I-Beijer-ELECTRONICS-LOGO

I-Beijer ELECTRONICS GT-3744 Imodyuli yokufaka ye-Analog

I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-PRODUCT

Iinkcukacha

  • Umzekelo: GT-3744 Imodyuli yoNgeniso yeAnalog
  • Imijelo: 4
  • Uhlobo lokufaka: I-4-Wire RTD/Ukuxhathisa
  • Indawo yokukhwelela: 18 pt i-terminal esusekayo

Imiyalelo yokusetyenziswa kwemveliso

Ukuhlohla

  1. Qinisekisa ukuba amandla kwisistim acinyiwe phambi kofakelo.
  2. Qhagamshela imodyuli yegalelo le-analog kwindawo efanelekileyo yokubeka kwi-G-series system.
  3. Gcina ngokukhuselekileyo imodyuli kwindawo yokuthintela nayiphi na intshukumo.

Misela

  1. Jonga kwidayagram yocingo kwincwadana yomsebenzisi ukuze uqhagamshelane ngokuchanekileyo neempawu zegalelo.
  2. Jonga izikhombisi ze-LED ukuqinisekisa ukusebenza ngokufanelekileyo.
  3. Qwalasela inkqubo yesoftware ukuqaphela kunye nokujongana nemodyuli yegalelo le-analog.

Ukusetyenziswa

  1. Emva kofakelo kunye nokuseta, nikezela ngeempawu eziyimfuneko kwimodyuli.
  2. Beka iliso kufundo lwedatha kumagalelo e-analog ngojongano lwenkqubo.
  3. Rhoqo ukuhlola imodyuli naziphi na iimpawu zomonakalo okanye ukungasebenzi kakuhle.

 Malunga nale Ncwadana

  • Le ncwadana iqulethe ulwazi malunga nesoftware kunye nezixhobo zehardware zeBeijer Electronics GT-3744 Imodyuli yoNgeniso yeAnalog.
  • Inika iinkcukacha ezinzulu kunye nesikhokelo kufakelo, ukuseta, kunye nokusetyenziswa kwemveliso.

Iisimboli ezisetyenziswa kule ncwadana

  • Olu papasho lubandakanya Isilumkiso, Isilumkiso, Inqaku kunye neempawu ezibalulekileyo apho kufanelekileyo ukubonisa ulwazi olunxulumene nokhuseleko okanye olunye ulwazi olubalulekileyo.

Iisimboli ezihambelanayo kufuneka zitolikwe ngolu hlobo lulandelayo:I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-1

Ukhuseleko

  • Ngaphambi kokusebenzisa le mveliso, nceda ufunde le ncwadana kunye nezinye iincwadana ezifanelekileyo ngononophelo. Nika ingqalelo epheleleyo kwimiyalelo yokhuseleko!
  • Akukho siganeko siya kuba noxanduva lwe-Beijer Electronics okanye uxanduva lomonakalo obangelwa kukusetyenziswa kwale mveliso.
  • Imifanekiso, umzampiiles kunye nemizobo kule ncwadana zibandakanyiwe ngeenjongo zokubonisa.
  • Ngenxa yezinto ezininzi eziguquguqukayo kunye neemfuno ezinxulumene naluphi na ufakelo oluthile, iBeijer Electronics ayinakuthatha uxanduva okanye uxanduva lokusetyenziswa ngokwenyani ngokusekelwe kwi-ex.amples kunye nemizobo.

Izatifikethi zeMveliso

Imveliso ineziqinisekiso ezilandelayo.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-2

