ON Semiconductor NCN5100 Arduino Shield Evaluation Board

Bayanin samfur

Ƙayyadaddun bayanai

• Sunan samfur: NCN5100 Arduinot Shield Evaluation Board
• Lambar Samfura: EVBUM2715/D
• Daidaituwa: Faɗin allon ci gaban microcontroller iri-iri
• Tsinkayarwa: Cikakken KNX-mai yarda
• Fitarwa Voltage: 3.3V (kafaffen), 1.2V zuwa 21V (mai canzawa)
• Haɗin kai: Hanyoyin sadarwa na SPI da UART

Ƙarsheview

NCN5100 Arduinot Shield Evaluation Board garkuwa ce mai jituwa ta Arduino wacce ke ba da damar yin samfuri cikin sauri tare da zaɓin microcontroller. Yana da cikakkiyar jituwa tare da nau'ikan allunan haɓaka microcontroller iri-iri. Garkuwar ta ƙunshi duk abubuwan da ake buƙata na waje don aiki da transceivers. Ta hanyar shigar da garkuwa a cikin kayan haɓaka mai dacewa da Arduino, masu amfani za su iya fara haɓaka ayyukan su nan da nan.

Siffofin

• Mai jituwa tare da nau'ikan allunan haɓaka microcontroller iri-iri
• Mai jujjuyawar KNX cikakke
• 3.3 V ƙayyadaddun fitarwa, 1.2 V zuwa 21 V mai canzawa

Hukumar tantancewa

NCN5100 Arduinot Shield Evaluation Board ya zo cikin bambance-bambancen guda uku, kowanne yana dauke da nau'in transceiver daban: NCN5110, NCN5121, da NCN5130. NCN5110 ɗan transceiver ne inda duk lokacin da microcontroller ke sarrafa duk lokacin. A gefe guda, duka NCN5121 da NCN5130 suna aiwatar da Layer MAC, suna rage ƙoƙarin haɓaka software. Waɗannan masu jujjuyawar kuma sun haɗa da manyan masu canza DC-DC guda biyu. Mai juyawa na farko yana haifar da ƙayyadaddun fitarwa na 3.3 V don samar da transceiver da sauran kayan aiki. Mai juyawa na biyu yana da daidaitaccen fitarwa voltage jere daga 1.2 V zuwa 21 V, wanda za'a iya amfani dashi don kunna ƙarin kayan aiki kamar relays ko nuni. An ƙera allunan tare da nau'in garkuwar Arduino, yana sa ya dace don fara haɓakawa ta hanyar haɗa garkuwar a cikin kwamiti na microcontroller mai jituwa.

Hukumar tantancewa ta kareview

Ana samar da babban haɗin kai zuwa hukumar tantancewa ta hanyar masu kai na Arduino V3. Wannan yana bawa hukumar damar dacewa da nau'ikan allunan haɓaka microcontroller iri-iri. Da fatan za a koma zuwa Rataye C, Tebu 6 a cikin Littafin Mai amfani don jerin dandali da aka gwada.

KNX-Bus

KNX-bus wata igiyar igiyar igiyar igiya ce da ke aiki a matsayin babbar hanyar sadarwa. Yana ba da haɗin kai zuwa na'urori a cikin gida ko tsarin gini na sarrafa kansa.

Voltage Pins

• VBUS: Bas voltage
• Veq: Ma'auni voltage
• Wuri: Voltage
• Talla: Ƙarshen layin voltage
• VDC: DC voltage

Fan-in

Duk na'urar da aka haɗa da KNX-bus za ta zana halin yanzu. Fitin-in fan-in akan allon ƙima yana saita iyakar halin yanzu da aka zana daga bas. Mai jujjuyawar yana kiyaye halin yanzu ƙasa da ƙayyadaddun iyaka.

Duk masu karɓar NCN5121 da NCN5130 suna da matakan da aka riga aka ayyana fan-in. Ana iya zaɓar waɗannan hanyoyin ta hanyar haɗa fil-in zuwa GND ko barin shi yana iyo. Lokacin da aka bar shi yana iyo, matsakaicin halin yanzu na bas yana iyakance zuwa 10mA. Lokacin da aka haɗa zuwa GND, ana saita iyaka zuwa 20mA.

Umarnin Amfani da samfur

Mataki 1: Saitin Hardware

1. Tabbatar cewa hukumar haɓaka microcontroller ta dace da NCN5100 Arduinot Shield Evaluation Board.
2. Saka garkuwa a cikin kanun Arduino V3 na hukumar haɓaka microcontroller.
3. Haɗa duk wani ƙarin kayan haɗi, kamar relays ko nuni, zuwa garkuwa idan an buƙata.

