rdAG12-8(H) Analog Fitar Dijital

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Ƙayyadaddun bayanai

• Samfura: RDAG12-8(H)
• Mai ƙera: ACCES I/O Products Inc
• Adireshin: 10623 Roselle Street, San Diego, CA 92121
• Waya: (858)550-9559
• Saukewa: (858)550-7322

Bayanin samfur

RDAG12-8(H) samfur ne na ACCES I/O Products
Inc. An tsara shi tare da amintacce da aiki a hankali don
aikace-aikace daban-daban.

Umarnin Amfani da samfur

Babi na 1: Gabatarwa

Bayani:

RDAG12-8(H) na'ura ce da ta dace wacce ke ba da shigarwa da yawa
da ayyukan fitarwa don aikace-aikacenku.

Ƙayyadaddun bayanai:

Na'urar tana da ƙaƙƙarfan ƙira kuma tana tallafawa iri-iri
madaidaitan masana'antu don haɗin kai mara kyau.

Karin Bayani A: Abubuwan Shawarwari

Gabatarwa:

Wannan sashe yana ba da haske game da yanayin aikace-aikacen
inda za a iya amfani da rdAG12-8(H) yadda ya kamata.

Daidaitaccen Sigina Daban-daban:

Na'urar tana goyan bayan daidaitattun sigina na banbanta don ingantawa
sigina mutunci da kuma rigakafin amo.

Isar da Bayanan RS485:

Hakanan ya haɗa da tallafi don watsa bayanan RS485, kunnawa
amintaccen sadarwar bayanai a cikin mahallin masana'antu.

Karin Bayani na B: La'akarin thermal

Wannan sashe yana tattauna la'akari da thermal don tabbatar da mafi kyau
aiki da tsawon rayuwa na RDAG12-8(H) ƙarƙashin daban-daban
yanayin zafi.

FAQ

Q: Menene kewayon garanti na RDAG12-8(H)?

A: Na'urar ta zo tare da cikakken garanti inda aka dawo
za a gyara ko musanya raka'a bisa ga ra'ayin ACCES, tabbatarwa
abokin ciniki gamsuwa.

Tambaya: Ta yaya zan iya neman sabis ko tallafi don
RDAG12-8(H)?

A: Don sabis ko tambayoyin tallafi, zaku iya tuntuɓar ACCES
I/O Products Inc ta hanyar bayanin tuntuɓar su da aka bayar a cikin
manual.

"'

ACCES I/O rdAG12-8(H) Samu Magana
ACCES I/O PRODUCTS INC 10623 Roselle Street, San Diego, CA 92121 TEL (858)550-9559 FAX (858)550-7322
MISALI RDAG12-8(H) MANUFAR MAI AMFANI

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FILESaukewa: MRDAG12-8H.Bc
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ACCES I/O rdAG12-8(H) Samu Magana

Sanarwa
An ba da bayanin da ke cikin wannan takaddar don tunani kawai. ACCES ba ta ɗaukar kowane alhakin da ya taso daga aikace-aikacen ko amfani da bayanai ko samfuran da aka bayyana a nan. Wannan daftarin aiki na iya ƙunsar ko bayanin bayanai da samfuran da ke kare haƙƙin mallaka ko haƙƙin mallaka kuma baya isar da kowane lasisi ƙarƙashin haƙƙin haƙƙin mallaka na ACCES, ko haƙƙin wasu.
IBM PC, PC/XT, da PC/AT alamun kasuwanci ne masu rijista na Kamfanin Injin Kasuwanci na Duniya.
An buga a Amurka. Haƙƙin mallaka 2000 ta ACCES I/O Products Inc, 10623 Roselle Street, San Diego, CA 92121. Duk haƙƙin mallaka.

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ACCES I/O rdAG12-8(H) Samu Magana

Garanti
Kafin jigilar kaya, ana bincika kayan aikin ACCES sosai kuma ana gwada su zuwa takamaiman ƙayyadaddun bayanai. Koyaya, idan gazawar kayan aiki ta faru, ACCES tana tabbatar wa abokan cinikinta cewa za a sami sabis na gaggawa da tallafi. Duk kayan aikin da ACCES suka ƙera waɗanda aka gano ba su da lahani za a gyara su ko a maye su bisa la'akari masu zuwa.
Sharuɗɗa da Sharuɗɗa
Idan ana zargin naúrar da gazawa, tuntuɓi Sashen Sabis na Abokin Ciniki na ACCES. Yi shiri don ba da lambar ƙirar naúrar, lambar serial, da bayanin alamar gazawa. Muna iya ba da shawarar wasu gwaje-gwaje masu sauƙi don tabbatar da gazawar. Za mu sanya lambar izini na dawowa (RMA) wacce dole ne ta bayyana akan alamar fakitin dawowa. Duk raka'a/bangaren yakamata a cika su da kyau don sarrafawa kuma a dawo dasu tare da an riga an biya kaya zuwa cibiyar sabis na ACCES, kuma za'a mayar da su zuwa wurin abokin ciniki/masu amfani da kaya da aka rigaya aka biya kuma a biya su.
Rufewa
Shekaru Uku Na Farko: Za a gyara naúrar/ɓangaren da aka dawo da/ko maye gurbinsu a zaɓi na ACCES ba tare da cajin aiki ko sassan da ba a keɓe ta garanti ba. Garanti yana farawa tare da jigilar kayan aiki.
Shekaru masu zuwa: A duk tsawon rayuwar kayan aikin ku, ACCES a shirye take don ba da sabis na kan layi ko cikin shuka a farashi mai ma'ana kwatankwacin na sauran masana'antun a cikin masana'antar.
Kayan ACCES Ba Ya Kera su
Kayan aikin da aka bayar amma ba ACCES ya kera su ba suna da garanti kuma za a gyara su bisa ga sharuɗɗa da sharuɗɗan garantin masana'antun kayan aiki.
Gabaɗaya
A ƙarƙashin wannan Garanti, alhakin ACCES yana iyakance ga maye gurbin, gyarawa ko bayar da kiredit (a shawarar ACCES) ga kowane samfuran da aka tabbatar da rashin lahani yayin lokacin garanti. Babu wani hali da ACCES ke da alhakin lalacewa ko lalacewa ta musamman da ta taso daga amfani ko rashin amfani da samfurin mu. Abokin ciniki yana da alhakin duk cajin da aka samu ta hanyar gyare-gyare ko ƙari ga kayan aikin ACCES da ACCES ba ta amince da su a rubuce ba ko, idan a cikin ra'ayi na ACCES kayan aikin sun kasance marasa amfani. "Amfani mara kyau" don dalilai na wannan garanti an bayyana shi azaman duk wani amfani da aka fallasa kayan aikin zuwa gareshi ban da ƙayyadaddun amfani ko aka yi niyya kamar yadda shaida ta siye ko wakilcin tallace-tallace. Baya ga abin da ke sama, babu wani garanti, bayyana ko bayyanawa, da zai shafi kowane irin kayan aikin da ACCES ke samarwa ko siyar.
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ACCES I/O rdAG12-8(H) Samu Magana
Teburin Abubuwan Ciki
Babi na 1: Gabatarwa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 Bayani. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 Takaddun bayanai. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
Babi na 2: Shigarwa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 Shigar CD. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 An Ƙirƙirar Kuɗi na Kan Hard Disk. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1 Farawa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3 Daidaitawa. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6 Shigarwa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6 Haɗin Shiga / Fitarwa Fil. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
Babi na 3: Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Gabaɗaya. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Tsarin Umurni . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1 Ayyukan Umurni . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3 Lambobin Kuskure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
Karin Bayani A: Abubuwan Shawarwari . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1 Gabatarwa . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1 Daidaitaccen Sigina Daban-daban. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1 RS485 watsa bayanai. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-3
Karin Bayani na B: La'akarin thermal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1

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ACCES I/O rdAG12-8(H) Samu Magana
Jerin Figures
Hoto 1-1: rdAG12-8 Tsare-tsare. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Shafi na 1-6 Hoto 1-2: RDAG12-8 Hoton Tazarar Ramin. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Shafi na 1-7 Hoto 2-1: Sauƙaƙe Tsari don Voltage da Fitar Ruwa na Yanzu. . . . . . . . . . . Shafi na 2-9 Hoto A-1: ​​Yawanci RS485 Cibiyar Sadarwar Waya Mai Waya Biyu. . . . . . . . . . . . . . . . . . . . . . Shafi A-3
Jerin Tables
Tebur 2-1: 50 Ayyukan Mai Haɗi na Pin. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Shafi na 2-7 Tebur 3-1: RDAG12-8 Jerin umarni. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Shafi na 3-2 Tebur A-1: ​​Haɗi Tsakanin Na'urorin RS422 Biyu. . . . . . . . . . . . . . . . . . . . . . . . Shafi A-1 Teburin A-2: Takaitaccen Takaitaccen Bayanin RS422. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Shafi A-2

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ACCES I/O rdAG12-8(H) Samu Magana
Babi na 1: Gabatarwa
Fasaloli · Fitowar Analog Mai Nisa da Raka'a I/O na Dijital tare da Serial RS485 mai ware Opto
Interface don ɗaukar Kwamfuta · Takwas na 12-Bit Analog na yanzu (4-20mA) da Vol.tage Fitarwa · Software Zaɓaɓɓen Voltage Matsakaicin 0-5V, 0-10V, ± 5V · Ƙarƙashin Ƙarfin Ƙarfin Ƙarfi da Ƙarfafa Ƙarfafa Samfuran Samfuran Analog · Ƙirar Bakwai na Dijital I/O An Kafa su akan Bit-by-Bit Tushen azaman ko dai abubuwan shigarwa ko Babban-
Abubuwan da ake fitarwa na Yanzu · Haɗin Filin da Aka Cimma ta Tashar Tashar Matsala Mai Cire 50-Fin · Akan 16-bit 8031 ​​Mai Rarraba Microcontroller · Duk Shirye-shiryen da Daidaitawa a cikin Software, Babu Canja zuwa Saita. Akwai Jumpers zuwa
By-Pass Opto-Isolators idan Ana so · Kariyar NEMA4 don Mummunan yanayi da muhallin ruwa don ƙarancin-
Samfurin Ƙarfi · Ƙarfe T-Box mai Kariya don Samfurin Ƙarfin Ƙarfi
Bayani
RDAG12-8 mai hankali ne, tashoshi 8, naúrar mai canza dijital-zuwa-analog wanda ke sadarwa tare da kwamfutar mai masaukin baki ta hanyar EIA RS-485, Half-Duplex, daidaitattun sadarwa. ASCII tushen umarni/ka'idar amsa suna ba da izinin sadarwa tare da kusan kowace tsarin kwamfuta. RDAG12-8 ɗaya ne daga cikin jerin Pods masu hankali na nesa da ake kira "ReMOTE ACCES Series". Yawancin kamar 32 REMOTE ACCES Series Pods (ko wasu na'urorin RS485) ana iya haɗa su akan hanyar sadarwar RS485 multidrop guda biyu ko huɗu. Ana iya amfani da masu maimaita RS485 don tsawaita adadin Pods akan hanyar sadarwa. Kowace naúra tana da adireshi na musamman. Sadarwa yana amfani da ka'idar master/bayi wanda Pod yayi magana kawai idan kwamfutar ta yi tambaya.
80C310 Dallas microcontroller (tare da 32k x 8 rago RAM, 32K ragowa maras canzawa EEPROM, da agogon mai ƙidayar lokaci) yana ba rdAG12-8 iyawa da haɓakar da ake tsammanin daga tsarin sarrafawa na zamani. RDAG12-8 ya ƙunshi ƙananan wutar lantarki na CMOS, mai karɓa/mai watsawa wanda ke keɓantacce, da na'urorin sanyaya wuta don keɓantaccen wutar gida da waje. Yana iya aiki a farashin baud har zuwa 57.6 Kbaud da nisa har zuwa ƙafa 4000 tare da ƙananan igiyoyin murɗaɗɗen igiyoyi, kamar Belden #9841 ko makamancin haka. Ana iya adana bayanan da Pod ɗin ke tattarawa a cikin RAM na gida kuma ana iya samun dama ga su daga baya ta tashar tashar kwamfutar. Wannan yana sauƙaƙe yanayin aiki na Pod kadai.

