FM-8800

4. INTERCOM communication is started. Note: You can adjust the volume by [MENU] -> VOLUME -> INTERCOM VOLUME. This adjustment can be made with either Transceiver unit side or each Remote Handset side. However, this function is currently inoperative. (2005/5)

�Intercom Naming� is displayed.

4.2 ID Setting

4-9

4.2.5 Setting of Transceiver unit function ID This function is currently inoperative. (2005/5)

By setting up the Transceiver unit function ID in the put equipment side by side, the next control can be carried out from one of FM-8800S/D. For example:

- Prevention of incoming Tx noise. VHF transmitting signals output MUTE signal and one of VHF detecting it goes into a state of MUTE. To set this function available, you have to go to [MENU] -> SYSTEM ->SP MUTE and then choose ON.

- Alarm Reset Function

When incoming DSC message, alarm goes off from VHFs. If you reset the alarm on one of VHFs, alarm reset signal is outputted which resets the alarm for the other VHF.

A connection to make function REMOTE ID effective

Procedure for setup e.g. 1. Go to [MENU] -> REMOTE ID and press [ENT] key with No.1 VHF.

1: REMOTE ID= 1: Master (Polling station) 2: REMOTE ID＝2: Slave

2. For example, select �1� and press [ENT] key. 3. Go to [MENU] -> REMOTE ID and press [ENT] key with No.2 VHF. 4. Select �2� and press [ENT] key.

FM-8800S/D

FM-8800S/D

IF-8810

25: DATA A

26: DATA B

25

26

30: DATA A

31: DATA B

40: DATA A

41: DATA B

[IEC61162/Remote]

[IEC61162/Remote]

J3-3

J3-4

From/To Reomte Station

Fig. 4.2.1 Connection of VHFs

4.2 ID Setting

4-10

4.2.6 ATIS ID Setting ATIS (Automatic Transmitter Identification System) automatically transmits at the end of each transmission. This is monitored by authorities to keep surveillance over illegal transmission. When ATIS ID is set up, following menus can be set up as well.

1. INLND-WA set up by [MENU] -> MEMORY CHANNEL 2. ON/OFF set up by [MENU] -> SYSTEM -> CH MODE -> INLND 3. RIVER/RIVER&SEA set up by [MENU] -> SYSTEM -> ATIS ID -> AREA

- In case of REVER, INLND-WA will be the only available when set up by [SYSTEM] -> SYSTEM -> CH MODE. INTL, USA, CANADA and PRIV cannot be used.

- In case of REVER & SEA, All set up by [SYSTEM] -> SYSTEM -> CH MODE can be set ON/OFF.

Procedure 1. Select [MENU] -> SYSTEM -> ATIS ID and press [ENT] key. 2. Select ATIS ID and press [ENT] key. Below pop-up window will appear.

ID ENTRY ID CLEAR AREA

3. Select ID ENTRY and press [ENT] key. 4. Input ATIS ID of the own ship and press [ENT] key. 5. Bring a cursor onto ATIS ID again and press [ENT] key. A pop-up window of the step

2 will appear. 6. Select AREA first and then, select the operation area of the own ship, RIVER or

RIVER & SEA, then press [ENT] key. How to clear/edit registered ATIS ID

To clear ATIS ID: As just mentioned in the second procedure above, select ID CLEAR and press [ENT] key.

To edit ATIS ID: Take the same procedure and select �ID ENTRY� then edit or select �ID CLEAR� to register new ATIS ID.

4.2 ID Setting

4-11

Outline of ATIS The operating INLAND channel transmits ATIS signals. When carrying this out is: - When a continuous transmission takes place, at the end of each transmission. - When transmitting continuously, ATIS signal is transmitted every 5 minutes.

TX output is normal and audio(voice) input is automatically set to OFF during a ATIS signal transmission.

The system is a synchronous system using a ten-unit error-detecting code. The first seven bits of the ten-unit code are information bits. Bits 8, 9 and 10 indicate, in the form of a binary number, the number of B elements that occur in the seven information bits, a Y element being a binary number 1 and a B element being a binary number 0. - Modulation frequency: 1300 Hz (Y=1) and 2100 Hz (B=0) - Modulation rate: 1200 baud - Modulation index: 1.0 + 10% - Format

ATIS ID can be modulated by call sign. ID consists of :

Z MID X1 X2 X3 X4 X5 X6 - Z: represents the figure 9 - MID: represents the MID (Maritime Identification Digits) for R/R (Radio

Regulations) - X3 to X6: shall contain the number of the call sign - X1 to X2: shall contain a figure representing the second letter of the call sign,

wherein 01 represents A, 02 represents B, -----. For example, when the call sign is PC8075 and MID is Netherlands 244, ATIS ID is:

Call sign P C 80 75

ATIS ID 9 244 03 80 75

Signal Constitution 92 44 03 80 75

Note: The first letter of the call sign (P): represents the country, so it is displaced to MID.

Dot pattern Phasing Format specifier Identification End of sequence Error check

20 bits 6 DX(125)8 RX(111 to 104)

2 identical symbols(121: 2 times)

5 symbols(2 times)

3 DX(127)1 RX(127)

1 symbol(2 times)

ATIS ID, which is set up by 244038075

4.3 System Setting: User Menu

4-12

4.3 System Setting: User Menu 4.3.1 ALARM 1. POSITION OLDER When manually setting up the positioning data by [MENU] -> POSITION, and update is not set up within a designated time, alarm is outputted. Select the setup time from 0.5, 1, 2, 3 and 4 H. The factory setting value is 4 H. In the rule, when updating is not made more than 4 hours, alarm output will be requested. When data is not updated within 23.5 hours, data will be erased and will not be used. It is not included in the Distress Alert Message, Position Request etc. A position data inputted by MANUAL can be erased with turning the power OFF.

Note: The sentence to be received is IEC61162-1.

- Position: GGA>RMC>GNS>GLL - Date: ZDA>RMC - Time: ZDA>GGA>RMC>GNS>GLL

As for the manual input, when the positioning data is inputted from GPS, switch to the GPS data automatically. As for alarm output

Alarm output when a position update can not be made manually - Output interval: Every POSITION OLDER setup - Alarm output: 2200 Hz (50 ms), 3 times every 2 seconds - Pop-up message: Warning: Update Pos.

Alarm output when manual input of position is interrupted - Output interval: Every minute - Alarm output: 2200 Hz (50 ms), 3 times every 2 seconds - Pop-up message: GPS ERROR

Measure to be taken when data are interrupted is the same one taken when updating the position manually. Data is stored for 23.5 hours.

** Note that when using GPS data, manual input is not available.

* SETUP MENU *

ALARM AUTO ACK ERASE LOG MEMORY CHANNEL MESSAGE FILE ENTRY

* ALARM MENU * POS. OLDER

4H EXT ALARM

4H 3H 2H 1H 0.5H

[ENT][ENT]


4-13

2. EXT ALARM This is to set up the external alarm, which is in relation with a category of received DSC message. In Distress (DIS) or Urgency (URG) category, this is always set to ON. In ROUTINE or SAFETY categories, ON/OFF set up can be made. All factory settings are ON. To stop alarm output:

- DIS/URG: Until you press [CANCEL] key. - SAFETY: Automatically stops 2 minutes after receiving, or until [CANCEL] key is

pressed. - ROUTINE: Automatically stops 2 minutes after receiving, or until [CANCEL] key

is pressed. Procedure 1. Select [MENU] -> ALARM and press [ENT] key. 2. Select EXT ALARM. Set up the category to output EXT ALRM and press [ENT]

key.

Q22SK3022

CR2DSM10C

C31 C290.01u 0.01u

EXT ALM_NEXT ALM Cont.

11

12

[IEC

6116

2/R

EM

OT]

CPU(05P0773)

EXT ALM


J2-1

J2-2

TB-6

TB-70V

Maximum rating of 2SK3022 - VDSS (Drain source voltage): 60 VDC - VGSS (Gate source voltage): +20 VDC - ID (Drain current): +5 A (DC), +10 A (Pulse) - Pd (Maximum power loss): 10 W

* SETUP MENU *


* ALARM MENU *POS. OLDER

4H EXT ALARM

DIS/URG:ON SAFETY: OFF ROUTINE: ON

[ENT]

[ENT]

Maximum rating of DSM 10 C - IF (Forward current): 1 A - VRM (Reverse tolerance pressure): 200 V

Recommendation: Less than 0.5 A for loading EXT ALM

ONOFF

[ENT]

EXT ALM output; Normal Open

U44PS7241 1B F3 CR2

DSM10C

C31

C29

0.01u

0.01u

EXT ALM_H

EXT ALM_C

EXT ALM Cont.

11

12

[IEC

6116

2/R

EM

OT]

CPU(05P0773)

EXT ALM


J2-1

J2-2

TB-6

TB-71

2

3

4

Maximum rating; 50V/80mA

EXT ALM output; Normal Close （2006/6 and after）

Fig. 4.3.1 EXT ALM System Diagram


4-14

4.3.2 AUTO ACK Select AUTO or MANUAL by [SHIFT] -> [5:ACK] whether to respond (BQ: COMPLY STATUS) to Ship call, Coast Call, Position Call and Polling Call can be set up. With AUTO, BQ is transmitted automatically, and with MANUAL, BQ is transmitted manually.

ＡＵＴＯ ACK non-operation conditions 1. When MANUAL ACK is in use. 2. When Handset of Transceiver unit is in a state of OFF HOOK. 3. When Remote Handset is in a state of OFF HOOK. 4. When detecting ECC ERROR to RX RQ message. 5. When a category of RX RQ message is Safety, Urgency, and Distress. 6. As for Position Call, a setup made by [MENU] -> AUTO ACK -> POSITION

CALL is set to OFF. 7. As for Polling Call, a setup made by [MENU] -> AUTO ACK -> POLLING CALL

is set to OFF. 8. The communication channel is not specified. 9. When TCmd1 assigns Data and FAX. 10. In Russian Ver., when [MENU] -> AUTO CH is set to DISABLE.

1. COMPLY STATUS, UNABLE REASON You can respond to incoming RQ message with either ABLE or UNABLE message as your BQ message. The factory setting value is ABLE. When selecting UNABLE, UNABLE REASON has to be set up.

Table 4.3.1 Operation of AUTO/MANUAL ACK

COMPLY STATUS: ABLE COMPLY STATUS: UNABLE AUTO ACK Transmits �Able� automatically Transmits �Unable� automatically

MANUAL ACK Transmits �Able� manually Transmits �Unable� manually

- Ship Call - Coast Call - Position Call - Polling Call

1. ACK Request

2. ACK BQ

(COMPLY STATUS)

AUTO ACK setting - ATUO or MANUAL- COMPLY STATUS: ABLE/UNABLE

Note: Normally, receives call-up for allships, a channel in use by [CANCEL] -> [ENT] is automatically changed to CH16. When you do not want to changea channel in use, press [CANCEL] key twice.

Note; Polling Call is deleted in Russian Ver.


4-15

Procedure 1. Select [MENU] -> AUTO ACK and press [ENT] key. 2. Select COMPLY STATUS and set up either ABLE or UNABL. And then, press

[ENT] key. 3. When setting UNABL setting, select UNABLE REASON.

2. POSITION CALL, POLLING CALL Both factory settings are ON.

POSITION CALL When POSITION CALL is ON, BQ message (includes the own ship�s position data) is automatically transmitted in response to POSITION CALL from other ships. Your own ship�s position is the one indicated on the display.

POLLING CALL (Cannot use in Russian Ver.) POLLING is to see if you are in a communicable range with other ships. If POLLING CALL is ON, your BQ message (not include the own ship�s position data) is automatically transmitted in response to incoming Polling Calls from other ships.

4.3.3 MEMORY CHANNEL To call up a registered channel, switch the mode by [SHIFT] -> [7: INTL/USA]. �MEMO xx� will be indicated on the mode indication part. How to operate MEMORY CHANNEL:

1. The maximum of 50 channels are available. 2. The only modes that can be registered is the ones chosen by [MENU] -> SYSTEM

-> CH MODE. After a registration, even if CH MODE is prohibited, you can call up a registered channel mode.

3. Memory channel is reflected in the state of channels (TRX, DUP/SIMP and TX POWER) set up by [MENU] -> SYSTEM -> CH CONFIG.

* SETUP MENU *


* AUTO ACK MENU * COMPLY STATUS ABLE UNABLE REASON

NO REASON POSITION CALL ON POLLING CALL ON

ABLE UNABLE

[ENT][ENT]

NO REASON BUSY EQUIP DISBLD MODE UNAVAILCH UNAVAIL


4-16

Procedure 1. Select [MENU] -> MEMORY CHANNEL and press [ENT] key. 2. Select a �Memory Channel� and press [ENT] key. 3. Select a mode and press [ENT] key. 4. Select a channel of the mode and press [ENT] key.

How to erase MOMORY CHANNEL

Select a channel to be erase and select �ERASE� press [ENT] key. 4.3.4 MESSAGE FILE ENTRY When transmitting registered message, press [FILE] -> Select from File List -> [CALL] key. When transmitting an edited message, you have to press [ENT] key and edit the content beforehand and press [CALL] key. How to operate message:

1. The maximum of 100 messages. 2. The only category to register is �ROUTINE�. 3. The message �NAME� to register is a maximum of 16 characters. 4. The only mode channel to register is INTL. 5. Above stated channels are the reflection/display of the state of TRX, DUP/SIMP

and TX POWER of INTL set up by [MENU] -> SYSTEM -> CH CONFIG. Procedure 1. Select [MENU] -> MESSAGE FILE ENTRY and press [ENT] key. Or, the same

display can be called up by pressing [FILE] key 2. Select a file number to memory and press [ENT] key. 3. Select CALL TYPE and press [ENT] key. 4. Create a message and bring a cursor onto REGIST and press [ENT] key.

* SETUP MENU *


* Memory channel 1/7 * 01: _ _ _ _ _ _ _ _ _ _ 02: _ _ _ _ _ _ _ _ _ _ 03: _ _ _ _ _ _ _ _ _ _ 04: _ _ _ _ _ _ _ _ _ _ 05: _ _ _ _ _ _ _ _ _ _ 06: _ _ _ _ _ _ _ _ _ _ 07: _ _ _ _ _ _ _ _ _ _ 08: _ _ _ _ _ _ _ _ _ _

INTL USA WX CANADA INLND-WA ERASE

[ENT]

[ENT]

INTL01

Only for the set CH MODE is shown.

[ENT]


4-17

How to erase message file Select a message to erase, �ERASE� and press [ENT] key.

How to operate Message File When creating DSC TX message, press [FILE] key on item to input ID. A list registered by MESSAGE FILE ENTRY will appear. This list is shown each call type. Selecting a station to call up from this list will input its MMSI.

* SETUP MENU *


* MESSAGE FILE 1/13 *01: 02: 03: 04: 05: 06: 07: 08:


[ENT]

[ENT]

MESSAGE FILE x ENTRY CALL TYPE : COAST CALL COAST ID : 00 ROUTINE TCmd1 : SIMPLEX TP TCmd2 : NO INFO CH : 16 NAME : REGIST ERASE

or [FILE]

- Category: Only ROUTINE - CH: Displays CH list that can be used by

TCmd1 (DUP/SIMP) setup. The channel should be INTL channel.

- NAME: Max. 16 characters

[ENT]

** Compose Message ** CALL TYPE : COAST CALL COAST ID : 00 ROUTINE TCmd1 : SIMPLEX TP TCmd2 : NO INF CH : NO INFO

SELECT COAST 1/11: YOKOHAMA 2: KOBE

** Compose Message ** CALL TYPE : COAST CALLTO : YOKOHAMA COAST ID : 0043100xx ROUTINE TCmd1 : SIMPLEX TP TCmd2 : NO INF CH : NO INFO

Bring a cursor onto ID and press[FILE] key. COAST station listwill appear.

For example, select YOKOHAMA.COAST ID is automatically retrievedfrom a message file.

MESSAGE FILE x ENTRY CALL TYPE : COAST CALLCOAST ID : 00 ROUTINE TCmd1 : TELEPHONE TCmd2 : NO INFO CH : NO INFO EOS: RQ NAME : REGIST ERASE

Note; AREA CALL is deleted in Russian Ver.



4-18

4.3.5 POSITION This is to select a positioning data either by MANUAL or AUTO. Sentences to receive are IEC61162-1 (equal to NMEA Ver.3): GGA > RMC > GNS > GLL and ZDA. When manual input position, it changes to GPS data automatically when inputted the position data from GPS and so on. Then, when using GPS data, manual input is not available. The related setting is [MENU] -> POSITION OLDER.

Procedure 1. Select [MENU] -> POSITION and press [ENT] key. 2. Select INPUT TYPE, either AUTO or MANUAL, and press [ENT] key.

If a positioning data is inputted, select AUTO. When MANUAL is set up, input your own ship�s position and positioning time.

How to operate IEC61162-1 1. UTC shown on VHF display is an indication of ZDA time. When there is no ZDA

available, time available in GGA > RMC > GNS > GLL will be used. 2. ZDA is used to indicate Date/Time on a printed-out self-test result. When ZDA is

not available, time available in a GGA > RMC > GNS > GLL, and date available in a ZDA > RMC will be used.

3. Matching talker: GP > LC > DE > II > IN > EC > TR > LA > OM 4. Data can be received regardless of the availability of expansion field.

Table 4.3.2 Operation of the IEC61162-1

Check-Sum GPS Quality Indicator Status Mode IndicatorSentence Yes No 1, 2, 3 Valid (A) A, D, E, M

GGA Used Used Used RMC Used Used Used Used GNS Used Used Used GLL Used Used Used Used ZDA Used Used

* SETUP MENU * POSITION PRINT OUT VOLUME SYSTEM

INPUT TYPE: AUTOLAT : 35°10� 0 LON : 135°10� 0 TIME : 11:10

AUTO

MANUAL

[ENT] [ENT]

Mode indicator: A = Autonomous mode D = Differential mode E = Estimated (dead reckoning) mode M = Manual input mode S = Simulator mode N = Data not valid

GPS quality indicator 0 = fix not available or invalid 1 = GPS SPS mode, fix valid 2 = differential GPS, SPS mode, fix valid 3 = GPS PPS mode, fix valid 4 = Real Time Kinetic. System used in RTK mode

with fixed integers 5 = Float RTK. Satellite system used in RTK mode

with floating fingers 6 = Estimated (dead reckoning) mode 7 = Manual input mode 8 = Simulator mode


4-19

4.3.6 RTC （Russian Ver.） To activate this function, the RTC board is necessary. RTC of date/time is used for Time stamp in the [LOG] menu. The input sentence to be used proofreads RTC for every second by ZDA>RMC. If the input data stops, RTC is counted from the time of breaking off. Furthermore, when setting RTC by manual, set date and time in [MENU] -> RTC, and press the [ENT] key. It is changed to the setting data and counted the time. The backup time of RTC is held one week or more.

4.3.7 PRINT OUT This is to set up whether you want to print XMTD CALL, RCVD CALL, and DAILY TEST result manually or automatically. The factory setting is all MANUAL. Even when XMTD CALL and RCVD CALL are setup on MANUAL, if you open a file to be printed out from [LOG] and press [6: PRINT] key, you can still print them out. To carry out DAILY TEST, you have to keep the result displayed and then press [6: PRINT] key. When AUTO (e.g. RCVD CALL) is in use and a printer is not connected �Printer PE� error will appear.

Procedure 1. Select [MENU] -> PRINT OUT and press [ENT] key. 2. Select XMTD CALL, RCVD CALL, and DAILY TEST and choose either AUTO or

MANUAL and then press [ENT] key.

Print samples

Self-test RX Message TX Message

Note: Requirement for the printer connection In a rule, if the storage capacity of RX message is 20 or more, it is not necessary to connect a printer. FM-8800S/D:

RCVD ORDINARY and RCVD DISTRESS log are a maximum of 50 respectively. More than 50 logs are erased from old order.

* SETUP MENU *POSITION PRINT OUT VOLUME SYSTEM

AUTO MANUAL

[ENT] [ENT]**** PRINT MENU ****

XMTD CALL MANUALRCVD CALL MANUALDAILY TEST MANUAL

* Daily test result * MAY06/�05 18:34 MMSI: 432456789 TX POWER: OK TX/RX PCB: OK CPU PCB: OK CH70RX PCB: OK

** Received Message ** MAY06/�05 18:34 ECC : OKSHIP CALL FROM : 123456789 ROUTINE TCmd1 : SIMPLEX TP TCmd2 : NO INFO CH : 12

** Transmitted Message ** MAY06/�05 18:34 SHIP ACK TO : 123456789 ROUTINE TCmd1 : SIMPLEX TP TCmd2 : NO INFO CH : 12

NOTE) EOS(RQ/BQ) is printed onthe last line in Russian Ver.

NOTE) EOS(RQ/BQ) is printed on thelast line in Russian Ver.


4-20

4.3.8 VOLUME This is to set up volume.

- KEY CLICK - EARPIECE LEVEL : EARPIECE for Transceiver unit - INTERCOM VOLUME : EARPIECE at the time of INTERCOM - OFFHOOK SPKR : ON/OFF of SP at the time of OFF HOOK

These are set up respectively. Each Remote Handset and Transceiver unit side is independent respectively.

Procedure 1. Select [MENU] -> VOLUME and [ENT] key. 2. Select an item to set up and press [ENT] key. 3. Set an appropriate level.

Note: 1. The minimum level of EARPIECE is �8�. It can output more than 1 mW. The

maximum volume is 2 mW approximately. 2. In case OFFHOOK SPKR is set up to ON, the receiving sounds from the speaker

are outputted even if Handset is OFF HOOK.

* SETUP MENU *POSITION PRINT OUT VOLUME SYSTEM

[ENT]

[ENT]**** VOLUME MENU ****KEY CLICK 8 EARPIECE LEVEL 9 INTERCOM VOLUME 8 OFFHOOK SPKR OFF

xxx LEVEL SETUPLEVEL (1 � 16) <_____ > 8

EXT: ENT

ON OFF


4-21

4.3.9 AUTO CH （Russian Ver.） The state of AUTO ACK is set to ON and ON-HOOK. When received the INDVIDUAL/ROUTINE call, communication CH changes automatically after returning AUTO ACK. (ENABLE: Auto change, DISABLE: Manual change) In case of OFF-HOOK, even if AUTO CH is set to ENABLE, it is not automatically changed to the communication CH.

4.3.10 PSTN CH （Russian Ver.） When not specifying TLE CH from COAST with PSTN CALL of from COAST to SHIP, assign the TEL CH, which is set in this time, to ACK BQ message. Normally, specifying the TEL CH is assigned by COAST.

4.3.11 SPECIAL CALL （Russian Ver.） When setting ABLE, NEUTRAL CALL and MEDICAL CALL are available in the SPECIAL menu of CALL TYPE for DSC.

* SETUP MENU *POSITION RTC PRINT OUT VOLUME AUTO CH

[ENT] **** AUTO CH MENU ****

AUTO CH: ENABLE [ENT]

ENABLEDISABLE

* SETUP MENU *PSTN CH SPECIAL CALLSYSTEM

[ENT] **** PSTN CH MENU ****

PSTN CH: xx

[ENT]

xx

* SETUP MENU *PSTN CH SPECIAL CALLSYSTEM

[ENT] **** SPECIAL MENU ****NEUTRAL CALL: ABLEMEDICAL CALL: ABLE

ENABLE DISABLE

[ENT]

4.4 System Setting: Option Menu

4-22

4.4 System Setting: Option Menu To call up the option menu, see page 4-1.

4.4.1 AUTO 1W In case of ON setup, VHF channel output is automatically reduced to 1W. VHF to control channel is as follow:

- �LOW POWER� channel which is described on VHF channel list. - A channel which is set up to LOW POWER by [MENU] -> SYSTEM -> CH

CONFIG. All channels are Hi Power when setting OFF. Then, the reduced channel by 1W cannot be set up to Hi power even if [0:HI/LO] key is pressed.

Procedure 1. Select [MENU] -> SYSTEM -> AUTO 1W and press [ENT] key. 2. �ON/OFF� pop-up window will appear. Then, select ON and press [ENT] key.

4.4.2 AUTO REVERD In case of ON setup, it goes back to CH16 automatically when Transceiver unit Handset or Remote Handset are back on Hanger. (ON HOOK)

Procedure 1. Select [MENU] -> SYSTEM -> AUTO REVERD and press [ENT] key. 2. �ON/OFF� pop-up window will appear. Then, select ON and press [ENT] key.

4.4.3 CH70 BOARD This function is not available.


4-23

4.4.4 CH CONFIG This is to set up operating channels for INTL, USA, WX, CANADA, INLAND-WA and PRIV mode. Setting items are as below.

Table 4.4.1 CH CONFIG. Setting

Setting The setting items Remarks

INTL USA WX

CANADA INLND-WA

MODE

PRIV

When setting the specified mode to operate, carry out ON/OFF setup of each mode by CH MODE.

CHANNEL XX Specified a channel according to MODETX ENABLE TX/RX Operation RX ENABLE Operation only for RX TRX

UNABLE TX/RX Prohibition: CH is not selectable. DUP DUP Operation DUP/SIMP SIMP SIMP Operation HI 25 W Operation TX POWER LOW 1 W Operation

Procedure 1. Select [MENU] -> SYSTEM -> CH CONFIG and press [ENT] key.

** Channel config. ** MODE : INTL CHANNEL :01 TRX :TX ENABLE DUP/SIMP : SIMP TX POWER : HI

1: Back 2: Next

2. Setting items can be switched with a Channel Knob and a set up value by [1] and [2] key. Select MODE and CHANNEL. Then, set up TRX, DUP/SIMP and TX POWER of the channel and press [ENT] key.