Mataki 2: Samar da Wutar Lantarki

Tabbatar cewa an haɗa wutar lantarki don hukumar haɓaka microcontroller da samar da isasshen voltage.

Mataki 3: Ci gaban Software

1. Sanya yanayin haɓaka software mai mahimmanci don microcontroller, idan ba a riga an yi ba.
2. Rubuta ko shigo da lambar da kuke so cikin yanayin haɓaka software.
3. Ƙirƙiri da loda lambar zuwa hukumar haɓaka microcontroller.

Mataki na 4: Gwaji

Da zarar an ɗora lambar, za ku iya fara gwada aikinku ta amfani da maɓallan kan allo da LEDs da aka bayar akan garkuwa. Ba a buƙatar ƙarin garkuwa don gwaji na asali. Domin misaliampDon haka, zaku iya saita aikace-aikacen dimmer mai sauƙi ta amfani da garkuwar KNX Arduino kawai.

Mataki na 5: Ƙarin Ci gaba

Idan ana so, za ku iya ci gaba da haɓaka aikinku ta hanyar haɗa ƙarin kayan aiki da faɗaɗa ayyukan aikace-aikacenku. Koma zuwa Littafin Mai amfani don cikakkun bayanai kan amfani da takamaiman samfurin transceiver da fasalulluka.

FAQs

• Q: Wadanne allunan ci gaban microcontroller suke dacewa da NCN5100 Arduinot Shield Evaluation Board?
  • A: NCN5100 Arduinot Shield Evaluation Board ya dace da nau'ikan allunan haɓaka microcontroller iri-iri. Da fatan za a koma zuwa Rataye C, Tebu 6 a cikin Littafin Mai amfani don jerin dandali da aka gwada.
• Tambaya: Menene manufar fil-in fil akan kimantawa allo?
  • A: Fitin-in fan yana saita iyakar halin yanzu da aka zana daga KNX-bus. Ana iya haɗa shi zuwa GND ko hagu yana iyo don zaɓar nau'ikan fan-in daban-daban, waɗanda ke ƙayyadadden iyakar iyaka na yanzu.
• Tambaya: Zan iya ƙarfafa ƙarin kayan aiki ta amfani da kimantawa allo?
  • A: Ee, hukumar kimantawa ta haɗa da mai canza DC-DC na biyu tare da madaidaicin fitarwa voltage jere daga 1.2 V zuwa 21 V. Ana iya amfani da wannan don kunna kayan aiki kamar relays ko nuni.

GABATARWA

KNX [3] sanannen buɗaɗɗen gida ne da ma'aunin aikin sarrafa kansa1. ON Semiconductor yana da jerin transceivers waɗanda ke sarrafa ƙarancin matakin sadarwa.
NCN5100ASGEVB allunan kimantawa garkuwa ne masu dacewa da Arduino waɗanda ke ba da damar yin samfuri cikin sauri tare da zaɓin microcontroller. Duk abubuwan da ake buƙata na waje waɗanda ake buƙata don aiki da transceivers suna nan akan garkuwa. Toshe shi a cikin kayan haɓaka mai dacewa da Arduino kuma fara haɓakawa!

SIFFOFI

• Arduino Uno V3 masu haɗin haɗin gwiwa
  • Mai jituwa tare da nau'ikan allunan haɓaka microcontroller iri-iri
• Maɓallan allo/LED guda huɗu don gina aikace-aikacen dimmer
• Akwai a cikin UART- da sigar SPI
  • Mai jujjuyawar KNX cikakke
• A sauƙaƙe farawa da KNX
• Matsakaicin bas na yanzu har zuwa 40mA2
• Masu sauya DC-DC guda biyu masu inganci
  • 3.3 V kafaffen fitarwa
  • 1.2V zuwa 21V fitarwa mai canzawa
• Haɗe-haɗe 20V mai sarrafa linzamin kwamfuta