Bayanan Bayani na MRDAG12-8H.Bc
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ACCES I/O rdAG12-8(H) Samu Magana
Bayanan Bayani na RDAG12-8
Duk shirye-shirye na RDAG12-8 yana cikin software na tushen ASCII. Tsarin tushen ASCII yana ba ku damar rubuta aikace-aikace a cikin kowane babban yare wanda ke goyan bayan ayyukan kirtani ASCII.
Module, ko Pod, adireshi ana iya tsara shi daga 00 zuwa FF hex kuma duk adireshin da aka sanya ana adana shi a cikin EEPROM kuma ana amfani dashi azaman adireshin tsoho a Power-ON na gaba. Hakazalika, ana iya tsara kuɗin baud ɗin don 1200, 2400, 4800, 9600, 14400, 19200, 28800, da 57600. Ana adana kuɗin baud ɗin a cikin EEPROM kuma ana amfani da shi azaman tsoho a Power-ON na gaba.
Abubuwan Analog Waɗannan raka'o'in sun ƙunshi masu canzawa na dijital-zuwa-analog (DACs) guda takwas masu zaman kansu 12-bit, kuma ampliifiers don voltage fitarwa da voltage-zuwa-yanzu juzu'i. Ana iya sabunta DACs a cikin yanayin tashar tashoshi ko a lokaci guda. Akwai tashoshi takwas na voltage fitarwa da tashoshi takwas na kyauta don 4-20mA fitarwa na yanzu. Abubuwan da aka fitar voltage jeri ne software zažužžukan. Ana yin calibration ta software. Ana adana madaidaitan ƙirar masana'anta a cikin ƙwaƙwalwar EEPROM kuma ana iya sabuntawa ta hanyar cire haɗin wayar I/O da shigar da yanayin daidaita software. Model rdAG12-8 na iya samar da abubuwan analog har zuwa 5mA akan voltage jeri na 0-5V, ± 5V, da 0-10V. Ta hanyar rubuta ƙididdiga masu ma'ana na tsarin igiyar ruwa da ake so a cikin buffers da loda masu buffers a cikin DAC a ƙimar shirye-shirye (31-6,000Hz) raka'a na iya samar da siginar igiyoyi na sabani ko sarrafa sigina.
Model RDAG12-8H yayi kama da kowane fitarwa na DAC zai iya fitar da lodi har zuwa 250mA ta amfani da ± 12V @ 2.5A na gida. rdAG12-8H an kunshe shi a cikin wani shingen karfe na “T-Box” wanda ba a rufe ba.
Digital I/O Duk samfuran kuma suna da mashigai na shigarwa/fitarwa na dijital guda bakwai. Ana iya tsara kowace tashar jiragen ruwa daban-daban azaman shigarwa ko fitarwa. Mashigai na shigar da dijital na iya karɓar mahimmin babban shigarwar voltages har zuwa 50V kuma suna overvoltage kariya zuwa 200 VDC. Direbobin fitarwa buɗaɗɗen tattarawa kuma suna iya biyan har zuwa 50 VDC na vol da aka kawo mai amfani.tage. Kowace tashar fitarwa na iya nutsewa har zuwa 350mA amma jimlar nutsewar halin yanzu yana iyakance ga jimlar jimlar 650 mA ga duk ragi bakwai.
Watchdog Timer Mai ƙididdigewa mai ƙididdigewa yana sake saita Pod idan microcontroller "ya rataye" ko wutar lantarkitage ya faɗi ƙasa da 7.5 VDC. Hakanan ana iya sake saita microcontroller ta maɓallin turawa na waje na waje wanda aka haɗa zuwa /PBRST (fin 41 na mai haɗin haɗin sadarwa).

Shafi na 1-2
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Bayanan Bayani na MRDAG12-8H.Bc
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ACCES I/O rdAG12-8(H) Samu Magana

Ƙayyadaddun bayanai

Serial Communications Interface · Serial Port: Matlabs-Opto- ware Matlabs Nau'in watsawa/ Mai karɓa na LTC491. Mai jituwa
Takardar bayanai:RS485. Har zuwa direbobi 32 da masu karɓa a kan layi. I/O bas wanda aka tsara daga 00 zuwa FF hex (0 zuwa 255 decimal). Duk adireshin da aka sanya ana adana shi a cikin EEPROM kuma ana amfani dashi azaman tsoho a Kunnawa na gaba. Tsarin Bayanan Asynchronous: 7 data bits, har ma da daidaito, bit tasha daya. Yanayi gama gari Voltage: 300V mafi ƙarancin (wanda aka ware). Idan opto-isolators ne
Wuta: -7V zuwa +12V. · Hankalin shigar da mai karɓa: ± 200 mV, shigarwar banbanci. · Impedance na shigar da mai karɓa: 12K mafi ƙarancin. Fitar Fitar da Mai watsawa: 60mA, 100mA gajeriyar iyawar da'ira na yanzu. Serial Data rate: Programming for 1200, 2400, 4800, 9600, 14400, 19200,
28800, da 57600 baud. Crystal oscillator aka bayar.

Fitowar Analog · Tashoshi: · Nau'in: · Rashin Layi: · Tauhidi: · Rage fitarwa: · Fitar da fitarwa: · Fitowar Yanzu: · Juriya na fitarwa: · Lokacin daidaitawa:

Takwas masu zaman kansu. 12-bit, buffer biyu. ± 0.9 LSB. ±½ bit. 0-5V, ± 5V, 0-10V. Zabin Ƙarfin Ƙarfin Ƙarfi: 5 mA, Zaɓin Ƙarfin Ƙarfi: 250 mA. 4-20mA SINK (Mai amfani ya kawo zumuwar 5.5V-30V). 0.5. 15 :sec zuwa ±½ LSB.

Digital I/O · Bakwai da aka saita azaman shigarwa ko fitarwa.
Babban Mahimman Abubuwan Shiga na Dijital: +2.0V zuwa +5.0V a 20µA max. (5mA max a 50V in)
An kiyaye shi zuwa 200 VDC
Logic Low: -0.5V zuwa +0.8V a 0.4mA max. An kiyaye shi zuwa -140 VDC. Abubuwan Abubuwan Dijital Logic-Ƙasashen Ruwa na Yanzu: Matsakaicin 350mA. (Dubi bayanin kula a ƙasa.)
Inductive kick suppression diode kunshe a kowace da'ira. Lura
Matsakaicin izini na halin yanzu kowane bit fitarwa shine 350mA. Lokacin da aka yi amfani da duk ragi bakwai, akwai matsakaicin jimlar halin yanzu na 650mA.

Fitowar Babban Matsayi Voltage: Buɗe Mai tarawa, yarda da har zuwa 50VDC

mai amfani voltage. Idan babu mai amfani da aka kawo voltage akwai, abubuwan da aka ja har zuwa +5VDC ta 10 kS resistors.

Shigar da Katse (Don amfani da kayan haɓakawa)

Bayanan Bayani na MRDAG12-8H.Bc

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ACCES I/O rdAG12-8(H) Samu Magana

Bayanan Bayani na RDAG12-8
Ƙasashen shigarwa: -0.3V zuwa +0.8V. Ƙarƙashin shigarwa na yanzu a 0.45V: -55µA. Babban abin shigarwa: 2.0V zuwa 5.0V.

Muhalli

Halayen muhalli sun dogara da daidaitawar RDAG12-8. Ƙarƙashin Ƙarƙashin Ƙarfafawa da Ƙarfi:
Matsakaicin Yanayin aiki: 0 °C. zuwa 65 ° C. (Na zaɓi -40 °C. zuwa +80 ° C.).

· Rage ƙima:

Dangane da ikon da aka yi amfani da shi, matsakaicin aiki

ƙila a rage ƙimar zafin jiki saboda ciki

masu sarrafa wutar lantarki suna watsa wani zafi. Domin misaliample,

lokacin da aka yi amfani da 7.5VDC, yawan zafin jiki ya tashi a cikin

yadi yana da 7.3°C sama da yanayin zafi.

Lura

Za'a iya ƙididdige madaidaicin zafin aiki bisa ga ma'auni mai zuwa:

VI (TJ = 120) <22.5 - 0.2TA
Inda TA shine yanayin zafi a cikin °C. kuma VI (TJ = 120) shine voltage wanda integral voltage regulator junction zafin jiki zai tashi zuwa zazzabi na 120 ° C. (Lura: An ƙididdige zafin mahaɗin zuwa 150 ° C. matsakaicin.)

Don misaliample, a yanayin zafi na 25 ° C., voltage VI na iya zama har zuwa 17.5V. A yanayin zafi na 100 °F. (37.8 ° C.), Voltage VI na iya zama har zuwa 14.9V.

· Lashi: · Girma:

5% zuwa 95% RH mara sanyaya. NEMA-4 Enclosure 4.53" tsawo da 3.54" fadi da 2.17" tsayi.

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Bayanan Bayani na MRDAG12-8H.Bc
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ACCES I/O rdAG12-8(H) Samu Magana

Ana iya amfani da Wutar da ake buƙata daga wutar lantarki +12VDC na kwamfuta don ɓangaren keɓewar opto
ta hanyar kebul na sadarwa na serial da kuma daga wutar lantarki na gida don sauran naúrar. Idan ba kwa son amfani da wutar lantarki daga kwamfutar, ana iya amfani da keɓantaccen wutar lantarki da ke ware daga wutar lantarki na gida don ɓangaren keɓewar opto. Ikon da wannan sashe ke amfani dashi kadan ne (kasa da 0.5W).

Ƙarfin wutar lantarki: · Ƙarfin gida:

+12 zuwa 18 VDC @ 200mA. (Duba akwatin da ke biye.)

Sashin Warewa na Opto: 7.5 zuwa 25 VDC @ 40 mA. (Lura: Saboda ƙananan adadin

halin yanzu da ake buƙata, voltage drop a dogayen igiyoyi ba shi da mahimmanci.)