3. Press [CANCEL] key. Below pop-up window will appear. Start up power again.

TURN OFF/ON


4-24

4.4.5 CH MODE This is to set up ON/OFF for INTL, USA/WX, CANADA, INLND and PRIV mode. You can switch the mode by pressing [SHIFT] -> [7: INTL/USA]. The mode set up by CH CONFIG. has to be set to ON in order for it to be available in this mode setting.

MODE INTL : ON USA/WX : OFF CANADA : OFF INLND : OFF PRIV : OFF

Procedure 1. Select [MENU] -> SYSTEM -> CH MODE. 2. Bring a cursor onto a mode to setup and press [ENT] key to set up �ON/OFF�. 4.4.6 SCAN/DW This is ON/OFF setting for SCAN and Dual Watch. Dual Watch 1. Receives CH16 and Additional Channel to watch alternately at the above timing. 2. LCD channel indication is changed at the same timing. 3. When receiving CH16 during Dual Watch, it is locked. Dual Watch function resumes

5 seconds after a signal is lost. 4. Even if receiving Additional Channel, it receives alternately at the above-mentioned

timing. 5. Set PTT switch of Handset to ON or press [SHIFT] -> [9: DW] key by turns. Dual

Watch function stops.

Additional Channel ex: CH06 CH16

T=150 msT=1000 ms

ON/OFF [ENT]

INLND: When ATIS ID is registered, ON/OFFis available.


4-25

Scan Watch 1. Receive all channels of the elected channel mode via CH16 sequentially as above

order. 2. Receives each channel every 150 ms. 3. LCD channel indication changes at the same timing. 4. When receiving CH16 during Scan, it is locked. (The signal is receiving.) 5. RX signals are received and locked. Scan resumes 5 seconds after a signal is lost. 6. Even if Additional Channel receive RX signal, it receives CH16 for 150 ms every

1000 ms. 7. When [LOG] key is pressed while Additional Channel receives RX signal, it can skip

to the next channel. 8. To stop Scan, turn PTT switch to ON, or press [SHIFT] -> [8: Scan] key orderly. Procedure 1. Select [MENU] -> SYSTEM -> SCAN/DW. 2. Bring a cursor onto a mode to set up and press [ENT] key to set up ON/OFF.

SCAN/DW SCAN : ON DW : ON

! CH14 ! CH16 ! CH 15 ! CH 16 ! CH 17 ! CH 16 !

CH 03 CH 16 CH 02 CH 16 CH 01 CH 16

ON/OFF

[ENT]


4-26

4.4.7 SP MUTE This setting is effective in FM-8800D. This sets up whether you want the Transceiver unit�s audio output from speaker to go off or not during transmission through Duplex channel. This function is in relation with the setup by [SYSTEM] -> VOLUME -> OFF HOOK SPKR.

Table 4.4.2 FM-8800D SP MUTE function

Setting for SP MUTE ON OFF ON SP (No Output) SP (Output) Transmission by

DUP CH OFF HOOK

SPKR OFF SP (No Output) SP (No Output) ON SP (No Output) SP (No Output) Transmission by

SIMP CH OFF HOOK

SPKR OFF SP (No Output) SP (No Output) You have to set OFF HOOK SPKR to ON and SP MUTE to OFF if you want Transceiver unit�s audio output from speaker to go off during a transmission through Duplex channel.

Procedure 1. Set [MENU] -> VOLUME -> OFF HOOK SPKR to ON. 2. Set [MENU] -> SYSTEM ->SP MUTE to OFF.

4.4.8 TIMEOUT TIMER This is a setup that automatically stops the transmission after it was continuously sent out for longer than 5 minutes. This function is effective in USA channel. Procedure 1. Select [MENU] -> SYSTEM -> TIMEOUT TIMER. 2. Bring a cursor onto a mode to set up and press [ENT] key to set up ON/OFF.


4-27

4.4.9 REGULATION This function is currently inoperative. (2005/5) This is a setup to reserve in Russian Type Approval.

- INTL Ver. : Set to INTL. - Russian Ver. : Set to RUSSIAN.

4.4.10 VDR OUTPUT LEVEL The VDR connection port is connected to #23 and #24 inside the Junction box (IF-8810). Balance type output is 600 ohm/0 dBm and the adjustable range is �10 dBm to +10 dBm. Procedure 1. Select [MENU] -> SYSTEM -> VDR OUTPUT LEVEL and press [ENT] key.

VDR OUTPUT LEVEL LEVEL (1 � 16) <■■■■ ＞ 8

EXT: ENT 2. Set up the output level using either Channel Knob or arrow key and press [ENT] key

to store data.

Fig. 4.4.1 VDR Output

Output data

Output Level

Factory setting value: 8 (Approximately 0 dBm)


4-28

4.4.11 STATION TYPE COAST setting is prohibited. This function is not supported. When setting to COAST, TX and RX frequency will be interchanged. Since FM-8800D has Duplex Filter built in, COAST setup is prohibited.

4.5 Jumper Setting

4-29

4.5 Jumper Setting 4.5.1 Remote station As for DATA and LINE of Remote station that is in far from Transceiver unit electrically, set JP2 and 3 to ON for terminate.

- When connecting Remote station(RB-8800, 8810) via DMC I/F is the same. - When DMC IF is connected only to DMC-5 and DMC I/F is installed electrically

far from Remote station, terminate DATA line on DMC I/F side.

Fig. 4.5.1 Connection of DATA A/B Lines

Fig. 4.5.2 RB-8800, Jumper Setting

JP21 3

LINE TERMINATION

RS-485TERMINATION

ON

JP31 3

ON

FM-8800D/S

Junction boxIF-8810

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

DMC I/FIF-8820

DM

C-5

DATA A/B

LINE IN/OUT

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

Rem

ote

stat

ion

HS-

8800

& R

B-8

800/

RB

-881

0

DATA A/B

LINE IN/OUT

Terminater

Terminater

Terminater

TXDRXDU1

(CPU)

RS-485 and LINE

RS-485

RS-485 and LINE

05P0782

4.5 Jumper Setting

4-30

JP41 3

RS-485TERMINATION

ON

Fig. 4.5.3 RB-8810, Jumper Setting

Fig. 4.5.4 DMC I/F, Jumper Setting

JP31 3

LINE TERMINATION

RS-485TERMINATION

ON

JP21 3

ON

05P0798

05P0779

Note: AD0 and AD1 are erased. JP3 is to load a program of DMC I/F CPU, and is also used in the factory.

JP3:P.LOAD

AD0, AD1: Not used

4.5 Jumper Setting

4-31

4.5.2 Select Wing MIC You can select Carbon MIC or Dynamic MIC depending on Wing MIC type. The factory setting is Dynamic MIC.

Table 4.5.1 W. MIC setting

J5 Setting MIC Input Level Remarks Dynamic MIC: HS-6000FZ5 1 to 2 -48 dBm/600 ohm Factory default Carbon MIC: HS-6000FZ6 2 to 3 0 dBm/40 ohm

Fig. 4.5.5 CPU Board, W. MIC Circuit

Fig. 4.5.6 CPU Board, Location of J5

5V

Wing MIC-1

Wing MIC-2

R8447

R8347

C91

C89

10u

1u

1u

C90

R110

10kR111

10kR108820

R11

368

0R106

1k

CR17 C11

1

C11

0

1000

p

1000

p

U42

W. MIC(H)W. MIC(C)

123

J5W. HANDSETDynamic MIC

Carbon MIC

CPU: 05P0773

JP51 3

4.5 Jumper Setting

4-32

4.5.3 When using Handset with removed (HS-2003) When removing Handset (HS-2003) of Transceiver unit and operating only from the Remote Handset, make a jumper connection between #1 and #2 of J15 on the CPU board. This setup is made by compellingly wetting HOOK SW to ON HOOK on CPU board.

Note: When disconnecting Handset (HS-2003) without this setting, it goes into a state of OFF HOOK detected on CPU. That is, the operation and the transmission from Remote Handset are not available because Transceiver unit Handset will be in use. �OCCUPIED xxxx� will be indicated on Remote handset side, the meaning is Transceiver unit is in use.

Fig. 4.5.7 CPU Board, Circuit of Ｊ15

Fig. 4.5.8 CPU Board, Location of J1５

CPU (05P0773)

J15 - Not used Handset: Jumper #1 to #2 - Use Handset: Jumper #2 to #3

U1DN68485

OUT

U30:CPUHD64F2377

1 2 3

J15

P80 IRQ03

3.3V

R19010k

Hook SW

HANDSET(HS-2003)

CPU 05P0773

Apply board; 05P0773-33 and after

4.6 When TR Antenna is used for CH70 WR

4-33

4.6 When TR Antenna is used for CH70 WR When watching CH70 through TR antenna, a modification of internal wiring will be necessary. In this case, CH70 cannot receive during VHF transmission.

Fig. 4.6.1 Antenna Connection Connect the Mini-pin assembly (1) L-420 (Supplied material: Code 000-151-748) between J5 on TX/RX board and J2 on CH70 RX board.

Fig. 4.6.2 Location of the connector

CH70 RX(05P0775)

TX/RX(05P0774A/B)

DUP RX(05P0777)

DUPLEXER

J2

J5

J3

J1

J2

J4

ANTCH70 RX OUT

CH70 RX ANT

ANTANT

DUP OUT

DUP IN1

DUP IN2

TX FIL

RX FIL

Q7

HPAU1 T/R

SW

JumperSimplex only

Rx AMP

TX/RX: J5 CH70 WR: J2Pass the Mini-pin assembly(1) through a hole.

4.7 μTP-80F Setup

4-34

4.7 μTP-80F Setup This describes how to set up the printer:μTP-80F which is built in the RC-8800 wall rack console. The factory setting of μTP-80F is a normal character. When switching between normal and reversed characters, carry out the DIP switch setup.

Fig. 4.7.1 μTP-80F

Print Density Adjustment Print density is adjusted with the print density knob. To increase the density, turn the knob counter clockwise. The higher the density, the shorten the life of the printer head and the slower the printing speed.

Reversed character (20 lines)

Reversed character (22 lines)

Normal character

Print density knob DIP Switch Dip SW-#2-ON

Reversed character

4.7 μTP-80F Setup

4-35

1. DIP Switch Setting The factory setting is the meshed state of Table 1 and 2. Switch #2 switches between normal and reversed characters. When you switched the DIP switch, turn on the power again.

Table 4.7.1 Function of DIP Switch

Function/Switch No. 1 2 3 4 5 6 7 8 9 10 Small character size ON

Normal character size OFF Reversed character ON Normal character OFF Pitch (22 lines) ON Pitch (20 lines) OFF

International character See Table 2.

Alpha Calibration See Table 3.

Automatic line feed ON

Not used

NOTE; For test printing:

1. Turn on the printer while pressing and holding down FEED switch. 2. All characters are printed out and then five line pattern is printed.

The printer is on-line after test printing.

- In case of PE during the test printing, returns to the state of PE after printing a line. - To cancel the test printing, press SEL switch. It stops printing and changes to ON

LINE in a few moments.

Value 7 8 0 OFF OFF -1 OFF ON +1 ON OFF +2 ON ON

Table 4.7.2 International character setting Table 4.7.3 Alpha Calibration

Character 4 5 6

Japan OFF OFF OFF US OFF OFF ON German OFF ON OFF English OFF ON ON French ON OFF OFF Spanish ON OFF ON Italian ON ON OFF Swedish ON ON ON

* These switches are used for mechanical calibration. The value differs from set to set.

4.8 Change the Specification Power for PR-240-CE

4-36

4.8 Change the Specification Power for PR-240-CE When switching the power supply, switch is made below two spots. Factory shipment is 220 VAC specification. 1. Change of wiring

2. Change of jumper

Change the jumper Change wiring

Change the red cable with plug to thespecification power.

When changing the specification (Factory setting)from 220 VAC to 100 VAC, move the secondwiring to the first on the terminal board.

220VAC spec.(default）

1234

100VAC spec.

1234

Black

Black

White

White

SEL115V

SEL230V

Red

5.2 Outline of Connection

5-1

5.1 Outline of Connection Basically, equipments are connected via connection box/IF-8810. DMC-5, for example, is connected via DMC IF(IF-8820). A total of 4 Remote Handsets can be connected via IF-8810 and/or IF-8820. Communication between the Transceiver unit, Remote Handsets, and DMC IF are carried out using RS-485.

Chapter 5. Block Description

TR U

nit

FM-8

800D

/S

TR A

NT

CH

70 A

NT

Handset(HS-2003)

EXT. SP(SEM-210)

AC/DC Power(PR-240-CE)

Junc

tion

Box

IF-8

810

NAV(GPS)

Ex: Plotter

Rem

ote

Stat

ion

(RB

-880

0)(R

B-8

810)

DM

C I/

FIF

-882

0

DMC-5Printer(PP-510)(PP-8800)

ANT

CH70 RX ANT

Handset

SPKR

24VDC

Printer

IEC

6116

2-1(

NM

EA/R

EMO

TE)

Handset(HS-8800)

15A

Handset(HS-6000FZ-5)

MIC Receptacle(R80-VHF-B)

Handset(HS-8800)

Handset(HS-8800)

Handset(HS-8800)

Handset(HS-8800)

Rem

ote

Stat

ion

(RB

-880

0)(R

B-8

810)

Rem

ote

Stat

ion

(RB

-880

0)(R

B-8

810)

Rem

ote

Stat

ion

(RB

-880

0)(R

B-8

810)

15VDCDATA A/BLINE IN/OUT

15VDCDATA A/BCONTDIST SWLINE IN/OUT




Carbiom15VDCDATA A/BLINE IN/OUT

Handset(HS-8800)

Rem

ote

Stat

ion

(RB

-880

0)(R

B-8

810)

Rem

ote

Stat

ion

(RB

-880

0)(R

B-8

810)


TXDRXD

W-MICW-SPW-PTT

*Dynamic MIC

Handset(HS-6000FZ-5)

MIC Receptacle(R80-VHF-B)

W-MICW-SPW-PTT

*Dynamic MIC

TXD

EXT ALMEXT ALM

VDRVDR AF

RXD

15VDCTXDRXDEXT ALMW-MIC1W-SP1W-PTT1VDR AFDATA A/BLINE INLINE OUTW-MIC2W-SP 2W-PTT2

Same as above

x 4

D-Sub 25P

D-Sub 37P

*Carbon MIC R80-VHF-A, HS-6000FZ-5

Carbon MIC:

R80-VHF-B, HS-600FZ6

Fig. 5.1.1 Outline of Connection

Connection of the unit surrounded by the dotted line cannot beperformed in the Russian Ver.

5.2 I/O Port Specification

5-2

5.2 I/O Port Specification 5.2.1 IEC61162/REMOTE Port (D-Sub 37P)

Table 5.2.1 IEC61162/REMOTE Port

IN/OUT Pin No. Signal Specification Remarks OUT 1 – 4 +15 VDC

5 – 6 N.C Use jumper connection of System Protection unlock

7 TXD (H) OUT 8 TXD (C) IEC61162-1

Outputs a position of other ships from DSC RX information with TLL

9 RXD (H) IN 10 RXD (C) IEC61162-1 GGA>RMC>GNS>GLL, ZDA

OUT 11 EXT ALM N Open Collector outputOutputs ''L'' level when DSC message is DISTRESS or Urgency category.

12 0 V

13 WING MIC-1 (H) IN

14 WING MIC-1 (C)

-46 dBm/600 ohm or 0 dBm/40 ohm

Selects Dynamic MIC and Carbon MIC

15 WING SP-1 (H) OUT

WING SP-1 (C)

IN 17 WING PTT-1 N 18 – 22 0 V

23 VDR AF (H) OUT 24 VDR AF (C) 600 ohm/0 dBm

(Balanced)

OUT 25 DATA-A IN 26 DATA-B RS-485/38.4 kbps

27 LINE OUT (H) OUT 28 LINE OUT (C) -10 dBm/600 ohm

(Balanced)

29 LINE IN (H) IN 30 LINE IN (C) -10 dBm/600 ohm

(Balanced)

31 WING MIC-2 (H) IN

32 WING MIC-2 (C)

Dynamic MIC -46 dBm/600 ohm

Carbon MIC 0 dBm/40 ohm

Selects Dynamic MIC or Carbon MIC

33 WING SP-2 (H) OUT

34 WING SP-2 (C)

IN 35 WING PTT-2 N 36 0 V 37 F. GND

5.2 I/O Port Specification

5-3

5.2.2 PRINTER Port(D-Sub 25P) Table 5.2.2 PRINTER Port

IN/OUT Pin No. Signal Specification Remarks 1 STROBE N 2 D0 3 D1 4 D2 5 D3 6 D4 7 D5 8 D6

OUT

9 D7

10 ACK N 11 BUSY 12 PE IN

13 SELECT OUT 14 ALF N IN 15 ERROR N

16 INT. N OUT 17 SLCT IN N 18 F.GND 19 0 V 20 – 25 F. GND

Note;

In addition, use jumper connection of System protection unlock between #2 and #15 of [Printer] port

5.2.3 Handset MIC Connector

Table 5.2.3 MIC Connector

IN/OUT Pin No. Signal Specification Remarks 1 0 V 2 PTT SW N 3 MIC (H) IN

4 MIC (C) -46 dBm/600 ohm

OUT 5 HS SP (H) 2 mW/150 ohm IN 6 HOOK SW N

OUT 7 +5 VDC 8 F. GND

5.3 Outline of Boards

5-4

5.3 Outline of Boards The difference between FM-8800D and FM-8800S is whether there are DUPLEXER and DUP RX board or not and TX/RX board.

- FM-8800S

DUPLEXER and DUP RX board: No TX/RX board: 05P0774A - FM-8800D

DUPLEXER and DUP RX board: Yes TX/RX board: 05P0774B

Fig. 5.3.1 Connection of each board

CPU(05P0773)

TX/RX(05P0774A/B)

A: FM-8800SB: FM-8800D

CH70(05P0775)

DUP RX(05P0777)

DUPLEXER

* FM-8800D only

POWER(05P0776)

PANEL(05P0772)

SQ/VR(05P0787)

CH(05P0788)

LCD MODULE

HANDSET

INT SP

ANT

CH70 RX ANT

EXT SP

PRINTER

+15VDCIEC61162/REMOTE/EXT ALM/VDR/W-HANDSET-1W-HANDSET-2

RTC(05P0804)

15VDC

PWR SW

J3

J3

J3

J3J3

J13

J9

J6

J14J10

J3

J4

J12

J8

J5

J5

J5

J1

J1

J1

J1

J2

J2

J1

J8

J7

J6

J9

J1

J2

J2

J2

J4

TX F

IL

RX

FIL

TX MIX (45MHz)

REF OSC (25.6MHz)

CH70 OSC (38.4MHz)

DUP REF (25.6MHz)

+15VPWR CONTCLK/DATA/STB1TX ON/RX ONTEST ON/TRX AGCTRX IF OUTPWR SW

F VSWR/R VSWRPA TEMPTRX UNLOCK

+15V/+5VCLK/DATA/STB2RX ON

+15V/+5VCH70 TEST

DUP UNLOCKDUP INSTDUP IF OUT

CH70 IF OUT

POWERVOLAUTO/SQ

ENT-1, 2CH-1, 2

PTT SWMICHS SPHOOK SW+5V

+5VKX0-4DIS LEDAL-S LEDAL-D LEDKEY LEDLED BRGI ADJLED END0-3CL1-2K/FLMDISPOFFVADJHS SP

CH1,2PTT SWMICHOOK SWPWR SWVOLAUTO/SQ

IEC61162/REMOTE

24VDC

TB1, 2

SCLKSIOCE

5.3 Outline of Boards

5-5

Table 5.3.1 Outline of each board

Unit Board Main function

CPU (05P0773)

Consists of CPU, DSP, CODEC, and DDS. 2nd IF: 37.5 kHz from CH70 RX, TX/RX, DUP RX board is demodulated by digitization. Audio signals are digitized just the same, is modulated on this board, and is outputted to TX/RX board with 45 MHz.

TX/RX (05P0774A/B)

Consists of TX/RX circuit. 05P0774A, SIMP-equipped FM-8800S, and 05P0774B are installed in DUP-equipped FM-8800D. The difference is whether there is a connector for DUPLEXER. - RX circuit: receives RX signal of 150 MHz, converts it into

2nd IF: 37.5 kHz and outputs it into CPU board. - TX circuit: converts modulated signal of 45 MHz from CPU

board to TX frequency and outputs 25 W.

CH70 RX (05P0775)

Has the same function as CH70 WR. This converts DSC RX signal of 156.525 MHz into 2nd IF:37.5 kHz and outputs it into CPU board.

DUP RX (05P0777)

Is installed in FM-8800D. This board receives the signal when DUP CH is selected, converts RX signal of 160 MHz into 2nd IF: 37.5 kHz, and outputs it into CPU board.

DUPLEXER

Is installed in FM-8800D. DUPLEXER prevents TX signal to entering RX circuit and makes DUPLEX communication possible by carrying out TX with LPF of 157.5 MHz and RX with HPF of 160.6 MHz.

POWER (05P0776)

Outputs +15 VDC from input power of +24 VDC and is equipped with over voltage protection, low voltage protection, and over-current protection.

PANEL (05P0772)

Consists of LCD, KEY SW, and their lighting. LCD dot numbers are 160 x 160. ** 26 characters x 20 lines.

FM-8800S FM-8800D

RTC (05P0804)

Added to the Russian Ver. On the RTC board, use for Time stamp (Date and Time) in the [LOG] menu.

JUNCTION BOX: IF-8810

JUNCTION (05P0790)

Functions as a junction between the Transceiver unit and Remote station, GPS, VDR and Wing-MIC.

DMC INTERFACE: IF-8820

DMC IF (05P0778)

Non-use for the Russian Ver. Makes a communication with the Transceiver unit CPU and interfaces DMC-5 and a Remote stations.

HANDSET: HS-2003

HANDSET (05P0780)

Is to be connected to the Transceiver unit and uses Condenser MIC.

HS CONT (05P0781)

Sends a result of key operation to the Transceiver unit CPU and the Transceiver unit responds to its result.

KEY (05P0715) Consists of lighting circuit of key and LED. HANDSET:

HS-8800 LCD Module (MFM-073Q10)

A total dot numbers are 91x72. Indication will be within 13 digits x 7 lines.

REMOTE (05P0779) Consists of DISTRESS ALERT BUTTON and AF AMP. REMOTE

STATION: RB-8800 TB (05P0782) Functions as a junction between a Remote stations REMOTE STATION: RB-8810 TB (05P0798) Functions as a junction between a Remote stations

5.4 Block Description

5-6

5.4 Block Description 5.4.1 CH70 RX (05P0775) This board is a CH70 WR. This board converts frequency from CH70 (156.525 MHz) to 2nd 1F and outputs it into CPU board. A self- test of this board does not check RX circuit but inputs CH70 test signal from CH70 IF OUT line to see if that can be detected or not. As for antenna, CH70 WR exclusive antenna is used and other way, when watching CH70 through TR antenna a modification of internal wiring will be necessary. In this case, CH70 receiving signal cannot receive during any transmissions. CH70 receiving signal is received from J5 port on TX/RX board. The main specifications are below.

Table 5.4.1 Specification of CH70 RX PCB

Item Specification RX frequency CH70 (156.525 MHz) Antenna input (J2) Impedance 150 MHz/50 ohm 1st IF frequency 38.3625 MHz 2nd IF frequency (CH70 IF OUT) 37.5 kHz/5 k ohm, －60 to +10 dBm output 1st Local frequency 23.6325 MHz x 5 =118.1625 MHz TP1 level: +4 to 7 dBm 2nd Local frequency 38.4 MHz (0 dBm, 50 ohm) TP4 level: 0 to 3 dBm DSC sensitivity (CH70 board) Input level of SINAD is below 3 dBuV

DSC sensitivity (total) Antenna input level below 0 dBuV ! BER (Bit Error Rate): lower than 10-2 (Acceptable level: 6 dBuV.)

Fig. 5.4.1 CH70 RX (05P0775) Block Diagram

FL2: SAW FIL(156.525MHz)BPF(L/C)

ISS271

BPF(L/C)

CR6, 7

CR4, 5FL1(38.3625MHz)

U2(TA48L033F)

Q2Q3 Q4

Q1 Q8

U30CPU

U20DSP

U17CODEC

CPU 05P0773

CH70 RX 05P0775

PMBFJ310

Y1:TCXO(23.6325MHz)

2SK8822SC3356

2SC3356 2SK882

Q7

2SC3324

MA72837.5kHz

38.4MHz

+15V

+5V

TP1 TP4

TP2, 3

X5(118.1625MHz)

(118.1625MHz)

R36100

R37100k

CH70 IF OUT

CH70 TEST

J3-#5

J3-#1

J3-#2

J3-#3J2

J1

REG.+3.3V

CH70 ANT


5-7

CH70 receiving signal(156.525 MHz) inputted from the antenna reduce out-of-band signals/noise with BPF (L/C) of 20 MHz and uses Q3 (RF AMP) to amplify it by approximately 10 dB. Then, FL2 (SAW FIL, BW: ± 10 kHz) is installed in order to improve “Blocking” efficiency. CR6 and 7 are 1st MIXER circuit that converts 156.525 MHz into 1st local of 118.1625 MHz and 1st IF signal of 38.3625 MHz.