KARSHEVIEW

Allolin NCN5100ASGEVB sun zo cikin bambance-bambancen guda uku masu dauke da masu karɓar NCN5110, NCN5121 da NCN5130. NCN5110 ɗan transceiver ne kuma duk lokacin ana sarrafa ta microcontroller. Dukansu NCN5121 da NCN5130 kuma suna aiwatar da layin MAC, suna rage ƙoƙarin haɓaka software. Duk lokuta masu mahimmanci ana sarrafa su ta hanyar transceiver.
Duk masu jujjuyawar sun haɗa da manyan masu canza DC-DC guda biyu masu inganci. Madaidaicin mai canzawa ɗaya wanda ke samar da 3.3 V, yana ba da transceiver da sauran na'urori na zaɓi kamar microcontroller. Mai sauya DC-DC na biyu yana da madaidaicin fitarwa voltage jere daga 1.2 V zuwa 21 V kuma ana iya amfani dashi don samar da na'urori kamar su, relays, nuni, da sauransu.
Tsarin garkuwar garkuwar Arduino yana sa sauƙin fara haɓakawa; kawai toshe garkuwar a cikin allon microcontroller mai jituwa kuma fara coding. Godiya ga maɓallan jirgi da LEDs, ba lallai ba ne a toshe ƙarin garkuwa don fara gwaji. Za a iya saita aikace-aikacen dimmer mai sauƙi ba tare da wani lokaci ba tare da garkuwar KNX Arduino kawai.

1 https://my.knx.org
2 Don sigar NCN5130 da NCN5110. NCN5121 ta haura zuwa 24mA.

Dukansu NCN5121 da NCN5130 sun zo tare da hanyar sadarwa ta SPI da UART. Ƙarshen yana da cikakkiyar jituwa ta TP-UART, yana ba da damar amfani da software mai dacewa.
Allolin sune PCB's Layer 2 tare da taro mai gefe guda, yana nuna cewa yana yiwuwa a haɓaka aikace-aikacen masu rahusa cikin sauƙi.

HUKUNCIN KIMANWAVIEW

Ana samar da babban haɗin kai zuwa hukumar tantancewa ta hanyar kanun Arduino V3 waɗanda za a iya gani a hoto na 1.

Wannan yana da ci gabatage cewa hukumar ta dace da allunan ci gaban microcontroller iri-iri. Koma zuwa Rataye C, Tebu 6 don jerin dandali da aka gwada.

KNX-Bus
KNX-bus ya ƙunshi kebul na murɗaɗɗen kebul yana samar da bayanai da ƙarfi. Voltage akan bas ɗin ya bambanta tsakanin 21 V zuwa 32 V (VDC a hoto na 3). Ana yin sadarwa akan bas ɗin akan 9600 baud asynchronously. Hankali ɗaya yana wakilta ta matakin DC akan bas ɗin tsayawa akai. Don sifili mai ma'ana, ana jan bas ɗin 3 V zuwa 10 V ƙasa da matakin DC na farko. Ana kiran wannan bugun jini mai aiki wanda ke da tsawon lokaci na yawanci 35 s. Mai bi nan da nan bayan shine daidaita bugun jini. A wannan lokacin, voltage zai iya jujjuya har zuwa 13 V sama da matakin DC kuma zai lalace sosai a cikin 69µs.Hoto na 3 yana nuna sifili mai ma'ana a kan bas ɗin.

Fan-in
Duk na'urar da aka haɗa da KNX-bus za ta zana halin yanzu daga bas ɗin don samar da aikace-aikacen. Ma'auni na KNX ya ƙayyade halin yanzu ya kamata a iyakance ga ainihin buƙata. Ga kowane na'ura KNX matsakaicin zane na yanzu an ƙayyade a cikin takaddun bayanan sa bisa ga ƙirar-in-samfurin [1]. Ana amfani da tsarin fan-in-samfurin don tantance nawa ne na'urorin da za a iya haɗa su zuwa ɓangaren zahiri na bas ɗin. Duk ON Semiconductor KNX transceivers yana ƙunshe da ingantacciyar hanyar don kiyaye zane a cikin ƙimar da aka ƙayyade a cikin takardar bayanan sa. Wannan yana tabbatar da cewa na'urar ta bi ƙa'ida.
Fitin-in fan yana saita iyakar halin yanzu da aka zana daga bas ɗin. Mai jujjuyawar za ta ci gaba da kiyaye halin yanzu ƙasa da ƙayyadaddun iyaka.
Dukansu transceivers (NCN5121 da NCN5130) suna da yanayin fan-in da aka riga aka ayyana. Ana iya zaɓar waɗannan ta ko dai haɗa fil-in fan zuwa GND ko barin shi yana iyo. Barin ta yana iyo, matsakaicin iyakar bas ɗin yana iyakance zuwa 10mA. An ɗaura zuwa GND an saita iyaka zuwa 20mA.
Hakanan NCN5130 yana ba da yanayin fan-in waje. A cikin wannan yanayin ana iya saita iyaka na yanzu a layi daya daga 5 mA zuwa 40 mA. Ana samun wannan ta hanyar haɗa resistor tare da ƙimar 10k ku 93.1k ga fan-in pin. Mai fan-in-samfurin [1] yana ƙayyadad da azuzuwan yanzu. Lokacin zayyana aikace-aikacen da ayyana amfani na yanzu, dole ne a zaɓi ƙimar mafi girma na gaba na ɗayan azuzuwan. Dangane da sashe na 3.3 na ƙayyadaddun gwajin KNX [2] matsakaicin izinin amfani da bas na yanzu don fan-in-samfurin 10 mA shine 12 mA. Ga sauran nau'ikan fan-in an ba su damar yin girman wannan ƙimar daidai da haka. Domin misaliample, 20mA fan-in-model yana ba da damar zana 24 mA daga bas.