Sigar babban ƙarfi: · Ƙarfin gida:

+12 zuwa 18 VDC a har zuwa 2 ½ A, da -12 zuwa 18V a 2A dangane da

akan kayan fitarwa da aka zana.

Sashin Warewa na Opto: 7.5 zuwa 25 VDC @ 50 mA. (Lura: Saboda ƙananan adadin

halin yanzu da ake buƙata, voltage drop a dogayen igiyoyi ba shi da mahimmanci.)

Lura
Idan wutar lantarki ta gida tana da fitarwa voltage fiye da 18VDC, za ka iya shigar da Zener diode a cikin jerin tare da wadata voltage. Voltage rating na Zener diode (VZ) yakamata ya zama daidai da VI-18 inda VI shine wutar lantarki vol.tage. Ma'aunin wutar lantarki na Zener diode yakamata ya zama $ VZx0.12 (watts). Don haka, ga exampLe, wutar lantarki na 26VDC zai buƙaci amfani da diode Zener na 8.2V tare da ƙimar wutar lantarki na 8.2 x 0.12. 1 wata.

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Hoto 1-1: rdAG12-8 Tsare-tsare

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Hoto 1-2: RDAG12-8 Hoton Tazarar Ramin

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Babi na 2: Shigarwa

Software da aka bayar tare da wannan katin yana ƙunshe a CD kuma dole ne a sanya shi a kan rumbun kwamfutarka kafin amfani. Don yin wannan, aiwatar da matakan da suka dace don tsarin aikin ku. Sauya wasiƙar tuƙi mai dacewa don CD-ROM ɗinku inda kuke gani d: a cikin examples kasa.

Shigar CD

WIN95/98/NT/2000 a. Sanya CD ɗin cikin CD-ROM ɗin ku. b. Shirin shigarwa ya kamata ya gudana ta atomatik bayan 30 seconds. Idan shigar shirin yayi
ba gudu ba, danna START | RUN kuma rubuta d:install, danna Ok ko latsa -. c. Bi umarnin kan allo don shigar da software na wannan katin.

Ƙirƙirar kundayen adireshi akan Hard Disk

Tsarin shigarwa zai ƙirƙiri kundayen adireshi da yawa akan rumbun kwamfutarka. Idan kun yarda da gazawar shigarwa, tsarin mai zuwa zai wanzu.

[CARDNAME] Tushen ko bayanan tushe mai ɗauke da shirin saitin SETUP.EXE da ake amfani da shi don taimaka muku saita masu tsalle da daidaita katin.

DOSPSAMPLES: DOSCSAMPLES: Win32 harshe:

Babban kundin adireshi na [CARDNAME] wanda ya ƙunshi Pascal samples. Babban kundin adireshi na [CARDNAME] wanda ya ƙunshi “C” samples. Ƙarshen kundin adireshi masu ɗauke da sampLes don Win95/98 da NT.

WinRISC.exe Tsarin sadarwar nau'in dumb-terminal na Windows wanda aka tsara don aikin RS422/485. An yi amfani da shi da farko tare da Pods Sayen Bayanan Nesa da layin samfuran sadarwar mu na RS422/485. Ana iya amfani da su gai da modem ɗin da aka shigar.

ACCES32 Wannan jagorar ya ƙunshi direban Windows 95/98/NT da ake amfani da shi don ba da damar yin rijistar kayan aikin lokacin rubuta software na Windows 32-bit. Da yawa sampAna ba da les a cikin yaruka daban-daban don nuna yadda ake amfani da wannan direban. DLL tana ba da ayyuka huɗu (InPortB, OutPortB, InPort, da OutPort) don samun damar kayan aikin.

Wannan jagorar kuma ya ƙunshi direban na'urar don Windows NT, ACCESNT.SYS. Wannan direban na'urar yana ba da damar yin amfani da kayan aikin matakin rijista a cikin Windows NT. Akwai hanyoyi guda biyu na amfani da direba, ta hanyar ACCES32.DLL (shawarar) da kuma ta hanyar DeviceIOControl rike da ACCESNT.SYS (dan sauri sauri).

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SAMPKADANampAna ba da les don amfani da ACCES32.DLL a cikin wannan jagorar. Yin amfani da wannan DLL ba wai kawai yana sauƙaƙe shirye-shiryen hardware ba (SAUKI da yawa), har ma da tushe ɗaya file za a iya amfani da duka biyu Windows 95/98 da kuma WindowsNT. Ɗayan da za a iya aiwatarwa zai iya aiki a ƙarƙashin tsarin aiki biyu kuma har yanzu yana da cikakken damar yin rijistar kayan aikin. Ana amfani da DLL daidai kamar kowane DLL, don haka ya dace da kowane harshe da zai iya amfani da DLLs 32-bit. Tuntuɓi littattafan da aka bayar tare da mai tara harshen ku don bayani kan amfani da DLLs a cikin takamaiman mahallin ku.
VBACCES Wannan kundin adireshi ya ƙunshi direbobin DLL-bit guda goma sha shida don amfani da VisualBASIC 3.0 da Windows 3.1 kawai. Waɗannan direbobi suna ba da ayyuka huɗu, kama da ACCES32.DLL. Koyaya, wannan DLL yana dacewa kawai tare da masu aiwatarwa 16-bit. An sauƙaƙa ƙaura daga 16-bit zuwa 32-bit saboda kamanceceniya tsakanin VBACCES da ACCES32.
PCI Wannan jagorar ya ƙunshi takamaiman shirye-shirye da bayanai na PCI-bus. Idan ba ka amfani da katin PCI, ba za a shigar da wannan kundin adireshi ba.
SOURCE An samar da shirin mai amfani tare da lambar tushe da za ku iya amfani da ita don tantance albarkatun da aka keɓe a lokacin gudu daga shirye-shiryen ku a cikin DOS.
PCIFind.exe Mai amfani don DOS da Windows don tantance menene adiresoshin tushe da IRQs da aka ware don shigar da katunan PCI. Wannan shirin yana gudana nau'i biyu, dangane da tsarin aiki. Windows 95/98/NT yana nuna alamar GUI, kuma yana canza wurin yin rajista. Lokacin da ake gudu daga DOS ko Windows3.x, ana amfani da keɓancewar rubutu. Don bayani game da tsarin maɓallin rajista, tuntuɓi takamaiman sampba a bayar da hardware. A cikin Windows NT, NTioPCI.SYS yana aiki a duk lokacin da aka kunna kwamfutar, ta haka ne ke wartsakar da wurin yin rajista yayin da aka ƙara ko cire kayan aikin PCI. A cikin Windows 95/98/NT PCIFind.EXE yana sanya kanta a cikin tsarin taya na OS don sabunta wurin yin rajista akan kowane iko.
Wannan shirin kuma yana ba da wasu sanyi na COM lokacin amfani da tashar jiragen ruwa na PCI COM. Musamman, zai saita katunan COM masu dacewa don raba IRQ da batutuwan tashar jiragen ruwa da yawa.
WIN32IRQ Wannan jagorar tana ba da keɓaɓɓen dubawa don sarrafa IRQ a cikin Windows 95/98/NT. An ba da lambar tushe don direba, yana sauƙaƙe ƙirƙirar direbobi na musamman don takamaiman buƙatu. SampAna ba da les don nuna amfani da direban janareta. Lura cewa yin amfani da IRQs a cikin shirye-shiryen sayan bayanai na kusan lokaci-lokaci yana buƙatar dabarun shirye-shiryen aikace-aikace masu zare da yawa kuma dole ne a ɗauke shi a matsayin tsaka-tsaki zuwa babban jigon shirye-shirye. Delphi, C++ Builder, da Visual C++ samples suna bayarwa.

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Findbase.exe DOS mai amfani don tantance da akwai adireshin tushe don bas ɗin ISA, katunan-Plug-n-Play. Gudanar da wannan shirin sau ɗaya, kafin a shigar da hardware a cikin kwamfutar, don ƙayyade adireshin da ake da shi don ba da katin. Da zarar an ƙayyade adireshin, gudanar da tsarin saitin da aka samar tare da kayan aikin don ganin umarni kan saita sauya adireshin da zaɓin zaɓi daban-daban.

Poly.exe Mai amfani gama gari don canza tebur na bayanai zuwa tsari na nth mai yawa. Yana da amfani don ƙididdige ƙididdige ƙididdiga masu yawa na layi don thermocouples da sauran na'urori masu auna firikwensin da ba na layi ba.

Risc.bat A batch file yana nuna sigogin layin umarni na RISCTerm.exe.

RISCTerm.exe Shirye-shiryen sadarwar nau'in beba-terminal wanda aka tsara don aikin RS422/485. An yi amfani da shi da farko tare da Pods Sayen Bayanan Nesa da layin samfuran sadarwar mu na RS422/485. Ana iya amfani da su gai da modem ɗin da aka shigar. RISCTerm yana nufin TERminal mai Sauƙaƙan Sadarwa.

Farawa

Don fara aiki tare da faifan, da farko kuna buƙatar akwai tashar sadarwa ta siriyal mai aiki akan PC ɗinku. Wannan na iya zama ɗaya daga cikin katunan Sadarwar Serial na RS422/485 ko tashar tashar RS232 mai wanzuwa tare da mai juyawa mai waya biyu 232/485. Bayan haka, shigar da software daga 3½” diskette (RDAG12-8 Software Package) Hakanan yakamata ku gudanar da tsarin saitin rdAG12-8 (wanda ke kan diski 3½”) don taimaka muku zaɓi zaɓi.

1. Tabbatar cewa kuna iya sadarwa ta hanyar tashar COM (duba cikakkun bayanai a cikin littafin katin COM da ya dace). View Kwamitin Gudanarwa | Tashar jiragen ruwa (NT 4) ko Control Panel | Tsari | Manajan Na'ura | Tashar jiragen ruwa | Kayayyaki | Albarkatun (9x/NT 2000) don bayani game da shigar da tashoshin COM. Ana iya tabbatar da tabbacin sadarwa ta amfani da mai haɗin madauki na baya tare da katin a cikin cikakken yanayin RS-422 mai duplex.

Ilimin aiki na jerin tashoshin jiragen ruwa a cikin Windows zai ba da gudummawa sosai ga nasarar ku. Wataƙila kuna da ginannun tashoshin COM na 1 & 2 akan Motherboard ɗinku, amma software ɗin da ake buƙata don tallafa musu ƙila ba za a shigar da su a cikin tsarin ku ba. Daga Control Panel kuna iya buƙatar "ƙara sabon kayan aiki" kuma zaɓi daidaitaccen tashar sadarwa ta serial don ƙara tashar tashar COM zuwa tsarin ku. Hakanan kuna iya buƙatar bincika BIOS don tabbatar da cewa an kunna daidaitattun tashoshin jiragen ruwa guda biyu.