156.525 MHz - 118.1625 MHz = 38.3625 MHz 118.1625 MHz is created by multiplying TCXO output of 23.6325 MHz ( ± 2.5 ppm) with Q8. 1st IF signal, after being amplified by Q2 and Q4, and then is converted into 2nd IF signal of 37.5 kHz by 2nd MIXER circuit of CR4/5 and 2nd local signal of 38.4 MHz received from CPU board.

38.3625 MHz - 38.4 MHz = 37.5 kHz This 37.5kHz signal is inputted into CPU board as CH70 IF OUT signal and is demodulated with CODEC and DSP.

CH70 IF out: -measures no modulation signal input with J3 - #5 on CH70 RX board.

CH70 SP SINAD: -measures SP output (1W) of 1 kHz/70 % MOD.

Fig. 5.4.2 Input/Output characteristic on CH70 RX board

--10 0 10 20 30 40 50 60 70 80 90 100 110dBuV

-60

-50

-40

-30

-20

SSG Level

Leve

l(dB

m)

SIN

AD

(dB

)

-10

0

10

20dB

0.77Vrms

2.15Vrms

7.7mVrms

CH70 IF out

CH70 SP SINAD1mVrms


5-8

5.4.2 DUP RX (05P0777) This board is to be installed in FM-8800D and converts 160 MHz band RX signal of DUPLEX RX frequency to 2nd IF and outputs it into CPU board. The self-test of this board detects Un-Lock/Lock signal upon assessing the function of PLL circuit of 1st local on this board. When installing this board and if J3 - #11 (DUP INST) is “L” level then, CPU recognizes FM-8800D is in use and switches its program to one compatible with DUPLEX. The main specifications are below.

Table 5.4.2 Main Specification of DUP RX PCB

Item Specification RX frequency 160.625 MHz to 162.025 MHz Antenna input (J1) Impedance 160 MHz/50 ohm 1st IF frequency 51.2375 MHz 2nd IF frequency (DUP IF OUT) 37.5 kHz/5 kohm, - 60 to +10 dBm output

1st Local frequency Fo + 51.2375 MHz TP1 level: +3 to 5 dBm TP4: VCO cont ! 4 to 5VDC at CH18(161.5MHz)

2nd Local frequency 51.2 MHz (0 dBm, 50 ohm) TP3 level: -2 to -1 dBm

Sensitivity SINAD 20 dB: below 2 dBuV. NOTE: Loss of DUPLEXER somewhat lowers RX sensitivity on TX/RX board compared to (SIMPLEX).

Fig. 5.4.3 DUP RX (05P0777) Block Diagram

PMBFJ310

VCO

LPF

PLL

PLL2 UN-LOCK

BPF(L/C)

BPF(L/C)

BPF(L/C)

ISS271

BPF(L/C)2SC33561SV229

51.2MHz

Rx 1st Lo(Fo+51.2375MHz)

PLL2 DATA(CLK/DATA/STB)

CR10/11

CR8/9

U5Q5

FL1(51.2375MHz)

U8

U3

(LMX2353TMX)

Q6, CR3/4

Q11

uPC2745TB2SC3356

U4

Q13Q1

Q4

Q14

uPC2745TB

Q10

U30CPU

U17CODEC

CPU 05P0773

DUP RX 05P0777

PMBFJ310 2SK882

Q15

2SC33242SC3356 Rx 2nd Lo(51.2MHz)

MA2J728 DUP IF OUT37.5kHz

TC75HU04F

X2

DUP INST

25.6MHz Ref. OSC

TP4

TP1

TP6

TP3

TP5

DUP RX

J1

J2

J3-#6, 7, 8

J3-#11

J3-#3

J3-#1

J3-#14

J3-#9

U20DSP

U7(TA48L033F)

R15V

R15V

+15V

+15V

RX ON

+5V

+15VJ3-#10 RX ON

+5VREG.

U10(TA78L12F)

+15V+12VREG.

+3.3V

Q8

Q7

R15V R15V

TP2


5-9

160 MHz band RX signal of from DUPLEXER will be amplified by approximately 7 dB. BPF (L/C) of 156 to 163 MHz range is installed on Q1 input/output circuit. CR10 and 11 are 1st MIXER circuit that converts 160 MHz band RX signal into 1st IF signal of 51.2375 MHz by Fo＋51.2375 MHz.

Fo - (Fo + 51.2375 MHz) = 51.2375 MHz 1st IF signal amplified by Q13 and 14 is converted into 2nd IF signal of 37.5 kHz by 2nd local of 51.2 MHz on 2nd MIXER circuit of CR8/9. 51.2 MHz is created by multiplying reference frequency of 25.6 MHz received from CPU board by 2 on U3.

51.2375 MHz - 51.2 MHz = 37.5 kHz This 37.5kHz signal is inputted into CPU board as DUP IF OUT and is demodulated with CODEC and DSP.

DUP RX IF out: -measures no modulation signal input with J3 - #14 on DUP RX board.

SP SINAD: -measures SP output (1W) of 1 kHz/70 % MOD. .

Fig. 5.4.4 Input/Output characteristic on DUP RX Board

--10 0 10 20 30 40 50 60 70 80 90 100 110dBuV

-60

-50

-40

-30

-20

SSG Level

Leve

l(dB

m)

SIN

AD

(dB

)

-10

0

10

20dB

0.77Vrms

2.4Vrms

7.7mVrms

DUP RX IF out

SP SINAD

1mVrms


5-10

5.4.3 TX/RX (05P0774)

Fig. 5.4.5 TX/RX (05P0774) Block Diagram

VCO

LPF

PLL

PLL1 UN-LOCK

(RA35H1516M) BPF(L/C)

BPF(L/C)

BPF(L/C)FL2(51.2375MHz)BPF(L/C)

2SC33561SV229

+8V REG

51.2MHz

2nd Lo (51.2MHz)

45 MHz(Modulated)

45 MHz45 MHz

T+15V

T+15V

PLL1 DATA(STB/DATA/CLK)

PA

RF AMP(2SC3356)

U1

Q7 Q6 Q111 Q114

Q5

DRIVE

Q1

CR101

CR104

TP1TP4

TP2

CR106

Q101

U10

U8Q13

U5

FL1: 45MHz

U12(LMX2353TMX)

Q14, CR11,12

Q12, 17Q16, 18

Q15

uPC2745TB2SC3356

U7

uPC

2745TB

Tx Local (F0+45MHz)

Rx Local (F0+51.2375MHz)

MIX

MIX MIX

F0

Q21

Q116

U30CPU

U25DDS

U17CODEC

U20DSP

CPU 05P0773

U11TC75HU04F

X225.6MHz

RX IF OUT(37.5kHz)

AGC CONTAGC CONT(Not used)

Ref. OSC

R+15V

T+15V

F VSWRR VSWR

F VSWRR VSWR

TX ON

+15V+5V

PA TEMP

+15V+5V

RX ON

U4 U4

TX/RX 05P0774A (For FM-8800S) 05P0774B (For FM-8800D)

U2(DCS3D2D)

CM Coupler

F-VSWR DET

R-VSWR DETCR6U3(2/2)

CR8U3(1/2)

PWR CONT PWR CONT

PWR CONT

T15V, +15VQ2,10,102Q3,4,9,8,11

UN LOCKTEST ON

TEST ON TEST ON

CR103

R52

T/R SW SW

Q20

Q112, 113

R+15V

T15VR15V

BIAS

ATT

ANT

DUP OUT

DUP IN1

DUP IN2

CH70 RX out

J5

J4

J2

J1

J7

J8

J3

Jumper: SIMP only

(1/2) (2/2)

U13(LM60CIM3)

TEMP. Sensor

CR9 CR13

J9-#17-19

J9-#27

J9-#25

J9-#24

J9-#22J9-#23

J9-#21

J9-#15

J9-#13J9-#12J9-#10

J9-#9

J9-#1-4

TP3


5-11

The 05P0774A is installed in FM-8800S and the 05P0774B is installed in FM-8800D. Both of them have almost the same circuit and their difference is recognized by the availability of DUPLEX input/output connector. RX circuit converts a signal to 2nd IF and outputs it into CPU board.. TX circuit consists of MIXER, PA, and APC circuit. PLL circuit is used for both TX and RX. However, FM-8800D carries out DUPLEX RX on DUP RX board. The self-test of TX/RX PCB detects Un-Lock/Lock signal by assessing the efficiency of PLL circuit of 1st Local on this board. The specifications are below.

Table 5.4.3 Main Specification of TX/RX PCB

Item Specification Antenna input/output (J3) Impedance 50 ohm

RX frequency

Simplex: 155.000 to 163.600 MHz Sem-Duplex: 155.400 to 158.000 MHz

160.000 to 163.600 MHz Duplex: 160.600 to 162.100 MHz

1st RX IF frequency 51.2375 MHz 2nd RX IF frequency (RX IF OUT) 37.5 kHz, -60 to +10 dBm output

RX 1st Local frequency

Fo + 51.2375 MHz TP1 level: +4 to +6 dBm VCO control voltage (TP2):

165 MHz: 4.5 to 6.2 V 155 MHz: more than 3.1 V

RX 2nd Local frequency 51.2 MHz (0 dBm, 50 ohm) TP4 level: +4 to +6 dBm RX sensitivity Input level of SINAD 20 dB is below 0 dBuV

TX frequency Simplex: 155.000 to 161.475 MHz Sem-Duplex: 155.000 to 158.000 MHz Duplex: 156.025 to 157.425 MHz

TX 1st Local frequency Fo + 45 MHz Maximum TX output Over 40W (board output) APC Controls from 0 W to the maximum Maximum frequency division Within 5 kHz Spurious Emission Less than 0.25 uW (9 kHz～2GHz)


5-12

RX CIRCUIT The Rx signal reduce out-of-band signals/noise between 156.025 MHz and 162.025 MHz by BPF (L/C) on Q7 input/output circuit and Q7 (RF AMP) will amplify it by 10dB. CR 104 is 1st MIXER circuit that converts RX signal by 1st Local of Fo＋51.2375 MHz into 1st IF signal of 51.2375 MHz.

Fo - (Fo+51.2375 MHz) = 51.2375 MHz 1st IF signal, after being amplified by Q6 and Q111, will be converted by 2nd MIXER circuit of CR106 and 2nd local of 51.2 MHz. 51.2 MHz is created by multiplying reference frequency of 25.6 MHz received from CPU board by 2 on U11.

51.2375 MHz - 51.2 MHz = 37.5 kHz This signal of 37.5 kHz is inputted into CPU board as RX IF OUT signal and is demodulated with CODEC and DSP. AGC is a circuit that controls CR9 and CR13 (pin diode) when AGC voltage is inputted from CPU board. However, since this voltage is always set to 1.1 V regardless of RX input level, technically, AGC is not being used.

TX/RX IF out: - measures no modulation signal input with J9 - #27 on TX RX board

SP SINAD: - measures SP output (1 W) of 1 kHz/70 % MOD.

Fig. 5.4.6 Input/Output(RX) characteristic on TX/RX Board

--10 0 10 20 30 40 50 60 70 80 90 100 110dBuV

-60

-50

-40

-30

-20

SSG Level

Leve

l(dB

m)

SIN

AD

(dB

)

-10

0

10

20dB

0.77Vrms

2.4Vrms

7.7mVrms

TX/RX IF out

SP SINAD


5-13

TX CIRCUIT A signal of 45 MHz inputted from CPU board is a FM-compatible signal modulated by DDS on CPU board. This modulated signal is amplified by U10 and U5. Then, it is converted by TX local frequency of Fo + 45 MHz of PLL output frequency on CR101 into Fo.

(Fo + 45 MHz) – 45 MHz = Fo This output signal goes through Q101, BPF (L/C), Q5 and Q1. Its signal is amplified by U1 (RA35H1516M). When PA input is anywhere between 20 to 50 mW will be over 40 W. RA35H1516M (154 MHz to 162 MHz, 40 W RF MOS-FET AMP Module)

Table 5.4.4 RA35H1516M

Item Conditions Maximum range VDD VGG<5 V 17 VDC VGG VDD<12.5 V, Pin=0 mW 6 VDC

Pin/Pout 154-162 MHz, Zin/out=50 ohm Pin=100 mW, Pout=50 W T case -30 - +110 deg.

PA output goes through T/R SW circuit (CR2) and LPF structured on LC to reduce spurious emissions. Cut-off frequency for LPF is 190 MHz and it is reduced by less than -40 dB with 2 x Fo. Therefore, maintained spurious emissions are kept less then -80 dB(less then 0.25 uW) by LPF and PA(2nd harmonic: less then –50 dB). This output line is connected to antenna terminal via CM coupler on U2 (DSC3D2D_0157). CM coupler detects R VSWR and F VSWR. Power control is carried out on the basis comparison between this signal and PWR CONT voltage from CPU board. R-VSWR functions as a protector at the time of opening an antenna and an antenna being in a state of short(R VSWR>F VSWR).

At following condition;

VDD=12.5V, VGG=5V, Pin=50 mW

- Output: more than 40 W

- Efficiency: more than 50 %

- 2nd harmonic: less than –50 dBc

(1) (2) (3) (4)

(5)(5)(1)

(2) (3)

(4)

(1): RF Input(Pin)

(2): Gate Voltage(VGG)

(3): Drain Voltage(VDD)

(4): RF Output(Pout)

(5): RF Ground(Case)


5-14

APC, R VSWR, F VSWR CIRCUIT

Fig. 5.4.7 APC Block

These power data set up by [MENU] -> SYSTEM -> TX POWER: is inputted into U4 (1/2): inversion amplifier. This voltage is a reference voltage of U4. One the other hand, F-VSWR detected by CM coupler is detected by CR8 (half-wave detection) and is amplified by U3 (1/2). R-VSWR is detected by CR5 and 6 (full-wave detection) and is amplified on U3 (2/2). For example, when PWR CONT inputted into U4 (1/2) is lower than F-VSWR voltage, U4 (1/2) output decreases. It lowers the base current of Q10 and goes through Q2 to lower VGG of U1: and PA output. As a result, F-VSWR voltage decreases as well. This voltage is the same as PWR CONT and continues until it reaches voltage value.

F VSWRR VSWR

U1(RA35H1516M)

U4

U4

Driver

Q1

U30CPU

CPU 05P0773

TX/RX 05P0774

PWR CONT

Tx out

Rx

U2(DCS3D20)

CM Coupler

F-VSWR DET

R-VSWR DETCR6, 5U3(2/2)

CR8U3(1/2)

PWR CONT

UN LOCK(From U12: PLL IC)

TEST ONNot used

TEST ONNot used

CR103

R52

AD

EEPROM

DA

CPU

- +

Q11

Q8

(1/2)

Q10

Q2

Q102

T15V1

T15V

T15V

Q1:Driver Bias

Q1:Driver Bias

PA

VDDVGG

(1)

(2)

(4)

(3)

LPF T/R SW


5-15

Fig. 5.4.8 VGG vs Output Power

TEMPERATURE DETECTION

When the temperature sensor: U13 (LM60CIM3) detects 60 degrees, it automatically reduces TX output to 14W. This output is the value adjusted by [MENU] -> SYSTEM -> TX POWER -> “TEMP.REDUCE”. The output voltage of this sensor is calculated by Vo = 6.25 mv/deg. x Tc deg.

Fig. 5.4.9 TX/RX Board Temperature Sensor Location

CH16 Low Power Hi Power Power Data 45 161 PWR CONT 0.54 V 1.93 V

F VSWR 0.65 V 3.04 V Power 0.75 W 21.2 W

U13 (LM60CIM3)

PA

Measured


5-16

5.4.4 DUPLEXER Duplexer is to be installed in FM-8800D. TX is composed in LPF and RX in HPF. Estimated attenuation of effective frequency range for both from TX range to RX range and RX range to TX range is approximately -60 to -70 dB. Since RX signal of simplex channel attenuates in DUPLEXER, FM-8800D receives RX of duplex channels on DUP RX board and RX of simplex channel on TX/RX board.

Fig. 5.4.10 DUPLEXER Connection Diagram

TX FIL part (LPF)

- Frequency Range : 156.0 to 157.5 MHz - Insertion Loss : Within 1.8 dB - Attenuation of Signal : 160.6 MHz/‐59.3 dB, 161.5 MHz/‐66 dB,

162 MHz/‐60.5 dB RX FIL part (HFP)

- Frequency Range : 160.6 to 162.1 MHz - Insertion Loss : Within 1.8 dB - Attenuation of Signal : 156 MHz/‐65 dB, 157.5 MHz/‐65 dB

PA

Rx RF

U2 J3 : ANT R/T ANT

J2 : DUP IN 1

J4 : DUP IN 2

J1 : DUP OUT

TX/RX 05P0774

R/T ANT

TX FIL

DUP RX(05P0777)

RX FIL

SIMPLEX(JUMPER)

DUPLEXERT/R SW


5-17

Below chart shows Return Loss and Attenuation characteristic. Carry out +1.8 dB off-set

Fig. 5.4.11 DUPLEXER, RX FIL characteristic

Fig. 5.4.12 DUPLEXER, TX FIL characteristic

Return Loss

Attenuation

Return Loss

Attenuation


5-18

5.4.5 CPU (05P0773)

Fig. 5.4.13 CPU Block Diagram

CH70 RX 05P0775

BPF

CR6

x3

TX/RX 05P0774

DUP RX 05P0777

PWR 05P0776

RTC 05P0804

SELU22

CH70 IF OUT(37.5kHz)

TX/RX IF OUT

DUP RX IF OUT

TX/RX IF O

UT(37.5kH

z)D

UP R

X IF OU

T(37.5kHz)

CH70 TEST

TCXO

Remote Line IN

Remote Line OUT

Rem

ote Line IN

Wing Handset MIC

Wing Handset MIC1, 2 PTT

Wing handset MIC1, 2 PTT

HANDSET MIC

Handset M

ICW

ing handset MIC

Rem

ote Line OU

T

VDR AF

VD

R A

F

KEY ALM

CH

K D

DS

EXT SP

Handset SP

SP Connector

SP

Handset MICHandset SP

Wing SP1Wing SP2

EX

T SP

EXT Alarm

IEC61162-1 (NMEA)

Printer

EEPROM

D-RAM

U29(AT26BV256)

U31(IC41LV16100S) NMEA

I/F

U15,14

RS-485 I/F

U13

U34

U39, 40

U36

U10

(AK

4543

)U

17(A

K45

28V

F)

U25(AD9834BRU)

U20

(AD

SP

2186

NB

ST3

20)

CO

DEC

CO

DEC

DSP

DDS

CPU

(H8S

)U

30(H

D64

F237

7)

U21,24

KEY

LCD

LCDCONT

CH

CENTRONICS I/F

U36(S1D13704F00A)

(EW50343FLWP)

SQ Auto

POW

AF Vol

SQ VR

Push to Enter

nob

Alarm

U18

U43

U4T1U9

U16

U16

AGC CONT

AG

C C

ON

T

45MHz(Modulated)

U11

U12TDA2003

HS

SP

U6

U5U5

U42

CHECK

Y1:25.6 MHz

U37

U37

25.6MH

z

25.6MH

z

25.6MHz

25.6MHz

J13

U37

U37Q10

25.6MHz

38.4MH

z

J3

J11

J1

J7

J8

J2

1/2U33

U37

U1, 2, 3, 8

CH1

PWR SW

Enter

PWR SW

+1.9V

+15V+5V

+3.3V1

+3.3V

CH2

TXD/RXD

DATA A/BDATA A/B

PLL DATAPLL STB2PLL CLK

PLL DATAPLL STB1PLL CLK

Q2

RESET

PA TEMPF. VSWRR. VSWR

PLL1 UNLOCK

PLL2 UNLOCKDUP INST

POW. CONT.TX ONRX ON

RX ON

TEST ON

Handset Hook SWHandset PTT

PANNEL 05P0772

J2: I

EC61

162/

REM

OTE

J1: P

rinte

r

Parallel toSerial

Divider

+3.3V AVR

Loop back

HANDSET & HANGER

For CLK - CPU - DSP - DDS - CODEC

LPF

LPF

LPF

LPF

J5+5V

LED BRGTVADJ

U28+3.3V AVR

+1.9V AVR

U27

U23, Q8,CR16

+5V AVRU25 +15V

For - D-RAM- EEPROM

For - CPU- Logic ICs

For - DSP

TimingSYNCBIT CLK

SCLKD

DSP CLK38.4MHz

DSP CLK38.4MHz

SCLKSIOCE

Note; RTC board is installed in the Russian Ver.,


5-19

MEMORY CONTENTS

Memory configurations are as follow.

Fig. 5.4.14 Memory Configurations

Table 5.4.5 Memories

Memory Function

FROM U30: CPU (H8S) BUILT-IN

Program storage domain - Boot loader program - CPU program - DSP program (forwarded from CPU to DSP) - Letter indication font - CH frequency table - SQ curb table

SRAM U30: CPU (H8S) BUILT-IN Storage domain of data at the time of carrying out a program

DRAM U31: 1M x 16 bits

Storage domain of data at the time of carrying out a program

- TX/RX message data, etc - Data buffer of print output - Stack (CPU work area)

EEPROM U29: 256 kbits

Storage domain of system parameter - System setup value - The state of radio equipments - Log - Message file

DM U20: DSP BUILT-IN CODE RAM

Storage domain of program code - Program code - Filter co-efficient of modulation and demodulation

RAM U20: DSP BUILT-IN DATA RAM

Storage domain of data at the time of carrying out a program

- Data - Buffer - Gain table of AL Vol and SQ Vol

U29EEPROM

U31DRAM

U30CPU(H8S)

U20DSP

FROM

SRAMRAM(Program)

DM(Data)


5-20

TCXO TCXO(Temperature Compensate Crystal Oscillators) PLL reference frequency and of TX/RX board and DUP RX board is created based on TCXO of Y1: 25.6 MHz/+5ppm. There is no specific part where frequency is adjusted. If TX frequency tolerance is over +10 ppm, replace CPU board or TCXO. 38.4 MHz is created by multiplying 25.6 MHz by 3 on Q10 and is divided by 2 on U33. Frequency gained through this is used for clock of DSP (CLK Max. 50 MHz).

Fig. 5.4.15 Standard Oscillation Circuit

MODULATION

Below block diagram shows the process where modulation is carried out in DSP.

Pre-emphasisLPF

FSK MOD

SEL

Calculation:DDS setting data

DDS setting data outputU25: DDS

50kHz45MHz

50kHz 8.3kHz

50kHz 300kHz50kH

z

Calculation:FSK data(B/Y)

U10: CODEC

U20: DSP

LINE IN

Handset MIC

Wing Hanset A/D SDATA OUT

U30: CPU

Control

Control

FSK data(0/1)

Voice Data

Pre-emphasisEnable/unenable

DDS Fo Select

Select

Fig. 5.4.16 Modulation Process

x3

TX/RX 05P0774

DUP RX 05P0777

TCXOY1:25.6 MHz

U37

U37

25.6MHz

25.6MHz

25.6MHz

25.6MHz

45MHz

J13

U37

U37Q1038.4MHz

For DSP CLK: 38.4MHz

J3

J11

CH70 RX 05P0775

J1

J7

J8

J2

1/2U33

U37

Divider

For CLK - CPU - DSP - DDS - CODECFor 2nd Lo

For PLL Ref.

For PLL Ref.


5-21

Audio signal from the Transceiver handset, Remote handsets, and Wing MIC are digitized on U10: CODEC (A/D conversion) and is inputted into U20: DSP. DSC TX message is inputted into DSP from U30: CPU. These data are processed in DSP as DDS setup data. Although a signal of FM-modulated 45 MHz is outputted from DDS (9 x 5 MHz) , this signal uses a high frequency that is 9 times higher than reference frequency of DDS which is 5 MHz.

DEMODULATION IF signal (-60 to +10 dBm) of 37.5 kHz from TX/RX board and DUP RX board goes through U22 and limiter circuit of CR4. Then, it is amplified by differential amplifier consisting of U11 and is inputted into U17: CODEC. IF signal (-60 to +10 dBm) of 37.5 kHz from CH70 RX board goes through limiter circuit of CR7 and is amplified by differential amplifier consisting of U18. Then it is inputted into U17: CODEC. Below block diagram shows the demodulation process carried out in DSP.

Fig. 5.4.17 DSP function Diagram

De-emphasis

FSK DEMOD

DEMODSEL

BPF

ATT ADJ.

LPF

LPF

MuteHPF/BPF

SQ Cont.

100kHz

100kHz50kHz

6kHz

U10: CODEC

U20: DSP

CH70 IF OUT

DUP RX IF OUT

TX/RX IF OUT

D/A

U17: CODEC

A/D

D/A

U30: CPU

Control

Control

De-emphasisEnable/unenable

FSK DEMODEnable/unenable

Select

IF Sig.

Loop back FM

DEM

OD

OU

T(Vo

ice)

FSK Sig.

FM D

EMO

D (V

oice

)

Separator(Noise/Sig.)

DET.(IF Sig. level)

DET.Voice spectrum

SQ DET.

Calculation:ATT

ATT(AGC Cont.)

Judgment(0 or 1) Sampling

Reciveing level(ANT Bar IND.)

SQ VR data, SQ auto, SQ off

Loop back

Not used

EXT SPVDR SPHS SPREM LINE OUT

(LIN

E O

UT/

VDR

)

(TR

Han

dset

, TR

SP)


5-22

SQ/Auto SQ FUNCTION SQ FUNCTIONS are below;

- Threshold level : -3 to –6 dBuV (approximately SINAD 12 dB) - Tight level : below +6 dB

CAUTION: SQ auto function is the position of SQ volume at around 7 o'clock. Note that dose not control audio spectrum as FM-8500 does.