Tebur 1. ABINDA AKE SHAWARAR FAN-IN RESISTOR VALUUS

R3	Ibas, lim (Na al'ada Darajoji)	Ajin na yanzu (Lura ta 1)
∞	11.4 mA	10 mA
0 Q	22.3 mA	20 mA
10 kq	43.9 mA	40 mA
13.3 kq	33.0 mA	30 mA
20 kq	22.1 mA	20 mA
42.2 kq	10.7 mA	10 mA
93.1 kq	5.1 mA	5 mA

1. A cewar fan-in-model [1].Za'a iya samun jerin ƙimar ƙididdige ƙimar fan-in resistor a cikin Tebura 1. Don ƙimar resistor da aka jera, ana ƙayyadadden iyakoki na yanzu a cikin bayanan bayanai.
Idan an yi amfani da ƙimar resistor, ban da waɗanda aka kayyade a cikin Table 1, ana iya amfani da wannan dabarar don ƙididdige iyakar halin yanzu na bas:

Buffer Capacitor
Bayan iyakar da aka ba da izinin halin yanzu da aka zana daga bas, ma'aunin KNX kuma yana ƙayyadaddun ƙimar ƙimar bas ɗin da aka yarda ya canza. Wannan buƙatun yana gabatar da buƙatu don babban madaidaicin buffer. Lokacin da lodin halin yanzu ya canza ba zato ba tsammani wannan capacitor dole ne ya isar da ƙarfin da ake buƙata. KNX-transceiver zai sake cajin capacitor bayan matakin lodi ta amfani da tsayayyen gangara na yanzu.
Dangane da ƙayyadaddun gwajin KNX [2] na'urar da ke da fan-in-samfurin 10 mA an ba da izinin canza zane na yanzu daga bas tare da gangara na 0.5 mA/ms. Sashe na 3.3 yana ƙayyadad da cewa ana iya ƙara wannan daidai da tsarin fan-in-samfurin. Ana iya amfani da dabara mai zuwa don ƙididdige madaidaicin gangaren bas ɗin da aka ba da izini: Taswirar bayanai (shafukan 18-19) na NCN5121/NCN5130 yana bayyana yadda ake girman ma'aunin ƙarfin buffer. Kalkuletawar Ingantaccen Iyali na KNX kayan aiki ne da aka haɓaka don taimakawa abokan ciniki da wannan girman.Yanayin gama gari Choke
Idan ana son zaɓin yanayin gama gari kamar Murata 50475C za a iya dora shi akan sawun L1. Wannan yana taimakawa toshe rikicewar yanayin gama gari, amma a yawancin aikace-aikacen, wannan ba a buƙata ba.
Kafin a siyar da shaƙa akan sawun L1 da aka zayyana, dole ne a yanke waƙoƙin da ke gajarta abin.

3 https://www.onsemi.com/pub/Collateral/KNX%20FAMILY%20EFFICIENCY%20CALCULATOR.XLSM