Muna ba da shirye-shiryen tasha biyu don taimakawa tare da wannan aikin. RISCTerm tashar tashar DOS ce

shirin, wanda kuma za a iya amfani dashi a cikin Windows 3.x da 9x. Don Windows 9x/NT 4/NT 2000, zaku iya

Yi amfani da shirin mu na WinRISC. Kuna iya zaɓar lambar tashar tashar COM (COM5, COM8, da sauransu), baud, bayanai

ragowa, daidaito, da kuma tsai da ragi. Jirgin ACCES Pods a 9600, 7, E, 1, bi da bi. Gwajin mafi sauƙi don gani

idan kana da tashar tashar COM mai kyau ba tare da haɗa komai da mahaɗin tashar tashar COM a baya ba

na kwamfutarka shine zaɓi COM 1 ko COM 2 (duk wanda ke nunawa a cikin na'urarka

Manager) daga WinRISC (Duba "Gudun WinRISC") sannan danna "Haɗa". Idan baka samu ba

kuskure, wannan alama ce mai kyau da ke nuna cewa kuna kasuwanci. Danna akwati da ake kira "local echo", sannan

danna cikin taga rubutu, inda yakamata ka ga siginan kwamfuta mai kyalli, sannan ka fara bugawa. Idan kun yi

yayi nasarar zuwa mataki na ƙarshe, kuna shirye don haɗa kayan aikin da ƙoƙarin yin

sadarwa da ita.

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2. Bayan ka tabbatar kana iya sadarwa ta hanyar tashar COM dinka, saika sanya katin COM dinka na rabin-duplex, RS-485, sannan kayi waya da waya biyu zuwa Pod. (Kuna iya buƙatar matsar da wasu masu tsalle-tsalle a kan allon COM don cimma wannan. Ko kuma idan kuna amfani da mu RS-232/485 Converter, da fatan za a haɗa shi a wannan lokacin. Sadarwa tare da Pod ya kamata ya zama waya biyu RS-485, Half-Duplex with Termination and Bias apply. Har ila yau zaɓi Babu Echo (inda Echos) a kan katin COM don ƙarin cikakkun bayanai. tashoshi. Duba ayyukan Screw Terminal Pin don taimako akan wannan. Don sakamako mafi kyau, kuna buƙatar + 12V da dawowa zuwa wutar lantarki a cikin yanayin da ba a keɓe ba. Don gwajin benci da saiti tare da samar da wutar lantarki guda ɗaya, kuna buƙatar shigar da masu tsallen waya tsakanin tashoshi masu zuwa akan toshe tasha: ISOV+ zuwa PWR+, da ISOGND zuwa GND. Wannan ya kayar da fasalin keɓewar gani na Pod, amma yana sauƙaƙe saitin haɓaka kuma yana buƙatar wutar lantarki ɗaya kawai. Hakanan ya kamata ku duba allon sarrafawa kamar yadda aka bayyana a Zaɓin Zaɓi don tabbatar da masu tsalle JP2, JP3 da JP4 suna cikin matsayi / ISO.
3. Tabbatar da wiring ɗin ku, sannan kunna wuta zuwa Pod. Idan kuna dubawa, zane na yanzu ya kamata ya zama kusan 250mA.
4. Yanzu za ka iya sake gudanar da saitin da calibration shirin (DOS, Win3.x/9x). A wannan lokacin shirin saitin ya kamata ya gano Pod ta atomatik daga abin menu na ganowa ta atomatik, kuma ya ba ku damar gudanar da tsarin daidaitawa. Idan kana amfani da Windows NT, za ka iya gudanar da tsarin saitin don saita masu tsalle game da keɓantacce ko sadarwa mara sani. Don gudanar da tsarin daidaitawa, kawai amfani da faifan taya DOS, sannan gudanar da shirin. Za mu iya samar da wannan idan ya cancanta.
Gudun WinRISC
1. Don Windows 9x/NT 4/NT 2000, fara shirin WinRISC, wanda ya kamata a sami dama daga menu na farawa (Fara | Shirye-shirye | rdAG12-8 | WinRISC). Idan ba za ku iya samunsa ba, je zuwa Fara | Nemo | Files ko manyan fayiloli kuma bincika WinRISC. Hakanan zaka iya bincika CD ɗin kuma bincika diskstools.winWin32WinRISC.exe.
2. Da zarar kun kasance a cikin WinRISC, zaɓi ƙimar baud na 9600 (tsohuwar masana'anta don Pod). Zaɓi Echo Local da sauran saitunan masu zuwa: Parity-Ko da, Data Bits-7, Tsaida Bits-1. Bar wasu saitunan a tsoho. Zaɓi tashar COM da aka tabbatar (a saman hagu) kuma danna "Haɗa".
3. Danna cikin babban akwatin. Ya kamata ku ga siginan kwamfuta mai kyalli.
4. Rubuta 'yan haruffa. Ya kamata ka gan su a buga a kan allo.
5. Ci gaba zuwa sashin "MAgana da POD".
Gudun RISCterm
1. Don Win 95/98, gudanar da shirin RISCTerm.exe da aka samo a Fara | Shirye-shirye | Saukewa: RDA12-8. Don DOS ko Win 3.x, duba cikin C: RDAG12-8.

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2. Shigar da adireshin tushe na katin COM, sannan shigar da IRQ. A cikin Windows, ana samun wannan bayanin ta hanyar viewda ControlPanel | Tsari | Manajan Na'ura | Tashar jiragen ruwa | Kayayyaki | Albarkatu.

3. Da zarar kun kasance cikin RISCTerm, tabbatar da zaɓi na 9600 baud (tsohuwar masana'anta don Pod). Ya kamata mashaya da ke ƙasan allon ya faɗi 7E1.

4. Rubuta haruffa kaɗan. Ya kamata ka gan su a buga a kan allo.

5. Ci gaba zuwa sashin, " MAGANAR DA POD ".

Magana da Pod

1. (Dauke daga mataki na 5 na "RUNNING WINRISC" ko "RUNNING RISCTERM") Danna maɓallin Shigar sau da yawa. Ya kamata ku karɓi, “Kuskure, yi amfani da? don lissafin umarni, umarnin da ba a gane ba:” Wannan ita ce alamar farko da kuke magana da Pod. Danna maɓallin Shigar akai-akai yakamata ya dawo da wannan saƙon kowane lokaci. Wannan madaidaicin nuni ne.

2. Rubuta "?" kuma danna shiga. Ya kamata ku sami baya "Babban Allon Taimako" da wasu yuwuwar menu guda uku don samun dama. Kuna iya rubuta "?3" sannan danna Shigar, kuma sami menu na baya daga Pod dangane da Umarnin Fitar da Analog. Idan kuna karɓar waɗannan saƙonnin, kun sake sanin cewa kuna sadarwa da kyau tare da Pod.

3. Haɗa DMM, saita don kewayon 20VDC, ƙetare fil 1 (+) da 2 (-) na toshe tashoshi na Pod. Rubuta "AC0=0000,00,00,01,0000" da [Shigar]. Ya kamata ku karɓi CR (dawowar karusar) daga Pod. Wannan umarnin yana saita Channel 0 don kewayon 0-10V.

4. Yanzu rubuta "A0=FFF0" da [Enter]. Ya kamata ku karɓi dawowar abin hawa daga Pod. Wannan umarnin yana haifar da Channel 0 don fitar da ƙimar da aka umarta (FFF a hex = ƙididdiga 4096, ko 12-bit, Cikakken Sikeli). Ya kamata ku ga DMM tana karanta 10VDC. Ana magana akan daidaitawa a cikin sashe na gaba.

5. Rubuta "A0=8000" da [Shigar] (800 a hex = 2048 ƙidaya, ko 12-bit, Half Scale). Ya kamata ku karɓi dawowar abin hawa daga Pod. Ya kamata ku ga DMM tana karanta 5VDC.

6. Yanzu kun shirya don fara haɓakawa da rubuta shirin aikace-aikacenku.

Lura: Idan a ƙarshe za ku yi amfani da “Yanayin ware”, tabbatar da cewa kun sanya masu tsalle-tsalle a kan allon sarrafawa zuwa wuraren “ISO”. Hakanan tabbatar cewa kun kunna wutar lantarki daidai don tallafawa wannan yanayin. Yana buƙatar 12V na ƙarfin gida, da 12V na keɓaɓɓen iko. Za a iya samar da keɓantaccen Wutar ta hanyar wutar lantarki ta kwamfuta, ko kuma wata babbar hanyar sadarwa. Zane na yanzu akan wannan tushen ba komai bane, don haka voltage drop a cikin kebul ba shi da wani sakamako. Ku sani cewa sigar Babban Power Pod (RDAG12-8H) tana buƙatar +12V, Gnd, da -12V don "Ƙarfin Gida".

Daidaitawa

Software na saitin da aka bayar tare da RDAG12-8 da RDAG12-8H suna goyan bayan ikon duba daidaitawa da rubuta ƙimar gyarawa cikin EEPROM don samun su ta atomatik akan haɓakawa. Ana buƙatar bincikar gyare-gyaren lokaci-lokaci kawai, ba duk lokacin da ake hawan keke ba.

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Ana iya amfani da tsarin daidaita software na SETUP.EXE don daidaita dukkan jeri uku da adana dabi'u a cikin EEPROM. Don Windows NT, kuna buƙatar taya zuwa DOS don gudanar da wannan shirin. Kuna iya ƙirƙirar faifan taya DOS daga kowane tsarin Windows ba ya aiki da NT. Za mu iya samar da DOS boot disk idan ya cancanta.
A SAMPShirin LE1 yana kwatanta tsarin tuno waɗannan dabi'u da daidaita karatun. Bayanin CALn? Umurnin yana nuna tsarin da aka adana bayanan a cikin EEPROM.
Shigarwa
Rukunin RDAG12-8 shi ne abin rufewa, simintin simintin gyare-gyare, alumini-alloy, shingen NEMA-4 wanda ke da sauƙin hawa. Girman waje na shingen sune: 8.75" tsayi da 5.75" faɗi da 2.25" tsayi. Murfin ya haɗa da gasket neoprene da aka cire kuma an kiyaye murfin ga jiki ta hanyar M-4 da aka sake amfani da shi, bakin karfe, sukurori. Ana ba da sukurori biyu masu tsayi M-3.5 X 0.236 don hawa zuwa jiki. Ramukan hawa da sukullun da ke haɗa murfin suna waje da wurin da aka rufe don hana shigowar danshi da ƙura. Shuwagabanni huɗu masu zaren zare a cikin shingen sun tanadi don ɗaga tarurrukan katin da'ira da aka buga. Don shigar da katin ba tare da akwatin a cikin yadin ku ba, duba Hoto 1-2 don tazarar ramin.
Rukunin RDAG12-8H wani shinge ne na karfe wanda ba a rufe ba wanda aka yi masa fentin "IBM Industrial Gray". Yakin yana auna 8.5 inci tsayi da 5.25" faɗi da 2" tsayi.
Akwai wuraren tsalle guda uku akan rukunin kuma ayyukansu sune kamar haka:
JP2, JP3, da JP4: Yawanci waɗannan masu tsalle ya kamata su kasance a cikin matsayi na "ISL". Idan kuna son ƙetare opto-isolators, to zaku iya matsar da waɗannan masu tsalle zuwa matsayin "/ISL".
Abubuwan Shiga/Fitar Haɗin Pin
Haɗin wutar lantarki zuwa RDAG12-8 suna ta hanyar glandan ruwa wanda ke rufe wayoyi kuma an ƙare a ciki zuwa salon Yuro, toshe-tsalle-tsalle wanda ke toshe cikin haɗin haɗin 50-pin. Haɗin wutar lantarki zuwa RDAG12-8H suna ta hanyar buɗewa a ƙarshen T-Box, an ƙare a cikin salon Yuro iri ɗaya, toshe-tasha. Ayyukan fil na haɗin haɗin don mai haɗin-pin 50 suna bi:

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Pin
1 VOUT0
3 VOUT1
5 VOUT2
7 GND
9 DIO5 11 DIO3 13 DIO1 15 GND 17 VOUT3 19 IOUT1 21 IOUT3 23 IOUT4 25 IOUT6 27 AOGND 29 VOUT4 31 GND 33 /PINT0 35 PWR+ 37 VOUT39 5 41 / RS43 VOUT45 48547 VOUT6

Sigina

Pin

Sigina

(Analog Volt. Fitarwa 0) 2 APG0

(Analog Power Ground 0)

(Analog Volt. Fitarwa 1) 4 APG1

(Analog Power Ground 1)

(Analog Volt. Fitarwa 2) 6 APG2

(Analog Power Ground 2)

(Ground Power Ground) 8 DIO6

(Input/Fitarwa na Dijital 6)

(Input/Fitarwa na Dijital 5) 10 DIO4

(Input/Fitarwa na Dijital 4)

(Input/Fitarwa na Dijital 3) 12 DIO2

(Input/Fitarwa na Dijital 2)

(Input/Fitarwa na Dijital 1) 14 DIO0

(Input/Fitarwa na Dijital 0)

(Ƙasashen Ƙarfin Gida) 16 APG3

(Analog Power Ground 3)

(Analog Volt. Fitowa 3) 18 IOUT0

(Fitowar Analog na yanzu 0)

(Fitowar Analog na yanzu 1) 20 IOUT2

(Fitowar Analog na yanzu 2)

(Fitowar Analog na yanzu 3) 22 AOGND

(Analog Output Ground)

(Fitowar Analog na yanzu 4) 24 IOUT5

(Fitowar Analog na yanzu 5)

(Fitowar Analog na yanzu 6) 26 IOUT7

(Fitowar Analog na yanzu 7)

(Analog Output Ground) 28 APG4

(Analog Power Ground 4)

(Analog Volt. Fitowa 4) 30 AOGND

(Analog Output Ground)

(Local Power Ground) 32 /PINT1

(Madaidaicin Interr. Input 1)

(Input 0) 34 / PT0

(Tmr mai kariya./Ctr. Input)

(Samar da Wutar Wuta +) 36 PWR+

(Kayan Wutar Lantarki +)

(Ƙasashen Ƙarfin Gida) 38 APG5

(Analog Power Ground 5)

(Analog Volt. Fitowa na 5) 40 PWR-

(Kayan Wutar Lantarki -)

(Sake saitin latsa) 42 ISOGND

(Isol. Power Supply)

(Isol. Wutar Lantarki +) 44 RS485+

(Tsarin Sadarwa +)

(Tsarin Sadarwa -) 46 APG6

(Analog Power Ground 6)

(Analog Volt. Fitowa na 6) 48 APPLV+ (Ƙarfin Ƙarfin Aikace-aikacen 7)

(Analog Volt. Fitarwa 7) 50 APG7

(Analog Power Ground 7)

Tebur 2-1: 50 Ayyukan Mai Haɗi na Pin

Alamar tasha da ayyukansu sune kamar haka:

PWR+ da GND:

(Pins 7, 15, 31, 35, and 37) Ana amfani da waɗannan tashoshi don amfani da wutar lantarki na gida zuwa Pod daga wutar lantarki na gida. (Ana ɗaure fil 35 da 36 tare.) Voltage zai iya zama ko'ina a cikin kewayon 12 VDC zuwa 16 VDC. Mafi girma voltage za a iya amfani da, 24 VDC misaliample, idan an yi amfani da diode Zener na waje don rage juzu'itage amfani da RDAG12-8. (Dubi sashin Ƙayyadaddun wannan jagorar don tantance ƙimar ƙarfin Zener diode da ake buƙata.)

PWR-

(Pin 40) Wannan tashar tana karɓar abokin ciniki wanda aka kawo -12V zuwa 18 VDC @ 2A max. Ana amfani da shi kawai a cikin zaɓin Babban Ƙarfi rdAG12-8H.

Bayanan Bayani na MRDAG12-8H.Bc

Shafi na 2-7

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ACCES I/O rdAG12-8(H) Samu Magana

Bayanan Bayani na RDAG12-8
ISOV+ da ISOGND: Wannan shine haɗin wutar lantarki don sashin keɓewa wanda za'a iya bayarwa daga wadatar +12VDC na kwamfuta ta hanyar wayoyi biyu akan hanyar sadarwar RS-485 ko kuma daga cibiyar samar da wutar lantarki. Wannan ikon yana zaman kansa daga "ikon gida". Voltage matakin iya zama daga 7.5 VDC zuwa 35 VDC. (An on-board voltage regulator yana daidaita ikon zuwa +5 VDC.) RDAG12-8 zai buƙaci kusan 5mA na halin yanzu lokacin rashin aiki da ~ 33mA na yanzu lokacin da ake watsa bayanai don haka duk wani tasirin lodi akan ikon kwamfuta (idan an yi amfani da shi) zai yi ƙasa.

Lura
Idan ba a samu iko daban ba, ISOV+ da ISOGND dole ne a yi tsalle zuwa tashoshin "ƙaramar ikon gida", wanda ke cin nasara da keɓewar gani.

RS485+ da RS485-: Waɗannan su ne tashoshi don sadarwar RS485 (TRx+ da TRx-).

APPLV+:

Wannan tasha na “ikon aikace-aikace” ko mai amfani da aka bayar voltage tushen abin da aka haɗa abubuwan dijital ta hanyar lodi. Bude mai tarawa Darlington ampAna amfani da lifiers a cikin abubuwan fitarwa. Ana haɗa diodes na kashewa masu haɓakawa a cikin da'irar APPLV+. Matsakaicin ikon aikace-aikacen (APPLV+) zai iya kaiwa 50 VDC.

APG0-7:

Waɗannan tashoshi don amfani ne tare da sigar Babban Power na Pod (RDAG12-8H). Haɗa duk dawo da kaya zuwa waɗannan tashoshi.

AOGND:

Waɗannan tashoshi don amfani ne tare da sigar Ƙarfin Ƙarfi na Pod. Yi amfani da waɗannan don dawowar juzu'itage abubuwan da ake fitarwa da kuma abubuwan da ake fitarwa na yanzu.

GND:

Waɗannan dalilai ne na gaba ɗaya waɗanda za a iya amfani da su don dawo da Bit Digital, haɗin dawo da wutar lantarki, da sauransu.

Don tabbatar da cewa akwai ƙarancin sauƙi ga EMI da ƙaramar radiation, yana da mahimmanci cewa akwai ingantaccen ƙasan chassis. Hakanan, ingantattun dabarun cabling na EMI (kebul ɗin da aka haɗa da ƙasan chassis, murɗaɗɗen wayoyi biyu, kuma, a cikin matsanancin yanayi, matakin ferrite na kariya ta EMI) ƙila a buƙaci don shigar/fitar wayoyi.

VOUT0-7:

Analog Fitar Voltage siginar, amfani tare da AOGND

IOUT0-7:

4-20mA Siginar fitarwa na yanzu na nutsewa, amfani tare da haɗin wutar lantarki na waje (5.5V zuwa 30V).

Shafi na 2-8

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ACCES I/O rdAG12-8(H) Samu Magana

Hoto 2-1: Siffaffen Tsari don Voltage da Abubuwan Nutsewa na Yanzu

Bayanan Bayani na MRDAG12-8H.Bc
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Shafi na 2-9
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ACCES I/O rdAG12-8(H) Samu Magana

Babi na 3: Software

Gabaɗaya

RDAG12-8 ya zo tare da software na tushen ASCII da aka bayar akan CD. Shirye-shiryen ASCII yana ba ku damar rubuta aikace-aikace a cikin kowane babban yare mai goyan bayan ayyukan kirtani na ASCII, yana ba da damar yin amfani da jerin samfuran "REMOTE ACCES" tare da kusan kowace kwamfutar da ke da tashar RS485.

Ka'idar sadarwa tana da nau'i biyu: magana da kuma mara magana. Ana amfani da ƙa'idar da ba ta da adireshin lokacin da za a yi amfani da ɓangarorin REMOTE ACCES Pod ɗaya kawai. Dole ne a yi amfani da ƙa'idar da aka gabatar lokacin da za a yi amfani da fiye da ɗaya REMOTE ACCES Pod. Bambanci shine ana aika umarnin adireshin don kunna takamaiman Pod. Ana aika umarnin adireshin sau ɗaya kawai yayin sadarwa tsakanin takamaiman Pod da kwamfutar mai ɗaukar hoto. Yana ba da damar sadarwa tare da takamaiman Pod kuma yana kashe duk sauran na'urorin REMOTE ACCES akan hanyar sadarwa.

Tsarin Umurni

Duk sadarwa dole ne ya zama ragowar bayanai 7, ko da daidaito, 1 tasha bit. Duk lambobin da aka aika zuwa kuma aka karɓa daga Pod suna cikin sigar hexadecimal. Ma'aikata tsoho baud kudi ne 9600 Baud. Ana ɗaukar Pod ɗin yana cikin yanayin da ake magana a duk lokacin da adireshin Pod ɗinsa ba 00 ba. Adireshin tsoho na masana'anta shine 00 (yanayin da ba a magana ba).

Yanayin Adireshi Dole ne a ba da umarnin zaɓin adireshin kafin kowane umarni zuwa Pod ɗin da aka yi magana. Umurnin adireshin shine kamar haka:

"! xx[CR]" inda xx shine adireshin Pod daga 01 zuwa FF hex, kuma [CR] shine Komawar Kawo, halin ASCII 13.

Pod yana amsawa da "[CR]". Da zarar an ba da umarnin zaɓar adireshin, duk ƙarin umarni (ban da sabon adireshin zaɓi) za a aiwatar da Pod ɗin da aka zaɓa. Ana buƙatar yanayin da ake magana lokacin amfani da Pod fiye da ɗaya. Lokacin da aka haɗa Pod ɗaya kawai, babu umarnin zaɓi adireshin da ake buƙata.