SQ control is carried out in SQ Cont inside DSP shown in Fig. 5.4.17. SQ function is based on a ratio between the level of audio range and the level of noise range. For example, there will be no audio signal when the level of audio range and the level of noise range are the same. Inputting audio signal will increase the level of audio range and suppresses the level of noise range. A ratio table (SINAD) of noise and signal is made beforehand and the level that controls each detected level and the level with which they are controlled from the position of SQ volume. You can check the level of noise range and the level of signal range by selecting [MENU] -> SYSTEM -> TEST -> TX/RX STATUS and checking RX IF LEVEL and RX AF NOISE. Refer to page 8-15.

Fig. 5.4.18 Signal Range and Noise Range

SQ Cont: Refer to Fig. 5.4.17. SQ control is a MUTE circuit of FM DEMOD OUT (Voice) line. This signal is outputted into the Handset era-speaker and SP of the Transceiver unit. FM DEMOD (Voice) line is the output of Remote Handset's LINE OUT and VDR OUT, therefore, SQ control is not carried out here.

SQ control for a Remote Handset; SQ level set up on the Remote Handsets side goes through DATA line and controls this circuit: SQ Cont. A signal (SQ) that controls MUTE circuit is sent to the Remote Handset side and controls the sound there.

No signal When there is a signal, signal level increases and noise levelis suppressed. Noise range is within the level ranging from8 kHz up to 25 kHz.

37.5kHz

+12.5kHzSignal area

Noise area

50kHz8kHz25kHz

37.5kHz

+12.5kHzSignal area

Noise area

8kHz 50kHz25kHz


5-23

ANTENNA BAR INDICATION This indicates ratio (SNAD) between the level of audio range and the level of noise range. Just as SQ control, they are detected by SQ Cont inside DSP. Adequate SINAD conversions of AF output are below.

- No antenna indication : no signal received. - One antenna : below 20 dB SINAD - Two antennas : 20 dB to 40 dB SINAD - Three antennas : over 40 dB SINAD

COMMUNICATION WITH REMOTE HANDSETS Communication between the Transceiver unit and a Remote Handsets are carried out using RS-485. The communication speed is 57.6 kbps/asynchronous communication and is carried out with multi-processor function. With this equipment, polling is carried out at all times towards each Remote Handset to monitor the state of it. For example, when any key on a Remote Handset is pressed, a responding action will be carried out on the Transceiver unit side and also sends its control command to the Remote Handset.

MULTI-PROCESSOR FUNTION This is a function installed in H8S CPU. This function allows the shared use of communication line between multiple CPUs and TX/RX of data through asynchronous serial communication by adding multi-processor unit to it.

Fig. 5.4.19 Multi-Processor Unit

1 1

1 1 10 00D0 D2 D3 D0 D2 D3D7 D7

Stop bit

Stop bit

Start bit

Start bitMPB MPB

idling

MPB: Multi Processer Bit

ID data Data

CPU(H8S)

FM-8800S, D

CPU(H8S)

Remote Handset(HS-8800)

CPU(H8S)

DMC I/F(IF-8820)

CPU(H8S)


CPU(H8S)


CPU(H8S)


ID=1 ID=2 ID=3 ID=4

DATA A, B

Polling Polling

Reply

Note; Connection of DMC I/F cannotbe performed in the Russian Ver.


5-24

For this communication to be in use, proper ID number has to be set up for each CPU. Refer to page 4-4 for this ID setup. ID for DMC IF unit is fixed. Data is composed of ID transmitting cycle that designates the Receiving station (a Remote Handset) and a data transmitting cycle that responds to Receiving station. When a multi-processor bit is ''1'' that means ID transmitting cycle and ''0'' means data receiving cycle. For example, a Transmitting station (the Transceiver unit) transmits a data with ID code of a Receiving station with multi-processor bit “1” followed by data with multi-processor bit “1”. When a Receiving station receives a data with multi-processor bit “1”, it compares it with its own ID to make sure before accepting it.

COMMUNICATION WITH DMC-5

Connection of DMC I/F cannot be performed in the Russian Ver. A communication between DMC IF and DMC-5 is made possible using MIF command. A communication between DMC IF and the Transceiver unit uses FM-8800S/D communication protocol so does a Remote Handset. Therefore, in order to establish a communication between the Transceiver unit and DMC-5, DMC IF transfers a command from DMC-5 to FM-8800S/D and the same transfer of command can be done the other way around as well.

Fig. 5.4.20 DMC-5 Connection Diagram

CPU(H8S)

FM-8800S, D

DMC-5

CPU(H8S)


CPU(H8S)

CPU(V25)

DMC I/F(IF-8820)

CPU(H8S)


ID=1 ID=4

DATA A, B

DATA A, B

(MIF Comand)RXDTXD


5-25

5.4.6 PWR (05P0776) This outputs the voltage of +15 VDC from +24 VDC input power. Each protection circuit and their functions are as below.

Fig. 5.4.21 PWR Block Diagram

OVER VOLTAGE PROTECTION This protection functions to stop the output when power input is anywhere between +42 to +43 VDC and also functions as an automatic recovery function. This detects voltage on CR4 and controls power relay: K1 through Q 2 and Q3. LOW VOLTAGE PROTECTION This protection functions to stop the power output when the power input is anywhere between +14 to +15 VDC. Detected voltage is determined by voltage divider(between R 7/9 and R 8) and its voltage is used to control U2. Normally, 300 ms after turning on the power, level will be “L” and sets U1 to “ON”. RUSH CURRENT PROTESTION When you turn on the power, K1 will be set to “ON” and then, RC (Remote Control) on U1 will be set to “ON”. Delay of RC terminal will depend on C23 on U2. Approximately 300 ms after turning on the power, level will change to “L”. If you turn on the power without proper adjustment with RC terminal (RC=L level), rush current will be discharged into U1 and might burn where K1 is connected. This protection prevents rush current at the time of inserting RC power by adjusting RC terminal to “L” level 300 ms after turning on the power.

PWR 05P0776

L1

L3 L4

L2

C1-7

CR1

CR402CZ39

C8-10

C11,12 C14,15

J1-#1-3

J1-#6-8

J1-#4

J1-#5

TB1

TB2

FG

AVR(+12V)

AVR(+12V)

Voltage DET.

Q1: 2SD1271ACR2: 02CZ12Y

U2: M51958BFP

U1: CBS2002415

+IN

-IN

+Vout

-VoutRC

POWER SW

R3

R5

C23

R8

R7,9

Q2

K1

Q3

+15V24VDC(+)

24VDC(-)

0V

PWR SW P

PWR SW M


5-26

OVER CURRENT PROTECTION ON U1 This protection functions to stop the output when U1 output current increases more than 14 A and also functions as an automatic recovery function. LOW VOLTAGE OUTPUT PROTECTION ON U1 This protection functions to stop the output when the voltage is over +17 VDC. Turn off the power temporarily when this happens. OVER HEATING PROTECTION ON U1 This protection functions to stop the output when the temperature on module plate reaches over 100 degrees and also functions as an automatic recovery function.


5-27

5.4.7 HS CONT (05P0781) CPU on HS CONT board responds to the polling from the Transceiver unit and sends out the information. For example, handset is OFF HOOK etc. CPU on the Transceiver unit responds to it and carries out appropriate actions and sends a command to the Remote Handset CPU at the time of responding. Remote Handset CPU will carry out a command from the Transceiver unit and displays it. U14 (EEROM) on HS CONT board stores ID number, dimmer, and contrast of a Remote Handset.

Fig 5.4.22 HS CONT Block Diagram

CPU

(HD64F3067RF)

Flash ROM:128kRAM:4kUART:3chICU:6chPIO:79

Loudspeaker(Handfree)

LCD Module

SW PCB

DIM Cont. 3bits

Scan out 3bits

Scan in 8bits

2bits

Key click tone

MFM07Q10

18.432MHz

U2

Y1

U12

Hook senser

U6(M62429)

Vol. CONT.

RS-485Driver/Receiver

Mulutiplexer

U13

U3SN75LBC1790R

(TC4053)

U8TA7805F

TA7805FM51953

AN77L09M

+5V

+5V1 +9V

+15V

U9

U10U11

(05P0715)LINE

Reset

Reset

Reset

Earspeaker(Handset)

Vol. Cont. 32step

DATA A/B

CONT

Distress switch

TXD

RXD

U5

U5

Line out

U4

U14

U7

Q5, 6

Line in

U1Handset MIC

Mute

EEROM

(CAT25C16S)

(DN6848S)

PTT SWS1

A/BC

Z0

IN1IN2OUT1OUT2

Z1

Zcom

Y0Ycom

Y1X0

Xcom

X1

DTMF

CLKDATA

R45

R34

R35

05P0781HS CONT

J2-#1,2

J2-#3

J2-#7,8

J2-#5,6

J2-#9

J2-#4


5-28

U13 is IC that switches MIC and SP line. There are two different switch functions as below.

- X and Y (linked function) : switch between a normal state and DTMF(Not used) - Z : ON/OFF switch of loud speaker.

Fig. 5.4.23 MIC/SP Switching Block Diagram

CPU

Loudspeaker(Handfree)

U2:

U6Vol. CONT.

Mulutiplexer

U13: TC4053

Earspeaker(Handset)

U5

U5

U4

U7

U1

ABC

Z0

Z1

Y0

Y1

X0

Zcom

Ycom

Xcom

X1

DTMF

Line out

Handset MIC

Line in

Mute

R34

6.1 Adjustment

6-1

6.1 Adjustment 6.1.1 Output Power Adjusts output power for HI, LOW and TEMP REDUCE. Adjustment procedure for FM-8800D and FM-8800S are the same. Power Data are curried out on the selected channels and they are not memorized separately for each channel. Therefore, make an adjustment with intermediate channel (CH14) of VHF.

- HI: 25 W (IEC standard is within 0 dB, –3 dB) - LOW: Less than 1 W - TEMP. REDUCE: Adjusts to 14W with output when the temperature sensor in

TX/RX board detects 60 degrees.

Fig. 6.1.1 Output Measurement Circuit

Procedure 1. Set to CH14. 2. Call up the option menu. Refer to page 4-1.

- Make a jumper connection between #2 and #15 on [Printer] port - Or, jumper connection between #25 and #26 of IF-8810 - Press [MENU] -> SYSTEM -> [ENT] -> Input the password

3. Select TX POWER and press [ENT] key. Pop-up window will appear as below. * TX POWER *

HI

LOW

TEMP. REDUCE

or

50 ohm Dummy

Antenna

FM-8800SFM-8800D

ANT

CH70 ANT 50 ohm Power meter

Handset

Chapter 6. Measurement

6.1 Adjustment

6-2

4. Select output to set up and press [ENT] key. e.g. Select “HI” and press [ENT] key. Pop-up window will appear as below.

POWER Setup

HI PWR (0 – 255)

<■■■■ ＞ 127 EXT: ENT 5. Press PTT switch and adjust output power by turning Channel Knob while checking

output power.

6. Press [ENT] key to store output setup power data.

7. Carry out the procedure from step 3 to adjust “LOW” and “TEPM REDUCE”.

8. Turn off the power. NOTE: The following figure shows for Power Data vs Output Power. (The following value varies Transceiver unit.) Adjustments of “HI”, “LOW” and “TEMP. REDUCE” are the same curve and they can be adjusted respectively.

Fig. 6.1.2 Power Data vs. Output Power

00

20 40 60 80 100 120 140 160 180 200 220 240 255

10

20

30

40

5

15

25

35

45 W

FM-8800D

FM-8800S

Power

Power data

14Ｗ

25Ｗ

1Ｗ

Reference only

Default setting of Power data (Russian Ver, ,and

INTL Ver. 03.01 and after) - HI: 170 - LOW: 44 - TEMP. REDUCE: 134

6.2 Measurement

6-3

6.2 Measurement 6.2.1 VHF Frequency As a reference oscillator for this equipment, TCXO (Temperature Compensated Crystal Oscillators) is used. And there is no adjustment part of frequency. Regulated range of frequency tolerance is within +10 ppm (+1.5 kHz approximately). If the tolerance is more/less than +10 ppm, replace CPU board or Y1 (TCXO: 25.6 MHz) on CPU board. Connect the frequency counter as below. Read the frequency of the setup channel when PTT switch is ON.

The frequency tolerance: within +10 ppm

Fig. 6.2.1 Frequency Measurement

or

50 ohm Dummy

Antenna

FM-8800SFM-8800D

ANT

CH70 ANT 50 ohm Power meter

Handset

Freq. Counter

The input to a frequency counter approximates the pick-up coil to adummy load or ANT coaxial cable and picks up TX frequency.

6.2 Measurement

6-4

6.2.2 CH70 Output As CH70 is assigned to DSC channel, it cannot be selected as normal channel can be. See diagrams in Fig. 6.1.1 and 6.2.1 of the output power and the frequency for CH70. Note that there is no output power adjustment only for CH70.

Procedure 1. Any channel may be selected.

2. Refer to page 4-1. Call up the option menus. - Make a jumper connection between #2 and #15 on [Printer] port - Or, jumper connection between #25 and #26 of IF-8810 - Press [MENU] -> SYSTEM -> [ENT] -> Input the password

3. Select “TONE TEST” and press [ENT] key. Pop-up window will appear as below. CH70 is automatically selected when going into this mode.

* Tone Test Menu * POWER HI DSC MARK SPACE DOT CARRIER

4. In the Tone Test Menu above, select “HI” or “LOW” for POWER, “DSC” for DSC, and select “CARRIER”.

5. When PTT switch is ON, “CH70” is outputted. Then, take a measurement of output

power and the frequency tolerance.

6. Turn off the power.

- POWER: Sets HI/LOW Power - DSC: Changes DSC/ATIS

(either has different modulation index) - MARK: 1300 Hz - SPACE: 2100 Hz - DOT: Modulated by Mark/Space Tone 1200 bps - CARRIER: No modulation

6.2 Measurement

6-5

6.2.3 DSC Tone Frequency In the FM-8800 program: INTL Ver.03.01 and after /Russian ver., TONE selected from a speaker is outputted when TONE TEST is performed in the “6.2.2 CH70 Output”.

In case of the INTL Ver.02.03 and before for the FM-8800 program No checkpoint in Mark and Space Tone. Therefore, when confirming the tone frequency, monitor the tone frequency by other VHF transceiver for CH70. The tone frequency tolerance is within +10 Hz. In this section, monitoring procedures with FM-8800S, D are described.

Fig. 6.2.2 Tone Frequency Measurement Circuit

Procedure *** FM 8800S/D preparation on the monitor side *** 1. Connect the frequency counter to the SP line.

2. Any channels may be selected.

3. Call up the option menus. Refer to page 4-1. - Make a jumper connection between #2 and #15 on [Printer] port - Or, jumper connection between #25 and #26 of IF-8810 - Press [MENU] -> SYSTEM -> [ENT] -> Input the password

4. Select T/A and press [ENT] key. Pop-up menus will appear as below. CH70 is automatically received by CH70 RX board when going into this mode. And the decoded CH70 signal is outputted to the SP.

DSC RX TEST OUTPUT RX DSC DATA

TO NMEA PORT EXT:ENT

NOTE: Decoded signals are also outputted into NMEA-TX on [IEC61162-1/REMOTE] port byRS-422 level.

50 ohm Dummy

Antenna

FM-8800SFM-8800D

ANT

SP

CH70 ANT

Handset

FM-8800SFM-8800D

ANT

CH70 ANT

For Monitor

CH70

Freq. Counter- MARK: 1300 Hz + 10 Hz - SPACE: 2100 Hz + 10 Hz

6.2 Measurement

6-6

*** FM 8800S/D preparation and transmission on the TX side *** 5. Any channel may be selected.

6. Call up the option menus. Refer to page 4-1. - Make a jumper connection between #2 and #15 of [Printer] port - Or, jumper connection between #25 and #26 of IF-8810 - Press [MENU] -> SYSTEM -> [ENT] -> Input the password

7. Select “TONE TEST” and press [ENT] key. Pop-up window will appear as below.

* Tone Test Menu * POWER HI DSC MARK SPACE DOT CARRIER

8. In the Tone Test Menu above,

for example, select “LOW” for POWER, “DSC” for DSC, and select “MARK”. The cursor is “MARK”.

9. When PTT switch is ON, CH70 is transmitted. (Modulated in Mark tone)

10. Check the Mark tone frequency by FM-8800S/D on the monitor side. MARK tone frequency: 1300 Hz 11. After taking a measurement, go back to “Tone Test Menu” and select SPACE for the

tone frequency. The cursor is “Space”.

12. Check the Space tone frequency by FM-8800 S/D on the monitor side. SPACE tone frequency: 2100 Hz


6.2 Measurement

6-7

6.2.4 Spurious Emission Acceptable level for spurious emission is as below.

- 146 to 162.0375 MHz : 2.5 μW (less than -70 dB for 25 W) - Other bands : 10 μW (less than -64 dB for 25 W)

Connect the spectrum analyzer to the antenna terminal of FM-8800S/D as below and turn on PTT switch to take spurious emissions measurements.

Fig. 6.2.3 Spurious Emissions Measurement

Fig. 6.2.4 Spectrum Analyzer Panel

Fundamental signal

Spurious emission

Measure

50 ohm ATT(30dB)

FM-8800SFM-8800D

ANT

CH70 ANT

Handset

Spectrum Analyzer

6.2 Measurement

6-8

6.2.5 Frequency deviation for a radiotelephone Connect FM Liner Detector as below. Connect AF OSC (AF Oscillator) and an appropriate switch as a substitution to PTT switch.

Fig. 6.2.5 Measurement of Frequency Deviation

Procedure 1. Set up the frequency for AF OSC to 1 kHz. Modulation frequency: 1 kHz. 2. Turn on PTT switch. 3. Adjust the output level of AF OSC (Adjust the modulation level.) so that it may be set

up to Frequency Deviation: 3.5 kHz. 4. Measure the Frequency Deviation when the modulation level is increased +20 dB

from the above-mentioned AF OSC level. Frequency Deviation is regulated to be within 5 kHz.

NOTE:

Modulation Index (m) = (kHz)frequency Modulation

(kHz)deviation Frequency

50 ohm Dummy

50 ohm ATT(20dB)

FM-8800SFM-8800D

ANT

HANDSET

CH70 ANT FM Liner Detector

AF OSC

PTT SW

600 ohm

1-2

3-4

Pick-up

6.2 Measurement

6-9

50 ohm ANT SP

FM-8800SFM-8800D

SSG(Standard Signal GEN.)

4 ohm SP or 4 ohm dummy

orAF V.V

6.2.6 Sensitivity of a radiotelephone: NQ method Connect SSG as below.

Fig. 6.2.6 Measurement of Receiving Sensitivity

Procedure 1. Set up SSG (Standard Signal Generator) as follows.

- Set up CH16 (156.8 MHz), for example. - Modulation frequency: 1 kHz - Frequency deviation: 3.5 kHz

2. Set up SSG output level to 20 dBuV and audio output of FM-8800S/D to

approximately 1W: 2 Vrms by AF VR. 3. Turn off SSG output in the above state and take a measurement of the FM-8800S/D

noise level. If the noise level is not 2 Vrms, adjust AF VR to 2 Vrms again. 4. Turn SSG to the non-modulation signal, and make an adjustment of SG level.

Find a point that FM-8800S/D audio output is -20 dB (0.2 Vrms) IEC standard: Less than +6 dBuV ** FM-8800S/D: less than 0 dBuV

7.1 Updating

7-1

7.1 Updating 7.1.1 Program file This program consists of Transceiver unit (FM-8800S/D), Handset (HS-8800) and DMC I/F (IF-8820). Main program is use with both FM-8800S and FM-8800D. Program folder and their contents are indicated in the table below.

Table 7.1.1 Program File List

File Size Category

DMCIF.BIN 11 KBDeleted in Russian Ver. BIN file For DMC I/F program

FMDSP.BIN 422 KB

BIN file Consists of H8S CPU and DSP program in Transceiver unit

BIN

HAND.BIN 64 KB BIN file For Remote Handset program

LOADER FMLD.BIN 8 KB BIN file Common with Loader program

COMDSP.EXE 92 KBApplication file File to carry out displaying update process of Remote Handset and DMC I/F program PROGRAM

UppgNT.exe 189 KB

Application file Update file to carry out for Transceiver unit, Remote Handset and DMC I/F program

UP8800.BAT 1 KB Batch file For updating Main program

UPHS.BAT 1 KB Batch file For updating Remote Handset program

UPIF.BAT 1 KBDeleted in Russian Ver. Batch file For updating DMC I/F program

VER.txt 1 KBText document Display contents of a holder and the program version.

* The size is an only reference.

Batch file - UP8800.BAT

program¥uppgNT loader¥fmld.bin bin¥fmdsp.bin 0 0 1 0 1 - UPHS.BAT

program¥uppgNT loader¥fmld.bin bin¥hand.bin 0 0 1 3 1 program¥comdsp -c1 -b57600

- UPIF.BAT program¥uppgNT loader¥fmld.bin bin¥dmcif.bin 0 0 1 4 1 program¥comdsp -c1 -b57600

Chapter 7. Updating Program

7.1 Updating

7-2

VER.txt file 1) In case of the INTL Ver.

2) In case of the Russian Ver. ---------------------------------------

<Program version> 2006.03.31

---------------------------------------

FM-8800(MAIN) 0550220-01.01

HS-8800(Handset) 0550221-01.01

---------------------------------------

--------------------------------------

<FM-8800 Update program file list>

--------------------------------------

FM8800_R

|

+--BIN-----+--fmdsp.bin

| +--hand.bin

|

+--LOADER--+--fmld.bin

|

+--PROGRAM-+--comdsp.exe

| +--uppgNT.exe

|

+--UP8800.BAT

+--UPHS.BAT

“Program version” is indicated in VER.txt file. e.g. If the program version is FM-8800 (MAIN),

the last two digits ”02” of “0550215-02.02”indicate the detailed version.

Check the detailed program numbers, see page 7-11.

“Program version” is indicated in VER.txt file. e.g. If the program version is FM-8800 (MAIN),

the last two digits ”02” of “0550220-01.01”indicate the detailed version.

7.1 Updating

7-3

7.1.2 Note 1. For electrical specification

Electric specification of the communication port on FM-8800S/D side for updating a program, is RS-422. Communication speed is 57.6 kbps. Provide the RS-422 level converter with the specification more than 57.6 kbps. The level converter (IC-485SN) for updating FA-100 is available.

2. If the serial port on the PC is anything other than [COM-1], update the batch file or

change the specified COM port to [COM-1] on the PC. 3. Where to connect PC varies with a program to be updated.

Connection port for the PC Program to update Remark Transceiver unit

[IEC61162/Remote] #10: RX-C, #9: RX-H#8: TX-C, #7: TX-H

Main: Transceiver unit (FM-8800S/D)

Main: Transceiver unit (FM-8800S/D)

Remote Handset (HS-8800) NOTE

Junction box (IF-8810)

[TB-1]

#1: TX-H, #2: TX-C #3: RX-H, #4: RX-C

DMC I/F (IF-8820)

Updating via Transceiver unit

NOTE: Even if some Remote Handsets are connected, Remote Handset ID is automatically recognized and updated from the lowest ID number. See page 4-6 for details.

4. “Port setting” for the serial port on the PC is unnecessary. When updating it , it is automatically set from the UppgNT.exe.

- At the time of booting up the program: 9600 bps - PC and Transceiver unit are communicated for updating: 57.6 kbps - Communicates among Transceiver unit, Remote Handset and DMC I/F: 38.4 kbps Then, Remote Handset and DMC I/F program are temporarily downloaded into the memory of Transceiver unit and loaded respectively. The main program is directly loaded in CPU(H8S) of Transceiver unit. The protocols are as below.

- Format - Data bit: 8 - Stop bit: 1

- Parity bit: None - Flow control - None

7.1 Updating

7-4

7.1.3 Setup 1. Connection

Set up the slide switch of IC-485SN as below when using the level converter (IC-485SN).

- T-ON/R-ON side - DCE side (FA-100 is on the DTE side.)

Fig. 7.1.1 Setting IC-485SN

Cable wiring between PC (9P) and IC-458SN (25P) is as below. DSR, DTR and etc, cannot be used as the control signals. Connect TXD, RXD and GND lines.

Table 7.1.2 Wiring 9–25 Pin D-Sub Cables

PC 9 Pin D-sub (Female)

IC-458SN 25 Pin D-sub (Male)

2 TXD <--> 3 RXD 4 DSR <--> 20 DTR 3 RXD <--> 2 TXD 5 GND <--> 7 GND 6 DTR <--> 6 DSR 7 CTS <--> 4 RTS 8 RTS <--> 5 CTS 9 RI <--> 22 RI 1 DCD <--> 8 DCD

Frame Shield <--> Frame Shield

DCE

T-ON/R-ON

7.1 Updating

7-5

1. T+2. T-3. R-4. R+

4.RxD-C3.RxD-H1.TxD-H2.TxD-C

DATA-A/B

IC-485SN

DM

C I/

F(IF

-882

0)R

emot

e S

tatio

n(R

B-8

800/

8810

)

FM-8800SFM-8800D

PC

DM

C-5

Serial port[COM-1]

RS-422RS-232C

Straight Cable

IF-8810Junction box

IEC61162/Remote port37 Pin D-sub

Han

dset

(HS

-880

0)

Rem

ote

Sta

tion

(RB

-880

0/88

10)

Han

dset

(HS

-880

0)Remote Station(RB-8800/8810)

Handset(HS-8800)

Max. 4 sets30/31

DATA-A/B40/41

Same as above

&

TB-1

J1

J2

J3

25p

9p

- Updating for Transceiver unit (FM-8800S/D)

Fig. 7.1.2 Case-1: Update Wiring FM-8800

- Updating Transceiver unit (FM-8800S/D), Remote Handset (HS-8800) and DMC I/F (IF-8820)

Fig 7.1.3 Case-2: Update Wiring FM-8800, HS-8800 and IF-8820

1. T+2. T-3. R-4. R+

IEC61162/Remote port37 Pin D-sub

10.RxD-C9.RxD-H7.TxD-H8.TxD-C

IC-485SNFM-8800SFM-8800D PC

Serial port[COM-1]

RS-422RS-232C

Straight Cable

25p

9p

Connection of the unit surrounded by the dotted line cannot beperformed in Russian Ver.,

7.1 Updating

7-6

2. Changing batch files 1) Checking PC’s COM port number:

Open [Control PANEL] –> [System] –> [Device Manager] and check COM port number. (e.g. COM3 the installed USB - RS-232C Driver)

2) Select the updating batch file and open the batch file from [File] – “Edit”. 3) Change the underlined digit of each batch file to PC’s COM port digit.

