НАВИГАЦИОННЫЙ ЭХОЛОТ Модель F-2000

Данная модель эхолота имеет полноцветный 8-дюймовый ЖК TFT экран повышенной яркости и возможностью выбора цвета фона. Эхосигнал отображается на экране эхолота в цвете устанавливаемом пользователем по выбору из 7 существующих цветов, как альтернатива рельеф дна может отображаться одним цветом. До 4 динамических диапазонов эхосигнала можно установить на выбор для подходящих условий рельефа дна.

Определение типа грунта песок, ил, скала и т.д. по характеру эхограммы на экране эхолота, позволяет судоводителю оперативно оценивать ситуацию при постановке судна на якорь.

Работа в двухчастотном режиме позволяет работать на глубинах от 5 до 1000 метров в 8 поддиапазонах устанавливаемых автоматически или в ручную, клавишей на панели управления производиться выбор устанавливаемого высокочастотного режима (200, 135 или 100 кГц) и низкочастотного (33 или 50 кГц). Возможна установка размерности отсчета глубин в футах и саженях.

Автоматические функции включают выбор диапазона глубины, установки усиления приемника и значений ВАРУ, а так же уровня излучаемой мощности для различных условий сканирования дна без участия пользователя. Имеется возможность перехода в ручной режим управления в ситуациях работы на постоянной глубине или управлении усилением и мощностью по особой необходимости.

Функция ввода пароля защищает устройство и информацию от несанкционированного доступа посторонних лиц.

Уровень мощности излучения передатчика 1 кВт RMS (Макс.) автоматически устанавливается в зависимости от выбранного диапазона глубин. На малых глубинах имеется возможность перевода устройства в ручной режим управления.

Отображение текущих координат ШИРОТА/ДОЛГОТА, температуры воды и сопутствующих данных дата/время возможна при подключении соответствующих датчиков и модулей. Этот тип данных автоматически выдается через порты RS-232C и RS-422 используемого бортового навигационного оборудования, такого как ЭКНИС, РДР и других.
Большая емкость постоянной памяти (flash) позволяет автоматически сохранять данные промера глубин с данными даты и времени до 24 часов.

Сохраненная информация может быть выведена на экран в цифровом и графическом форматах со специальными данными архива записи простым нажатием клавиши, сохраненные данные могут быть перегружены в ПК для дальнейшей обработки и анализа.

Имеется возможность подключения графического принтера к разъему на передней панели для распечатки в монохромном режиме текущих значений эхограмм и промеров глубин.

Скорость протяжки эхограммы может быть выбрана из 3 режимов для увеличения периода просмотра на всем экране без изменения параметров измерения глубины.

Различные функции сигнализации в визуальном и звуковом режимах предупреждают пользователя об изменении глубины, потере или ослаблении эхосигнала грунта, сбое в электропитании.

В стандартном комплекте поставляется блок питания, обеспечивающий питание устройства от судовой сети переменного тока (Модель AC-2000). При обеспечении питания через данный блок, система имеет возможность автоматического перехода на питание от резервного источника в случае обесточивания судовой сети.

Отвечает требованиям резолюции ИМО MSC.74(69) и стандарту MED.

Основные технические характеристики:
Дисплей: 8-дюймовй 7-аналоговых цветов ЖК TFT, VGA
Трандюсер : 50 & 200 кГц (стандарт), 33 & 100 кГц (по заказу), 135 кГц (по заказу)
Диапазоны: 5, 10, 20, 40, 100, 200, 400, 1000 метров (2.5-500 саженей или 20-4000 футов)
Разрешение: 5 мм/м (диапазон 20 м), 0.5 мм/м (диапазон 200 м)
Минимальная глубина: 0.5 м (200 кГц), 1 м (33, 50, 135 кГц)
Мощность излучения: 4 уровня до 1 кВт RMS
Период повторения зондирующих импульсов: 120 до 30/мин.
Точность: Лучше чем ±0.5 метров (диапазон 20 м), ±5m (диапазон 200 м)
Сохранение данных: До 24 часов
Воспроизведение данных: За последние 15 мин., 1, 3, 6, 12 & 24 часа
Скорость протяжки эхограммы: 3 режима
Динамический диапазон эхосигнала: 3, 4, 5, и 6 дБ
Продолжительность воспроизведения: 20 минут
Цвета фона: Темно синий, Черный, Белый
Подавление шумов: 3 уровня
Сигнализация: Малая глубина, Потеря дна, Низкое напряжение питания, Потеря питания/отключение (Звуковая)
Размеры & Вес: (Корпус): 224W X 224H X 102D мм, 3.4 кг с установочным кронштейном. (Сетевой блок питания): 200W X 68H X 140D мм, 0.85 кг
Источник питания: 24 В DC (номинальный) или 110-220 В, 17 Вт (Постоянный ток) или 20 ВА (Переменный ток)
Рабочая температура: -15 до 55˚C, 95% RH (работа), -40˚C (хранение)
Дистанция до магнитного компаса: 1.8 м (Корпус), 2.4 м (кронштейн)
Интерфейс I/O данных: IEC 61162-1(NMEA-0183) через порт RS-232C и RS-422 , и 8-pin I/O
Разъемы DATA
Порт принтера: параллельный, для монохромного принтера по протоколу ESC/P
Датчик температуры: Термодатчик T-200 (встроенный в двухчастотный трандюсер), Соответствует: Резолюции IMO MSC.74(69) и стандарту MED 96/98/EC, Директиве 2002/75/EC
Дополнительно: Модель выносного дисплея RD-300, датчик температуры T-200, GA-280 GPS модуль

ПРИМЕЧАНИЕ: Внесение изменений в технические характеристики согласно стандартам резолюции IMO MSC.74(69) приложение 4 и IEC производиться без предварительных извещений и предупреждений

Echo Sounder Jmc Model F-2000 Oper. & Inst. Manual

Short Description

ECHO SOUNDER JMC F 2000.

Description

Operating, Maintenance& Installation Instructions for

ModelF-2000 Oalid for Syst€mVersion 1.00& Greaier)

TOKYOI5O.OO42’JAPAN CHO,SHIBUYA’KU36 2 ]OOI UOAGAWA (03)3496 (0313461-3606 2074 FAX: PHONE:

ARE CONNECTORS TRANSDUCER THE REARPANEL-MOUNTED EMITTINGEXTREMELYHIGH VOLTAGERADIO-FREQUENCY PULSES.THESE CONNECTORSARE COVERED WITH A SCREW-LOCKEDPROTECTIVERUBBER CAP WHEN THE DELIVERED, IS INITIALLY EQUIPMENT WITH THE TO AVOIDCOMINGINTOCONTACTACCIDENTALLY CAP: PROTECTIVE THE TO PLACE BE SURE PINS, CONNECTOR . OVER THE UNUSED, EXPOSEOCONNECTOR’IF THE IN,OR PLUGGED HASA SINGLETRANSDUCER EQUIPMENT . OVER EACH CONNECTORWHENEVEREXPOSED PINS SUCH AS WHEN EITHER BECOMEEASILYACCESSIBLE, .TRANSDUCER IS UNPLUGGEDFOR INSPECTIONOR AND SERVICING, ATTACHED. LOCKTHECAPWITHTHETWOSCREWS THE ACCURACYOF THE ON-SCREENDEPTH READOUTIS SALINITYDEPTHAND AFFECTEDBY WATERTEMPERATURE, AS WELL AS THE SHIP’S CONDITIONS OTHERUNDERWATER ROLLAND PITCH,HEELANDTRIM. FACTORSINTO TAKE THESE POSSIBLEERROR_CAUSING SUCHAS READOUT, WHENUSINGfHE DEPTH CONSIDERATION APPLICATIONS OR IN SHALLOWAREAS WHEN NAVIGATING IS CRITICAL. DEPTHREADING WHEREACCURATE MAY THE EQUIPMENT DURINGSHALLOWWATEROPERATION, LOCKING BY DEPTH THE ACTUAL TWICE READ OCCASIONALLY .lSECONDBOTTOM ECHO. ONTOTHE WITH THE DIGITALDEPTHREADOUTSHOULDBE COMPARED DATA WITH SOUNDINGS OR THEGRAPHICBOTTOMINDICATION DEPTH. TRUE THE TO DETERMINE PAPERCHARTS IN OFFICIAL ALONEFORDEPTH READOUT ONTHEDIGITAL TOTALRELIANCE BE AVOIDED. MUST AND IS DANGEROUS INFORMATION *1

SeeparAEraph 3.4.2 for more ;nlormation on the secondbottom echo.

lcantt,ued an nert’ Pata)

-2l2 THE ON_SCREEN DRAFTENTERED, 4 . WITH A TRANSDUCER DIGITALREADOUTSHOWSTHE DEPTHFROMTHE WATERLINE ANDNOTFROMTHETRANSDUCER OR FROMTHESHIP’SKEEL. BE TAKENIN USINGTHE GREATCARESHOULD,THEREFORE, WHEN NAVIGATING SHALLOW WATERAREAS. DEPTHREADOUT THE DEPTH REFERENCE TO «SELOW BE SURE TO SET (DBS> TO AVOID ANY It/IISUNDERSTANDING. SURFACE» See paraeraph 4.2 for mote inlormatio’

on transddcer draft.

INDICATION IS SET TO «BELOW WHENTHE DEPTHREFERENCE KEEL OFFSETTO KEEL,»BE SURETO ENTERTHE APPROPRIATE ABOUTTHEDEPTHREADOUT. AVOIDANYMISUNDERSTANDING See paragnph

1.10.8.3 for more information

DO NOTSWITCHTHE EOUIPMENT ON WITHTHETRANSDUCERS OUTOF WATER,SUCHAS WHILETHEVESSELIS DRY-DOCKED, MAYBE DAI’AGED ORTHETRANSDUCER’S CERAMIC CRYSTALS IRREPARABLY. THE DISPLAYCABINETIS NOT WEATHERIZED FOR OUTDOOR INSTALLATIONOR OPERATION.ANY DAMAGE CAUSED, WHETHER DIRECTLYOR INDIRECTLTTHROUGH WATER INTRUSION IS NOT COVEREDBY THE MANUFACTURER’S OR DEALER’SWARRANTY 8. NEITHER THE MANUFACTURER NOR ITS DEALER ls RESPONSIBLEFOR LOSS OF LIFE, PERSONAL INJURY O R DAMAGE TO THE PROPERTYRESULTINGFROM ?I

The depth data to be stored automatically in non-volatile memory for later retrieval/analysis will be in NMEA-0183 (lEC 61162-l) DPT format (depth-below-transducer plus transducer draft and/or keel offset). seeparasraph 6.2for norc information on the stored data format.

To Installer of F-2000 1. Reglstratlonof TtansducerChann€l-LooationAssignments After insta[ation of the transducen, -.

an€ppropria.» . attacb «»T.»11D-:i»y.:1’TJl:f;::l»lf»,l’:l:.#:i. i»‘ll: or rden ylng r appmpriat€ly, tbr ease u;;tuegea fJr maintenance or servicins, an’l

water’ ilo not tu?n the equipment on until the tlansducers sre placed in

tansalucer Channel-IncationAssignments Table’

Hish fteq. (CH-A) Eigh Freq.(CH-B)

Detailed inststlatioD instructions are siven in section 9′

2. Using SKPPERlR 301Digltal DepthRepoaler DeDth outDut data ($PSKPDP/T) rcquired for depth-indicating

rear pa;el &pin I/O DATAconn€ctor (fomard aod afi) on ils The lR 301 bas onl, rwo lransducer locarioo indicator LEDs lhc middle of lhe bul -lh-e in dishl,v Whetr vou svstcm has one tracduccr moubted

bvrbe rR30r’ ttart’rtto ;o iw st»i»g’uch is nolsupported

Drdore wu Do( Th;refore lhe position of the selectedtransducer’ when ibstalled rn-the r n i o r m a ob’ l b r m a L p a l a f l a p b 9 3 4 2 f o r d a l s bc indrated on Ibe lR 3Ol See \untinued oh neit pase)

To Adrninistrator of F-2000 -1.t2

2. Setting a Password Ii is assumedihat normalechosransdeenis showingwith no menuiurned on.

O wt’il» I’otai.g a»* @ «»t two beeDsare hedd. Dressboth

.* @ «,'»i'»*.»»r, @ qnoow A passworo eNry should then show illustrated at right.

Enter the destued password consisting of four (a) numerals, ly pressing the appropdate nume

qJ Frr»ymic-‘kp.sr 1″.**a

Changing or Removing the password

Ifyou wish to chanse the cuEent passwod or rcmove the passwod tn allow free access ro rrr€ menu system, execut€ the folowing steps: (!

Display a password irdtialization

Deptl Foh bansrlucer Face

for Hish r,rcquency/ChaDelA opemrion

,l)r G) i———————r-__-__-___ v \ ‘ ‘ Dlngle tanaducer Hors,nd f-:—___=_:,o»pamie]lansducerHousiiBs)

Edter fhe conect value.

Enter [email protected] value of nrsh Eeq../cnannetArisnsdua. (cottitued

^.»»»»». «l;illl 4.2.2. Entering T.a ns ilucer Drall (co\tihued- 28) Tbe draft cu be enFred sepuareh tor rhe bisb ftequpn.y rransduceraDd tow ftequencylrdsducer. DppendinsoDrhe [email protected] your instala(ion, €nter the same &sJt via the followins sreps when a sinst+housins dual_&equency Eansducer. such as the 706-60/200T or 550-50/200T,is instaled or separate drafts rhcD Iwo kansdurcrsare separalFt)insra Fd @ Highlisht option»l:HtGH FREOUENCY,» andpress

ffihi’l*t.:tl*’r*:r—r:iuHr ti»itiurv «»at fi»‘»1″-;’;;d»‘;;r»;

Light Blue —_—_-Ye owish Grcen —-

,Dtins ihe stroDgest e.bo and the totr! €no

initiJly blue), tli weakestecho’

tbr€shold adjustment consists of suppressBs r-r,» of weik cotor echoe6, such as surtace on Jlowinc only sEong shos to 6hoq up

and shongest echo colors (i e. red, orange show( at dght) ca lot be supFessed’

DISPLAY ENu-s,EcHo DIsPLAY+2:NoR»AL

Adiustlng Echo Threshold Level rbe AIN MENU’ -*»»od$plafnc @.