Kuna iya ba da umarni kawai da aka jera a cikin tebur mai zuwa. An yi amfani da kalmomi kamar haka:

a. Karamin harafin 'x' yana zana kowace lamba hex mai inganci (0-F). b. Karamin harafin 'b' yana bayyana ko dai '1' ko '0'. c. Alamar '±' tana nuna ko dai '+' ko '-'. d. An ƙare duk umarni tare da [CR], halin ASCII 13. e. Duk umarni ba su da hankali, watau babba ko ƙarami ana iya amfani da su. f. Alamar '*' tana nufin sifili ko ƙarin ingantattun haruffa ( jimlar tsawon saƙon <255 decimal).

Gabaɗaya Bayani:

DUK lambobin da aka wuce zuwa kuma daga Pod suna cikin hexadecimal.

Bayanan Bayani na MRDAG12-8H.Bc

Shafi na 3-1

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ACCES I/O rdAG12-8(H) Samu Magana

Bayanan Bayani na RDAG12-8

Umurnin An=xxx0
An,iii=xxx0

Bayani
Rubuta xxx0 zuwa DAC n Idan harafin A aka aika a madadin n, duk DAC sun shafi
Rubuta xxx0 zuwa DAC n shigarwar buffer [iiii]

An=GOGOGO

Rubuta buffer zuwa DAC n akan ƙimar Timebase

An= TSAYA

A daina rubuta DAC n buffer zuwa DAC

S=xxxx ko S?

Saita ko karanta ƙimar saye (00A3 <= xxxx <= FFFF)

ACn = xxx0, dd, tt,mm, Sanya Abubuwan Analog. Duba rubutun jiki. iii

BACKUP=BUFFER Rubuta buffer a cikin EEPROM

BUFFER=Ajiyayyen Karanta EEPROM a cikin buffer

CALn?

Karanta bayanan daidaitawa don n

CAL=BACKUP Caln=xxxx,yyyy ? HVN POD=xx BAUD=nnn

Mayar da aikin masana'anta Rubuta ƙimar daidaitawa don tashar n Umurnin umarni don RDAG12-8(H) Saƙon gaisuwa Karanta lambar bita ta firmware Sake watsawa ta ƙarshe na Pod Sanya kwaf ɗin zuwa lamba xx Saita ƙimar baud na sadarwa (1 <= n <= 7)

Mxx Mx+ ko MxI ko In

Saita abin rufe fuska na dijital zuwa xx, 1 yana fitarwa, 0 shine shigarwa Saitin bit x na abin rufe fuska na dijital don fitarwa (+) ko shigarwa (-) Karanta ragowar shigarwar dijital 7, ko bit n

Oxx On + ko On-

Rubuta byte xx zuwa abubuwan fitarwa na dijital (bits 7 suna da mahimmanci) Kunna ko kashe dijital bit n (0 <= n <= 6)
Table 3-1: rdAG12-8 Jerin umarni

Ya dawo [CR] [CR] [CR] [CR] (xxxx) [CR] [CR] [CR] [CR] bbbb,mmmm[ CR] [CR] [CR] Duba Desc. Duba Desc. n.nn[CR] Duba Desc. -: Pod#xx[CR] =: Baud: 0n [CR] [CR] [CR] xx [CR] ko b [CR] [CR] [CR]

Shafi na 3-2

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ACCES I/O rdAG12-8(H) Samu Magana

Sake saitin Pod bayanin kula yana faruwa akan kunna wutar lantarki, tsarin shirye-shirye, ko ƙarewar lokacin sa ido.

Ayyukan Umurni

Sakin layi na gaba suna ba da cikakkun bayanai game da ayyukan umarni, bayyana abin da umarni ke haifarwa, kuma ba examples. Lura cewa duk umarni suna da martanin amincewa. Dole ne ku jira amsa daga umarni kafin aika wani umarni.

Rubuta zuwa tashar DAC An = xxx0

Yana rubuta xxx zuwa DAC n. Saita polarity da riba ta amfani da umarnin AC.

Exampda:

Shirya lambar fitarwa ta Analog 4 zuwa rabin-ma'auni (zero volts bipolar ko rabin sikelin unipolar)

AIKA:

A4=8000[CR]

KARBI: [CR]

Load Buffer don DAC n An,iiii=xxx0

Yana rubuta xxx zuwa DAC n buffer [iiii].

Exampda:

Makullin shirin don DAC 1 zuwa mataki mai sauƙi

AIKA:

A1,0000=0000[CR]

KARBI: [CR]

AIKA:

A1,0001=8000[CR]

KARBI: [CR]

AIKA:

A1,0002=FFF0[CR]

KARBI: [CR]

AIKA:

A1,0003=8000[CR]

KARBI: [CR]

Karanta Buffer daga DAC n

An, iii=?

Ana karantawa daga buffer (0 <= n <= 7, 0 <= iiii <= 800h).

Exampda:

Karanta lambar shigarwar buffer 2 don DAC 1

AIKA:

A1,0002=?[CR]

Saukewa: FFF0[CR]

Fara Buffered DAC Fitowa akan DAC n

An=GOGOGO

Yana rubuta buffer zuwa DAC n akan adadin lokaci.

Exampda:

Fara rubutun buffer akan DAC 5

AIKA:

A5=GOGOGO[CR]

Bayanan Bayani na MRDAG12-8H.Bc

Shafi na 3-3

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ACCES I/O rdAG12-8(H) Samu Magana

Bayanan Bayani na RDAG12-8

KARBI: [CR]

Dakatar da Abubuwan DAC na Buffer akan DAC n

An= TSAYA

Ya daina rubuta DAC n buffer zuwa DAC.

Exampda:

Nan da nan daina fitar da tsari akan DAC 5

AIKA:

A5= TSAYA[CR]

KARBI: [CR]

Saita Ƙimar Samun S=xxxx ko s=?

Saita ko karanta ƙimar saye (00A3 <= xxxx <= FFFF).

Wannan aikin yana saita ƙimar sabuntawar DAC. Ingantattun ƙimomi suna daga 00A2 zuwa FFFF. Ƙimar da aka wuce ita ce mai rarraba agogon ƙima (11.0592 MHz). Ma'aunin da za a yi amfani da shi wajen ƙididdige mai rarraba shine:
Raba = [(1/Rate) - 22:Sec] * [Agogo/12]

Exampda:

Shirya RDAG12-8 don 1K samples a sakan daya

AIKA:

S0385[CR]

KARBI: [CR]

Note: The sampAna adana ƙimar da aka saita a cikin EEPROM akan Pod, kuma za'a yi amfani dashi azaman tsoho (ƙara-ƙara) sampda daraja. Tsohuwar masana'anta sampZa a iya dawo da ƙimar le (100Hz) ta hanyar aika "S0000" zuwa Pod.

Sanya Buffers da DACs ACn = xxx0, dd, tt, mm, iiii xxx0 shine ikon da ake so (na farko) na DAC n dd shine mai rarrabawa don ƙimar fitarwa (00 <= dd <= FF) tt shine adadin lokuta don gudu mm shine polarity kuma samun zaɓi don DAC n mm = 00 5 = mm = 01 mm = 0 10 = mm 02 = 0 mm = 5 = mm 000 = 800 mm = XNUMX = mm XNUMX = XNUMX mm = XNUMX = XNUMX mm = XNUMX mm = XNUMX = XNUMX mm = XNUMX = XNUMX mm = XNUMX = XNUMX mm = XNUMX = XNUMX mm = XNUMX XNUMX = mm XNUMX = XNUMX-XNUMXV iiii shine shigarwar tsararrun buffer (XNUMX <= iiii <= XNUMXh)

Example: Don saita DAC 3 zuwa:
Yi amfani da umarnin: Shafi na 3-4

Ƙarfafawa a ƙididdiga 8000; Yi amfani da rabin lokaci na Sxxxx azaman ƙimar fitarwar sa; Fitar da Buffer jimlar sau 15, sannan tsaya; Yi amfani da kewayon ± 5V; Fitar da buffer jimlar shigarwar hex 800 tsayi
Bayanan Bayani na MRDAG12-8H.Bc

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ACCES I/O rdAG12-8(H) Samu Magana

AC3=8000,02,0F,00,0800[CR]

Saita Ma'auni

CALn=bbbb,mmmm

Rubuta tazara da daidaita ƙimar daidaitawa a cikin madaidaitan hex guda biyu

a matsayin lambobi biyu masu lamba huɗu.

Exampda:

Rubuta tazara na 42h da kashewa na 36h zuwa DAC 1

AIKA:

CAL1=0036,0042[CR]

KARBI: [CR]

Karanta Ma'auni

CALn?

Ya tuna da ma'auni da daidaita ma'aunin daidaitawa.

Exampda:

Karanta sigogin daidaitawa bayan rubuta na sama

AIKA:

CAL1? [CR]

Karɓa: 0036,0042 [CR]

Ajiye Ma'auni na Calibration

BACKUP=CAL

Ajiye gyare-gyaren ƙarshe

Wannan aikin yana adana ƙimar da ake buƙata don daidaita karatun ma'auni don yarda da ƙima ta ƙarshe. Shirin saitin zai auna kuma ya rubuta waɗannan sigogin daidaitawa. A SAMPShirin LE1 yana kwatanta amfani da CALn? Umarni tare da sakamakon wannan aikin.

Sanya Bits a matsayin Input ko Fitarwa

Mxx

Yana saita raƙuman dijital azaman abubuwan shigarwa ko fitarwa.

Mx+

Yana saita dijital bit 'x' azaman fitarwa.

Mx-

Yana saita 'x' bit dijital azaman shigarwa.

Waɗannan umarnin suna tsara raƙuman dijital na dijital, akan ɗan-bi-bi-bit, azaman shigarwa ko fitarwa. “sifili” a kowane wuri na xx byte mai sarrafawa yana tsara madaidaicin bit don saita shi azaman shigarwa. Akasin haka, “ɗayan” yana zayyana ɗan abin da za a daidaita shi azaman fitarwa. (Lura: Duk wani ɗan abin da aka saita azaman fitarwa ana iya karanta shi azaman shigarwa idan ƙimar ƙimar yanzu ta kasance “ɗaya”)

Exampda:

Shirye-shiryen har ma da ragowa azaman abubuwan fitarwa, da ƙananan ragi a matsayin abubuwan shigarwa.

AIKA:

MAA[CR]

KARBI: [CR]

Ragowar shirin 0-3 azaman shigarwa, da ragowa 4-7 azaman fitarwa.

AIKA:

MF0[CR]

KARBI: [CR]

Karanta Abubuwan Shiga Dijital I
Bayanan Bayani na MRDAG12-8H.Bc

Karanta 7 ragowa

Shafi na 3-5

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ACCES I/O rdAG12-8(H) Samu Magana

Bayanan Bayani na RDAG12-8

In

Karatun lambar n

Waɗannan umarnin suna karanta ragowar shigarwar dijital daga Pod. Dukkan martanin byte ana aika mafi mahimmancin nibble da farko.