- UP8800.BAT

program¥uppgNT loader¥fmld.bin bin¥fmdsp.bin 0 0 1 0 1 - UPHS.BAT

program¥uppgNT loader¥fmld.bin bin¥hand.bin 0 0 1 3 1 program¥comdsp -c1 -b57600

- UPIF.BAT program¥uppgNT loader¥fmld.bin bin¥dmcif.bin 0 0 1 4 1

program¥comdsp -c1 -b57600

e.g. If the batch file is UP8800.BAT, change “-------- bin¥fmdsp.bin00101” to “00103”. If the batch file is “UPHS.BAT”, change “---- bin¥hand.bin 0 0 1 3 1” to 0 0 1 3 3

“program¥comdsp -c1 -b57600” to c3 As for UPIF.BAT, it is the same as UPHS.BAT.

4) Select [File] and [Save] for the edited text.

If it is unsuccessful, right click on the batch file icon and select [Property] -> [General]. For [Attribution], make sure that there is no check mark in “Read Only” box.

7.2 Updating Procedure

7-7

7.2 Updating Procedure 7.2.1 Procedure 1. Turn off Transceiver unit and connect the PC to the Junction Box (IF-8810) or

Transceiver unit. See page 7-4 for setup. 2. Open the FM UP program holder. (Russian Ver: FM8800 R) 3. Double click the batch file icon for the update program.

4. MS-DOS window appears. Turn on Transceiver unit when TARGET POWER ON

appears.

Handset: HS-8800

FM8800S, FM8800D DMC I/F: IF-8820

TARGET POWER ON

Port No.


7-8

5. Update program starts automatically. During updating, there is no indication shown in LCD of Transceiver unit and Remote Handset. However, the “ALARM” LED of Remote Handset light. If a normal display is shown on LCD, check the connection and try again from the step 2.

6. After updating a program, a normal display is shown on LCD.

Updating time is as below.

- Main (UP8800.BAT) : approximately 5 minutes - Remote Handset (UPHS.BAT):

approximately 1 minute for transferring a file approximately 0.5 minutes for loading time per unit

- DMC IF (UPIF.BAT) : approximately 0.5 minutes


Reference) Update screen

Fig. 7.2.1 Screen for Update Program of Main Unit

Status of updating process (%)


7-9

Fig. 7.2.2 Screen of Updating Handset Program

Fig. 7.2.3 Screen of Updating DMC IF Program

Remote 30: Updating Handset ID=1

Remote 32: Updating Handset ID=3

} Transfer the program from the PC intothe memory of Transceiver unit.

}}

Complete updating

Complete updating

Remote 40: Updating DMC I/F }

} Transfer the program from the PC intothe memory of Transceiver unit.


7-10

7.2.2 Check the detailed program number 1. Make a jumper between #2 and #15 of [PRINTER] port. Or, jumper connection between #25 and #26 of IF-8810. See page 4-1.

2. Press [Menu] key and select “SYSTEM” and then, followed by [ENT] key. 3. Input the password “xxxxxx” to go to the option menu.

4. Select “TEST” from SYSTEM SETUP MENU display and press [ENT] key to go to

TEST MENU.

5. Select “CPU” and press [ENT] key to go to CPU TEST.

6. Select “PROG.VER” and press [ENT] key to bring up the PROGRAM VERSION.


2

15 [PRINTER]

- Remote Handset version is displayed by the lowest ID number of Handset ID. - Version of the unconnected unit is not

displayed.

“▼ ” mark: You can open allsystem setup menus.

xxxxxx

Note; There is no IF-8820 in the Russian Ver.


7-11

7. Press [SHIFT] key once and [1] key 5 times. The detailed program version appears.

PROGRAM VERSION FM-8800 : 0550215-02-0x HS-8800 : 0550216-01-0x HS-8800 : 0550216-01-0x HS-8800 : 0550216-01-0x HS-8800 : 0550216-01-0x IF-8820 : 0550217-01-0x

PROGRAM VERSION FM-8800 : 0550220-01-0x HS-8800 : 0550221-01-0x HS-8800 : 0550221-01-0x HS-8800 : 0550221-01-0x HS-8800 : 0550221-01-0x 2006-01-25 20:11

The last 2 digits indicate the detailed version.

Compiled time of the FM-8800 program is displayed.

Russian Ver.

ITNL Ver.

The last 2 digits indicate the detailed version.

8.1 Self-test and Error Message

8-1

8.1 Self-test and Error Message 8.1.1 Daily test (Self-test) Press [SHIFT] -> [TEST] key to carry out the test.

Test in progress

** DAILY TEST **

TX POWER : OK TX/RX PCB : OK CPU PCB : OK CH70 RX PCB : OK DUP RX PCB : OK

1. TX POWER This test stores the last minute state of TX output (F-VSWR and R-VSWR) before the self-test in memory and checks to see if the output value is over the designated value or not. Press PTT switch with Hi power before carrying out the self-test and stores the state of TX output memory. If you turn on the power and carry out a self-test without transmitting at all, ‘’NO CHECK’’ will appear. If the output is less than 8 W, ‘’NG’’ will appear which means there is a problem with either PA module or TX/RX board (05P0774A, B).

- OK/NG indication: assessed by approximately 8 W. OK means over approximately 8 W.

- NO CHECK: indicated with self-test is carried out with no transmission.

Fig. 8.1.1 TX POWER Detector Circuit

Chapter 8. Maintenance

RA35H1516M DRIVE

F VSWRR VSWR

PATx out

U1

U4

Q1,5

U30CPU

CPU 05P0773

TX/RX 05P0774A, B

PWR CONT

U2(DCS3D20)

CM Coupler

F-VSWR DET

R-VSWR DETCR6U3(2/2)

CR8U3(1/2)

PWR CONT

Q2/12

UN LOCK(From U12: PLL IC)

TEST ON

CR103

R52

AD

DA

FROM

Displays only FM-8800D

When PTT switch is not pressed before the test, “NO CHECK” appears.

Distress Alarm, LED of [Distress] button lights and LED of ALARM blinks. To be OFF, press [CANCEL] key


8-2

2. TX/RX PCB This is to check the unlocked state of PLL circuit on TX/RX board (05P0774A, B). Frequency to be checked is the frequency set up at the time of self-test. The Un-lock/Lock signal is outputted from U12: PLL IC on TX/RX board. PLL circuit on this board is used with both TX and RX. Tx Local frequency is Fo + 45 MHz, and RX Local frequency is Fo + 51.2375 MHz.

Fig. 8.1.2 TX/RX PLL Block Diagram

3. CPU PCB This is a loop-back test where test signal is transmitted from U17: CODEC on CPU board (05P0773) and is detected by U10: CODEC. A signal transmitted from U17 is sine wave of 2 kHz. If this frequency and a designated level are detected by U10, it will be assessed “OK’’. U25: DDS check is carried out the same way and a test signal is transmitted from DDS. U17 digitizes (A/D conversion) IF signal of 37.5 kHz transmitted from CH70 RX board, TX/RX board and DUP RX board. U10 on the other hand, digitizes (A/D, D/A conversion) mainly LINE input/output and AF input/output from a Remote Handset. Refer to page 8-16 for DDS/CODEC test which takes the same procedure.

Fig. 8.1.3 CPU PCB Test

U17(AK4528VF)

U10(AK4543)

CODEC

CODEC

CPU 05P0773

DSP

U20

(AD

SP21

86)

CPU

U30

(HD

64F2

377)

AOUT R

VIDEO R

VIDEO L

AOUT L

R28

2

R28

3

2SK38742SC3356

PMBF M310

VCO

LPF

PLL

PLL1 UN-LOCK

RA35H1516M

RXcircuit

DRIVE BPF(L/C)

PMBF J310ISS271

BPF(L/C)

TA4001

2SC33561SV229

51.2MHz

45 MHz45

MH

z

45 M

Hz

Rx 1st Lo(Fo+51.2375MHz) PLL1 DATA(STB/DATA/CLK)

PATx outU1 Q1,5

CR101

Q101

U10

U8Q13

TA4001

U5

FL1: 45MHz

U12

LMX2353TMX

Q14, CR11/12

Q15

uPC2745TB2SC3356

U7

uPC

2745

TB

Tx Local (F0+45 MHz)MIX

F0

Q21U30CPU

U25DDS

CPU 05P0773

TX/RX 05P0774

U11Q20

TC75HU04F

X225.6MHz

Rx 2nd Lo(51.2MHz)

Rx 2nd Lo(51.2MHz)

Ref. OSC

SW


8-3

4. CH70 RX PCB Modulated signal 37.5 kHz of CH70 TEST signal is outputted from U17: CODEC on CPU board. This test checks the test signal modulated by 1300 Hz and that modulated by 2100 Hz. If the same signal transmitted from U17: CODEC on CPU board via R37 on CH70 RX board is detected, it will be assessed “OK’’. “NG’’ means there may be a problem with CPU board (05P0773). Refer to page 8-12 for CH70 RX test which takes the same procedure.

Fig. 8.1.4 CH70 RX PCB Test 5. DUP RX PCB This is indicated when FM-8800D is in use. This is to check the unlocked state of PLL circuit on DUP RX board (05P0777). Frequency to be checked it is 161.5 MHz at the time of self-test. The Un-lock/Lock signal is outputted from U8: PLL IC on DUP RX board. “NG” means there may be a problem with DUP RX board. RX 1st Lo is Fo + 51.2375 MHz.

Fig. 8.1.5 DUP RX PLL Block Diagram

U17(AK4528VF)

U10(AK4543)

CODEC

CODEC

CH70 TEST

CH70 IF OUT

Q7

U18

R37

100

k

R36

CR4

MIX 37.5kHz

37.5MHz

J3

#3

#5

#3

#5

J4CH70 RX 05P0775

CPU 05P0773

DSP

U20

(AD

SP

2186

)

CPU

U30

(HD

64F2

377)

PMBF M310

VCO

LPF

PLL

PLL2 UN-LOCK

BPF(L/C)BPF(L/C)

ISS271

BPF(L/C)2SC33561SV229

51.2MHz

Rx

1st L

o(F

o+51

.237

5MH

z)

PLL2 DATA(STB/DATA/CLK)

CR10/11

CR8/9

U5Q5

FL1(51.2375MHz)

U8

U3

LMX2353TMX

Q6, CR3/4

Q11

uPC2745TB2SC3356

Q13Q1

Q4

Q14

uPC

2745

TB

uPC

2745

TB

Q10

U30CPU

U17CODEC

CPU 05P0773

DUP RX 05P0777

PMBFJ310 2SK882

Q14

2SC3324

Rx

2nd

Lo(5

1.2M

Hz)

MA2J72837.5kHzDUP RX

TC75HU04F

X225.6MHz Ref. OSC


8-4

8.1.2 Error messages 1. PLL1 Unlock When unlocked state of PLL circuit on TX/RX board is detected, a pop-up window will appear as an error. This checks the changing of channels and switching of TX/RX function. See fig.8.1.2 for a detector circuit. 2. PLL2 Unlock As for FM-8800D, when unlocked state of PLL circuit on DUP RX board (05P0777) is detected, a pop-up widow will appear as an error. This checks the changing of channels and switching of TX/RX function. Refer to fig.8.1.5 for a detector circuit. 3. GPS ERROR (EPFS ERROR: FM-8800 Ver. 03.01 and after, and Russian Ver.) When a position data from GPS cannot be received for longer than a minute, a pop-up window will appear as an error and alarm will go off. Alarm sound is of 2200 Hz (50 ms) and goes off three times every 2 seconds. Refer to page 4-12 (1. POSITION OLDER) and page 4-18 (4.3.5 POSITION). 4. Printer PE When Printer detects “Paper End”, a pop-up window will appear as an error and alarm will go off. This error goes off when you try to print something out without a printer connected. Refer to page 4-29 (4.3.7 PRINT OUT). 5. NO MMSI If you press [LOG], [CALL/MSG] or [DISTRESS] key without MMSI being registered, a pop-up window will appear as an error and alarm will go off. 6. System ERROR When CPU detects malfunction with DSP, a pop-up window will appear as an error and alarm will go off. U20: DSP and U30: CPU are in constant contact. If DSP does not respond to a command from CPU, CPU will recognize DSP as malfunctioning and error will go off. 7. RTC ERROR Input RTC When communication between CPU and RTC stops, it is outputted by pop-up window. In case this pop-up window is shown, failure of the RTC board can be considered.


8-5

Note:

Continuous alarm sounds When DSP detects CPU malfunction, alarm will go off. U20: DSP and U30: CPU are in constant contact. If CPU does not respond to a command from DSP, DSP will recognize this as an error and alarm of 2200 Hz will continuously go off. Then, key input and LCD indication will freeze up. Since there is no display function in DSP, alarm will go off instead of showing a pop-up window an as error. When detecting abnormally functioning antenna During a continued transmission R-VSWR voltage and F-VSWR voltage are checked three times after 5, 6 and 7 has passed from the start of the transmission. If RVSW voltage is over its designated voltage, APC functions to reduce PA output.

8.2 DSC Communication Test

8-6

8.2 DSC Communication Test This is a communication test between FM-8800S/Ds. Conditions under which this can be done with the same MMSI are below only:

- CALL TYPE: Individual (SHIP CALL) - CATEGORY: Routine

In this case, TX output of CH70 will automatically be reduced to Low Power. NOTE:

FM-8500, etc can receive signals with the same MMSI. For example, No.2 VHF DSC can receive a DISTRESS CALL or ALL SHIP CALL from No.1 VHF. This tends to confuse a user. Therefore, when receiving the same registered MMSI, it will not carry out RX processing of messages other than messages set up by above-mentioned setup.

Fig. 8.2.1 DSC Communication Test

Procedure 1. Carry out a DSC test from No.1 VHF to No2. VHF.

Press CALL key on No.1 VHF to create DSC message. - CALL TYPE: SHIP CALL - SHIP ID: No.2 VHF MMSI (Input Own ship) - CATEGORY: ROUTINE - TCmd 1: SIMPLEX TP - TCmd 2: NO INFO - CH: CH6

2. As for a setup procedure for No.2 VHF, Select [MENU] -> AUTO ACK -> and set

COMPLY STATUS setup to “ABLE”. In addition, set Handset/Remote Handsets to “ON HOOK”, and to any channel.

3. Press CALL key on No.1 VHF for longer than three seconds. Then, “CALL IN PROGRESS ON CH70” will appear and after transmitting from CH70 “WAITING FOR ACKNOWLEDGEMENT” will appear. Then, wait for the ACK BQ from No.2 VHF.

No.1 VHF No.2 VHF

TR ANT CH70 ANT TR ANT CH70 ANT

1. ACK RQ Ship Call ROUTINE COM. CH6

2. ACK BQ ( ABLE)

3. Voice Comunication (CH6)

CH70 1W

CH70 1W

HandsetON HOOK

HandsetON HOOK

AUTO ACK: ON, Able

8.2 DSC Communication Test

8-7

4. When receiving ACK BQ from No.2 VHF “ABLE ACKNOWLEDGE CALL RECEIVED” will appear and alarm will go off. If you press [CANCEL] key, a display will switch to VHF display and CH6 will be automatically set up.

5. With No.2 VHF, when receiving a call-up from No.1 VHF, ACK BQ will

immediately transmitted and alarm LED will blink and alarm will go off for 5 seconds. “ABLE ACKNOWLEDGE CALL IN PROGRESS” will appear on the display.

6. Press [CANCEL] key, alarm will stop and transmitted message will appear. 7. Press [CANCEL] key a display will switch to VHF display and CH6 will

automatically be set up.

8. You carry out voice communication by CH6 between No.1 VHF and No.2 VHF. 9. The same procedure is taken to carry out a DSC test from No.2 VHF to No.1 VHF.

8.3 T/A, TEST, RESET DSP

8-8

8.3 T/A, TEST, RESET DSP Call up the option menu with reference to page 4-1. Select [MENU] -> SYSTEM -> [ENT] -> and input the password. This section explains what T/A, TEST, and REST DSP are. 8.3.1 T/A You can carry out DSC RX TEST by selecting this item and pressing [ENT] key. This checks the reception sensitivity on CH70 RX board and monitors DSC signals from other ships.

DSC RX TEST OUTPUT RX DSC DATA

TO NMEA PORT EXT : ENT

IF signal: 37.5 kHz from CH70 RX board is inputted into U17: CODEC and is converted into audio frequency of 1700 Hz ± 400 Hz. Then, it is outputted into the Handset ear-speaker and SP of the Transceiver unit. A converted frequency just mentioned is digitized and is outputted into TXD LINE (#1-#2) on IEC61162/REMOTE port on RS-422 level. This signal is not converted into DSC characters but is used as a DSC RX raw data for type approval.

8.3.2 TEST menu 1. CPU

1.1 LOOP TEST 1.1.1 FSK LOOP

Not used. 1.1.2 REMOTE LOOP

Not used. 1.1.3 NMEA LOOP

Not used.


8-9

*** MEMORY TEST ***

ALLRAM OKROM OKEEPROM OK

1.2 MEMORY TEST There is no need to select RAM, ROM and EEPROM separately to carry out a memory test. Just open a window shown on the right and the test results show in it. - RAM : is a test for U31 on CPU board and checks Read/Write. RAM is used for CPU working

area. - ROM : is a test for ROM for built-in U30 on CPU board and checks the

checksum. Main program is stored in ROM. - EEPROM : is a test for U29 on CPU board that checks the checksum.

System setup value and communication log are stored in EEPROM.

1.3 PRINTER Enter this menu and connect a printer. If you press ENT key, “FM-8800 PRINTER TEST” will be printed out.

NOTE: Printer: individual test for PP-510

- Turn on the power whiling pressing LF key: Printer's self-test will print out all of characters until you turn the power off.

!”#$%&’()*+,-./0123456789:;<=>?@ABCDEFGHIJKL --------- - Turn on the power while pressing NLQ:

DIP SWITCH SETTINGS PRINT OUT will be carried out

Printer: individual test for μTP-80F For test printing:

1. Turn on the printer while pressing and holding down FEED switch. 2. All characters are printed out and then five line pattern is printed.

The printer is on-line after test printing. - In case of PE during the test printing, returns to the state of PE after

printing a line. - To cancel the test printing, press SEL switch. It stops printing and

changes to ON LINE in a few moments.


8-10

1.4 PROG. VER. Displays the program version of connecting unit.


Press [SHIFT] key once and [1] key 5 times. The detailed program version is shown.

PROGRAM VERSION FM-8800 : 0550215-02-0x HS-8800 : 0550216-01-0x HS-8800 : 0550216-01-0x HS-8800 : 0550216-01-0x HS-8800 : 0550216-01-0x IF-8820 : 0550217-01-0x

2. PANEL 2.1 LCD TEST Press this item and press [ENT] key to carry out LCD contrast test. You can adjust the contrast level from 0-15 by turning a Channel Knob.

The detailed Ver. is the last 2 digits.

- Remote Handset version number is indicated from a low ID number in order. (See page.4-4 for details.)

- Version number of the unconnected unit is not indicated.

0123456789 : ;< >? ABCDEFGHIJKLMNOPQRSTUVWXYZ \ ’abcdefghi jk lmnopqrstuvwxy0123450123456789 : ;<=>? ABCDEFGHIJKLMNOPQRSTUVWXYZ [ ] ’ a b c d e f g h i j k l m n o p qr s t u v w x y 0 1 2 3 4 5 6 7 8 9 : ; < =>? ABCDEFGHIJKLMNOPQRSTUVWXYZ [ ] ’ a b c d e f g h ij k l m n o p q r s t u v w x y 0 1 2 3 4 5



LCD TEST [ENT]

[ENT] [ENT] LCD Cont. = 06

LCD Cont. = 00

LCD Cont. = 15

[CHANNEL] knob or [ ] ADJ.

[CHANNEL] knob or [ ] ADJ.

16 step

PROGRAM VERSION FM-8800 : 0550220-01-0xHS-8800 : 0550221-01-0xHS-8800 : 0550221-01-0xHS-8800 : 0550221-01-0xHS-8800 : 0550221-01-0x

2006-01-25 20:11

Compiled time of the FM-8800 program is displayed. Russian Ver. ITNL Ver.


8-11

* USER I/F STATUS *

KEY : 2CH : 03

VOL : 02333SQ : 02343

PTT : OFFHOOK : OFF HOOK

2.2 BACK LIGHT Select this item and press [ENT] key to carry out LCD back light test. Back light changes can be adjusted from 1-4 every time you press [ENT] key.

2.3 UI TEST

This is for User Interface test. (Test the front panel for key switches, CHANNEL knob and so on.)

2.3.1 KEY : x Indication changes depending on a key pressed. Indication will remain until another key is pressed. Keys and their indications are below although [CANCEL] key is excluded.

[1]->1, [2]->2, [3]->3, [4]->4, [5]->5, [6]->6, [7]->7, [8]->8, [9]->9, [0]->0, [SHIFT]->SHIFT, [LOG]->LOG, [CH16]->CH16, [FILE]->FILE, [MENU]->MENU, [ENT]->ENTER, [CALL]->CALL, [DISTRESS]->DISTRESS

2.3.2 CH : xx This is a test for a “CHANNEL” knob(encoder). Turning this knob will change the value in every step turned in ranging from 00-99. 00 -> 01 -> 02 ---- -> 99 -> 00 ->01 -> 02 -> -----

2.3.3 VOL : xxxxx This is a test for “VOLUME/POWER” volume. Turn this volume will change the value in every 64 steps turned ranging from 00000-65472(65536). Range of outputted voltage (0 - 3.3V) is digitized by 10-bit A/D converter with built-in CPU and will be indicated. Technically, since voltage indicated when turning the volume to the minimum is unsteady, minimum value is estimated to be 1000 or thereabouts.

BACK LIGHT 1 [ENT] *** PANEL TEST ***

LCD TESTBACK LIGHT 1UI TEST

*** PANEL TEST ***


[ENT]

[ENT]

*** PANEL TEST ***


[ENT] *** PANEL TEST ***



8-12

2.3.4 SQ : xxxxx This is a test for “SQUELCH” volume. Turning this volume will change the value in every 64 steps turned ranging from 00000-65472(65536). Range of outputted voltage (0-3.3V) is digitized by 10-bit A/D converter with built-in CPU and will be indicated. When a position acquired on AUTO, 00000 will be indicated.

2.3.5 PTT : OFF/ON This indicates the ON/OFF of PTT switch on the transceiver. When PTT is ON, ON will be indicated and when it is OFF, OFF will be indicated.

2.3.6 HOOK : OFF HOOK/ON HOOK

3. CH70 RX 3.1 AGC

This is not in use. This is only equipped in case checking AGC functions with “CHANNEL” knob or [▲] [▼] key. This adjustment will change the voltage of J10-#25 and J8- #12(AGC CONT) on CPU board.

AGC Test out 1.10V – 3.65V

<■■ > 1.65 EXT : EXT

3.2 LOOP “LOOP P : 0 A : 9099” This is a look-back test where IF frequency of 37.5 kHz of CH70 TEST signal is transmitted from U17: CODEC on CPU board to CH70 board and is checked on U17: CPU board via R37 on CH70 RX board. This test checks the test signal modulated by tone of 1300 Hz and then the signal modulated by the tone of 2100 Hz.

- “P” is an assessment of included tone and if is normal “0” will be indicated and “1” if abnormal. Tone will be assessed OK with over 98 %.

- “A” is the amplitude of received signals and 6000 and above will be assessed normal.

This test is carried out and assessed just the same as CH70 RX test is.


8-13

4. TX/RX 4.1 PLL

This adjusts PLL circuit on TX/RX board. Frequency selected is set up as TX/RX PLL frequency data.

** TX/RX PLL **

１55.00 MHz 160.00 MHz 165.00 MHz

4.2 AGC This is not in use. This is only equipped in case adjusting of AGC voltage and checking AGC functions with “CHANNEL” knob or [▲] [▼] key. Voltage of J9-#25 on TX/RX board will be changed by this adjustment but since normally this is function is not in use, 1.1V is always the setup voltage and indicated as below.

AGC Test out 1.10V – 3.65V <■■ > 1.65

EXT : EXT

4.3 APC This is not in use.

4.4 STATUS This allows you to check the TX/ RX status as indicated below.

*** TX/RX STATUS ***

CH SIMP 16 RX IF LEVEL 2442 RX AF NOISE 18012 CH70 RX IF LEVEL 2442 CH70 RX AF NOISE 18012 PLL 1 UL LEVEL 0 PLL 2 UL LEVEL 0 EXIT : ENT

4.4.1 CH Set up the channel to check with “CHANNEL” knob or [▲] [▼] key. The channel mode is INTL.

- RX 1st Lo frequency Fo + 51.2375 MHz

- TX Lo frequency Fo + 45 MHz


8-14

4.4.2 RX IF LEVEL This indicates IF signal level of 37.5 kHZ from TX/RX board which is its amplitude. It changes according to the level of signal. When the signal increases, RX IF LEVEL increases as well.