*-*'». p, !Q; ,»*r»»oro» bvpressrns .fl — *sutmeou » o-OLo *ith a lbrsbold

Tbis turns on an ECHOTHRESH redtv 6. *aretotheisht, asin the*T* b’:»1:l1 «,1*’:l: nlt ‘»J;;:;;;;»;;»;;;s «»J. «a* «»»» the cLent suppresgionlever’ and is initiauv alowins all echocolorsto be displaved — ExamDIe Fieue 4-11 Adjustins F’ho Thr€sholdt-evel

All colo$ a.redisplayed Faho€s of a[ stEngt] levels will be disPlayed

ThEe weal coroB 3r€ suDDres*d- Echoes of . ‘ th;s sftnsth levels win Dot be displayett on eahogram. The thre stmnsest echo colorg caDnot be 6uppressed.

::t l i = New theshold le€t Cm

(cottinued oD ‘ext Pase)

F-2000 Advanc.d Setlings

5. White Line Adjustment 5.1. Introduction bom echoesoffish e * e/hire libe adjsrmenl consisrsofseparating the bohom.*bo mrms orme slrongesr bv supprslDg-lhe other objecrstyinSon or closeto Lhebol Lom in

g-«i’ o» hsh ud otler objects th. *»»;’ ;;#;’#d;»;;»il»i;s that rook i;;»tion is to faclidte qgtectionof nsh echoes i»;. fr; pi;»;;i.h» normal oD the derFci Lo dilficurr are *'».»to*. -a. ;iif»-fi;; ;il «»t’o

-; tne is amitable wheDthe echo displav is set to NoRMA!DTSPLAY eiveD in panezaPh 19.

Adjusting White Llne Level Pres @.

displalng the llAlt< MENu.

H1#TH’.:’15;»‘,iLll*:,S,»;,?ilrn:’,S»»:P»-,’;IT:1,’: the currenl .Xor scsle r, ‘be riebt. The numeric value in the entry 6eld rcpresedts displaved’ to be colors ^-, alowing a[ eclo bottom ana;» ini*rlv iJ, Fisurc 4-13 Adjustins White Line Iavel — Exanple

Initial white line lever

Al1 botiom echo colo$ are displayed. No bottom €cho suppresBionoccu.s

g New wbite lir]e level Can be changed bY

These colors in bottoE echo stflcture will be

pressingCt i al .

*i]1 chanse the bott m sulfa€e illto a thin contou line immediatelv @ — n*»incct As vou pressthe kevrepeatedlnlherclorsthat form the r» o»»it» i lr*t -.a onebv one allowiig the blankareato Mden.rraj8mg be erased m will srm botroE tme rn a the shite line level) Tbis blabl areais popda>lv knowDas lhe \hne recordins echosouder. bottom echocoloN ue indicated blaak oDthe 610r scale’as in th€ The suDDr€ssed rl» t-. -ealest colon carnot be supprcssed’ ..»,»i»ri’J»»i,. Gohtinued ot next Paee)

4.5.2. Adlusting White Line Levet (corti,ued_2/2) @

the spgessed bortomechocoro*, oneat a time. thus l. llJl ndromns the :t:storc blank arca (i. e. lowerhg t>Ie Whit» f,i»» t «»ti Fisure 4 14 q.?i.rt

White Line R4oriting

iFish oh Bottob

th»»»ttiog, uoa ffir6TT,1lii::ff f. 1″***n «»»»»@ to*-ptot»

NOTES: tl t Wbrte Dne tcvet adjustaeht atecrs rhe bot Md shouthdnot b» ‘ohr6ad with e.ho !b,».botd adju;,;»;,;:»;:;»trJ’i-b»;#.oDu (2) TAe last W1itu LDe level used win be stahed D memotv a’d kill be rccalL-.d oa Dext ttuvt tp.

F-2000 AdvaDced seltings

Selecting Transmit Power Levels levelsofhansmilter poweroutputarc availableandcanbe selected automatically anually. The equipment is initially set so that the appmpriate powe! Ievel is natically tically selectedfor the depth range in use.The!€ should norma y be no need to this settins to manual selection.Howeveaunder somespecialbottom conditions, power in shalow water soundinss more pow ihe seaoed u3err may may neeo need more orngs ro to snow show ine seabedecno echorn in hs colors (e.9. yelow, led and orange). To manually select power levels, follow the dure desc bed betow.

ai»rluyirstt'» MAINMENU. Fieue 4’15 Setectins 1>ansnit Power Levels

5r Selecr»s:OUTPUTPOVITEA!v pressing @

or ret I lE). foxo»ed br @. rn* ru*-*.

a POWEROUTPUTsuboenu.as shom at left

Bottom Echo- Example

r,evel2 LishtBlue —-+iil Level3 Yenowisb cleen

Frg]r 4 22 Ac.essinsECHOCOLORSSubmpbu

9INSTALLATIONSETTIl.IGS 2:DEPTHUNIT 3:DYNAMIcRANGE ,l: UTC/LST(ofbet) 5:CLOcKPRESET 6:TEMPERATURE 7:TRANSDUCER LOCATION 8:DATAINPUTPORT g:DATAOUTPUT UTPUTPORT PORT I 1:ECHoCOLORS 1:LEVEL*’ 2:LEVeL—2 3:LEVEL3 4:LEVEL-4 5:LEVEL-€ 6:LEVELS 7″ Shensth Levels ———i

can be selected’fth Q/rEl

Jilfl-_j Additioml N

colors rhat are selectabl€

Advanced setl ngs

4 . 1 0 . 2 . 2 .C h a n g l n gA s s l g n m e n t s O

Selectinsoption»I:ECHO COLORS»opensan ECHOCOLORSsubmenuwith a color scaieconsisting of 10 color samplesto the dght, as in Fis!rc 4-21 The upper seve! color sanples on the scalelepresent the original assigaments’

O Opiions LEVEL-I through LEVEL-? in the submenu rcpresents the seven echo streneth levels. the color sample to the risht of each option is ihe o ginat ‘(at/t), sel€t the level for which vou wish to chanse the assis»-ent. U»i»g NOTE: Nunuic keys cannot be use.tto select the aptions ok the SCHO COLORS’ press @ Repeatedly

‘» a*i»»a cobr showsup

@ R€p€atsteps @ ard @ to changethe color for other shength level me @

tey does not have to be presseil to complete the setting

to reirm to the echogramscreen.