Ƙarfi
Ana amfani da allo ta hanyar haɗin KNX. Wadannan fil biyu (KNX +/KNX- a cikin Hoto 9) ma'aurata tare da madaidaicin tashar tashar KNX kamar Wago 243−211, wanda aka kwatanta a hoto na 5. Ba a buƙatar ƙarin haɗin gwiwa kamar yadda hukumar za ta samar da nata kayan aiki vol.tage. Shigar da voltage har zuwa 30 V yana jurewa. Amfani da daidaitaccen wutar lantarki na KNX shine zaɓi mafi aminci kamar yadda yake haifar da daidaitaccen voltage kuma yana da ginanniyar kariya.
Yana yiwuwa a yi amfani da wadatar dakin gwaje-gwaje, amma tabbatar da saita ƙimar fitarwa daidaitage don kauce wa lalata allon. Ta amfani da wutar lantarki na dakin gwaje-gwaje, ba zai yiwu a aika saƙonni akan bas ɗin KNX ba. Don ba da damar sadarwa akan bas ɗin, dole ne a sanya ƙugiya ta musamman tsakanin wutar lantarki da allon haɓakawa. ExampIrin wannan shaƙa shine Siemens GAMMA Choke N 120/02.
Don kunna allon ci gaban microcontroller akwai zaɓuɓɓuka da yawa.

• Yawancin allon ci gaban microcontroller na zamani ana iya ba da su ta hanyar 3V3-pin, wannan yana kawar da buƙatar ƙarin LDO, kuma yana rage yawan amfani da wutar lantarki.
  A kan garkuwa, koyaushe akwai wadatar 3.3 V, wanda kuma ake amfani dashi don samar da transceiver na KNX. Wannan wadata voltage za a iya tura shi zuwa 3V3-pin akan kanun Arduino ta hanyar rage J11 (Hoto 6).
• Allunan haɓaka masu jituwa na Arduino yawanci suna karɓar voltage na 7 V zuwa 12 V, ko dai ta hanyar kan-jirgin DC-jack (idan akwai) ko VIN-pin akan kawunan.
  Garkuwa na iya ba da microcontroller ta hanyar VIN-pin. Lokacin da aka gajarta J10 (duba Hoto 6), 9 V da DC-DC2 ta haifar ana tura shi zuwa VIN-pin. A cikin wannan tsarin, ana ba da tsarin gabaɗaya ta hanyar KNX-bus kuma ba a buƙatar ƙarin kayan wuta.
• Ana iya ba da hukumar haɓaka microcontroller ta hanyar samar da waje. Wannan yana faruwa a lokacin da ake cire allon allo ta USB tare da cire haɗin haɗin KNX. A wannan yanayin cire duka J10 da J11 (Hoto 6).

Daidaita fitarwa na DC-DC2 Voltage
DC-DC2 yana daidaitacce kuma ana iya saita shi don samar da voltage tsakanin 1.2 V zuwa 21 V. Wannan yana ba da damar samar da aikace-aikace da yawa. Ta tsohuwa, fitarwa voltage an saita shi zuwa 9 V. Wannan ya sa ya dace don samar da kwamitin ci gaba mai dacewa da Arduino, wanda yawanci yana karɓar kewayon shigarwa na 7 V zuwa 12 V.
Don daidaita fitarwa voltage dole ne a canza dabi'un masu adawa da martani. Waɗannan suna a kusurwar hagu na PCB, yana mai da su sauƙi mai sauƙi. Ana iya ƙididdige ƙimar resistor da ake buƙata daga:Ko amfani da Kalkuletawar Ingantaccen Iyali na KNX4 wanda za'a iya samu akan Semiconductor ON website.
Abubuwan shigarwa da fitarwa
Arduino Header Pin-Out
Yawancin maɓallai da LEDs an haɗa su zuwa fil ɗin dijital akan kan Arduino. Biyu daga cikin maɓallan da LED ɗaya ana haɗa su zuwa fil ɗin shigarwa na analog. Anyi wannan don kiyaye I2C- fil ɗin kyauta don wasu dalilai. Hakanan ya shafi TREQ-pin.
An haɗa SAVEB-pin zuwa fil ɗin dijital wanda ke da damar katsewa. Wannan yana da mahimmanci don samar da sigina ga microcontroller da sauri da sauri yana nuna bas voltage yana faduwa.
Dukkan LEDs an haɗa su zuwa fil masu iya PWM, suna barin aikace-aikacen ya dushe LEDs idan ana so. An ba da cikakken jerin hanyoyin haɗin yanar gizo na microcontroller a cikin Karin bayani A, Tebu 4 da kuma cikin Karin Bayani B, Tebu 5.4 https://www.onsemi.com/pub/Collateral/KNX%20FAMILY%20EFFICIENCY%20CALCULATOR.XLSM