Iimfuno ngokubanzi zoKhuseleko

  • ISILUMKISO: Musa ukudibanisa iimveliso kunye neengcingo ngamandla aqhagamshelwe kwinkqubo. Ukwenza njalo kubangela "i-arc flash", enokuthi ibangele iziganeko ezinobungozi ezingalindelekanga (ukutshisa, umlilo, izinto ezibhabhayo, uxinzelelo lokuqhuma, ukuqhuma kwesandi, ukushisa).
  • Sukuchukumisa iibhloko zeterminal okanye iimodyuli ze-IO xa inkqubo isebenza. Ukwenza oko kunokubangela ukothuka kombane, isekethe emfutshane okanye ukungasebenzi kakuhle kwesixhobo.
  • Ungaze uvumele izinto zentsimbi zangaphandle zichukumise imveliso xa inkqubo isebenza. Ukwenza oko kunokubangela ukothuka kombane, isekethe emfutshane okanye ukungasebenzi kakuhle kwesixhobo.
  • Musa ukubeka imveliso kufuphi nezinto ezinokutsha. Ukwenjenjalo kunokubangela umlilo.
  • Wonke umsebenzi wocingo kufuneka wenziwe yinjineli yombane.
  • Xa uphethe iimodyuli, qinisekisa ukuba bonke abantu, indawo yokusebenzela, kunye nokupakishwa zisekelwe kakuhle.
  • Gwema ukubamba amacandelo e-conductive, iimodyuli ziqulethe izinto ze-elektroniki ezinokutshatyalaliswa ngokukhutshwa kwe-electrostatic.
  • ISILUMKO: Ungaze usebenzise imveliso kwindawo ezinobushushu obungaphezulu kwe 60℃. Kuphephe ukubeka imveliso kwilanga elithe ngqo.
  • Ungaze usebenzise imveliso kwindawo enokufuma okungaphezulu kwe-90%.
  • Ngalo lonke ixesha sebenzisa imveliso kwindawo enongcoliseko degree 1 okanye 2.
  • Sebenzisa iintambo eziqhelekileyo zocingo.

Malunga neNkqubo ye-G-series

I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-6

Inkqubo iphelileview

  • Imodyuli yeAptha yeNethiwekhi -Imodyuli ye-adapter yenethiwekhi yenza ikhonkco phakathi kwebhasi yentsimi kunye nezixhobo zentsimi kunye neemodyuli zokwandisa.
  • Uqhagamshelo kwiinkqubo ezahlukeneyo zebhasi yentsimi inokusekwa nganye kwiimodyuli ze-adapter yenethiwekhi ehambelanayo, umz, i-MODBUS TCP, i-Ethernet IP, i-EtherCAT, i-PROFINET, i-CC-Link IE Field, i-PROFIBUS, i-CANopen, i-DeviceNet, i-CC-Link, i-MODUS / i-Serial, njl.
  • Ukwandiswa kweModyuli - Iindidi zeemodyuli zokwandiswa: I-IO yeDijithali, i-Analog IO, kunye neemodyuli eziKhethekileyo.
  • Ukuthumela imiyalezo -Isistim isebenzisa iindidi ezimbini zemiyalezo: Inkonzo yokuthumela imiyalezo kunye ne-IO yemiyalezo.

Inkqubo ye-IO yeMaphu yedatha

  • Imodyuli yokwandisa ineentlobo ezintathu zedatha: idatha ye-IO, iiparitha zokumisela, kunye neerejista zememori.
  • Utshintshiselwano lwedatha phakathi kwe-adapter yenethiwekhi kunye neemodyuli zokwandisa zenziwe nge-IO inkqubo yedatha yomfanekiso ngeprotocol yangaphakathi.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-6
  • Ukuhamba kwedatha phakathi kwe-adapter yenethiwekhi (i-63 slots) kunye neemodyuli zokwandisa
  • Igalelo kunye nemveliso yedatha yomfanekiso ixhomekeke kwindawo yokubeka kunye nohlobo lwedatha ye-slot yokwandisa. Ukucwangciswa igalelo kunye nemveliso data umfanekiso wenkqubo isekelwe kwindawo slot ukwandiswa.
  • Ubalo lwala malungiselelo lubandakanyiwe kwiincwadana zeeadaptha zenethiwekhi kunye neemodyuli ze-IO ezicwangcisiweyo.
  • Idatha yeparameter esebenzayo ixhomekeke kwiimodyuli ezisetyenziswayo. UmzekeloampLe, iimodyuli ze-analog zinezicwangciso ze-0-20 mA okanye 4-20 mA, kwaye iimodyuli zobushushu zineseto ezifana ne-PT100, PT200, kunye ne-PT500.
  • Uxwebhu lwemodyuli nganye luchaza idatha yeparameter.