4.4.3 RX AF NOISE This indicates out-off-band noise (over 37.5 kHz ± 12.5 kHz). It changes according to the level of signal. When the signal increases, RX AF NOISE decreases.

4.4.4 CH70 RX IF LEVEL This indicates IF signal level of 37.5 kHz from CH70 RX board which is its amplitude. It changes according to the level of signal. When the signal increases, CH70 RX IF LEVEL increase as well.

4.4.5 CH70 RX AF NOISE This indicates the out-of-band noise (over 37.5kHz ± 12.5 kHz). It changes according to the level of signal. When the signal increases, CH70 RX AF NOISE decreases.

4.4.6 PLL 1 UL LEVEL This indicates the state (Q21 output) of PLL UN-LOCK on TX/RX board. PLL frequency data inputted into TX/RX board is the channel set up in this display.

- The state of PLL LOCK: UL LEVEL indicates below 50 which is normally '' “0”.

- The state of PLL UNLOCK: UL LEVEL indicates over 51 which is normally “1023”.

4.4.7 PLL 2 UL LEVEL This indicates the state (Q10 output) of PLL circuit on DUP RX board. PLL frequency data inputted into DUP RX board is the channel set up in this display. When FM-8800D is in SIMP mode, ''155'' is normally indicated.

- The state of PLL LOCK: UL LEVEL indicates below 50 which is normally “0”.

- The state of PLL UNLOCK: UL-LEVEL indicates over 51 which is normally “1023”.

CAUTION:

When FM-8800S is in use, ''155'' is indicated as PLL2 UL LEVEL.


8-15

NOTE: Below chart shows the changing levels of FM-8800D RX IF LEVEL and AF NOISE. Especially, IF LEVEL changes due to unsteadiness of RX gain. Also, antenna being connected and not connected contributes to this change according to noise in the air as well.

Fig. 8.3.1 FM-8800D, Change of RX IF LEVEL and AF NOISE

0-130 -120 -110 -100 -90 -80 -70 -60 -50 -40 -30 -20 -10

1000

2000

3000

4000

5000

CH18: AF Noise

CH16: AF Noise

CH18: IF Level

CH16: IF Level

SSG Level

Leve

l

0 +10 dBm

6000

7000

8000

9000

10000

11000

12000

13000

14000

15000

16000

17000

18000

19000

20000

21000

22000

23000

24000

-113dBm = 0dBu

Reference only


8-16

5. DUP RX 5.1 PLL

This adjusts the PLL circuit on DUP RX board. Frequency selected is set up as DUP RX PLL frequency data.

** DUP RX PLL **

１55.00 MHz 160.00 MHz 165.00 MHz

5.2 AGC This is not in use. This is only equipped in case checking AGC functions with “CHANNEL” knob or [▲] [▼] key. The voltage of J10-#25 and J8-#12(AGC CONT) on CPU board will be changed by this adjustment.

AGC Test out

1.10V – 3.65V <■■ > 1.65

EXT : EXT 6. DDS/CODEC This is a test for DDS: U25 and CODEC: U17 and U10 on CPU board. This is a loop-back test where test signal is transmitted from U17 and is detected by U10. Output signal transmitted from U17 is a sine wave of 2 kHz. The signal will be assessed “OK” if U10 detects this frequency and a designated level. “P” indicates the percentage of frequency of 2 kHz and “A” indicates the amplitude of RX signal. This test is carried out and assessed just the same as CPU PCB self-test is which is explained in Self-test section. DDS check is carried out just as mentioned above and test signal is transmitted from DDS.

*** DDS/CODEC TEST *** DDS P : 100 A : 19653 4528 L P : 100 A : 19960 4528 R P : 100 A : 19801

RX: 1st Lo frequency Fo + 51.2375 MHz

Judgment value to be OK

P A DDS More than 20 More than 6000

4528 L More than 90 More than 6000

4528 R More than 90 More than 6000


8-17

Fig. 8.3.2 DDS/CODEC Test Block Diagram

7. RESET DSP Reset U: 20 DSP on CPU board only. If you select this item and press [ENT] key, audio output will pause for a moment which means DSP reset was successfully carried out. This function checks to see what is having a problem, DSP or U30: CPU. If this test restores modulation or demodulation problem, a problem with DSP will be the possibility.

DDSU25: AD9834BRU

CODECU17: AK4528

CODECU10: AK4543

DSPU20: ADSP2186

CPU(H8S)U30: HD64F2377

TX 45MHz(Modulated)

CHK DDS

CHK DDS

CHK CODEC

ADUTL ADUTR

VIDEO L VIDEO R

AUX R

TX/RX IF OUT(37.5kHz)CH70 RX OUT(37.5kHz)

CH70 TESTAGC CONT(Not used)

H.S MICR. H.S MICWing MICSPVDR H.S SPLINE OUT

Display

Key-in

8.4 Memory Clear

8-18

8.4 Memory Clear Execute MMSI CLEAR and ALL CLEAR

- Clear MMSI CLEAR: MMSI - ALL CLEAR: Erase all registered/stored data. It returns to the default setting.

Procedure 1. Call up the option menu with reference to page 4-1.

Select [MENU] -> SYSTEM -> [ENT] -> and input the password. 2. Select EEROM PROTECTD and input the password(same as step.1). Then, ON/OFF

pop-up window will appear. 3. Select OFF and press [ENT] key. Then, EEROM PROTECTED will switch to

EEROM. 4. Press ENT key and below display will appear.

NO CLEAR MMSI CLEAR ALL CLEAR

5. Select an item to select and press ENT key. Carrying out of ALL CLEAR When you carry out ALL CLEAR, “Int. EEPROM” pop-up window will appear. This pop-up window disappears when ALL CLEAR is done which takes approximately 5 minutes and clears below Log and setups.

- Communication Log - SETUP MENU (User Menu) - SYSTEM SETUP MENU (Option Menu)

8.5 Compatibility of Boards

8-19

J4

J1

J2

For FM-8800S, Jumperbetween J1 and J2.

J5

8.5 Compatibility of Boards Table 8.5.1 Compatibility of FM-8800S/D Board

Board Name FM-8800S FM-8800D CPU 05P0773 Common use Common use

TX/RX 05P0774 05P0774A 05P0774B CH70 RX 05P0775 Common use Common use

PWR 05P0776 Common use Common use PANEL 05P0772 Common use Common use DUP RX 05P0777 Built-in: No Built-in: Yes

DUPLEXER Built-in: No Built-in: Yes Change of TX/RX board (05P0774A/B) The difference between 05P0774A and 05P0774B is whether there are connecting DUPLEXER input/output ports, J1, J2, and J4 or not. FM-8800S and FM-8800D are interchangeably used in case it is necessary since they share the same circuit. Same circuits are common used for FM-8800S and FM-8800D when board is substituted.

1. In case of 05P0774-Ver. 03 and after 05P0774A: FM-8800S

Jumper between J1 and J2 on B side 05P0774B: FM-8800D

No jumper between J1 and J2 J1, J2 and J4: Installed

Fig. 8.5.1 TX/RX Board: Sample of 05P0774B-Ver.3

8.5 Compatibility of Boards

8-20

J1

J4J2 JP1, 2, 3

J5

2. In the case of before 05P0774-Ver. 02 05P0774A: FM-8800S

Short/Open between J1 and J2 I the ship parts circled in fig. 8.5.2

When using 05P0774B in FM-8800S, jumper between J1 and J2 on the B side.

05P0774B: FM-8800D There are no chips, JP1, 2, and 3. J1, J2, and J3 are installed. When using 05P0774A in FM-8800D, remove chips JP1, 2, and 3 and install J1, J2, and J3.

Fig. 8.5.3 TX/RX Board: Antenna Circuit

Fig. 8.5.2 TX/RX B Board: Sample of 05P0774A-Ver.2

PA

U2 J3 : ANT R/T ANT

J2 : DUP IN 1

J4 : DUP IN 2

J1 : DUP OUT

TX/RX 05P0774A, B

R/T ANT

TX FIL

DUP RX(05P0777)

RX FIL

SIMPLEX(JUMPER)

DUPLEXER

8.6 Remote Handset Test

8-21

8.6 Remote Handset Test This test is carried out separately with each Remote Handset. The transceiver and the Remote Handsets can be used while one Remote Handset is being tested. Turn on the power while pressing [3: TEST] key in order to enter this test mode. Upon entering, alarm LED will blink every 2 seconds. Procedure 1. Un-plug Remote Handset from RB-8800/8810. 2. Plug a Remote Handset into RB-8800, 8810 while pressing [3: TEST] key on it.

Make sure to keep pressing on the 3: TEST key until you enter a handset test mode display as shown below.

Step-1) Brilliance of LCD will automatically and continuously change every 2 seconds.

Step-2) RS-485, KEY Press [▼] to enter the next test.

Note: RS-485 Test: Factory use

Note:

RS-485 checks the communication line between two Remote Handsets. This is a communication test. After both Handsets enter RS-485 test, they continue to transmit CAID command and its response: #ID HS8800S to each other as shown below.

H/W TEST LCD

Repeating

RS-485 KEY

RS-485CAID#ID HS8800CAID#ID HS8800CAID#ID HS8800CAID#ID HS8800

RS-485CAID#ID HS8800CAID#ID HS8800CAID#ID HS8800CAID#ID HS8800

No.xx HANDSET No.xx HANDSET

CAID

#ID HS8800

CAID

#ID HS8800


8-22

CM : [CALL/MSG] LO : [LOG] CA : [CANCEL] HK : [HOOK ON/OFFFI : [FILE] AC : [ACK] EN : [ENT]

ME : [MENU] UP : [ ] CH : [CH16] DS : [DISTRESS]LE : [SQ] DO : [ ] RI : [SQ auto]1 : [1] 2 : [2] 3 : [3]4 : [4] 5 : [5] 6 : [6]7 : [7] 8 : [8] 9 : [9]* : [SHIFT] 0 : [0] # : [LOG]

After entering the test, characters corresponding to a key will be shown as below.

Step-3) CONTRAST To end KEY test, press [▼] twice. After entering contrast test, LCD brilliance will automatically and continuously change in 4 different degrees.

Step-4) DIMMER To end CONTRAST test, press [▼ ]. LCD brilliance will automatically and continuously change in 4 different degrees.

/ 0 1 2 3 4 5 6 7 8 9.:<=>? ABCDEFGHIJKLMNOPQRSTUVWXYZ [ ] * ’ a b c d e f g h i j k l mn o p q r s t u v w x y ! " # $ &’()+,_. /0123456789

CONTRAST / 0 1 2 3 4 5 6 7 8 9.:<=>? ABCDEFGHIJKLMNOPQRSTUVWXYZ [ ] * ’ a b c d e f g h i j k l mn o p q r s t u v w x y ! " # $ &’()+,_. /0123456789



CONTRAST

DIMMER

CM LO CA HKFI AC EN

ME UP CH DSLE DO RI1 2 34 5 67 8 9* 0 #

7F

Assigned code of KEY


8-23

Step-5) EAR SP, MONITOR SP, BUZZER and DTMF To end DIMMER TEST, press [▼]. Every time you press [▼], the test will switch to MONITOR SP, BUZZER or DTMF test. Each test will continue until another test begins. .

EAR SP Sound (LINE OUT) coming from EAR speaker of the Remote Handset will automatically change. This is not easily perceptible to your ear.

MONITOR Sound (LINE OUT) coming from monitor speaker of the Remote Handset will automatically change in 4 different volume.

BUZZER Buzzer sound will be outputted into the monitor speaker of the Remote Handset and will change in 2 different volume.

DTMF DTMF tone will be outputted into the monitor speaker of the Remote Handset and will change in 2 different volume.

Step-6) EEPROM To end DTMF test, press [▼].

EAR SP MONITOR SP BUZZER DTMF

[ ] [ ] [ ]

EEPROM

FURUNO FM-8800

ID=1

The registered ID number for Remote Handset is indicated.See page.4-4 for the registration method.


8-24

Step-7) RB DIST LED To end EEPROM test, press[▼]. Then, RB DIST LED test display will be shown as below and pressing [▼] again will pop up RB SP test. Each test will continue until another test begins.

RB DIST LED

LED on RB-8800 [DISTRESS] button will continuously blink every second.

RB SP Speaker output of RB-8800 will automatically and continuously ON/OFF. The volume can be adjusted with “VOLUME” on RB-8800

Step-8) Going back to Step-1

To end RB SP test, press [▼] continuously. This will bring you back to Step-1, LCD brilliance test.

Step-9) Ending the test To end the handset test, turn off the power and unplug the Remote Handset.

RB DIST LED RB SP[ ]

Chapter 9. Q & A

9-1

Q1. How can we use VHF exclusively? See page. 4-2.

When your own ID (MMSI) is not registered FM-8800S/D becomes the only operable VHF function. However, when you press [CALL], [DISTRESS] and [LOG] key(DSC related function keys), “NO MMSI” a pop-up window appears.

- Even if the position data are not inputted, it is not a problem. - Even if position data is not inputted, “GPS ERROR” pop-up window will

not appear. In the FM-8800 program INTL VER. is 03.01 and after, and Russian Ver., the display of “GPS ERROR” changes to “EPFS ERROR”.

Q2. What are the differences between FM-8800D and FM-8800S? See page. 5-4, 5-8, 8-19.

FM-8800D has FULL-DUPLEX function and FM-8800S has SEMI-DUPLEX function. FM-8800D with DUPLEX has DUPLEXER and DUP RX board installed in it. The main program is commonly used by both FM-8800D and FM-8800S. Switching a program detects whether DUP RX board is installed or not and is carried out automatically.

Q3. Please tell me the priority of communication order. See page. 4-5. Distress Alert of DSC has the highest priority. Priority order of a telephone is: Transceiver unit > Remote-1 > Remote-2 > Remote-3 > Remote-4. Wing MIC is independent of other units and cannot be used while any of the other units are transmitting a signal. Also, when you are transmitting a signal from Wing MIC, other units cannot transmit a signal. In the DISTRESS mode after transmitting the distress alert, the priority of the Transceiver unit and each Remote unit are equal.

Q4. Do the Transceiver unit and Remote Handset have to be installed in designated location? See page. 4-5, Q37. Since the transceiver unit has a higher priority than a Remote Handset, install the Transceiver unit in ship’s W/H.

Q5. Receptible sentence. See page. 4-16. IEC61162-1 (Corresponding to NMEA Ver.3):

GGA > RMC > GNS > GLL and ZDA. Applicable talker name is:

GP > LC > DE > II > IN > EC > TR > LA > OM When you are using GPS data, you cannot manually input position data.

Chapter 9. Q & A

Chapter 9. Q & A

9-2

Q6. Please tell me about the Alarm output. See page. 4-11. When you receive Distress/Urgency DSC message, the alarm always goes off but when you receive Routine and Safety DSC message, you can set up ON/OFF by selecting [MENU] -> ALARM. As for external alarm, it synchronously functions with alarm outputted from the Transceiver unit and Remote stations. Distress/Urgency alarm will continue to go off until you press [CANCEL] key. Safety and Routine alarm will automatically stop after 2 minutes or until you press [CANCEL] key.

Note; The EXT ALM circuit on CPU board is changed to the normal close from production in June 2006.

Q7. Can Carbon MIC be used in place Wing MIC? See page. 4-28.

Either Carbon MIC or Dynamic MIC can be used. However, setup with J5 on CPU board will be necessary.

- Carbon MIC: J5 -> Jumper between #2 and #3 - Dynamic MIC: J5 -> Jumper #1 and #2

Q8. Can Remote Handset be used alone without Transceiver Handset on?

See page. 4-29. Yes it can although setup that keeps HOOK signal on the Transceiver unit side “ON HOOK” at all time is necessary. You will then have to make a jumper connection between #1 and #2 on J15.

Q9. Does Remote Handset have to be wired in daisy chain?

See page. 4-26. Communication between Remote station and Transceiver unit is carried out on the basis of ID number set up for each Remote Handset. Either daisy chain method or parallel wired connection from Junction Box etc, can be used. When connecting Remote stations, terminate data line of the electrically farthest Remote station.

Q10. Can VHF antenna be used together with CH70 WR antenna?

See page. 4-30. It is operative. However, you cannot watch CH70 signal from continuously working CH70 board during a transmission. Connect it with a coaxial cable between J2 of CH70 RX board antenna inputting and J5 of TX/RX board. The coaxial cable is Mini-pin assembly (1) L-420. (Supplied material: Code 000-151-748)

Q11. Is a Junction Box: IF-8810 necessary?

For example, if you can connect GPS data inputted to Transceiver unit to [IEC-61162/REMOTE] port directly, IF-8810 is actually not necessary. However, it becomes necessary if you want to connect it to Remote stations.

Chapter 9. Q & A

9-3

Q12. How to adjust LCD contrast? See page. 1-4, 4-1. Press [SHIFT] key and adjust by a channel knob or by pressing [▼] and [▲] key. It is adjustable in 16 different levels of contrasts and a set up value can be stored even if the power is OFF/ON. As for the brightness of LCD, press SHIFT key and adjust it with [2] key.

Q13. How to cancel menu’s protection? See page. 4-1. See FURUNO Information: FQ5-2005-015 for the password. Make a jumper connection between #2 and #15 pin of [PRINTER] port. Or, jumper connection between #25 and #26 of IF-8810. Then, press [MENU] -> SYSTEM -> [ENT] key and input the password. (The same as FM-8500’s password: XXXXXX) After the protection is cancelled, you can go into all system menus to register/change MMSI, etc.

Q14. Please tell me what to check after installing. See Check List. Setting to check after installation:

- The least you have to check is to set up MMSI by [MENU] -> SYSTEM -> MMSI

- When more than one Remote stations are installed, make sure of their ID number.

Turn on the power while pressing [MENU] key on the Remote Handset and then, enter ID number.

- Make sure that position data are inputted. - Carry out DSC and voice communication test between No.1 VHF and

No.2 VHF. When you have only one VHF installed, make sure of VHF TX output and carry out a test by going to [MENU] -> SYSTEM -> T/A to check the monitor sound outputted from CH70 RX board.

Q15. How do I adjust the frequency? See page. 6-3.

There is no part that adjusts it. Since Transceiver’s reference OSC uses TCXO, the stability of frequency is excellently maintained. If the frequency tolerance is more/less than ± 10 ppm (Approximately +1.5 kHz) as a rule, change CPU board which has TCXO.

Q16. How do I measure DSC tone frequency? See page. 6-5. In the FM-8800 program, INTL Ver.-03.01 and after, also Russian Ver., tone selected from a speaker is outputted when performing the TONE TEST. As for the FM-8800 program (Ver.02.03 and before);

There is no part that measures it. One of VHF monitors it. - Setup on TX side

Set up by [MENU] -> SYSTEM -> TONE TEST -> MARK or select SPACE and PTT ON.

- Setup on RX (monitor) side Set up by [MENU] -> SYSTEM -> T/A and measure tone frequency by SP output.

Chapter 9. Q & A

9-4

Q17. Will the Program-Ver. indication remain the same even after updating the program? See page. 7-10.

An indication shown by [MENU] -> PROGRAM VERSION will not change. When confirming a detailed program version, select [MENU] -> SYSTEM -> TEST -> CPU -> PRG. VER and then, press [1] key 5 times while pressing [SHIFT] key. The detailed version will appear.

Q18. Is the Main program commonly used for FM-8800D and FM-8800S?

See page. 5-8. Yes it is. A change of the program is automatically carried out by detecting whether DUP RX board is installed or not.

Q19. I cannot update the program/How do I update the program? (Case 1) See page. 7-2.

If there is no problem with the PC setup or with the connection, there probably is a problem with RS-232C/RS-422 level converter. The speed in which the program is downloaded from PC to the Transceiver unit is 57.6 kbps. Is the level converter speed even faster?

Q20. I cannot update the program/How do I update the program? (Case 2) See page. 7-6.

Am I supposed to select COM-1 for serial port? If you want to use a serial port other than COM-1 then, you would have to update the batch file of the program that you want to update or select COM-1 for serial port on PC.

Q21. Remote Handset is not working properly. See page. 4-4, 5-23.

Each Remote Handset has to be assigned different ID number. Have you set up different ID number? The factory setting is “1”. Communication between Remote Handsets and Transceiver unit is made possible on the basis of this ID number. A communication between Remote Handsets with the same ID cannot be carried out.

Q22. I cannot receive DSC signals although telephone is working just fine. See page. 8-8.

There may be a problem with a CH70 WR antenna or CH70 RX board. 1) Carry out a self-test. If the result is OK, electrical connection between

CH70 Rx board and CPU board is OK then CPU board is fine. 2) Try exchanging CH70 WR antenna with RT antenna and then check it

again. 3) Carry out [MENU] -> SYSTEM TEST -> T/A.

This test receives RX signal on CH70 RX board, modulates it on CPU board, and then outputs it to Handset ear-speaker and the speaker of the Transceiver unit as AFSK signal. If you cannot hear a DSC signal or noise, the, there may be a problem with CH70 RX board.

Chapter 9. Q & A

9-5

Q23. What are the differences between 05P0774A and B on TX/RX PCB? See page. 8-19.

The 05P0774A is used for FM-8800S and the 05P0774B is used for FM-8800D. The only difference is whether the input/output connector circuit is connected to DUPLEXER or not.

Q24. What is a DISTRESS MODE? See page. 1-6.

It just means that you have transmitted DISTRESS ALERT which removes a telephone priority normally set up in order of the Transceiver unit -> Remote 1 -> Remote 2 -> Remote3 -> Remote 4. In this case, communication can only be carried out from wherever PTT is pressed.

Q25. How can I clear memory? See page. 8-18.

You can carry that out by selecting [MENU] -> SYSTEM -> EEROM -> ALL. Then, a pop-up window with “Init EEPROM” in it will appear and when it disappears, it means MEMORY CLEAR was done but it takes about 5 minutes. Keep in mind this will clear all of LOG and setups as well.

Q26. When I make All Ship Call from No.1 VHF, I could not receive signals through No.2 VHF. Is the equipment broken? See page. 8-6. It is not broken. They are made in a way that a call-up with the same MMSI dose not accept. For example, if you transmitted ALL SHIP CALL from No.1 VHF to No.2 VHF and incoming alarm and messages were outputted with the same MMSI, that would be very confusing as to who is outputting what. In order to avoid this situation, except when the Call Type is Individual and Category is Routine, reception of signals with MMSI will not be accepted.

Q27. Communication does not seem to be working correctly when Remote Handsets are connected. See page. 4-4, 5-23. Have you set up different ID number for each Remote Handset? When more than one Remote Handset with the same ID number are connected, it causes a collision of data between the Transceiver unit and a Remote Handset. The ID number of factory setting is “1”. In order to set up ID number, unplug Remote Handset from RB-8800/8810 and then plug it back in while pressing [MENU] key that is on it.

Q28. When I turn on the power, alarm keeps going off and nothing comes

up on the display. See page. 8-5. That means CPU on CPU board is fault. You would have to replace CPU board then. This is a problem seen when CPU does not respond to a command from DSP.

Chapter 9. Q & A

9-6

Q29. Would disconnecting or short-circuiting antenna break Transceiver unit? See page. 5-14. Transceiver unit: PA, No problem. When R-VSWR was detected to be over designated voltage, FM-8800S/D automatically reduces PA output to keep it within its designated output.

Q30. “DSC-5” indication appears after a self-test with DMC-5. Is this okay?

DMC-5 displays DSC-5 when FM-8800 does not respond to CAID command from DMC during a self-test. Note; In Russian Ver, DMC-5 is not connectable.

Q31. Please tell me about where to install the antennas. See Q37. In order to avoid interference of signals, it would be advisable to install No.1 VHF antenna and No.1 CH70 WR antenna in Radar mast’s yard, No.2 VHF antenna and No.2 CH70 WR antenna in Compass deck.

Q32. What is the min. horizontal length between VHF Antennas? See Q37.

If possible, install then 10 m apart from each other but make sure keep they are at least 5 m apart.

Q33. Please tell me about where to install the VHF. Install No.1 VHF on the starboard side and run a wire for both Wing MIC from there. Also, it would be advisable to install a Remote Handset where you operate a Radar.

Q34. Does a VHF Rack-consol have a type?

Yes it does. A VHF Rack consol type is called RC-8800 that consists of the main unit, printer (PP-8800), IF-8800, a handset and a hanger. Its three dimensional size is 330 (width) x 500 ( length) x 190 ( depth ).

Q35. Please tell me about RS-485. RS-485 is one of the serial communication specifications standardized by EIA (Electronic Industries Association) and is of a higher standard than that of RS-422. RS-485 has a higher compatibility as well. While RS-232C is only allowed for one-on-one standardized connection and RS-422 is for one-on-several (multi-drop connection) connection, RS-485 is compatible with a bus-shaped multi-point connection and allows for the maximum of 32 connections. The rest of RS-485 specifications are based upon RS-422 and the maximum cable length is 1.2 km and the maximum communication speed is 10 Mbps.