Maɓallin mai amfani da LEDs
Garkuwar tana da maɓallan turawa 4 akan jirgi (SW1… 4) da LEDs 4 (LED2… 5) don ba da damar haɓaka aikace-aikacen sauya fasalin musamman. Don aikace-aikacen dimmer ana raba maɓallan huɗu zuwa ƙungiyoyi biyu masu alama akan PCB azaman tashar tashar1 da channel2 (CH1/CH2). Ana amfani da maɓalli na sama a tashar don rage sama, yayin da ɗayan kuma ana amfani da shi don ragewa. Koma zuwa Karin Bayani A, Tebu 4 da Karin Bayani B, Tebura 5 don ganin yadda ake haɗa waɗannan zuwa fil ɗin I/O na microcontroller.
Yana yiwuwa a tara wasu garkuwa masu ɗauke da I/O waɗanda ake amfani da su don aikace-aikacen ƙarshe. Cire R26-R29 da R33-R36 idan maɓallan ko LEDs sun yi karo da fil-fitar sauran garkuwar da aka yi amfani da su.
Shirye-shiryen Push Button da LED
Don sanya adireshin mutum ɗaya ga na'ura a cikin hanyar sadarwar KNX, dole ne a saka na'urar cikin yanayin shirye-shirye. Hanya mafi sauƙi don yin haka ita ce ta danna maɓallin shirye-shirye (S1). LED6 yana nuna idan na'urar tana cikin yanayin shirye-shirye.
Yana yiwuwa a keɓance shigarwa cikin yanayin shirye-shirye misali tura maɓallai biyu lokaci guda.

Microcontroller Clocking
NCN5130 da NCN5121 suna da damar isar da siginar agogo zuwa microcontroller. Ana samun wannan siginar agogo akan finin XCLK na mai ɗaukar hoto kuma an tura shi zuwa fil ɗin kai na 2.54 mm akan garkuwa (Duba Hoto 9). Saboda masu kan Arduino ba sa hango wani keɓaɓɓen fil don wuce siginar agogo, ya zama tilas a tura wannan siginar da hannu zuwa microcontroller. Wannan yana da mahimmanci kawai idan ana so a yi amfani da wannan siginar don agogon microcontroller. A mafi yawancin lokuta microcontroller za a rufe shi daga RC-oscillator na ciki ko daga crystal na waje.
Ta hanyar tsoho, siginar agogo akan XCLK-pin shine 16 MHz. Ana iya canza shi zuwa 8 MHz ta hanyar ɗaure XSEL-pin zuwa ƙasa: De-solder R23 da siyar da resistor 0 akan pads na R30.

Interface Sadarwar Dijital
Dukansu NCN5121 da NCN5130 suna aiwatar da ma'aunin mac na samfurin OSI kamar yadda aka nuna a cikin Hoto 10. Za su gudanar da coding da dikodi na saƙonni, aika yarda, da dai sauransu… Mahimman lokacin ƙananan matakan kamar tsawon lokacin bugun bugun jini duk ana sarrafa su ta mai transceiver. Mai jujjuyawar yana tabbatar da cewa guje wa karo5 ana sarrafa daidai ba tare da wani sa hannun mai kula da rundunar ba. Wannan yana rage ƙoƙarin haɓaka software sosai. Don sadarwa tare da mac Layer duka UART- da SPI-interface suna goyan bayan. Lura cewa

CSMA/CA: Mai ɗaukar hankali-hankali da yawa tare da gujewa karo.

lokacin da transceiver ke aiki a cikin yanayin SPI yana aiki azaman maigidan. Dole ne microcontroller ya goyi bayan yanayin bawa don samun damar sadarwa tare da transceiver. Don zaɓar a wane yanayi ne KNX-transceiver ke aiki (UART ko SPI) ana amfani da MODE2-pin. Lokacin da aka ɗaure zuwa GND ta amfani da R32, transceiver yana aiki a yanayin UART. Haɗa shi zuwa VDD1 ta amfani da R25 yana sanya transceiver a cikin yanayin SPI. 560 resistors suna kare layin I/O da ke zuwa microcontroller. Dangane da waɗanne resistors aka ɗora ko dai an haɗa layin UART ko SPI. Idan ana so yana yiwuwa a canza garkuwar UART zuwa SPI kuma akasin haka ta hanyar sayar da / de-sayar da resistors kamar yadda aka jera a Table 2.