Iinkcukacha

Iinkcukacha zokusingqongileyo

Ubushushu bokusebenza -20°C – 60°C
Ubushushu be-UL -20°C – 60°C
Ubushushu bokugcina -40°C – 85°C
Ubuntu bezizalwane I-5% -90% ayivali
Ukunyuka DIN kaloliwe
Ukothuka ukusebenza IEC 60068-2-27 (15G)
Ukuxhathisa ukungcangcazela IEC 60068-2-6 (4 g)
Ukukhutshwa kwamashishini I-EN 61000-6-4: 2019
Ukungakhuseleki kwamashishini I-EN 61000-6-2: 2019
Indawo yokufakela Ithe nkqo kwaye ithe tye
Izatifikethi zemveliso CE, FCC, UL, cUL

Inkcazo ngokubanzi

Ukutshatyalaliswa kwamandla Max. 120 mA @ 5 VDC
Ukubekwa wedwa I/O ukuya kwingqiqo: Ukwahlukaniswa

Amandla ommandla: Ayiqhagamshelwanga

Amandla entsimi Ayisetyenziswanga, dlula kwimodyuli elandelayo yolwandiso
Iintambo I/O intambo enkulu. 0.823 mm2 (AWG 18)
Ubunzima 64 g
Ubungakanani bemodyuli 12 mm x 109 mm x 70 mm

ImilinganiseloI-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-7

Imilinganiselo yeemodyuli (mm)

Inkcazo yegalelo

Igalelo kwimodyuli nganye 4 amajelo
Iimpawu (icala lengqiqo) 4 ubume begalelo eliluhlaza
Igalelo kwimodyuli nganye 4 amajelo
Iintlobo zenzwa Uluhlu lwegalelo leRTD
Igalelo leRTD Uluhlu lokufaka
PT50, PT100, PT200, PT500, PT1000 -200 – 850 °C
JPT50, JPT100, JPT200, JPT500, JPT1000 -200 – 640 °C
NI100, NI200, NI500, NI1000 -60 – 250 °C
NI120 -80 – 260 °C
Cu10, Cu100 -100 – 260 °C
NI1000LG -50 – 120 °C
  Igalelo lokuchasa Uluhlu lokufaka  
1 Ω/bit 0 – 4000 Ω
100 mΩ/bit 0 – 2000 Ω
10 mΩ/bit 0 – 327 Ω
20 mΩ/bit 0 – 620 Ω
50 mΩ/bit 0 – 1200 Ω
Uchulumanco lwangoku Malunga ne-0.5 mA
Indlela yokudibanisa 4-ingcingo
Ixesha loguqulo < 60 ms / onke amajelo
Ifomathi yedatha I-16-bit epheleleyo esayiniweyo (2′ ehambelanayo)
Ukuchaneka kwemodyuli PT50, JPT50, NI100, NI120 : ±0.3% isikali esipheleleyo @ 25 ℃

PT50, JPT50, NI100, NI120 : ±0.5% isikali esipheleleyo @ -40,70 ℃

PT1000: ±0.3 ℃ ku-50 – 150 ℃ @ 25 ℃ ambient

PT1000: ±0.5 ℃ ku-50 – 150 ℃ @ -40, 70 ℃ ambient

PT1000: ±0.5 ℃ ku -200 – 250 ℃ @ 25 ℃ ambient Cu10: ±2 % isikali esipheleleyo @ 25 ℃ indawo engqongileyo

Cu10: ±4 % isikali esipheleleyo @ -40, 70 ℃ i-ambient Cu100: ±0.3 % isikali esipheleleyo @ 25 ℃ i-ambient Cu100: ±0.5 % isikali esipheleleyo @ -40, 70 ℃ Lonke uhlobo loluhlu lwegalelo:

• ±0.1 % isikali esipheleleyo @ 25 ℃ i-ambient

• ±0.3 % isikali esipheleleyo @ -40 – 70 ℃

Isisombululo sedatha Uhlobo lwe-RTD : ±0.1 ℃ / F , Uhlobo lokumelana: 1 Ω, 100 mΩ, 10 mΩ, 20 mΩ, 50 mΩ
Ulungelelwaniso Ayifuneki
Uxilongo Isivamvo sivuliwe okanye sande ngaphezulu, emva koko idatha yokuguqula = 0x8000(-32768)

Umzobo wocingo

I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-8

Inombolo yePin. Inkcazo yomqondiso
0 Ijelo le-RTD 0 R+1
1 Ijelo le-RTD 0 R+2
2 Ijelo le-RTD 0 R-1
3 Ijelo le-RTD 0 R-2
4 Ijelo le-RTD 1 R+1
5 Ijelo le-RTD 1 R+2
6 Ijelo le-RTD 1 R-1
7 Ijelo le-RTD 1 R-2
8 Ijelo le-RTD 2 R+1
9 Ijelo le-RTD 2 R+2
10 Ijelo le-RTD 2 R-1
11 Ijelo le-RTD 2 R-2
12 Ijelo le-RTD 3 R+1
13 Ijelo le-RTD 3 R+2
14 Ijelo le-RTD 3 R-1
15 Ijelo le-RTD 3 R-2
16 NGOKUPHELELEYO
17 NGOKUPHELELEYO

Isalathisi se-LED

I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-9

Inombolo ye-LED. Umsebenzi we-LED/inkcazo Umbala we-LED
Ubume Ubume be-G-Bus Luhlaza

Ubume beSitishi se-LED

Ubume I-LED Isalathiso
Ubume be-G-Bus CIMA Uqhawulo
Luhlaza Uqhagamshelwano

Imephu yeDatha kwiTheyibhile yoMfanekiso

Ngena kwimodyuli yedatha

Igalelo le-analog Ch 0
Igalelo le-analog Ch 1
Igalelo le-analog Ch 2
Igalelo le-analog Ch 3

I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-10Ngena kwixabiso loMfanekiso

Hayi kancinci. Incinci 7 Incinci 6 Incinci 5 Incinci 4 Incinci 3 Incinci 2 Incinci 1 Incinci 0
Byte 0 Igalelo le-analog Ch 0 ngebhayithi ephantsi
Byte 1 Igalelo le-analog Ch 0 ngebhayithi ephezulu
Byte 2 Igalelo le-analog Ch 1 ngebhayithi ephantsi
Byte 3 Igalelo le-analog Ch 1 ngebhayithi ephezulu
Byte 4 Igalelo le-analog Ch 2 ngebhayithi ephantsi
Byte 5 Igalelo le-analog Ch 2 ngebhayithi ephezulu
Byte 6 Igalelo le-analog Ch 3 ngebhayithi ephantsi
Byte 7 Igalelo le-analog Ch 3 ngebhayithi ephezulu
  • PHAWULA: Ukuba igalelo letshaneli livuliwe okanye ligqithise kakhulu, idatha yayo yokuguqulwa iya kuba yi-0x800032678.

Uqwalaselo Parameter 10 byte

Byte Isuntswana ledesimali Inkcazo Ixabiso elimiselweyo
0 00-07 Uhlobo loluvo lokhetho