ExampLes: Karanta DUK 7 rago. Aika: KARBI:

I[CR] FF[CR]

Karanta kawai bit 2. Aika: KARBI:

I2[CR] 1[CR]

Rubuta Abubuwan Dijital Oxx Ox±

Rubuta zuwa duk 7 na dijital fitarwa bits. (Port 0) Saita bit x hi ko ƙasa

Waɗannan umarnin suna rubuta abubuwan fitarwa zuwa raƙuman dijital. Duk wani yunƙuri na rubuta zuwa ɗan daidaita shi azaman shigarwa zai gaza. Rubutu zuwa byte ko kalmar da aka shigar da wasu raƙuman ruwa wasu kuma suna fitarwa zai haifar da latches na fitarwa zuwa sabon ƙima, amma raƙuman da suke shigarwa ba za su fitar da darajar ba har sai / sai an sanya su cikin yanayin fitarwa. Umarnin bit guda ɗaya zai dawo da kuskure (4) idan an yi ƙoƙarin rubutawa zuwa ɗan daidaitacce azaman shigarwa.

Rubuta "daya" (+) zuwa kadan yana tabbatar da cirewa don wannan bit. Rubutun "sifili" (-) yana ba da tabbacin cire ƙasa. Don haka, idan an shigar da tsohowar masana'anta +5V, rubuta ɗaya zai sa zero volts ya kasance a mahaɗin, kuma rubuta sifili zai sa +5 volts a tabbatar.

Exampda:

Rubuta daya zuwa bit 6 (saitin fitarwa zuwa sifili volts, tabbatar da cirewar ƙasa).

AIKA:

O6+[CR]

KARBI: [CR]

Rubuta sifili zuwa bit 2 (saitin fitarwa zuwa +5V ko cire mai amfani).

AIKA:

O2-[CR]

or

AIKA:

O02-[CR]

KARBI: [CR]

Rubuta sifili zuwa rago 0-7.

AIKA:

O00[CR]

KARBI: [CR]

Rubuta sifili ga kowane ɗan ƙaramin abu.

AIKA:

OAA[CR]

KARBI: [CR]

Shafi na 3-6

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ACCES I/O rdAG12-8(H) Samu Magana

Karanta Lamba Gyaran Firmware

V:

Karanta lambar sake fasalin firmware

Ana amfani da wannan umarnin don karanta sigar firmware da aka shigar a cikin Pod. Yana dawo da "X.XX[CR]".

Exampda:

Karanta lambar sigar RDAG12-8.

AIKA:

V[CR]

Karɓa: 1.00 [CR]

Lura

Umurnin "H" yana mayar da lambar sigar tare da wasu bayanai. Dubi "Sakon Saƙo" mai zuwa.

Aika Amsa Karshe

n

Sake aika martani na ƙarshe

Wannan umarnin zai sa Pod ɗin ya dawo daidai da abin da ya aiko. Wannan umarnin yana aiki don duk martani kasa da haruffa 255 tsayin. Yawanci ana amfani da wannan umarni idan mai watsa shiri ya gano kuskuren layi ko wani kuskure yayin karɓar bayanai, kuma yana buƙatar aika bayanan a karo na biyu.

Ana iya maimaita umarnin "n".

Exampda:

Tsammanin umarni na ƙarshe shine "I", tambayi Pod don sake aika amsa ta ƙarshe.

AIKA:

n

KARBI: FF[CR]

;ko me data kasance

Sannu Sako H*

Sannu sako

Duk wani jigon haruffa da suka fara da “H” za a fassara su azaman wannan umarni. ("H[CR]" kadai kuma abin karɓa ne.) Komawa daga wannan umarni yana ɗaukar fom (ba tare da ambato ba):

"= Pod aa, RDAG12-8 Rev rr Firmware Ver: x.xx ACCES I/O Products, Inc."

aa shine adireshin Pod rr shine bita na hardware, kamar "B1" x.xx shine sabunta software, kamar "1.00"

Exampda:

Karanta sakon gaisuwa.

AIKA:

Sannu? [CR]

Karɓi: Pod 00, RDAG12-8 Rev B1 Firmware Ver:1.00 ACCES I/O Products,

Inc.[CR]

Bayanan Bayani na MRDAG12-8H.Bc

Shafi na 3-7

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ACCES I/O rdAG12-8(H) Samu Magana

Bayanan Bayani na RDAG12-8

Sanya Baud Rate (Lokacin da Acces ya aika, an saita ƙimar Baud a 9600.)

BAUD=nn

Shirya Pod tare da sabon ƙimar baud

Wannan umarnin yana saita Pod don sadarwa a sabon ƙimar baud. Siga ya wuce, nnn, ɗan sabon abu ne. Kowane n lamba ɗaya ce daga tebur mai zuwa:

Lambar 0 1 2 3 4 5 6 7

Baud Rate 1200 2400 4800 9600 14400 19200 28800 57600

Don haka, ingantattun ƙimomi na “nnn” umarni sune 000, 111, 222, 333, 444, 555, 666, ko 777. Pod ɗin yana mayar da saƙo yana nuna zai bi. Ana aika saƙon a cikin tsohon kuɗin baud, ba sabon ba. Da zarar an isar da saƙon, Pod ɗin yana canzawa zuwa sabon ƙimar baud. Ana adana sabon adadin baud a cikin EEPROM kuma za a yi amfani da shi ko da bayan an sake saita wutar lantarki, har sai an ba da umarnin "BAUD=nnn" na gaba.

Exampda:

Sanya Pod zuwa 19200 baud.

AIKA:

BAUD=555[CR]

Karɓi: Baud:05[CR]

Sanya Pod zuwa 9600 baud.

AIKA:

BAUD=333[CR]

Karɓi: Baud:03[CR]

Sanya Adireshin Pod POD=xx

Shirya Pod ɗin da aka zaɓa a halin yanzu don amsawa a adireshin xx.

Wannan umarnin yana canza adireshin Pod zuwa xx. Idan sabon adireshin 00 ne, za a sanya Pod ɗin zuwa yanayin da ba a yi magana ba. Idan sabon adireshin ba 00 ba, Pod ɗin ba zai amsa ƙarin sadarwa ba har sai an bayar da ingantaccen umarnin adireshin. Lambobin hex 00-FF ana ɗaukar ingantattun adireshi. Bayanin RS485 yana ba da damar saukowa 32 kawai akan layi, don haka wasu adireshi na iya zama mara amfani.

An adana sabon adireshin Pod a cikin EEPROM kuma za a yi amfani da shi ko da bayan an kashe wutar har sai an ba da umarnin "Pod=xx" na gaba. Lura cewa, idan sabon adireshin ba 00 ba (watau an saita Pod don kasancewa cikin yanayin da ake magana), dole ne a ba da umarnin adireshi ga Pod a sabon adireshin kafin ya amsa.

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Pod ɗin yana dawo da saƙo mai ɗauke da lambar Pod azaman tabbaci.

Exampda:

Saita adireshin Pod zuwa 01.

AIKA:

Pod=01[CR]

KARBI: =: Pod#01[CR]

Saita adireshin Pod zuwa F3.

AIKA:

Pod=F3[CR]

KARBI: =: Pod#F3[CR]

Cire Pod daga yanayin da ake magana.

AIKA:

Pod=00[CR]

KARBI: =: Pod#00[CR]

Adireshin Zaɓi !xx

Yana zaɓar Pod da aka yi magana 'xx'

Lura

Lokacin amfani da Pod fiye da ɗaya a cikin tsarin, kowane Pod ana saita shi tare da adireshi na musamman. Dole ne a ba da wannan umarni kafin kowane umarni zuwa wannan takamaiman Pod. Ana buƙatar bayar da wannan umarni sau ɗaya kawai kafin aiwatar da kowane umarni. Da zarar an ba da umarnin zaɓin adireshin, Pod ɗin zai amsa duk wasu umarni har sai an ba da sabon umarnin zaɓi adireshin.

Lambobin Kuskure

Ana iya dawo da lambobin kuskure masu zuwa daga Pod:
1: Lambar tashar mara inganci (ya yi girma, ko ba lamba ba. Duk lambobin tashar dole ne su kasance tsakanin 00 da 07).
3: Rashin Daidaitawa. (Ba isassun sigogi ba shine mai laifi na yau da kullun). 4: Lambar tashar ba ta da inganci don wannan aikin (Misaliample idan kun yi ƙoƙarin fitarwa zuwa ɗan abin da aka saita
a matsayin shigar bit, wannan zai haifar da wannan kuskure). 9: Kuskuren daidaitawa. (Wannan yana faruwa lokacin da wani ɓangaren bayanan da aka karɓa ya ƙunshi daidaito ko ƙira
kuskure).
Ƙari ga haka, ana dawo da lambobin kuskuren cikakken rubutu da yawa. Duk suna farawa da “Kuskure,” kuma suna da amfani yayin amfani da tasha don tsara Pod.
Kuskure, Umurnin da ba a gane shi ba: {umarnin da aka karɓa[CR] Wannan yana faruwa idan ba a gane umarnin ba.
Kuskure, Ba a gane cikakken umarnin ba: {An karɓi umarnin [CR] Wannan yana faruwa idan harafin farko na umarnin yana aiki, amma sauran haruffa ba su da kyau.

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rdAG12-8 Kuskuren Manual, umarnin adireshi dole ne a ƙare CR[CR] Wannan yana faruwa idan umarnin adireshin (!xx[CR]) yana da ƙarin haruffa tsakanin lambar Pod da [CR].

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Karin Bayani A: Abubuwan Shawarwari

Gabatarwa

Yin aiki tare da na'urorin RS422 da RS485 bai bambanta da aiki tare da daidaitattun na'urorin serial na RS232 ba kuma waɗannan ƙa'idodi guda biyu sun shawo kan gazawa a cikin ma'aunin RS232. Na farko, tsayin kebul tsakanin na'urorin RS232 guda biyu dole ne ya zama gajere; kasa da ƙafa 50 a 9600 baud. Na biyu, yawancin kurakuran RS232 sune sakamakon hayaniya da aka jawo akan igiyoyin. Ma'auni na RS422 yana ba da izinin tsayin kebul har zuwa ƙafa 4000 kuma, saboda yana aiki a cikin yanayin banbanta, yana da kariya ga hayaniya.
Haɗi tsakanin na'urorin RS422 guda biyu (tare da CTS watsi) yakamata su kasance kamar haka:

Na'ura #1

Sigina

Fil A'a

Gnd

7

TX+

24

TX-

25

RX+

12

RX-

13

Na'ura #2

Sigina

Fil A'a

Gnd

7

RX+

12

RX-

13

TX+

24

TX-

25

Tebur A-1: ​​Haɗi Tsakanin Na'urorin RS422 Biyu

Rashi na uku na RS232 shine cewa fiye da na'urori biyu ba za su iya raba kebul ɗaya ba. Wannan kuma gaskiya ne ga RS422 amma RS485 yana ba da duk fa'idodin RS422 ƙari yana ba da damar har zuwa na'urori 32 don raba murɗaɗɗen nau'i-nau'i iri ɗaya. Banda abin da ya gabata shine na'urorin RS422 da yawa na iya raba kebul guda ɗaya idan ɗaya kawai zai yi magana sauran kuma za su karɓa.