Chapter 9. Q & A

9-7

Q36. Please tell me about communication range? Below graph is to help you figure out the electric field intensity within a range of h1(10 m) and h2(the height of the other ship) when the signal is transmitted with 144 MHz and 10 W. How to figure that out is: For example, let’s say that if the height of the antenna on your own ship is 10 m high and other’s within 10~30 m, the point where the X-axis of the line with the minimum electric field intensity of +6 dB and the height of the other ship’s antenna, let’s say 20 m high for example, intersects is the RX distance in question here. However, make sure to shift the curve upward by 3 dB. Therefore, we can confirm from below graph that 50~70 km (26~38 NM) is the VHF’s communication range and signals outside of it will be considered to be abnormally propagated signals.

+6 dB

e.g. Other ship’s antenna is 20 m.

Communication distance to find

Chapter 9. Q & A

9-8

Q37. An inspector cautioned me about contents of COMSAR/Cir.32 regarding installation of equipment. What is it about?

COMSAR/Circ.32 is about GMDSS requirements for radio installation issued by IMO on 08/16/2004. The heading is ''Harmonization of GMDSS requirements for radio installation on SOLAS ship.

http://www.imo.org/includes/blastDataOnly.asp/data_id%3D10750/32.pdf A section concerning VHF installation is,

4 GMDSS RADIO EQUIPMENT 4.1 Location of VHF transceivers and VHF DSC controllers .1 VHF with DSC forming part of the mandatory VHF communication equipment for

safety of navigation should be located in the conning position. This equipment may be connected to several remote control units, i.e. on the wings of the navigation bridge, provided that the navigating bridge has priority. If such combined equipment is chosen, it should be possible to transmit DSC distress alert from the conning position.

.2 If the ship is equipped with extra VHF transceiver (without DSC) with channels required for navigational safety, located in the conning position, another central location of the mandatory DSC VHF equipment on the navigation bridge (in navigating position) can be accepted. (SOLAS 1974, as amended, regulations IV/4.1.5, 4.1.9 and 6.3.)

Note: - With regard to the location of equipment and distress alerts, the same requirements also apply to the duplicated DSC VHF equipment for ships in sea areas A3 and A4. The duplicated VHF transceiver can, however, be located in the .navigating position. instead of in the conning position.

(IMO resolution A.702(17), Annex, item 2.1.) In order to conduct power measurements, easy access to the antenna output of each equipment should be provided. (SOLAS 1974, as amended, regulation IV/15.2 and IMO resolution A.948(23)) 4.2 Continuous watch on DSC VHF channel 70 Continuous watch on DSC VHF channel 70 can be met by: .1 a separate VHF channel 70 watch receiver. It should not be muted or interrupted

when using other radio equipment, or .2 a dedicated watch receiver combined with the VHF transceiver. It should be installed

so as to maintain watch even when the VHF equipment is used for telephony, or .3 VHF with DSC permanently locked on channel 70 for reception and transmission of

DSC calls only. To deal with other correspondence on other channels, an additional VHF transceiver should be installed, which may be without the DSC function. (IMO resolutions A.694(17) and A.803(19), as amended, and COM/Circ.105)

Chapter 9. Q & A

9-9

5 ANTENNA INSTALLATION 5.1 General Special attention should be paid to the location and installation of the different antennas on a ship in order to ensure effective and efficient communication. Incorrect installed antennas will degrade the performance of the radio equipment and will reduce the range of radio communications. 5.2 Location of VHF antennas .1 VHF antennas should be placed in a position which is as elevated and free as possible,

with at least 2 m horizontal separation from constructions made by conductive materials.

.2 VHF antennas should have a vertical polarization.

.3 Ideally there should not be more than one antenna on the same level.

.4 The location of mandatory VHF antennas should be given priority compared with mobile telephone antennas. If they are located on the same level, the distance between them should be at least 5 m.

.5 It is recommended to use double screened cable with a maximum loss of 3 dB.

.6 All outdoor installed connectors on the coaxial cables should be watertight by design in order to give protection against water penetration into the antenna cable.

.7 AIS VHF antenna should be installed safely away from interfering high-power energy sources like radar and other transmitting radio antennas, preferably at least 3 m away from and out of the transmitting beam.

.8 The AIS VHF antenna should be mounted directly above or below the ship's primary VHF radiotelephone antenna, with no horizontal separation and with minimum 2 m vertical separation. If it is located on the same level as other antennas, the distance apart should be at least 5 m.

5.7 Installation of coaxial cables Coaxial cables should be installed in separate ducting and at least 10 cm away from power supply cables. Incorrect installation of cables my change their characteristic impedance resulting in power reflections, which will attenuate the RF signal and reduce the efficiency of the radio equipment. In VHF antennas the reflected power should not be greater than 10% of the measured output power. The following guidelines should be applied when bending coaxial cables: .1 Cables should be crossed at right angles. .2 Where there is one bend in a permanent fixture the bending radius should be 5 times

the cables. outside diameter. .3 Where there are several bends, the bending radius should be 10 times the outside

diameter of the cable. .4 When using flexible cable the bending radius should be 20 times the outside

diameter of the cable.

AP1) Specifications

AP1-1

1. General (1) Channel numbers

NTL: 57

USA: 48 Weather: 10 Canada: 55 (57)* INLND-WA: 55 (57)* Private: 20 Memory: 50 *CH75/76 can be included for some countries (2) Frequency stability Within ±1.5kHz (3) Communication system FM-8800D: Simplex/Full-duplex FM-8800S: Simplex/Semi-duplex (4) Class of Emission 16K0G3E (Voice) 16K0G2B (DSC) (5) Antenna impedance 50 ohms 2. Transmitter (1) Frequency range (2) Output power 25 W max., 1 W at power reduction (3) Frequency deviation 5 kHz or less

Simplex 155.000 to 158.000 MHz FM-8800D Duplex 155.000 to 158.000 MHz

Simplex 155.000 to 161.475 MHz FM-8800S Semi-duplex 155.000 to 161.475 MHz

Appendix 1) Specifications

AP1) Specifications

AP1-2

3. Receiver (1) Frequency range (2) Receiving system Double superheterodyne (3) Intermediate frequency 1st: 51.2375 MHz, 2nd: 37.5 kHz (4) Sensitivity +6 dB µ V (20 dB SINAD) (5) Adjacent channel selectivity 70 dB or more (6) Spurious response 70 dB or more (7) AF output Built-in speaker 3 W (4 ohms) Handset earphone: 2 mW (150 ohms) 4. DSC (1) Protocol ITU-R Rec. M541-8, M493-10 (class A)

INTL Ver.: 0550215-02.xx, 03.xx ITU-R Rec. M541-9, M493-11(class A)

Russian Ver.: 0550220-01.xx (2) Baud rate 1200 baud ± 30 ppm max. (3) Modulation AFSK (4) Frequency shift 1700 ± 400 Hz Mark: 1300 Hz ± 10 Hz, Space 2100 Hz ± 10 Hz 5. CH70 WATCH Receiver (1) Receiving frequency 156.525 MHz (2) Sensitivity Symbol error rate Less than 1% (at 0 dB µ V) (3) Conducted spurious emission Less than 2 nW

Simplex 155.000 to 158.000 MHz FM-8800D

Duplex 160.625 to 162.600 MHz

Simplex 155.000 to 159.600 MHz FM-8800S

Semi-duplex 161.475 to 164.200 MHz

AP1) Specifications

AP1-3

6. Power Supply (1) Transceiver unit DC24 V (-10 % to +30 %) (2) Power voltage

7. Digital Interface (1) Signal format IEC61162-1 (NMEA0183 Ver.3) (2) Input sentences & Priority Position: GGA>RMC>GNS>GLL

Date: ZDA>RMC Time: ZDA>GGA>RMC>GNS>GLL

(3) Output sentences TLL (4) Talker GP>LC>DE>II>IN>EC >TR>LA>OM 8. Environmental Conditions (1) Ambient temperature -15 °C to 55 °C (IEC60945) (2) Relative humidity Less than 93 % (+40 °C) (3) Waterproofing (IEC60529)

Transceiver unit: IPX4 (Chassis) IPX0 (Panel) Handset/Hangar: IPX4 Remote station/Handset RB-8800: IPX0 HS-8800: IPX2 Junction box: IPX0 DMC I/F: IPX0

At the time of standby 0.5 A At the time of reception 1.6 A（4 W audio output）

At the time of transmission 2 A（1 W output） 6 A（25 W output） FM-8800D

At the time of DUP transmission 3.6 A（1 W output） 7.6 A（25 W output）

At the time of standby 0.5 A At the time of reception 1.6 A（4 W audio output）

FM-8800S At the time of transmission 1.6 A（1 W output）

4.7 A（25 W output）

AP1) Specifications

AP1-4

(4) Viblation-registant (IEC60945 4 edition) 2 Hz – 5 Hz to 13.2 Hz: Vibration amplitude ± 1 mm ± 10 %

(Maximum acceleration 7 m/s2 with13.2 Hz ) 3.2 Hz to 100 Hz: Maximum acceleration 7 m/s2 Fixed 9. Coating Color Transceiver unit Panel unit: N3-3 (Charcoal gray) Except for the Panel unit: N3-3 (Charcoal gray)

AP2.1 International/USA/Canadian/Inland Waterways

AP2-1


International Channels

USA Channels

Canadian Channels

Inland Ｗaterways Channel

Tx Rx Tx Rx Tx Rx Tx Rx

60 156.025 160.625 - - 156.025 160.625 156.025 160.625

1 156.050 (Low Power) 160.650 156.050 156.050 160.650 156.050 160.650

61 156.075 160.675 - - 156.075 156.075 160.675

2 156.100 160.700 - - 156.100 160.700 156.100 160.700

62 156.125 160.725 - - 156.125 156.125 160.725

3 156.150 160.750 - - 156.150 160.750 156.150 160.750

63 156.175 160.775 156.175 - - 156.175 160.775

4 156.200 160.800 - - 156.200 156.200 160.800

64 156.225 160.825 - - 156.225 156.225 160.825

5 156.250 160.850 156.250 156.250 156.250 160.850

65 156.275 160.875 156.275 156.275 (Low Power) 156.275 160.875

6 156.300 156.300 156.300 156.300 (Low Power)

66 156.325 160.925 156.325 156.325 156.325 160.925

7 156.350 160.950 156.350 156.350 156.350 160.950

67 156.375 156.375 (Low Power) 156.375 156.375

8 156.400 156.400 156.400 156.400 (Low Power)

68 156.425 156.425 156.425 156.425

9 156.450 156.450 156.450 156.450

69 156.475 156.475 156.475 156.475

10 156.500 156.500 156.500 156.500 (Low Power)

70 156.525 (DSC)

11 156.550 156.550 156.550 156.550 (Low Power)

71 156.575 156.575 156.575 156.575 (Low Power)

12 156.600 156.600 156.600 156.600 (Low Power)

72 156.625 156.625 156.625 156.625 (Low Power)

Appendix 2) Channel List

1/3


AP2-2

International

Channels USA

Channels Canadian Channels

Inland Ｗaterways Channel

Tx Rx Tx Rx Tx Rx Tx Rx

13 156.650 156.650 (Low Power) 156.650 156.650

(Low Power) 73 156.675 156.675 156.675 156.675

14 156.700 156.700 156.700 156.700 (Low Power)

74 156.725 156.725 156.725 156.725 (Low Power)

15 156.750 (Low Power) - 156.750 156.750

(Low Power) 156.750

(Low Power)

75 156.775 (Low Power) - - - - - -

16 156.800 (Distress/Safety and Calling)

76 156.825 (Low Power) - - - - - -

17 156.850 (Low Power)

156.850 (Low Power)

156.850 (Low Power)

156.850 (Low Power)

77 156.875 156.875 (Low Power)

156.875 (Low Power)

156.875 (Low Power)

18 156.900 161.500 156.900 156.900 156.900 161.500

78 156.925 161.525 156.925 156.925 156.925 161.525

19 156.950 161.550 156.950 156.950 156.950 161.550

79 156.975 161.575 156.975 156.975 156.975 161.575

20 157.000 161.600 157.000 157.000 (Low Power) 161.600 157.000 161.600

80 157.025 161.625 157.025 157.025 157.025 161.625

21 157.050 161.650 157.050 157.050 157.050 161.650

81 157.075 161.675 157.075 157.075 157.075 161.675

22 157.100 161.700 157.100 157.100 157.100 161.700

82 157.125 161.725 157.125 157.125 157.125 161.725

23 157.150 161.750 157.150 157.150 161.750 157.150 161.750

83 157.175 161.775 157.175 157.175 157.175 161.775

24 157.200 161.800 157.200 161.800 157.200 161.800 157.200 161.800

84 157.225 161.825 157.225 161.825 157.225 161.825 157.225 161.825

25 157.250 161.850 157.250 161.850 157.250 161.850 157.250 161.850

85 157.275 161.875 157.275 161.875 157.275 161.875 157.275 161.875

26 157.300 161.900 157.300 161.900 157.300 161.900 157.300 161.900

2/3

AP2.2 US Weather Channel

AP2-3

International Channels

USA Channels

Canadian Channels

Inland Ｗaterways

Channel

Tx Rx Tx Rx Rx Tx Rx Tx

86 157.325 161.925 157.325 161.925 157.325 161.925 157.325 161.925

27 157.350 161.950 157.350 161.950 157.350 161.950 157.350 161.950

87 157.375 157.375 157.375 157.375

28 157.400 162.000 157.400 162.000 157.400 162.000 157.400 162.000

88 157.425 157.425 157.425 157.425

AP2.2 US Weather Channel

WX Rx (MHz) WX Rx (MHz)

01 162.550 06 162.500

02 162.400 07 162.525

03 162.475 08 161.650

04 162.425 09 161.775

05 162.450 10 163.275

3/3

AP2.3 Private Channel

AP2-4

AP2.3 Private Channel Note: Bold and Italic are for FM-8800D Duplex Tx Frequency

FM-8800S FM-8800D

Tx Rx Tx Rx Channel

Simplex Simplex Semi-Dup Simp/Dup Simplex Duplex

180 155.000 155.000 159.600

181 155.025 155.025 159.625

182 155.050 155.050 159.650

183 155.075 155.075 159.675

184 155.100 155.100 159.700

185 155.125 155.125 159.725

186 155.150 155.150 159.750

187 155.175 155.175 159.775

188 155.200 155.200 159.800

189 155.225 155.225 159.825

190 155.250 155.250 159.850

191 155.275 155.275 159.875

192 155.300 155.300 159.900

193 155.325 155.325 159.925

194 155.350 155.350 159.950

195 155.375 155.375 159.975

196 155.400 155.400 160.000 155.400 155.400

197 155.425 155.425 160.025 155.425 155.425

198 155.450 155.450 160.050 155.450 155.450

199 155.475 155.475 160.075 155.475 155.475

120(L1) 155.500 155.500 160.100 155.500 155.500

121(L2) 155.525 155.525 160.125 155.525 155.525

122 155.550 155.550 160.150 155.550 155.550

123 155.575 155.575 160.175 155.575 155.575

124 155.600 155.600 160.200 155.600 155.600

125(F1)(P1) 155.625 155.625 160.225 155.625 155.625

126(L3) 155.650 155.650 160.250 155.650 155.650

127 155.675 155.675 160.275 155.675 155.675

1/9


AP2-5

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


128 155.700 155.700 160.300 155.700 155.700

129 155.725 155.725 160.325 155.725 155.725

130 155.750 155.750 160.350 155.750 155.750

131(F2)(P2) 155.775 155.775 160.375 155.775 155.775

132 155.800 155.800 160.400 155.800 155.800

133(F3)(P3) 155.825 155.825 160.425 155.825 155.825

134 155.850 155.850 160.450 155.850 155.850

135 155.875 155.875 160.475 155.875 155.875

136 155.900 155.900 160.500 155.900 155.900

137 155.925 155.925 160.525 155.925 155.925

138 155.950 155.950 160.550 155.950 155.950

139 155.975 155.975 160.575 155.975 155.975

0 156.000 156.000 160.600 156.000 156.000 160.600

60 156.025 156.025 160.625 156.025 156.025 160.625

1 156.050 156.050 160.650 156.050 156.050 160.650

61 156.075 156.075 160.675 156.075 156.075 160.675

2 156.100 156.100 160.700 156.100 156.100 160.700

62 156.125 156.125 160.725 156.125 156.125 160.725

3 156.150 156.150 160.750 156.150 156.150 160.750

63 156.175 156.175 160.775 156.175 156.175 160.775

4 156.200 156.200 160.800 156.200 156.200 160.800

64 156.225 156.225 160.825 156.225 156.225 160.825

5 156.250 156.250 160.850 156.250 156.250 160.850

65 156.275 156.275 160.875 156.275 156.275 160.875

6 156.300 156.300 160.900 156.300 156.300 160.900

66 156.325 156.325 160.925 156.325 156.325 160.925

7 156.350 156.350 160.950 156.350 156.350 160.950

67 156.375 156.375 160.975 156.375 156.375 160.975

8 156.400 156.400 161.000 156.400 156.400 161.000

68 156.425 156.425 161.025 156.425 156.425 161.025

2/9


AP2-6

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


9 156.450 156.450 161.050 156.450 156.450 161.050

69 156.475 156.475 161.075 156.475 156.475 161.075

10 156.500 156.500 161.100 156.500 156.500 161.100

70 156.525 156.525 161.125 156.525 156.525 161.125

11 156.550 156.550 161.150 156.550 156.550 161.150

71 156.575 156.575 161.175 156.575 156.575 161.175

12 156.600 156.600 161.200 156.600 156.600 161.200

72 156.625 156.625 161.225 156.625 156.625 161.225

13 156.650 156.650 161.250 156.650 156.650 161.250

73 156.675 156.675 161.275 156.675 156.675 161.275

14 156.700 156.700 161.300 156.700 156.700 161.300

74 156.725 156.725 161.325 156.725 156.725 161.325

15 156.750 156.750 161.350 156.750 156.750 161.350

75 156.775 156.775 161.375 156.775 156.775 161.375

16 156.800 156.800 161.400 156.800 156.800 161.400

76 156.825 156.825 161.425 156.825 156.825 161.425

17 156.850 156.850 161.450 156.850 156.850 161.450

77 156.875 156.875 161.475 156.875 156.875 161.475

18 156.900 156.900 161.500 156.900 156.900 161.500

78 156.925 156.925 161.525 156.925 156.925 161.525

19 156.950 156.950 161.550 156.950 156.950 161.550

79 156.975 156.975 161.575 156.975 156.975 161.575

20 157.000 157.000 161.600 157.000 157.000 161.600

80 157.025 157.025 161.625 157.025 157.025 161.625

21 157.050 157.050 161.650 157.050 157.050 161.650

81 157.075 157.075 161.675 157.075 157.075 161.675

22 157.100 157.100 161.700 157.100 157.100 161.700

82 157.125 157.125 161.725 157.125 157.125 161.725

23 157.150 157.150 161.750 157.150 157.150 161.750

83 157.175 157.175 161.775 157.175 157.175 161.775

3/9


AP2-7

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


24 157.200 157.200 161.800 157.200 157.200 161.800

84 157.225 157.225 161.825 157.225 157.225 161.825

25 157.250 157.250 161.850 157.250 157.250 161.850

85 157.275 157.275 161.875 157.275 157.275 161.875

26 157.300 157.300 161.900 157.300 157.300 161.900

86 157.325 157.325 161.925 157.325 157.325 161.925

27 157.350 157.350 161.950 157.350 157.350 161.950

87 157.375 157.375 161.975 157.375 157.375 161.975

28 157.400 157.400 162.000 157.400 157.400 162.000

88 157.425 157.425 162.025 157.425 157.425 162.025

29 157.450 157.450 162.050 157.450 157.450 162.050

89 157.475 157.475 162.075 157.475 157.475 162.075

30 157.500 157.500 162.100 157.500 157.500 162.100

90 157.525 157.525 162.125 157.525 157.525

31 157.550 157.550 162.150 157.550 157.550

91 157.575 157.575 162.175 157.575 157.575

32 157.600 157.600 162.200 157.600 157.600

92 157.625 157.625 162.225 157.625 157.625

33 157.650 157.650 162.250 157.650 157.650

93 157.675 157.675 162.275 157.675 157.675

34 157.700 157.700 162.300 157.700 157.700

94 157.725 157.725 162.325 157.725 157.725

35 157.750 157.750 162.350 157.750 157.750

95 157.775 157.775 162.375 157.775 157.775

36 157.800 157.800 162.400 157.800 157.800

96 157.825 157.825 162.425 157.825 157.825

37 157.850 157.850 162.450 157.850 157.850

97 157.875 157.875 162.475 157.875 157.875

38 157.900 157.900 162.500 157.900 157.900

98 157.925 157.925 162.525 157.925 157.925

4/9


AP2-8

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


39 157.950 157.950 162.550 157.950 157.950

99 157.975 157.975 162.575 157.975 157.975

40 158.000 158.000 162.600 158.000 158.000

100 158.025 158.025 162.625 158.025

41 158.050 158.050 162.650 158.050

101 158.075 158.075 162.675 158.075

42 158.100 158.100 162.700 158.100

102 158.125 158.125 162.725 158.125

43 158.150 158.150 162.750 158.150

103 158.175 158.175 162.775 158.175

44 158.200 158.200 162.800 158.200

104 158.225 158.225 162.825 158.225

45 158.250 158.250 162.850 158.250

105 158.275 158.275 162.875 158.275

46 158.300 158.300 162.900 158.300

106 158.325 158.325 162.925 158.325

47 158.350 158.350 162.950 158.350

107 158.375 158.375 162.975 158.375

48 158.400 158.400 163.000 158.400

108 158.425 158.425 163.025 158.425

49 158.450 158.450 163.050 158.450

109 158.475 158.475 163.075 158.475

50 158.500 158.500 163.100 158.500

110 158.525 158.525 163.125 158.525

51 158.550 158.550 163.150 158.550

111 158.575 158.575 163.175 158.575

52 158.600 158.600 163.200 158.600

112 158.625 158.625 163.225 158.625

53 158.650 158.650 163.250 158.650

113 158.675 158.675 163.275 158.675

5/9


AP2-9

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


54 158.700 158.700 163.300 158.700

114 158.725 158.725 163.325 158.725

55 158.750 158.750 163.350 158.750

115 158.775 158.775 163.375 158.775

56 158.800 158.800 163.400 158.800

116 158.825 158.825 163.425 158.825

57 158.850 158.850 163.450 158.850

117 158.875 158.875 163.475 158.875

58 158.900 158.900 163.500 158.900

118 158.925 158.925 163.525 158.925

59 158.950 158.950 163.550 158.950

119 158.975 158.975 163.575 158.975

200 159.000 159.000 163.600 159.000

201 159.025 159.025 159.025

202 159.050 159.050 159.050

203 159.075 159.075 159.075

204 159.100 159.100 159.100

205 159.125 159.125 159.125

206 159.150 159.150 159.150

207 159.175 159.175 159.175

208 159.200 159.200 159.200

209 159.225 159.225 159.225

210 159.250 159.250 159.250

211 159.275 159.275 159.275

212 159.300 159.300 159.300

213 159.325 159.325 159.325

214 159.350 159.350 159.350

215 159.375 159.375 159.375

216 159.400 159.400 159.400

217 159.425 159.425 159.425

6/9


AP2-10

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


218 159.450 159.450 159.450

219 159.475 159.475 159.475

220 159.500 159.500 159.500

221 159.525 159.525 159.525

222 159.550 159.550 159.550

223 159.575 159.575 159.575

224 159.600 159.600 159.600

225 159.625 159.625 159.625

226 159.650 159.650 159.650

227 159.675 159.675 159.675

228 159.700 159.700 159.700

229 159.725 159.725 159.725

230 159.750 159.750 159.750

231 159.775 159.775 159.775

232 159.800 159.800 159.800

233 159.825 159.825 159.825

234 159.850 159.850 159.850

235 159.875 159.875 159.875

236 159.900 159.900 159.900

237 159.925 159.925 159.925

238 159.950 159.950 159.950

239 159.975 159.975 159.975

240 160.000 160.000 160.000

241 160.025 160.025 160.025

242 160.050 160.050 160.050

243 160.075 160.075 160.075

244 160.100 160.100 160.100

245 160.125 160.125 160.125

246 160.150 160.150 160.150

247 160.175 160.175 160.175

7/9


AP2-11

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


248 160.200 160.200 160.200

249 160.225 160.225 160.225

250 160.250 160.250 160.250

251 160.275 160.275 160.275

252 160.300 160.300 160.300

253 160.325 160.325 160.325

254 160.350 160.350 160.350

255 160.375 160.375 160.375

256 160.400 160.400 160.400

257 160.425 160.425 160.425

258 160.450 160.450 160.450

259 160.475 160.475 160.475

140 160.500 160.500 160.500

141 160.525 160.525 160.525

142 160.550 160.550 160.550

143 160.575 160.575 160.575

144 160.600 160.600 160.600

145 160.625 160.625 160.625

146 160.650 160.650 160.650

147 160.675 160.675 160.675

148 160.700 160.700 160.700

149 160.725 160.725 160.725

150 160.750 160.750 160.750

151 160.775 160.775 160.775

152 160.800 160.800 160.800

153 160.825 160.825 160.825

154 160.850 160.850 160.850

155 160.875 160.875 160.875

156 160.900 160.900 160.900

157 160.925 160.925 160.925

8/9


AP2-12

FM-8800S FM-8800D

Tx Rx Tx Rx

Channel


158 160.950 160.950 160.950

159 160.975 160.975 160.975

160 161.000 161.000 161.000

161 161.025 161.025 161.025

162 161.050 161.050 161.050

163 161.075 161.075 161.075

164 161.100 161.100 161.100

165 161.125 161.125 161.125

166 161.150 161.150 161.150

167 161.175 161.175 161.175

168 161.200 161.200 161.200

169 161.225 161.225 161.225

170 161.250 161.250 161.250

171 161.275 161.275 161.275

172 161.300 161.300 161.300

173 161.325 161.325 161.325

174 161.350 161.350 161.350

175 161.375 161.375 161.375

176 161.400 161.400 161.400

177(M2) 161.425 161.425 161.425

178 161.450 161.450 161.450

179 161.475 161.475 161.475

9/9

PANELﾌﾟﾘﾝﾄPANEL PCB05P0772(005-377-920)