=00h:PT100, 0.00385, -200 - 850 °C, 0.1 °C /ukubala

=01h:PT200, 0.00385, -200 - 850 °C, 0.1 °C/ukubala

=02h:PT500, 0.00385, -200 - 850 °C, 0.1 °C/ukubala

=03h:PT1000, 0.00385, -200 - 850 °C, 0.1 °C/ukubala

=04h:PT50, 0.00385, -200 - 850 °C, 0.1 °C/ukubala

=10h:JPT100, 0.003916, -200 - 640 °C, 0.1 °C/ukubala

=11h:JPT200, 0.003916, -200 - 640 °C, 0.1 °C/ukubala

=12h:JPT500, 0.003916, -200 - 640 °C, 0.1 °C/ukubala

=13h:JPT1000, 0.003916, -200 - 640 °C, 0.1 °C/ukubala

=14h:JPT50, 0.003916, -200 - 640 °C, 0.1 °C/ukubala

=20h:NI100, 0.00618, -60 - 250 °C, 0.1 °C/ukubala

=21h:NI200, 0.00618, -60 - 250 °C, 0.1 °C/ukubala

=22h:NI500, 0.00618, -60 - 250 °C, 0.1 °C/ukubala

=23h:NI1000, 0.00618, -60 - 250 °C, 0.1 °C/ukubala

=30h:NI120, 0.00672, -80 - 260 °C, 0.1 °C/ukubala

=40h:Cu10, 0.00427, -100 - 260 °C, 0.1 °C/ukubala

=41h:Cu100, 0.00427, -100 - 260 °C, 0.1 °C/ukubala

=53h:NI1000LG, 0.00500, -50 - 120 °C, 0.1 °C/ukubala

=80h: Igalelo lokuchasa, 1 – 2000 Ω, 100 mΩ /1count

=81h: Igalelo lokuchasa, 1 – 327 Ω, 10 mΩ /1count

=82h: Igalelo lokuchasa, 1 – 620 Ω, 20 mΩ /1count

=83h: Igalelo loKuchasa, 1 – 1200 Ω, 50 mΩ/1count

=84h: Igalelo lokuchasa, 1 – 4000 Ω, 1 Ω/1count

=Abanye: Bekelwe bucala

0: PT100
1 00 Uhlobo lobushushu: 0: Celsius (°C)

1: Fahrenheit (°F)

00: iCelsius (°C)
01 Igciniwe 0
02 – 03 Isisombululo sedatha: 00: 0.1 ℃, ℉/bit

01: 1 ℃, ℉/bit

10: 0.01 ℃, ℉/bit *

11: Igciniwe

0
Byte Isuntswana ledesimali Inkcazo Ixabiso elimiselweyo
  04 Uhlobo lwesihluzi:

0: Isihluzi esiqhelekileyo

1: Isihluzi esomeleziweyo

0: Isihluzi esiqhelekileyo
05-06 Isihluzi se-SW:

0: Isihluzi esiqhelekileyo (ixesha lokucoca = 20) 1: Isihluzi esikhawulezayo (ixesha lokucoca = 3) **

2: Isihluzi esomeleziweyo (ixesha lokucoca = 40)

3: Isihluzi esongeziweyo (ixesha lokucoca = 80)

0
07 Igciniwe 0
2-3   CH0 ixabiso lokulinganisa 0
4-5   CH1 ixabiso lokulinganisa 0
6-7   CH2 ixabiso lokulinganisa 0
8-9   CH3 ixabiso lokulinganisa 0
  • Idatha engaphezulu kwe-32767 ayinakuboniswa.
  • Ukuba isihluzo esikhawulezayo sisetiwe, ukuchaneka kobalulo kusenokungahlangatyezwa.

Ixabiso leDatha

Uluhlu lwegalelo lomtshini wokumelana nobushushu

Uhlobo Uluhlu lokufaka
PT100 -200 - 850 ℃
PT200 -200 - 850 ℃
PT500 -200 - 850 ℃
PT1000 -200 - 850 ℃
PT50 -200 - 850 ℃
JPT100 -200 – 640 ℃
JPT200 -200 – 640 ℃
JPT500 -200 – 640 ℃
JPT1000 -200 – 640 ℃
JPT50 -200 – 640 ℃
NI100 -60 - 250 ℃
NI200 -60 - 250 ℃
NI500 -60 - 250 ℃
NI1000 -60 - 250 ℃
NI120 -80 - 260 ℃
Cu10 -100 - 260 ℃
Cu100 -100 - 260 ℃
NI1000LG -50 - 120 ℃

Uluhlu lwegalelo lokumelana

Uhlobo Uluhlu lokufaka
1 Ω/bit 0 – 4000 Ω
100 mΩ/bit 0 – 2000 Ω
10 mΩ/bit 0 – 327 Ω
20 mΩ/bit 0 – 620 Ω
50 mΩ/bit 0 – 1200 Ω

Ukuseta i-Hardware

  • ISILUMKO Soloko ufunda esi sahluko phambi kokufaka imodyuli!
  • Umphezulu oshushu! Umphezulu wendlu unokuba shushu ngexesha lokusebenza. Ukuba ifowuni isetyenziswa kumaqondo obushushu aphezulu akwi-ambient, soloko uvumele ifowuni ukuba iphole phambi kokuba uyibambe.
  • Ukusebenza kwizixhobo ezinamandla kunokonakalisa izixhobo! Soloko ucima unikezelo lombane phambi kokuba usebenze kwisixhobo.