Daidaitaccen Sigina Daban-daban

Dalilin da cewa na'urorin RS422 da RS485 za su iya fitar da dogon layi tare da ƙarin rigakafin amo fiye da na'urorin RS232 shine saboda ana amfani da daidaitaccen hanyar tuƙi. A cikin daidaitaccen tsarin bambance-bambance, voltage da direban ya samar ya bayyana a fadin wayoyi biyu. Madaidaicin direban layi zai samar da nau'in voltage daga ± 2 zuwa ± 6 volts a fadin tashoshin fitarwa. Madaidaicin direban layi yana iya samun siginar shigar da “enable” wanda ke haɗa direba zuwa tashoshi na fitarwa. Idan siginar "enable" ya KASHE, an cire haɗin direba daga layin watsawa. Wannan yanayin da aka katse ko naƙasasshe yawanci ana kiransa da yanayin “tristate” kuma yana wakiltar babban cikas. Dole ne direbobin RS485 su sami wannan ikon sarrafawa. Direbobin RS422 na iya samun wannan iko amma ba koyaushe ake buƙata ba.

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Madaidaicin mai karɓar layi yana fahimtar juzu'itage yanayin layin watsawa a kan layin shigar da siginar guda biyu. Idan bambancin shigarwa voltage ya fi +200 mV, mai karɓa zai samar da takamaiman yanayin tunani akan fitarwa. Idan bambancin voltage shigarwar ta kasa da -200mV, mai karɓa zai samar da kishiyar yanayin tunani akan fitarwa. Matsakaicin aiki voltage kewayon daga +6V zuwa -6V yana ba da damar voltage attenuation wanda zai iya faruwa a kan dogon watsa igiyoyi.
Matsakaicin yanayin gama gari voltage rating na ± 7V yana ba da kyakkyawan rigakafin amo daga voltages jawo kan karkatattun layukan biyu. Haɗin layin ƙasa yana da mahimmanci don kiyaye yanayin gama gari voltage cikin wannan zangon. Kewayawa na iya aiki ba tare da haɗin ƙasa ba amma maiyuwa baya zama abin dogaro.

Fitar Direba Ma'auni Voltage (an sauke)
Fitar Direba Voltage (na lodi)
Direba Resistance Direba Fitowar Gajeren Da'irar Yanzu
Fitar da Direba Hankalin Mai karɓar Lokacin Tashi
Yanayin Mai karɓa na gama gari Voltage Resistance Input Mai karɓar Range

Sharuɗɗa

Min.

4V

-4V

LD da LDGND

2V

masu tsalle a ciki

-2V

Max. 6V - 6V
50 ± 150 mA 10% tazara naúrar ± 200 mV
± 7V 4K

Teburin A-2: Takaitaccen Bayanin RS422

Don hana tunanin sigina a cikin kebul ɗin kuma don haɓaka ƙirjin amo a cikin yanayin RS422 da RS485, ƙarshen mai karɓar kebul ya kamata a ƙare tare da juriya daidai da ƙaƙƙarfan halayen kebul. (Bangaren wannan shine yanayin inda direban RS422 ke tafiyar da layin wanda ba a taɓa yin “gwaji ba” ko kuma an cire shi daga layin. )

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RS485 watsa bayanai
Ma'auni na RS485 yana ba da damar daidaita layin watsawa don rabawa a cikin yanayin layin jam'iyya. Kimanin nau'i-nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i nau'i) direba) suna iya raba hanyar sadarwar layin jam'iyya mai waya biyu. Yawancin halaye na direbobi da masu karɓa iri ɗaya ne da na RS32 Standard. Bambanci ɗaya shine yanayin gama gari voltage iyaka yana ƙara kuma shine +12V zuwa -7V. Tunda ana iya cire haɗin kowane direba (ko kuma an bayyana shi uku) daga layin, dole ne ya jure wannan yanayin gama gari vol.tage kewayon yayin da yake cikin yanayin tristate.
Hoton mai zuwa yana nuna nau'in hanyar sadarwa na multidrop ko layin jam'iyya. Lura cewa layin watsawa yana ƙarewa a ƙarshen layin biyu amma ba a wuraren saukarwa a tsakiyar layin ba.

Hoto A-1: ​​Hannun RS485 Multidrop Network na Waya Biyu

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Karin Bayani na B: La'akarin thermal

Ƙarƙashin wutar lantarki na jiragen ruwa rdAG12-8 da aka sanya a cikin akwatin NEMA- 4, 8.75" tsayi da 5.75" fadi da 2.25" babba. Akwatin yana da buɗaɗɗen zagaye biyu tare da glandan roba don kewayawa da rufe igiyoyin I/O. Lokacin da aka ɗora duk tashoshin fitarwa 8 tare da nauyin 10mA @ 5Vdc wutar lantarki na RDAG12-8 shine 5.8W. Juriya na thermal na akwatin tare da katin rdAG12-8 da aka shigar shine 4,44°C/W. A Tambient = 25 ° C zafin jiki a cikin akwatin shine 47.75 ° C. Matsakaicin zafin da aka yarda a cikin akwatin shine 70-47.75=22.25°C. Don haka matsakaicin yanayin aiki na yanayi shine 25+22.25=47.5°C.

Babban sigar wutar lantarki na RDAG12-8 za a iya tattara ta ta hanyoyi da yawa: a) A cikin akwatin T-akwatin (8.5″ x5.25″ x2″) tare da ramin 4.5″ x.5″ don hanyar kebul da kewayar iska. b) A cikin buɗaɗɗen shinge wanda aka fallasa ga iska kyauta. c) A cikin iska mai kyauta tare da watsawar iska wanda abokin ciniki ya bayar.

Lokacin da aka zaɓi babban zaɓi na wutar lantarki, dole ne a biya kulawa ta musamman ga samar da zafi da nutsewar zafi. Abubuwan da aka fitar ampliifiers suna iya isar da 3A a fitarwa voltage jeri 0-10V, +/-5V, 0-5V. Duk da haka ikon watsar da zafi da aka haifar a cikin ampliifiers suna iyakance adadin kuzarin da aka halatta. An ƙididdige wannan ƙarfin a cikin wani muhimmin mataki ta nau'in shingen da RDAG12-8 ke kunshe a ciki.

Lokacin da aka shigar a cikin akwatin T, ana iya ƙididdige yawan wutar lantarki ta amfani da lissafin masu zuwa:

Ƙarfin ya ɓace a cikin fitarwa ampmai kunnawa kowane tashoshi shine: Pda= (Vs-Vout) x ILoad.

Inda:

Pda Power ya bace a cikin ikon fitarwa amplifier Vs Power wadata voltage Iload Load na yanzu Vout Output voltage

Don haka idan wutar lantarki voltage Vs= 12v, fitarwa voltage kewayon shine 0-5V kuma nauyin shine 40Ohms, wutar lantarki ta ɓace a cikin fitarwa. ampƘaddamarwa ta wurin ɗaukar nauyi na yanzu shine 7V x .125A =.875W. Ƙarfin da aka watsar ta hanyar quiescent na yanzu Io =.016A. Po=24Vx.016A=.4w. Don haka jimlar wutar ta ɓace a cikin ampikon 1.275W. A cikin yanayin aiki mara amfani (sakamakon ba a ɗora su ba) a 25 ° C yanayin iska na yanayi zafin jiki a cikin akwatin (a cikin kusancin ikon ampmasu zafi) ya kai ~ 45 ° C. Rashin wutar lantarki a yanayin rashin aiki shine 6.7W.

Juriya na thermal na akwatin Rthencl (ana auna shi a kusancin ikon ampliifiers) an kiyasta ya zama ~ 2°C/W. Don haka ikon fitarwa da aka yarda don matsakaicin zafin jiki a cikin shingen 70 ° C shine
25°C/2°C/w = 12.5W a 25°C zafin iska na yanayi. Ta haka ne a yarda jimlar wutar lantarki tare da
Abubuwan da ake fitar da lodin juriya shine ~19.2W a zazzabi na yanayi na 25°C.

Derating don haɓakar zafin yanayi shine 1/Rthencl = .5W ga kowane digiriC na yanayin zafin yanayi. Aiki A Free Air

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The heatsink zafin jiki na ampmai samar da wutar lantarki .250A a 5V DC zai iya kaiwa 100°C. max (ana auna shi a dakin da zafin jiki na 25 ° C). Ƙarfin da ya ɓace ampLifier shine (12-5) x.250 = 1.750W. Matsakaicin zafin mahaɗin da aka yarda shine 125°C. Tsammanin junction-to-case da yanayin-zuwa zafi juriyawar yanayin zafi na fakitin TO-220 shine 3°C/W da 1°C/W bi da bi. Junction0-zafi juriya juriya RJHS=4°C/W. Hawan zafin jiki tsakanin farfajiyar zafin rana da mahaɗin shine 4°C/W x1.75W=7°C. Don haka madaidaicin zafin zafin da aka yarda da shi shine 125-107=18°C. Don haka idan ɗaya daga cikin tashoshi na RDAG12-8 yana da nauyin 250mA, haɓakar yanayin yanayi yana iyakance zuwa 18 ° C. Matsakaicin zafin yanayi da aka yarda zai zama 25 +18=43°C.

Idan an samar da sanyaya iska mai tilastawa to lissafin mai zuwa zai ƙayyade nauyin da aka yarda da shi don rdAG12-8 da aka yarda da lalata wutar lantarki amplififi:

)/ Pmax = (125°C-Tamb.max (RHS +RJHS) inda
Heatsink thermal juriya RHS Junction-zuwa-heatsink saman thermal juriya RJHS Yanayin zafin jiki na aiki
Matsakaicin zafin yanayi Tamb.max

= 21°C/W = 4°C/W = 0 – 50°C
= 50 ° C

A saurin iska na <100 ft/min Pmax = 3W A saurin iska na 100 ft/min Pmax = 5W

(Kamar yadda yanayin zafin zafi ya ƙaddara)

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Comments na Abokin ciniki
Idan kun fuskanci wata matsala game da wannan jagorar ko kuma kawai kuna son ba mu ra'ayi, da fatan za a yi mana imel a: manuals@accesioproducts.com.

10623 Roselle Street, San Diego CA 92121 Tel. (858)550-9559 FAX (858)550-7322 www.accesioproducts.com
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Tsarin Tabbatarwa
Assured Systems babban kamfani ne na fasaha tare da abokan ciniki na yau da kullun na 1,500 a cikin ƙasashe 80, suna tura tsarin sama da 85,000 zuwa tushen abokin ciniki daban-daban a cikin shekaru 12 na kasuwanci. Muna ba da ingantacciyar ƙididdiga mai ƙarfi da ƙima, nuni, hanyar sadarwa da hanyoyin tattara bayanai zuwa sassan da aka haɗa, masana'antu, da dijital-na-gida kasuwa.
US
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EMEA
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Takardu / Albarkatu

ASSURED rdAG12-8(H) Fitowar Analog Na Nisa na Dijital [pdf] Manual mai amfani rdAG12-8 H Abubuwan Analog Na Nisa na Dijital, RDAG12-8 H, Fitar Analog Na Nisa na Dijital, Fitar Dijital, Dijital

Magana

• Manual mai amfani