4.10.2.3. Returnlng lo Orlginal Assignments The upper seven color samples on the 1G-color sample scale in Fisue 4-23 indicate the orisinal assisnnenis. ft retrm to the original assisaments, repeat the above sreps €) through @, selecths the coloE in the same order as on the color sample scate. Fisure 4_23 ColorSam!]e Scale

^»,»»»». «l;1lll 4 . 1 0 . 3 . S e l e c t i n gD e p t h R e a d o u tl J n i t s Bcre:n g9pli, readout is initiatly in neters (m). you can rcad depth in fathoms Ir::n. (Fi,l), bmccia (BR) or feei (FT) via the sreps irescibed U»t.*. no*»»»», a»pth information to be stored ir menory for tater off line rehievat -il t» ;’-«t’*» regardlessof the readout unit select€d.Seeparas»aph 6.1 for sreater derail fn-order to operat€ the equipment in comp ance with tMO Resotution MSC.(69)74 Annex 4. the depth readout Indicaflonmust be in metors. | ‘ S€lerr-2:DEP.THUN|T b) prFssins’tt. a DEPTHUN|T submeDuas *»r», shownbelow.Ibeoption.arailableon rhesubmenu hhoutd bpsctf+x!tanaron FielF 4 24 Accessrng DEpTHU tT Submenu

SINSTALLATION SETTINGS 1:ECHOCOLORS

3:DYNAMIC RANGE 4:UTC/LST(otrset) 5:CLOCKPRESET 6:TEMPERATURE 7:TRANSDUCER SETTINGS 8:DATAITPUTPORT g:DATAOUTPUTPORT

Select Ihp dFsirpd unir by prpssrns rhF approprl4p nLrmarickey. For examDtc.Lo -lt

..2:FM.b,*»»». readdep$srnrsrhoms. sFtecl

to comptere the selection,ana

to e*it *,e m»»u moa».

^.»»»»., «5.1133 1 0 . 4 . S e l € c t l n gE c h o D y n a m i cR a n g e s

1 0 . 4 . 1 .I n t r o d u c t i o n Figure4-25 Ilitial EchoDynamicRange are displayed usiDs up to sevetr colols dependins on theil The colo.s that de cunently to show echoes are indicated in the of a color scale at the sdeent left with the top color (initialy blue) bottom end colols (initially red) ting the wealest and stmngest , respectively. The echo dynamic rcfels to how Duch change in echo mwt occur before an echo can displayed in sdjacent strcnser or

rc followitrg selectabledraanic raryes: itB, 4 dB, 5 dB and 6 dB. Selectins a dlnamic rmse will requ e a changein etrensth for atr echoto

displayed in a next sbong color. 3dB: ihjtial ssttiDC. su.itable.lor wo.kins ov»r soft srounds wherp rbc bortom e.bo shows rn weat cotors.’thie drrsmic raDge wiU cauecorbpruise weat echoesro show u strons colors. Suc.e»sfut boLtom rrackins aDd diFral dFprh readour requrFs rne bolrom ccho to be drsptayFdin .cd or oruqe (or uspf assimed colors,.A 3-dB chdC€ representsa changeofapprox. La iimes in srrenel6. : l d B : o p t i o n a l6 e r t i n s . a c o m p r o m i s e b e r w e e n 3 a n d 6 d B . A 4 — d B c h a n s e r e o r e s e n t s a . h a D s c o f a p p r o x .l . 6 t i m e s i n 6 r r e n s r h . 5 dB: optional scring. suirable for op»ration ar mid sd CrFarerdeprhs or over hard srounds. Tlyou experiebccsiruarions wl-ere orheNi»e ;hoes, such as ai-r «.ak bubbles atrd plankLon roncentrarions. show up in srrong.r.otors at normal gaD setLmg6.tl] this range or 6 iIB. A s-dB cbsnge repFsenrs a chansc of apgox. r.8 times in strength. 6dB: optionat €ettinC. l]ry this if 5 dB settins stil pmduces majodry of echoes in Btrons colors. A 6-dB change represents a chang! of apEox. i tin;s in shencrh. mF abot e nlomaaon de6 Dot appu whcn the echo disptar is sct to sboq onlv bp (idually rcd). Ib dispt4 [email protected] in tuI @tae, see .ontour u.a dnelc.oltu gven iD paraelaph 4.9. fotlowirg iDstnctions wil allow ,ou to select the vatue that best suits vou needs.

10.4.2. Dynamlc Rango Setection procedure seiecr»3:DYNAMICRA GE» by Fessins openins a DYNAMICRANGEsubnenu.

Sele€t the desircd ranse by Fessins rhe appmp ate numedc key

2r4.lB 3:5dB 4:6dg

^.»»»»»» «5;i133 4.10.5. Enlering Time Ottset for Local Standard Time (LST) Readout 4 . 1 0 — 5 . 1 .I n t r o d u c t i o n The date and r;mp fpsdoDrsdieplayedar t»besoc€ns upper left comer ue iritialll UTC (.Unitersal TiDp coordibsred)date and rire. To drsDla\ rhe inrornario; .efcrencedlo lour localstandardtime rLST). rhe eppropnarerimF ofT»prr tifte «ot»r descd6;d diffeDencebetweenLST and UTC) via the prccedue in the next pdasraph. Major tihe offsetsfrcm UTC ee listed below: . Bangkok: +7 house ‘ Djakarta: +7 hours . Ho Chi MinI +7 hous ‘ Hong Kong: +8 houls ‘KlalaLumpu: +8 hous .Mumbai Gonbay): +5.5 hou$ . Pefth: +8 hous*1 .Seout: +9 hous . Singapore: +8 hous ‘Sydney: +10 hou»»*1 .Taipei: +8 hou$ . Tokyo: +9 hours ‘ Welinston: +12 hous

*tAd.l t hoDftDatlieht

‘ Honolulu: ‘ New York: ‘ San [email protected]: ‘ Rio de Jane o: ‘ Lima:

‘ Izmir: .Gdan6k: ‘Hambug: . Mdseilles: . Oslo: ‘ Sa*t-Pete.sburs:

+2 hous +lhou*t +l hou*l +l hou*l +1hou*l +3 hours*t

4 . 1 0 . 5 . 2 .T l m e O f f s e t E n t r y P r o c € d u r e O

Selectoption «,|:UTC/LST (oftset)» by pressingnume c n onur,r* » UTC/LST (offset) submenu,ready for entering a time offset. Initiatly «‘@. d offsei of +00 boufs 00 mirutes (+00:00)is enteredto display the UTC time, as shownbelow. Figurc 4-2? EntennsTime OiTsei

1:ECHOCOLORS 2:DEPTHUNIT 3:DYNAMIC MNGE

5:CLOCKPRESET 6:TEMPERATURE 7:TRANSDUCER LOCATION 8:DATAINPUIPORT g:DATAOUTPUT PORT

The + sisr should be initialy hishlighted and blinking. The character highlight can be edited by prcssirs C’ / tl, md shifted to the risht/left by pressinc0 /9.