Tebur 2. KYAUTA KYAUTA KYAUTA INTERFACE RESISTOR

Sadarwa Interface	Resistor ya hau
UART	R16, R17, R32
SPI	R9, R11, R12, R13, R15, R25

Tebura 3. ZABIN MATSALAR BAUD MAI AMFANI DA J1/J2

J2	J1	Ityungiyar Par	Baud Rate
0	0	ko da	19 200 bps
0	1	ko da	38 400 bps
1	0	babu	19 200 bps
1	1	babu	38 400 bps

Zaɓin Ƙimar Baud
Jumpers J1 da J2 suna ba da izinin daidaitawa cikin sauƙi na ƙimar baud da daidaito. Ana amfani da wannan kawai a cikin yanayin UART. A cikin yanayin SPI, an saita saurin sadarwa zuwa 500 kbps.
Don sa sadarwar UART ta fi ƙarfi, yana yiwuwa a ba da damar watsa madaidaicin bit tare da kowane byte na bayanai. Don cikakkun saitunan duba allon siliki akan garkuwa ko zuwa Tebur 3.

Interface Sadarwar Analog
Mai karɓar NCN5110 ba ya ƙunshi kowane aikin dijital, yana aiwatar da Layer na zahiri na ƙirar OSI kawai. Dukansu TXD- da RXD-layukan suna da alaƙa kai tsaye zuwa KNX-transmitter/mai karɓa.
Jan TXD mai tsayi zai sa mai wucewa ya sauke bas voltage kamar yadda aka nuna a Hoto na 11. Da zarar layin watsawa ya sake ja da baya, mai watsawa zai sanya bugun jini mai daidaitawa akan bas din. Tsawon lokacin bas voltage tsaya ta an
Adadin Vact da ke ƙasa da VDC, microcontroller ya ƙaddara. Sakamakon haka microcontroller shima yana da alhakin gano karo da gujewa. Hakazalika shigar da saƙon saƙon da keɓancewa, aikawa da yarda, da sauransu… dole ne a aiwatar da su a cikin microcontroller, haɓaka rikitaccen software.
Layin RXD zai yi girma lokacin da aka gano bugun jini mai aiki akan bas ɗin. Kamar yadda mai ɗaukar hoto kuma yana karɓar bayanan da kansa ya watsa akan bas, wannan layin kuma zai yi girma yayin watsawa.

Kunna Interface
Lokaci na bugun jini wanda ke motsa NCN5110 yana da matukar mahimmancin lokaci. Wasu iyalai na microcontroller suna da yanayin ƙidayar lokaci na musamman waɗanda za a iya amfani da su don samar da madaidaicin bugun jini. Yin amfani da waɗannan hanyoyin, zai iyakance amfani da software zuwa wani dangin microcontroller.
Tashar tashar AND tashar ta haɗu da sigina masu zuwa daga D11 da D12. Ana nuna ma'auni a cikin Hoto 12. Yana ba da tsari don saitawa da share siginar watsawa, ba tare da yin amfani da ma'auni na musamman ba kawai a cikin takamaiman iyalai na microcontroller.
Ana iya amfani da masu ƙidayar lokaci guda biyu, ɗaya don haifar da haɓaka mai tasowa, ɗayan don haifar da faɗuwa. Dukkan sigina biyu an haɗa su don ƙirƙirar siginar da ake so kamar yadda aka nuna a hoto na 13.
Duk abubuwan shigar da tashar AND tashar jiragen ruwa an ja su ƙasa. Wannan yana tabbatar da cewa yayin farawa na microcontroller, transceiver ba zai watsa ba.

JAGORANCIN SHIRYA PCB
Lokacin zayyana PCB don KNX-transceiver yana da mahimmanci a ɗauki wasu abubuwan shimfidawa cikin la'akari. Ayyuka masu kyau masu zuwa zasu taimaka wajen inganta aikin EMC na dukan aikace-aikacen. Garkuwar Arduino PCB ce mai Layer biyu, tare da babban jirgin saman ƙasa akan Layer na ƙasa. Wurin da ba kowa a saman saman yana cike da jan ƙarfe na ƙasa, amma wannan ba jirgin sama ba ne.