SQ/VRﾌﾟﾘﾝﾄSQ/VR PCB05P0787 (005-378-190)

CHﾌﾟﾘﾝﾄCH PCB05P0788 (005-378-200)

ﾚｸﾄﾗDｽﾌﾟﾘﾝｸﾞLECTRA D SPRING#6601-P

PHｺﾈｸﾀPH CONNECTOR05-826(9-9P)

PHｺﾈｸﾀPH CONNECTOR05-835(5-5P)

SP-PHｺﾈｸﾀSP-PH CONNECTOR05-827(ｽﾋﾟｰｶ2P)(005-377-680)

SPｷﾖｳﾒｲﾊﾞｺRESONATOR05-093-1011-0

ﾊﾟﾈﾙPANEL05-093-1001-2

ﾌｲﾙﾀｰFILTER05-093-1002-0

SPﾃｰﾌﾟSP TAPE05-093-1012-1

SPｽﾍﾟｰｻSP SPACER05-093-1013-0

ﾗﾊﾞｰｷｰRUBBER KEY05-093-1021-3

ﾂﾏﾐ(L)KNOB (L)05-093-1031-0

ﾂﾏﾐﾊﾟﾂｷﾝ(L)KNOB GASKET (L)05-093-1032-0

ﾂﾏﾐ(S)KNOB (S)05-093-1033-0

ﾂﾏﾐﾊﾟﾂｷﾝ(S)KNOB GASKET (S)05-093-1034-0

ｿｳｻﾊﾘﾏｰｸSTICKER FOR OPERATION05-093-1051-1

ﾊﾝｶﾞｰBRACKET ASSEMBLYFM-8800S/D(005-377-790)

ﾎﾞｳｼﾝｺﾞﾑ(1)ANTI-VIBRATION RUBBER (1)05-077-1122-0

ﾎﾞｳｼﾝｺﾞﾑ(2)ANTI-VIBRATION RUBBER (2)05-077-1123-0

ﾊﾝｶﾞｰBRACKET05-093-1201-0

+-ﾅﾍﾞｾﾑｽﾈｼﾞBWASHER HEAD SCREW *B*M3X8 C2700W MBNI2

+-ﾅﾍﾞｾﾑｽﾈｼﾞBWASHER HEAD SCREW *B*M3X8 C2700W MBNI2

+-ﾅﾍﾞｾﾑｽﾈｼﾞBWASHER HEAD SCREW *B*M3X8 C2700W MBNI2(000-881-404)



ｹｰﾌﾞﾙ(FPC)FLAT CABLE SML2CD50X200AD6P.5S4(000-151-676)

ﾃﾞｨｽﾄﾚｽﾌﾀﾌｸﾛﾂﾞﾒDISTRESS KEY COVER (PACKED)FM-8800S/D ﾌﾞｼｭﾂﾖｳ(005-378-140)

ﾃﾞｲｽﾄﾚｽﾌﾀDISTRESS LID05-092-1011-1

ｼﾔﾌﾄﾎﾙﾀﾞｰSHAFT HOLDER05-092-1012-0

ﾃﾞｲｽﾄﾚｽﾋﾟﾝDISTRESS PIN05-092-1013-0

ﾃﾞｲｽﾄﾚｽﾊﾞﾈDISTRESS SPRING05-092-1014-1

CPUﾌﾟﾘﾝﾄCPU PCB05P0773(005-378-210)

05P0774A (005-378-220)

05P0774B (005-378-230)

CH70-RXﾌﾟﾘﾝﾄCH70-RX PCB05P0775 (005-378-240)

POWRﾌﾟﾘﾝﾄPOWR PCB05P0776 (005-378-250)

MJ-PHｺﾈｸﾀMJ-PJ CONNECTOR05-834(10-11P)(005-377-650)

DUPLEXERCDH1561006A(000-151-721)


ｴﾂｼﾞｻﾄﾞﾙEDGE SADDLEEDS-1717U(000-137-738)

DUPﾄﾘﾂｹｲﾀDUP MOUNTING PLATE05-093-1141-0(100-323-130)

ﾉﾌﾞ(N3.0)KNOB (N3.0)03-156-1042-0

ﾊﾝｶﾞ-ﾜﾂｼﾔ-BRACKET WASHER05-029-0132-1

DUP RXﾌﾟﾘﾝﾄ DUP RX PCB 05P0777 (005-378-380)

ＦＭ-8800D only

ｾﾞﾝﾒﾝﾊﾟﾈﾙFRONT PANEL ASSEMBLYFM-8800S/D(005-377-780)

ｾﾞﾝﾒﾝﾊﾟﾈﾙFRONT PANEL ASSEMBLYFM-8800S/D

TX/RXｼｰﾙﾄﾞｶﾊﾞｰTX/RX SHIELD COVER05-093-1111-1(100-323-051)

PWRｼｰﾙﾄﾞｶﾊﾞｰPWR SHIELD COVER05-093-1112-0(100-323-060)

ｶﾌﾞｼｰﾙﾄﾞｶﾊﾞｰBOTTOM SHIELD COVER05-093-1113-0(100-323-070)

+ﾊﾞｲﾝﾄﾞｺﾈｼﾞBIND SCREWM4X10 SUS304(000-861-865)

+-ﾊﾞｲﾝﾄﾞｾﾑｽFWASHER HEAD SCREW M4X8 C2700 MBCR2 (000-806-407)

ｶﾊﾞｰCOVER05-093-1121-1(100-323-081)

PMｼｰﾙﾄﾞ1PM SHIELD 105-093-1132-0(100-323-100)

+-ﾅﾍﾞｾﾑｽﾈｼﾞB WASHER HEAD SCREWM3X20 C2700W MBNI2(000-881-410)

TX/RXﾌﾟﾘﾝﾄ TX/RX PCB

FM-8800S

FM-8800S

FM-8800D

FM-8800D

ﾉﾌﾞKNOBFP03-09204(008-523-650)

PANEL/SQVRｸﾐﾋﾝPANEL/SQVR PCBFM-8800S/D 005-378-160)

ｼﾔｰｼCHASSIS05-093-1101/1102-3(100-323-043)

ＦＭ-8800S only

ＦＭ-8800D only

VHｺﾈｸﾀVH CONNECTOR05-828(8-8P)(005-377-700)

PHｺﾈｸﾀPH CONNECTOR 05-829(6-6P)(005-377-710)

PHｺﾈｸﾀPH CONNECTOR05-830(15-15P)(005-377-720)

ｹ-ﾌﾞﾙ(ｸﾐﾋﾝ)CABLE ASSEMBLYLR-02F1/STO-41T-187N(000-143-040)

80-0672(005-959-640)80-0673(005-959-650)

FM-8800S

FM-8800D

Mｶﾞﾀｺﾈｸﾀ M-TYPE CONNECTOR

MｶﾞﾀｺﾈｸﾀM-TYPE CONNECTOR80-0671(005-377-690)

+ﾅﾍﾞｾﾑｽﾈｼﾞBKWASHER HEAD SCREW *BK*M3X8 C2700W MBNI2(000-804-626)

A

A

ﾊﾝﾄﾞｾﾂﾄﾊﾝｶﾞｰBRACKET FOR HANDSETFP05-05510(005-951-790)

TBﾌﾟﾘﾝﾄTB PCB05P0798 (005-378-340)

ﾊﾝﾄﾞｾｯﾄﾊﾝｶﾞｰBRACET FOR HANDSETHG-8810

ﾊﾝﾄﾞｾｯﾄﾊﾝｶﾞｰBRACET FOR HANDSETHG-8800

REMOTEﾌﾟﾘﾝﾄREMOTE PCB05P0779(005-378-300)

MJ-PHｺﾈｸﾀMJ-PH CONNECTOR05-831(10-11P)(005-377-620)

ﾃﾞｨｽﾄﾚｽﾌﾀﾌｸﾛﾂﾞﾒDISTRESS KEY COVER (PACKED)HG-8800 (005-378-320)

ﾃﾞｲｽﾄﾚｽﾋﾟﾝDISTRESS PIN05-085-1014-0

ﾃﾞｲｽﾄﾚｽﾊﾞﾈDISTRESS SPRING05-085-1013-0

ﾃﾞｲｽﾄﾚｽﾌﾀDISTRESS LID05-085-1011-2

ｼﾔﾌﾄﾎﾙﾀﾞ-SHAFT HOLDER05-085-1014-0

+ﾅﾍﾞｾﾑｽﾈｼﾞBKWASHER HEAD SCREW *BKM3X8 C2700W MBNI2(000-804-626)

ｷﾔﾂﾌﾟKNOB CAP040-3010(000-515-322)

ﾃﾞﾝﾘﾕｳﾊﾘﾏｰｸ LABEL

05-093-1151-0(100-324-910)

05-093-1251-0(100-324-920)

APPROVED CHECKED DRAWN

DWG.NO.

MODEL

UNIT

FM8800S/D

FM8800S/D

ＰＴＴ

＊

＊

＊

＊

送受信機

TRANSCEIVER UNIT

C5643-E01-B

B

B

SP-PHｺﾈｸﾀSP-PH CONNECTOR05-832(ｽﾋﾟｰｶ2P)(005-377-630)

TBﾌﾟﾘﾝﾄTB PCB05P0782(005-378-310)

4 Aug. 2005 4 Aug. 2005 4 Aug. 2005

H.Kuwamura T.Yoshida S.Kubota

ykimura


Ｄ-１


DWG.NO.

MODEL

UNIT

ｹｰﾌﾞﾙ(FPC)FLAT CABLESML2CD50X200AD6P.5S4�(000-151-676)

(P)PANELﾌﾟﾘﾝﾄPANEL BOAD 05P0772(005-377-920)

(P)SQ/VRﾌﾟﾘﾝﾄSQ/VR BOAD05P0787(005-378-190)

(P)CHﾌﾟﾘﾝﾄCH BOAD05P0788(005-378-200)

ﾚｸﾄﾗDｽﾌﾟﾘﾝｸﾞLECTRA D SPRING#6601-P (000-802-139)

(組)PHｺﾈｸﾀ PH CONNECTOR 05-826(9-9P)(005-377-660)

(組)PHｺﾈｸﾀPH CONNECTOR 05-835(5-5P)�(005-377-670)

(組)SP-PHｺﾈｸﾀSP-PH CONNECTOR 05-827(ｽﾋﾟｰｶ2P)(005-377-680)

ﾃﾞｲｽﾄﾚｽﾌﾀDISTRESS LID 05-092-1011(100-312-181)

ｼﾔﾌﾄﾎﾙﾀﾞｰSHAFT HOLDER 05-092-1012(100-312-190)

ﾃﾞｲｽﾄﾚｽﾋﾟﾝDISTRESS PIN 05-092-1013(100-312-200)

ﾃﾞｲｽﾄﾚｽﾊﾞﾈDISTRESS SPRING05-092-1014(100-312-211)

SPｷﾖｳﾒｲﾊﾞｺ �RESONATOR05-093-1011(100-314-600)

ﾊﾟﾈﾙ �PANEL 05-093-1001(100-322-932)

ﾌｲﾙﾀｰ �FILTER05-093-1002�(100-322-940)

SPﾃｰﾌﾟ �SP TAPE05-093-1012(100-322-950)

SPｽﾍﾟｰｻ �SP SPACER 05-093-1013(100-322-960)

ﾗﾊﾞｰｷｰ �RUBBER KEY 05-093-1021(100-322-972)

ﾂﾏﾐ(L) �KNOB (L) 05-093-1031�(100-322-980)

ﾂﾏﾐﾊﾟﾂｷﾝ(L)KNOB GASKET (L)05-093-1032�(100-322-990)

ﾂﾏﾐ(S)�KNOB (S) 05-093-1033(100-323-000)

ﾂﾏﾐﾊﾟﾂｷﾝ(S)KNOB GASKET (S)05-093-1034(100-323-010)

ｿｳｻﾊﾘﾏｰｸ �STICKER FOR OPERATION 05-093-1051(100-323-030)

+-ﾅﾍﾞｾﾑｽBWASHER HEAD SCREW *B* M3X8(000-881-404)

+-ﾅﾍﾞｾﾑｽBWASHER HEAD SCREW *B* M3X8(000-881-404)

FM-8800S/D　 (組)前面ﾊﾟﾈﾙ

FM-8800S/D

M.Nakanishi

14 DEC 200414 DEC 200414 DEC 2004

T.YoshidaH.Kuwamura

FRONT PANEL ASSEMBLY

A

A

C5643-E02-A

ykimura


Ｄ-２


DWG.NO.

MODEL

UNIT

FM-8800S/D

IF-8810/8820 接続箱/DMCｲﾝﾀｰﾌｪｲｽ

JUNCTION BOX/DMC INTERFACE UNIT4 Aug. 2005 4 Aug. 2005 4 Aug. 2005

H.Kuwamura T.Yoshida S.Kubota

IF-8810

IF-8810　only

C5643-E03-A

ｹ-ﾌﾞﾙ(ｸﾐﾋﾝ)CABLE ASSEMBLYDSUB37M-PHX3-L5000(000-151-722)

ｹ-ｽCASE24-003-4001-3(100-299-693)

ﾌﾀLID24-003-4002-3(100-299-703)

ｵｻｴｲﾀFIXING PLATE24-003-4004-1(100-299-711)

ｵｻｴｲﾀAFIXING PLATE A24-003-4006-0(100-303-980)

ｵｻｴｲﾀBFIXING PLATE B24-003-4007-0(100-303-990)

ｶ-ﾄﾞｽﾍﾟ-ｻCARD SPACERKGPS-6RF(000-808-324)

+-ﾅﾍﾞｾﾑｽﾈｼﾞBWASHER HEAD SCREW *B*M3X8 C2700W MBNI2 (000-881-404)

+-ﾊﾞｲﾝﾄﾞｾﾑｽFWASHER HEAD SCREWM4X8 C2700 MBCR2(000-806-407)

WING NUT M4 SUS304SW M4 SUS304PW M4 SUS304

JUNCTIONﾌﾟﾘﾝﾄJUNCTION PCB05P0790 (005-378-280)

IF-8820

I/Fﾌﾟﾘﾝﾄ

I/F PCB

05P0778

(005-378-290)

ykimura


Ｄ-３

S-0

Name Type Dwg. No. Page Interconnection Diagram FM-8800S/D C5642-C01 S-1

General Schematic Diagram FM-8800S/D C5642-K01 S-2 TX/RX(1/4) C5642-K17 S-3 TX/RX(2/4) C5642-K18 S-4 TX/RX(3/4) C5642-K19 S-5 TX/RX(4/4)

05P0774

C5642-K20 S-6 CH70 RX 05P0775 C5642-K21 S-7

DUP RX(1/2) C5642-K23 S-8 DUP RX(2/2) 05P0777 C5642-K24 S-9

PWR 05P0776 C5642-K22 S-10 CPU(1/6) C5642-K11 S-11 CPU(2/6) C5642-K12 S-12 CPU(3/6) C5642-K13 S-13 CPU(4/6) C5642-K14 S-14 CPU(5/6) C5642-K15 S-15 CPU(6/6)

05P0773

C5642-K16 S-16 PANEL 05P0772 C5642-K25 S-17

Junction Box General Schematic Diagram IF-8810 C5642-K02 S-18

DMC Interface General Schematic Diagram IF-8820 C5642-K03 S-19

DMC IF 05P0778 C5642-K26 S-20 Handset

General Schematic Diagram HS-2003 C5642-K04 S-21

Handset 05P0780 C5642-K05 S-22 Remote Station

General Schematic Diagram RB-8800 C5642-K06 S-23

Remote 05P0779 C5642-K09 S-24 TB 05P0782 C5642-K10 S-25

Handset General Schematic Diagram HS-8800 C5642-K07 S-26

HS CONT 05P0781 C5642-K27 S-27 KEY 05P0715 C5642-K28 S-28

Remote Station General Schematic Diagram RB-8810 C5642-K08 S-29

TB 05P0798 C5642-K29 S-30 AC-DC Power Supply PR-240-CE C5003-K04 S-31

General Schematic Diagram FM-8800S (Russian Ver.) C5643-K01 S-32

RTC 05P0804 (Russian Ver.) C5643-K02 S-33

CPU(3/6) C5643-K03 S-34 CPU(4/6)

05P0773 (Russian Ver.) C5643-K04 S-35

Contents of Drawings

MASSkg

NAME

名称

TITLE

INTERCONNECTION DIAGRAM

相互結線図国際VHF無線電話装置

DWG No.

SCALE

DRAWN

APPROVED

CHECKED

D

C

B

A

2 3 4 5 61

FURUNO ELECTRIC CO., LTD.

FM-8800D/S

123456

ANTM-P-5 71 82 9

10CH70 RX ANT

M-P-512

HANDSET

S.GND1PTT SW_N2MIC(H)3MIC(C)4HS SP(H)5HOOK SW_N6

7F.GND8

SPKR

SP(H)1SP(C)2

D-SUB 25P1STROBE_N2D03D14D25D3

D4 6D5 7D6 8D7 924VDC ACK_N 10BUSY 11PE 12

SELECT 13ALF_N 14ERROR_N 15

16SLCT IN_N 17F.GND 180V 19

F.GND 20F.GND 21F.GND 22F.GND 23F.GND 24F.GND 25GND

1DATA_A2DATA_B3CONT4DIST_SW5LINE OUT(H)

LINE I/O(C) 6LINE IN(H) 7

8OV 9

F.GND 10

マイクレセプタクルボックスMIC RECEPTACLE BOX

N.CN.C

TXD(H)TXD(C)RXD(H)RXD(C)

J112345678910

DMC I/FIF-8820

123456789101112131415161718192021222324252627282930313233343536373839404142434445464748

ハンドセットHANDSETHS-8800

1 1 1DATA_A DATA_A DATA_A2 2 2DATA_B DATA_B DATA_B3 3 3CONT CONT CONT4 4 4DIST_SW DIST_SW DIST_SW5 5 5LINE OUT(H) LINE OUT(H) LINE OUT(H)

LINE I/O(C) LINE I/O(C) LINE I/O(C)6 6 6LINE IN(H) LINE IN(H) LINE IN(H)7 7 7

8 8 8OV OV OV9 9 9

F.GND F.GND F.GND10 10 10

TXD(H)TXD(C) 1

234567

ハンドセットHANDSET

1234567

ハンドセットHANDSET


EXT.ALM_N0V

W-MIC1(H)W-MIC1(C)W-SP1(H)W-SP1(C)W-PTT1_N

0V


0V

VDR AF(H)VDR AF(C)

0VDATA_ADATA_B

LINE IN(H)LINE IN(C)LINE OUT(H)LINE OUT(C)

F.GNDN.C

0VDATA_ADATA_B

LINE IN(H)LINE IN(C)LINE OUT(H)LINE OUT(C)

F.GNDN.CN.C

TB2

TB1123

4

キ YELPシロ WHT

アカ REDPキ YEL

クロ BLKPキ YEL

1 112 123 134 14

17181516

9 1910

キ YELダイ ORGアカ REDチャ BRN

アカ REDキ YELクロ BLKキ YELシロ WHTキ YEL

アカ REDキ YELクロ BLKキ YELシロ WHTキ YEL

1

TB2 TB2 TB1 TB2 TB1

P

P

P

P

123

4

キ YELPシロ WHT

アカ REDPキ YEL

クロ BLKPキ YELP

P

P

P

P

外部アラームExt. Alarm

TB1

12345678

TB1

12345678

VDR

*3

ANTENNA FOR T/RT/R用アンテナ

*2

CH70 WR用アンテナANTENNA FOR CH70 WR

*2

D-SUB 37P

*1

*2

*1

TB3 TB3 TB3 TB3

*1

*2

*5

*3*3*3

リモートステーションREMOTE STATIONRB-8800/RB-8810



P

P

P

P

シロ(太) WHT(BIG)クロ(太) BLK(BIG)ミドリ GRN

キ YELダイ ORGアカ RED

P

P

P

P


キ YELダイ ORGアカ RED

*4

TB1

12345678

左と同じSame as

左と同じSame as

TB2

リモートステーションREMOTE STATIONRB-8800/RB-8810*3*5

left left

Same as上に同じ

above


Same as上に同じ

above

DISTRESS MESSAGE CONTROLLER

F.GND


2021222324

遭難警報装置

F.GNDRXD(C)RXD(H)TXD(C)TXD(H)

P

P

キ YELチャ BRNアカ RED

12346

TB1/TB2DMC-5

0.2x2P(5/10/15/20/30m)

ダイ ORG

IV-1.25 *1

NAVIGATIONDEVICE, PLOTTER

航法装置,プロッタ

HANDSETHS-2003

ハンドセット

外部スピーカ

SEM-21Q

EXT. SP

*2

RED RED

BLK BLK

24 VDC

15A

RXD(H)RXD(C)

05S0309*2 終端まで最大50m

*2

終端まで最大50m


*1 CO-SPEVV-SB-C

*4

アオ BLU アオ BLU

アオ BLU

TTYCS-1 MAX. 20m

MAX. 50m TO LAST UNIT

MAX. 50m TO LAST UNIT

*2

*2*2

*2

VHF RADIOTELEPHONE

HS-6000FZ-11 HS-6000FZ-11HS-6000FZ-5 HS-6000FZ-5

チャ BRN

チャ BRN

5678

F.GND

F.GND

F.GND

F.GND

F.GND

PE 保護アース

+-

DCOUT

24 VDCDPYC-2.5

DPYC-1.5ACIN

IN

AC/DC電源AC-DC POWERSUPPLYPR-240-CE

111213141516171819202122

EXT.ALM_N0V


0V0V0V0V0V

P

P

P

P

P

P

232425262728293031323334353637

VDR AF(H)VDR AF(C)DATA_ADATA_B

LINE OUT(H)LINE OUT(C)LINE IN(H)LINE IN(C)W-MIC2(H)W-MIC2(C)W-SP2(H)W-SP2(C)W-PTT2_N

0VF.GND

P

P

P

P

P

P

P

J2123456789101112

J31234567891011121314

P

P

P

P

P

P

P

P

2.8 m

24VDC

アカ REDチャ BRNキ YELダイ ORG

+-+-

+15VDC+15VDC+15VDC+15VDC

NOT USED_1

+15V1 +15V1 +15V1 +15V1

*1

OVDATA_ADATA_BLINE IN(H)LINE IN(C)LINE OUT(H)LINE OUT(C)

12345678

OVDATA_ADATA_BLINE IN(H)LINE IN(C)LINE OUT(H)LINE OUT(C)

TB324VDC(+)24VDC(-)

INIT._N

NOT USED_2

+15VDC

+15VDC

+15VDC

+15VDC

F.GNDF.GNDN.C

TTYCS-1 MAX. 20m *1

05S0309

100-115/

接続箱JUNCTION BOXIF-8810

送受信機TRANSCEIVER UNITFM-8800D/S

IEC61162-1(NMEA)/REMOTE

PRINTER

*1

*1

05S9371,3m

IV-2sq.

IV-1.25sq.

12

+-

シロ WHTクロ BLK

24VDCVCTF0.75x2C,3m

IV-1.25sq.*1

IV-1.25sq.*1

*2

12

+- クロ BLK

プリンタPRINTER

PP-8800

*2

プリンタPRINTER

*2

PP-510 GND

アカ RED

シロ WHT

VCTF0.75x3C,5m,φ7 24VDC

IV-2sq. *1

*2

0.2X2P,φ10.5CO-SPEVV-SB-C

*4

*4*7

*4

*4

*4

CO-SPEVV-SB-C 0.2x5P,φ13.5 MAX. 20m *2

*2


*2


*2ハンドセットHANDSETHS-8800

*2ハンドセットHANDSETHS-8800

*2

*2 *2 *22 3 4

RBD-VHF(B)

IV-1.25sq. *1 IV-1.25sq. *1 IV-1.25sq. *1

*2*2

E.MIYOSHI

TAKAHASHI.T

注記

NOTE

*2

*1）造船所手配*2）オプション*3）最大4台まで接続可能*4）ケーブルクランプで接地*5）終端のユニットでは内部で

*1. SHIPYARD SUPPLY*2. OPTION*3. Max. 4 sets

*5. CONNECT JUMPERS (J2 & J3)

*6. P: TWISTED PAIR CABLE

*7. OPEN-COLLECTOR OUTPUT, MAX. 1A, LESS THAN 50VDC

*7）オープンコレクタ出力、最大1A、耐圧≦50V

17JE-23250-02,3m

05S9312,1.9m

ジャンパー(J2, J3)をONにする。

ON TERMINATED REMOTE STATION.

+5V

*6）P: 撚り対線

Wing Mic Wing MicマイクレセプタクルボックスMIC RECEPTACLE BOX

TB1RBD-VHF(B)

3

200-230 VAC

*4. GROUND THROUGH CABLE CLAMP.

C5642-C01- G

*2

CO-SPEVV-SB-C 0.2x5P,φ13.5 MAX.20m *2

Dec.19,'05

yhatai


Y. Hatai

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ノート

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S-35

fm8800s service manual b6 1-20-09

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