(a Enter the desiredtime offset. Th€ +/- sic! is switched by pressins Ct @ Pres @

to completetle entry.

to exit the menu mode. @ To retum to the UTC irdication, enter 00:00 at step @. NOTE: Memory ston€le of data is done iD WC datdtine rcadout. Seeptag?aph 6.1 fot sreatet details. O

tegadless of on sreeb LST’

4 — 1 0 . 6 . S e t t i n gD a t e a n d T i m e After [email protected] which rim€ referenceto display, UTC or LST (local standard time). via the prccedincprccedure(paragraph a. r0.5), sei th» a.t» ti*»*u» ir,» i;fi;:il; «,a t-t_V_9y,tt»rto plug in. a cps sensor, be sur€ to enter the correct UTC time onset betore settinq the date and time .

,»»0.* resurr *r,en-cpjjjji»livli J,ii»jibiifi»»i,»fJii8’ii»»,.1.1:lo'» «»‘ CU selp.roprions:ct-ocK pREsET by h.».»i»» -,,—«; ‘.^.. ltil

clocKpREsET submen,. *»0″ r». «;*i,»»,i’5″;fil:»;'»d;» . The date mustbe

9:INSTALLATION SETTINGS l:ECHOCOLORS 2:DEPTHUNIT 3:DYNAlilCRANGE 4:UTC/LST

5:CLOCKPRESET DD/l\r[,ll/YYY hh:mm:ss

! k l o l l z o o so o : o o : o o |\

6:TEMPERATURE 7:TRANSDUCER SETTINGS 8:DATAINPUT PORT g:DATAOUTPUT PORT

ej Ear»r,hcruryen, dar»*i»e ‘ «*» . p**

ro shirtI hc hishhgbrro r hFchtus$errobeedited. rE)

to edit the hishtishted character.

Figure 4,29 Entering Cuaent Date ed TiDe _ Example (EDt€rirs Date)

DD/l\rl\r/YYYY hhimm:ss 22lOA|2OOS 14:30: \[email protected]

to @mplete rhe enhy.

b exit the Denu mode.

need tosetthedate andtime ffij l;L:’fi1i»-lx1::i*,il*:$.Fr#::’xthe 61

^.»»»».» «l;1lll 4.10.7. S€lecting TemperatureReadout Units Wirh an opfional *T-200 rempFrarue *nsor ptugged inro the 4 pin rar puel conncctor «TEMP. or $ilb rhe spmified dual freqrcncl Lrensduc»r’cor»»»t»d» ,;; equipmem is»c_apable oldisplayins surfa.e warpr rcmperarure in dpsrecst elsius («C ) or rstuenncfi r f ,. I he rFmpcratrue dara wi]t bol be srored in memory for larer Felrievst. The folowilg inshuctions will allow you to tun select the two rcadout unirs («C ard «F ).

on/o$ t>le remperatwe display and

Use of sensor other than the T_200 or of a duat fr€quency transducer other than the specified wttt resutt in an Incorrect temperature reidou<.

«ffi, «0»»»,» nume ckev ?i*f.»,1i1i»J:lffi.iTlllf,JJ.i**-» Fieue 4-30 Selectins Tbmperarue Reaitout Unis

7:TRANSDUCER SETr|NGS 8:DATAINPUT PORT g:DAIAOUTPUT PORT

serected sotlat thetemperature readout is tum€don

Select the desircd unir by pressins the apFopnate numeic key.

to compterethe setection,ad

to exit the nenu node.

NOTE: Seleetinc eithef readout Dit tur\s the temperahte display or automaticaltJ.

off Tenperaturc Disptav

Totlm off the tempemtue displarrselect..i:OFF»at *»p @, -a p** @.

^.»»»»». «5;1$l 4.10.8. Making lransducer-Related

parel L the C)o ieval.

4.10.8.1. lntroduction In order to read depth from the keel or to sraphicauy indicate the relative location of the transducer beins used for cD$ent Bounding, you must make the following menu setrinss .elated to the txansducerG) at initial installatron rme. . Registerinstransducerlocations . Enteins keel offset

These settinss are gouped uder option «7:TMNSDUCER SETTINGS’ accessible though MAIN MENU option «gJNSTALLATIONSETTINGS.’ Fieup 4_31 Csinihg tucessrc TRANSDUCERSETTINGSsubmenu

. 1:ECHOCOLORS 2:DEPTHUNIT 3:DY AMICRANGE 4:UTC/LST(offBel) 5:CLOCKPRESET 6:TEMPERATURE

8:DATAINPUTPORT 9:DATAOUTPUT PORT It is assumedthat the TRANSDUCER SETTINGS subnenuis beineaccessed. 4 . 1 0 . 8 . 2 .R o g l s t e r i n gR e l a t i v eT r a n s d u c e rL o c a t i o n s In a system wherc two transducers are instatled, the ship-shaped synbol ( I ) shom just abovethe scale line 0 is desisnedto indicate the rclative location of the hansducd that is beirs used for current soundins. Three sites are s€lectablefo. each tmnsducer:A

To take advdtase of this feature, you must resister the rclative sites of the high and low hansducers via the folowins steps:

1ffi O select» l: LocATroN» lv nre»»ing , ope.insa LocATtoNsubmenu. 1ffi, (for charnelA). *rome option «l:HlcHFREOUENGY O r»»»» @

Select the appmpliate option by pressing the conesponding numeric key.

@ n*»@. ftannDu.d aD nextptge)

F,2000 Advancedseltings Lo calion’ 4.10.8.2. Regfstering Relative Transducer

uTnressms’?ll’ «2:LOwFREOUENGY @ Select @

the conesDonding numeric kev’ Selst the apFopriate option bv pressing

to e»it the menu mode Figue 4-33 RegisteriDgtansducer Sites 😉

See page iii for related information on chamel-transducer assrglmenis

. nrlf:r 2:lillDDLE 3:AFT

4.10.8.3. Entering Keel Offsets

f#:+ri,f :*r*j:as*:i,**-***t Frgure4 34 Ke€lOffset E ample

**tou*, —-t] ‘?ll ‘ openinga KEELoFFsEr submenu br oFFsE? rres»bs select «‘2:KEEL O (I\gule 4 35onnert Paee). SETTIGSPatn +7:TRANSDUCER * u; tilAtNMENUJ9I STALLATION SETTINGS 1ffi, » (channel-A) FREQUENCY ser»cti.goption»t:HIGH @ r»ess O «

uansducer bv repeate’ll’ pressins Enrer lhe comeci Lecl off6el of thp chMnel-A

RFUOV-UG] 1′- BE SURE TO TURN THE EQUIPMENTOFF BEFOREPANEL oR Ac

ADAPTERCONNECTORS. AND MUST NOT 2. SANDPAPERWILL DAMAGETHE CONTACTSURFACE BE USED,

ir-srlilrltc iue boNNEcrloNsFRoM/ To rHE REAR

8.3. Maintenanceon Tho Trensducers (abilitv lo &€ct w-eak Marine sro*th on the trarsducer face wil causethe snsitivitv ro stq lb iostslied is an opponunrtv i» a»»p *». lime \trbcncverthere (* remo» fa’e»»r'».», weed on rhe or rh barnaclcs or for any e7o$ ir,»J*»^, «ti.»* tle face d ltt caie talins sandpaper, piece wood or of using a c»»*ti «»»r,