Iimfuno zesithuba

  • Imizobo elandelayo ibonisa iimfuno zendawo xa ufaka iimodyuli ze-G-series.
  • Isithuba sidala isithuba sokungena komoya kwaye sithintela uphazamiseko olwenziwa ngumbane wombane ekubeni luphembelele umsebenzi.
  • Indawo yokuhlohla inyanisekile ngokuthe nkqo nangokuthe tye. Imizobo iyimifanekiso kwaye isenokungalingani.
  • ISILUMKO: UKUNGANI ukulandela iimfuno zendawo kunokubangela ukonakalisa imveliso.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-11

Nyuka iModyuli ukuya kwi-DIN kaloliwe

  • Izahluko ezilandelayo zichaza indlela yokunyuswa kwemodyuli kwisiporo seDIN.
  • ISILUMKO Imodyuli kufuneka ilungiswe kwi-DIN kaloliwe kunye nezixhobo zokutshixa.

Nyuka i-GL-9XXX okanye i-GT-XXXX Imodyuli

  • Le miyalelo ilandelayo iyasebenza kolu didi lwemodyuli.
  • GL-9XXX
  • GT-1XXX
  • GT-2XXX
  • GT-3XXX
  • GT-4XXX
  • GT-5XXX
  • GT-7XXX
  • GN-9XXX iimodyuli zineentsimbi zokutshixa ezintathu: enye isezantsi kwaye ezimbini kwicala. Ngemiyalelo yokunyuswa, jonga kwiModyuli ye-Mount GN-9XXX.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-12
  • Nyuka kwi-DIN kaloliweI-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-13
  • Ukwehla kwi-DIN kaloliwe

Nyuka i-GN-9XXX Imodyuli

  • Ukunyuka okanye ukuhlisa iadaptha yenethiwekhi okanye imodyuli yeIO ecwangcisekileyo enegama lemveliso GN-9XXX, ye ex.ample GN-9251 okanye GN-9371, bona le miyalelo ilandelayo.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-14
  • Nyuka kwi-DIN kaloliweI-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-15
  • Ukwehla kwi-DIN kaloliwe

Nqaba iBhlokhi yeSitena esiSukayo

  • Ukunyuka okanye ukuhlisa ibhloko yeterminal esusekayo (RTB), bona le miyalelo ingezantsi.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-16
  • Nyusa ibhloko yetheminali esusekayoI-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-17
  • Yehlisa ibhloko yeterminal esusekayo

Qhagamshela iiCables kwiBhloko yeSitena esiSukayo

  • Ukuqhagamshela/ukukhupha iintambo ukuya/ukusuka kwibhloko yetheminali esusekayo (RTB), bona le miyalelo ingezantsi.
  • ISILUMKISO: Soloko usebenzisa umthamo wonikezelo olucetyiswayotage kunye nobuninzi bokuthintela umonakalo kwisixhobo kunye nokuqinisekisa ukusebenza kakuhle.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-18
  • Intambo yokudibanisaI-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-19
  • Nqamula intambo