8 . 4 . S e r v i c i n gt h e E q u l P m € n t qFF lf the eouiomenlshowssj sifl of mafuncrion ‘onrs»t vu.t lquipdent c'[-(F Dsnecroushigh voltagesu» pr»senLibridF ihe cabinet in m attempt to conect the probtem

Thereare no uset-serviceabtelarts i

ssislanc’ open rbe

9. lnslallationlnstructions 9.1. Equipmsnt Cablnet Installation 9 . 1. 1 . G e n e r a l P r e c a ! t i o n e mume The equipment cabinet is constructed to withstaDd the humid dd corosive $ h P » l b o -seo’ r h e r n s i d p o ‘ o p e r a r e d r o b F i r s r s l l F d b u r i s d e s i s n c d ;;;;.;»‘, ‘ a b r r e l rr rs $ n e n l h e i l » r d e c h a x o o m . S c n o u sd a m a g Pw i l l r e s » l t r o r h » c l e c l r o D i c b exposed to salt water sprav or splash. Additionol Reoutuenents For long term troubl+free sewice, the proposed eite for hstaletion should be: . dry, wetl-ventilated and ftee as nuch as possible ftonl shocks and engine vibraiions’ . awav as much as possible from high tenperature outlets (such as exhausi fans aDd ‘i’..t1″*l..ta as rouch as possible fron areas where the unit b lilelv to be constantly exposed to diEct su.light.

9-1.2. Mounting 9 . 1 . 2 . 1 .M o u n t i n gt h e C a b i n e t with the The equiDment cabinet is p marilv deeie]red to be mounted on a tabletop T h t d i m ensions q e i e h r s i n r o r a l 3 a k s approimatelv *oot .d and -«»»ti»JL*U»i behrnd clearancc sulfficiFnt 9-2 P»ovide given in Fieure aF to. ine.aU»iion n**»ary the cabi;et for cablinq ternination and naintenance checks’ its five Using a total of frve appmpriate wood *rews or bolt/nut combinations though siteto the selected (9 bracket ihe nn in diamet€r eacD, secue -«»itine holes Mahe su.e that the mounting suface is strong enough to support the unit against shocks or vibrations that arc lil THE TRANSDUCER BY HOLDING ITS CABLE OR THE 1. DO NOT LIFT INTERNALCABLEWIRINGWILL BE DAMAGEDDUETO ITSWEIGHT. AND MUST IS A DELICATEPIECEOF ELECTRONICS, 2. THE TRANSDUCER NOT BE DROPPEDOR HANDLEDROUGHLY DAMAGETO THE TRANS. DEGRAOATION. DUCERFACECAN RESULTIN SERIOUSPERFORMANCE Us€ of extension cable not approv€d by the manufaclurcr will seriously degradethe transduc€rperformance. Coaxialcablescannotb€ u3ed. 9.2.2. ChooslnglnstallationLocation The transducer location and method of inst€llation will sreatly affect the bottom detecths capability of any echo soundins equipnent. Caetul consideration must be given to selectins the mountins location md decidirs the nethod ol iGtallation that bestsuit the vessel. Air bubblesand turbulent streams senelated by the vesselin motion will nost seriously deflade the bottom trackins peformance. Eacht.aDsducershould be located awayftroEr, and fomard of, the propellers and shafrs, well clear of any water intake/dischargeline, hutl openinss,outlets, sea chests, and any other prcjections alons the hull ihat mishi distub the [email protected] flow of weter arcund the transducers.lt is reconnended that the transducer be located on the side where the ship’s propelleN witl move donnwards to prevent them fmm pushins air bubblesup asainst the hull.

. Inside-the-hullmountingwill causea seriousimpedancemlsmatchbetween the transducerand lhe transceiver, Tho manufacturerwill nol guaaantee lf Bucha mountingmothodis employed. depthdelectionperformance, . Do nol paintlhe transducerface,or performance degradatlon will r€sult. Althoush the approp ate location depends on the t>?e of hul md cruising speetu, a practical choice for a tust hansducer will be somewhere between 1/3 and 1/2 of the vessel’s lensth fmm the fore. A second transducer may be mounted in the sJt th dofthe Each transducer should be installed on, or close to, the veseefs centerline. On deep keeled vessels, cde nust be taken to eGure that the energy beam (paragraph 9.2.3) of the transducer will not be blocked by the keel. IlleplLfulq-lbqtcellqgKliEjqbefe4l be sue to peasure. and take a note ol the keel offset (distance fmm ihe tlansducer face to-the keel in vertical plane) at this step. See parasraph 4.10.8.3 for related There should be sufticient space irside the hu]l to alow access to the trDsducer housin& cable, stuffins tube, et . 86

The equipnent is desisned to operat€ with the folowirs harsducers supplied by the manufacturer, or cd be configured to work into existing hansduce* in a rctrofit situation with appropriate matched bansceiver boards instaled. ‘ Dual lrequency:

570-50/200T dual ftequency transduce. in single ABS hou6ing,with bearo ansles of 14′ X20′ at 50 kHz and 7′ at 200 kHz. Power rating: 1kW P,.i1s, Cable length: 15 meters stmdrd 706-50/200T dual frequency transducer ir sinsle broDze \»e housing, with beam ansles of 14″ X20″ at 50 kHz md 7″ at 200 kHz. Power mtirgr lkw RMS, Cable length: 15 meters standad

‘ Sinsle Frcquency: l)Te 570-50 50 kHz sinste ftequency tmnsducer in ABS housins, with beam aDsle ol 12’ . Povr$ rating: 1 kW p,Ms Cable length: 15 meters (33 meters for . OEM nodel) . Sinsle hequency:

T)»e 57l)-200 200 kHz single tuequency transducer in ABS housing, with beam angle of 4.5″ . Power rating: t LW p,Ms Cable length: 15 meters

. Sinsl€ Flequency: STN ATLAS sw 6016 100 kHz (deale/user+upplied, new or retmfit installation) Power ratins: 200W RMSCable length: 33 neters . Single Frequency: r35 kHz (d€aler/us€r-supplied, new or rehofit installatio . Sinsle Frequency: ELAC LSE 297 50 kHz sinsle frequency trmsducer Power mtins: 200W RMs Cable lensth: 33 netels . Sinsle Frequency: ELAC LSE 313 200 kHz sinsle frequency hansducer Power nting: 200W xlrs Cable leneth: 33 meters ‘t.

USE OF TRANSDUCEROTHERTHAN THE ABOVE CAN RESULTIN EITHER DAiIAGE TO THE TRANSDUCER/TRANSCEIVER OR EXTREMELYPOOR DEPTHDETECTIONPERFORMANCE. PLACED DO NOTSWITCHTHEEOUIPMENT ON UNTILTHETRANSDUCERSARE CAN RESULT. INTO WATER.OR DAMAGETO THECERAiIICCRYSTALS

Dof B4 face ried

To help the user identify high and low frequency transduce13easlly atter they are installed, mark each plug approprlately or attach to each plug a suitable lag wlth an approprlate lD (e.9. 200K/CH-A o.50K/CH-B), The dimensions of matched transducers de siveD in the folowing pages. For installation in a steet-hulled vessel,the user (o! the shipyard) must desi$ and Fepare an appr.op ate housing/blister that may have to be certfied by the ship’s classiffcation societyor a dotified body to comply with the relevant speciEcations.

Fiell>e 9 4 \»e 570-50/200T Dual Frcquency Tlansducer (excludins Steel HoEirs/Blister )

Housins mat€risl: ABS ‘4×43 nm (50kHz) . 65 nm (200kHz) B€amwidths: .14’x20′ (50kHz) .7’ (200kHz) Cablelensth: 15n

NOTERAIARSANICS IIUALFREOUENCy TRANSTUCER : 50 / 200 KH2 FREAUENCY STANIARII TRANSTUCER VITH l$ CASLE(9,4in,tu) lrse of a 706-50/200Ttransducer obtained Irom RadaEonics, Inc. o. f.om of lts dealars will aesult in an incorrect water t€mperature rcadout 88

Fielre 9_5 lvpes 570 50 & 570-200 Single Frequencyllansducers (excludiDsSreerHousins/Blister) Housins natedsl: ABS Elehent size:60 mn Beam widihs: . 12″ (5?0-50) . 4.5′(5?0.-200) Cable lensth: 15m (33n for OEM)

CORD POLARITYWILL BLOW THE FUSE POWER REVERSINGTHE DC

lNTorHE cABINEToR THEAc rHE coRD ls PLUGGEo

ADAPTER. EVEN IF THE UNIT IS SWITCHED OFF. DC Connections via Ac-2000 (Stardard Confisuration) The folowins two types of 3 5 meter twc

. DC Backup Cable (M402 PW01) to connect between the AC-2000 and the ship s D c b a c l u p b a L r e r ys y s r e r nT h i s c a b l ei 6 t e r m i n a r p dI n a 3 h o l e p l u c a l o n e e n d ‘ s n d o p e D * n d e d g t t h e o r h e r e n d ( q t h 2 l n s u l a l e d ‘ o n d u c r o r sa o d b a r e s l u e l d . DC outpui cabte (M402-PW02) tn connect between the displav cabinet and the AC-2000. This cabte is terminated in a 3 hole plus at both ends The above @nnections are illustrated in Fisure 9-9. O Connect the DC BacLup Cable (M402-PW0r) terminals. as follows:

to the ship’s DC backup batterJs

. Red (or white) conductor to positive (+) terminal (11 to 40 VDc) ‘ Black conductor to negative (-) terminal ‘ Shield (braid, c1€eri to ship’s earth-gounding point the @ Push the plus into the left-hand 3-pin rcceptacle marked «BKUP» on plus bodv on the rins the coupling to tighten AC-2000. Be sure (M402-PW02) into the 3 piD L€ceptacle @ Plus one end of the DC Output Cable nark€d «POWER’on the equipm€ilt’s red panel’ and the other plug of the cable into the risht ha.d 3 pin receptactemarked «DC OUTPUT’on the AG2000 Be sure to tighten th€ coupling dns on the plus bodv.

D ect DC Connections to Ship’s DC Power Souce lf there is no Ac-power soufte available on the vessel’ coDnect the equipment’s dc input dircctly to the ship’s DC power supplv and eerth telminals, using the DC Backup Cable (M402 Pwo O c o n n e n l h e . a b l e s . o n d u c L o r sa s f o l l o w s : . R e d\ o r w b i r e rc o n d u c t otro p o s i l i t e ( + )r F r m i n a l r l l r o 4 0 V D C ) to negative (-) terninal ‘ Shield (braid, glee

to ship’s earth point

€) Plus the othe. end of the cable irto the 3 pin receptacle ndked » POWER’ on the equipment’s rear panel. Be sure to tisht€n the couplhg rirs on the plug bodl

9.3.2.3. ACGonnecllons A $-meter AC power cod (pdt # M402-PW03) is normaly supplied with the equpment. If you instalation rcquircs a longer cable, a suitable lensth of th$e-conductor @d, terninated in a S hole female plus, such as the one shom below, must be Fepared by the user If you plan to operate ftoln a 220 VAC sourae, be srre to use a cord with an appropdate insrnation voltag€ mting. Connect the thrce conductoH of the cord as fouows: . Conductd L («live) i, «hot» teminal ofAC power outlet . Conductor N («neutral ) to «neubat» teminal ofAC power outtet . Conductor GND (eround to edth smud line ofAC power ou et Conductors L and N may be reversed without damase to rhe equipmenr it the power souce is of a sinsl+phase AC systen, but an increased hum noise levet may rcsult. CONDUCTOR GI.ID MUST BE CONNECTED TO THE SHIP’S EARTH GROUND TO PREVENT AN ELECTRICAL SHOCK HAZARD. Figue9-11

AC Power Cord M4O2-PW03

Plug (nates with IEC 302C14) ——t

9.3.2.4. Power Cord Routing Tb minimize the chance of pickins up exhaneous electricat interference, it is hishly recoromended that the power cord be coDected diect to the ship,s power source, md not via other terminsls or power dishibution board thar se used in common with orher otr-boed elechonics. Ideally, the equipment cabinet should be powered by an independent pow€r supply for best results.

9.3.2.5. Installing the Fuse AN INCORRECTLY RATED FUSE OR INCORRECT TYPE FUSE WILL BLOW AT POWER_UP OR WILL NOT PROTECT THE EQUIPMENT IN THE REMOTE EVENT OF A TROUBLE OVERLOADING ITS POWER SUPPLY. .

Fuse mtitrgs le red panel fuse holder marked «FUSE.» The appropdate fuse $tins dependBon the nominat power supply voltage as follows: . 5A (5 amperes)for operation off 12 \DC nominal ‘ 3A (3 ampercs) for opemtioD otr24 VDC nominal (includins 2’lv fromAc 2000) . 2A (2 amperes) for opention otr 32 \DC nominal Two pieces of each mting are sepeately supplied. Remove the fuse cap, instal the torectly rated use in place, and replace the cap.