Amandla oMmandla kunye nezikhonkwane zeDatha

  • Unxibelelwano phakathi kwe-adapter yenethiwekhi ye-G-series kunye nemodyuli yokwandisa, kunye nenkqubo / ukunikezelwa kwamandla entsimi yeemodyuli zebhasi, iqhutyelwa ngebhasi yangaphakathi. Iqulethwe ngamaPini aMandla oMmandla we-2 kunye neePini zeDatha ezi-6.
  • ISILUMKISO: Sukuchukumisa idatha kunye nezikhonkwane zamandla endle! Ukuchukumisa kunokubangela ukungcoliswa kunye nomonakalo yingxolo ye-ESD.I-Beijer-ELECTRONICS-GT-3744-Analog-Input-Module-FIG-20
Inombolo yePin. Igama Inkcazo
P1 Inkqubo yeVCC Unikezelo lwenkqubo voltage (5 VDC)
P2 Inkqubo ye-GND Umhlaba wenkqubo
P3 Isiphumo sophawu Umqondiso wemveliso yemodyuli yeprosesa
P4 Iziphumo zothotho Ugqithiso lwemveliso yemodyuli yeprosesa
P5 Igalelo lothotho Umamkeli wegalelo lemodyuli yomqhubekekisi
P6 Igciniwe Igcinelwe uphawu lokugqitha
P7 Ummandla we-GND Umhlaba wentsimi
P8 Indawo yeVCC Unikezelo lommandla voltage (24 VDC)

Ilungelo lokushicilela

  • © 2025 Beijer Electronics AB. Onke Amalungelo Agciniwe.
  • Ulwazi olukolu xwebhu lunokutshintsha ngaphandle kwesaziso kwaye lunikezelwa njengoko lufumaneka ngexesha lokushicilela. I-Beijer Electronics AB inelungelo lokutshintsha naluphi na ulwazi ngaphandle kokuhlaziya olu papasho.
  • I-Beijer Electronics AB ayithathi xanduva ngazo naziphi na iimpazamo ezinokuvela kolu xwebhu. Zonke exampLes kolu xwebhu zenzelwe kuphela ukuphucula ukuqonda ukusebenza kunye nokuphathwa kwezixhobo.
  • I-Beijer Electronics AB ayinakuthatha naluphi na uxanduva ukuba ezi examples zisetyenziswa kwizicelo zokwenyani.
  • Ukunikezelwa koluhlu olubanzi lwezicelo zale software, abasebenzisi kufuneka bafumane ulwazi olwaneleyo ngokwabo ukuqinisekisa ukuba lusetyenziswa ngokuchanekileyo kwisicelo sabo esithile.
  • Abantu abajongene nesicelo kunye nezixhobo kufuneka baqinisekise ngokwabo ukuba isicelo ngasinye sihambelana nazo zonke iimfuno ezifanelekileyo, imigangatho kunye nomthetho ngokubhekiselele kumo nokhuseleko.
  • I-Beijer Electronics AB ayiyi kwamkela uxanduva lwawo nawuphi na umonakalo owenziwe ngexesha lofakelo okanye ukusetyenziswa kwezixhobo ezikhankanywe kolu xwebhu. I-Beijer Electronics AB inqanda konke ukuguqulwa, utshintsho, okanye ukuguqulwa kwezixhobo.
  • I-ofisi eyintloko
  • Beijer Electronics AB
  • Ibhokisi 426
  • 201 24 Malmö, Sweden
  • www.beijerelectronics.com
  • +46 40 358600

FAQ

  • Q: Zibonisa ntoni izikhombisi ze-LED kwimodyuli?
    • A: Izalathi ze-LED zibonisa ubume beempawu zemodyuli zegalelo.
    • Jonga kwincwadi yomsebenzisi ngolwazi oluthe kratya malunga nokutolika imiqondiso ye-LED.
  • Q: Ndingayisebenzisa i-GT-3744 ye-Analog Input Module kunye nezinye iinkqubo?
    • A: Imodyuli ye-GT-3744 ye-Analog Input yenzelwe ngokukodwa ukusetyenziswa kunye ne-G-series system.
    • Ukuhambelana nezinye iinkqubo kunokwahluka, ngoko ke kucetyiswa ukuba udibane nenkxaso yobugcisa ngaphambi kokudibanisa nenkqubo eyahlukileyo.

Amaxwebhu / Izibonelelo

I-Beijer ELECTRONICS GT-3744 Imodyuli yokufaka ye-Analog [pdf] Incwadi yokusebenzisa
Imodyuli yoNgeniso ye-GT-3744 ye-Analog, i-GT-3744, imodyuli yoNgeniso ye-Analog, imodyuli yoNgeniso, iModyuli

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