Fuse raiinss for installation with power coDnections via AC-2000 AC adapter . AC Fuses T u o p r e . e so f I a m p e r e r 1 A . r > ? e 5 2 0 m m )i D s ea r » a b e a d j i n s l a l l e dr b t h e l u s e nasizine in the AC power nil;r/recepraclF [email protected] mffked FUSE lA)(2 (onF in rhp»‘live or «hor’ iin», the otbcr in rh» neulral line) shen the AC-2000 adapter is iritialy delivered. Tozain accessto the hse1 fot [email protected] putposes, pryapen the [email protected] with a llat blade (s-10 nn widd Mw diver ot a similar [email protected] placed iDide tAe tab poltio4 pullins: out the fuse masazine as illusbated belov. FORCING-OPEN WITH A StuxtLL BLADE TOOL CAN DAMAGE TEE TAB. Figft

9-12 Gai.insAccesstoAC Line Fu6es Power Filter/Raeptacle

Blah __ 1A tu6e in ftubal

14 tuse in live (hot) line

Instatl the folowing tuses ir tle tuse holder oD tle AC adapter case and on tle display cabinefs rcar panel: ‘ 5A in fuse holder on AC 2000 ailapter’s case (normally installed on deliverv) — 3A in fuse holder on cabineCs rcar panel (ratins fof 24 \DC frcm AC-2000)

9.3.2.6. Grounding the Equipment Cablnet

Fisue 9 13 Grcud lbminal

Tle display cabiier. wbich is electroslaticallv coated insidc, can be Srounded Lo tbe lessels eartn grouo wirhour grounding LhebeSalivc line of I he stups powe’ to ir is rcquircd. or deslable ri»».ln -i’h;’;i*;’;i *EMC «ii,»rio*»*1″»» ror safetj reasons or ;;;; toom rhe wing-Dur’frtted gmund -t.*t i».»ti»»»», ‘t» reu panel to an appropriar€ earEh i»»-«ii»J «i.tt» vessel Jsine a Lhicl wue l’be sround «-«J1″ * p;ssible ro reducerbe chance be a» ;;sho’,ld «hof [rom olhFr electronrcs’ of picLrng up intcrf»rencc * EMC = electmmasetic

Conn€ction3 to Transducers

(550-50/200T) 9.3.3.1. Connections to Dual Frequency Transducer Introduction 6gule below’ Tbe trab6ducer cable is of &+onducror shielded tlTe as ilusbated in the *ithoul @nnecrorterbinati;; The cable bus( be terminared ib a «»i «,ool»atr»» plus(HS2lP 7r 6eparatelv supplied «»»»1u t»»iit» i»»1″:r'»id pio TRANSDUCERSrcmptacla on the rear paoel a ruble Forcom»ctionstolhetso3

l[ti’ll-;;*g. *X*.t;p*,-‘,ii,;irf gx;!#u*:i*l—,* at ihe oiher e.d, aDd is desisned to convert

*.r*]»:roti*-‘.’t»i.ltiul»l»;'»:’;l’*.:1’i;: «»i*J:’f#’,».»»».x the termination of the built-in

Conduct r Identification and Soldedne to Plus tust od Disassemblerhp plus ( HS21P 7). s[de ths Dlus shen Gousi]d9 ov€r:th€ cqye prn rhe to seveD cable ol the re sisDal wiles and 2 dratn wires) *rJ»» tt» «o»au»** t€rminals on the Plus body as fo ows: Fieue 9-14 Idenhlvins Conducrors ofDual F!€quencv tanBducer Cabre DFORBLUE/SIACKPAIR

(coDtihDed an next paee)

9.3.3.1, Connections to Dual Frequency Transduc.r (conti’ued- 2/s) FiglE 9_15 TbrminatiDg Conducto$ ofDual Frequency Tlansducer Cable

lko pairs of shi€lded conducto$ ue connectedto the transducer oystals inside the housins, and must be corectly identifed beforethey can be solderedto the plus. ‘ Bhe/Btack pair: intemally connectedto 50 kHz $ystal ‘ Yellow/Blackpair: intemaly connected to 200kHz crysial

Brown and white conductors are int€nally connected to the themistor temperature sensor embeddedin the traisducer housins. See below Model 570-50/200Tlransducers available dir€cl from Radarsonics lnc. or its dealers have a thermistor sensor of different characteristics bullt In that is not compalible wlth the equipment hardware. lJsing such a transducer will result in an incorrect lemperature reading. Alter disassemblinsthe plus and passine the couplins rins over the cable, soldu the conductorsMd ilrains io the pins on the plug body,as folows: ‘ Blue ofblue/black pair . Black of blue/black pair . Drair (shielo ofblue/btack pair

topin# I (50 kHz tmnsmit/rcceive) to pir# 2 (50 kHz transnith€eive) topin#7(ground

‘ Yelow of yelow/black pair to pin # 3 (200 kHz bansnit/rcceive) . Black of yetlow/black pair to pin# 4 (200 kHz bmsmit/rcceive) . Dmin (shield of yellow/black pair t o p i n # 7 ( c r o u n d ) ‘ Brown ‘ White

to piD # 5 (tebperatue t pin # 6 (tedperatue

sensor input) senEor input)

Exchanglng lhe two black conductors will result in extremely poor depth performance or no echo reception. rr)

\coDtinDed ah hext paee)

9.3.3.1. Connections lo Dual Frequency Transduc.r

Pins # 1 and # 2, @mected to 50 kHz trDsnittea arc electrically balanced dd the comections to these pins may be revelsed without affecting trdsducer performance. Pins # 3 and # 4, conn€cted to 200 kHz bmsmitter, are elect cally balanced md the connections to these pins may be revened witlout affecting hansducer perfornaDce. Pins # 5 and # 6, @mected to enbedded temperatue sensor, arc not poldized, and connections to these pins may be reveBed witlout affecting temperature readout.

Carc should be takeD to enslE that no shay stranils of wire or no excess solder on my pin touch the inside walls of the plug shef when the plug body is irsoted into the sh€ll. Assenble the plus, tishtenins the screws firmly. The hansducer cable can now be plugged into the 7-pin mal€ t’?e receptacle (HS21R-7) on the cable adapte.. Connectine Cable Adapter to Transducer Receptacles on Ree Panel Fie!re 9’16

The two 3-hole plugB of the cable adapter are labeled «CH-A» (channel A) for high Sequency cornections, md «CH-a» (channel B) for low ftequency conl€tions. their mating receptacles are insta ed on t>le rear panel, as shown at right. The upper receptacle is asBign€d channel A (CH-A), md the lower [email protected], chDnel B

#2 (cND) Push the 200KHz plus into the CH-A [email protected], md the 50KHz plus into the CH-B reeptacle, as Sclew the couplins fire of each plug onto the threaded part of t]le re.eptacle, md tighten it. #A (in/our) Receptacle Pin Assielments . Pin No. O: . Pin No. @: ‘ Pin No. @:

tansmitter Output/Receiver Input cabiner cround (isolated ftoh power line) tdsmitter Output/Receivo Input

DO NOTTUR THEEQUIPMENT ON WITHTHETRANSDUCER PLACEDIN THE AIR, OR DAMAGETO THE TRANSDUCER CRYSTALS WILL RESULT (co’tih\ed

9.3.3.1. Conn6ctlons to Dual Frequency Transducet (co’tinued-1/5) tansducer

After imtallation of the tlansdDcers, register the assisned channel, frequency and mounting loation of each transducer in the table below so that the opentor can te[ which trdsducer is in use for current soundinsTable 9_1 Transducer Channel Lmation Assienments Thble Mounting Itratior Operating Chmnel