Masu Canza DC-DC

Tsangwama na lantarki yana mamaye masu canza DC-DC. Waɗannan masu juyawa suna canzawa a mitoci kusan 300 kHz. Ba tare da la'akari da tsarin PCB ba, fitar da hayaki zai iya zama matsala mai tsanani.
Hoto na 16 yana nuna tsohonample schematic na inverter tuki wani capacitive load. Waƙoƙin PCB da ke zuwa da fitowa daga kaya za su yi aiki azaman inductor a mitoci masu yawa. Hanyar dawowa na iya zama filin da'ira gama gari, amma ba koyaushe haka lamarin yake ba!
Lokacin gina shimfidar PCB yana da matukar muhimmanci a kula da hanyar dawowar sigina.
Halin farko a cikin Hoto 14 yana nuna zane-zane guda ɗaya. Anan sigina da hanyar dawowa suna samar da babban madauki, wanda zai yi aiki azaman eriya a mitoci mafi girma. Ana iya inganta wannan shimfidar wuri mai mahimmanci ta hanyar sarrafa siginar da hanyar dawowa kusa da juna. Ya kamata a rinjayi su kamar nau'i-nau'i daban-daban. A yawancin ƙirar da'ira, hanyar dawowa don yawancin sigina ita ce filin da'ira gama gari. Don waɗannan da'irori ta amfani da PCB mai Layer biyu ko huɗu tare da babban ƙasa a ƙasa- ko na ciki shine zaɓin shawarar. Yana sauƙaƙa aikin shimfidar wuri kuma yana sauƙaƙa don ƙirƙirar ingantattun hanyoyin dawowa. Har yanzu dole ne a kula da shi yayin zane, saboda yana da sauƙin yin watsi da kurakurai na kowa. Hoto na 15 yana nuna halin da ake ciki

inda akwai rami a cikin jirgin ƙasa. Hanyar dawowa yanzu tana zagaye ramin yana ƙirƙirar eriya mai ramin. Da kyau kada a katse jirgin kasa na kasa.

Hoto 17 yana nuna madaukai na yanzu don masu canza DC-DC guda biyu akan garkuwar Arduino. Ana sanya duk abubuwan da ke kan garkuwar kuma ana karkatar da su don rage girman wuraren madauki. Lokacin da mai canza DC-DC ya kunna saman transistor ɗin sa, ana zana ƙaru na yanzu daga ƙaramin 100 nF capacitor C8. Kamar yadda waɗannan karukan na yanzu gajeru ne, za su sami mitar mai yawa. Don haka mafi mahimmancin madauki, shine halin yanzu da ke gudana daga C8 zuwa cikin ƙarfin parasitic a
VSW kamar yadda aka nuna a ja. Don kiyaye wannan madauki kadan, dole ne a sanya C8 kusa da VIN-pin. Idan zai yiwu, sanya shi kusa da shi kamar yadda yake cikin hoto na 18.

Ajiye duk waƙoƙin da ke saman Layer yana guje wa duk wani rushewa a cikin ƙasan ƙasa da juriya / inductance da ake ƙara ta hanyar vias. Kibau masu launin toka guda biyu suna nuna manyan madaukai na yanzu wanda mai canza DC-DC ya ƙirƙira. Hakanan ya kamata a kiyaye waɗannan gajarta gwargwadon yiwuwa don rage yawan hayaƙi. Hoto na 18 yana nuna kyakkyawan tsari, wanda aka yi amfani da shi akan garkuwa, don kiyaye waɗannan madaukai ƙananan.

Ana iya sanya babban madaidaicin buffer C9 nesa da VIN-pin, muddin an sanya ƙaramin yumbun capacitor C8 kusa da shi.

TVS Diode

• Yana da mahimmanci don inganta shimfidar fasalin Voltage Suppression (TVS) diode don kare mai ɗaukar hoto yadda ya kamata daga hawan jini. Lokacin da karuwa ya faru, diode TVS dole ne clamp voltage zuwa matakin da ba ya lalata transceiver. Don cimma wannan, jerin juriya ya kamata ya zama ƙasa da ƙasa.
• Ana iya yin wannan ta hanyar haɗa KNX-kai tsaye zuwa diode TVS kafin a tura shi zuwa sauran ƙasa na PCB kamar yadda aka nuna a cikin Hoto 20. Wannan yana tabbatar da cewa hanyar da ke yanzu zuwa TVS tana da mafi ƙasƙanci juriya kuma babu wani motsi na wucin gadi zai gudana zuwa ga tashar. transceiver.

FARAWA

Garkuwar Arduino ta zo tare da software na demo wanda Tapko Technologies GmbH ya haɓaka. Software ɗin ya ƙunshi nau'in demo na KAIstack wanda ke gudana akan allon STM32F103-NUCLEO. Wannan software ya ƙunshi duk abubuwan da ake buƙata na software don haɗawa zuwa KNX-bus kuma ya zo tare da aikace-aikacen demo iri-iri. Ana iya amfani da sigar demo na KAIstack don fara haɓaka software na aikace-aikacen al'ada. Iyakoki masu zuwa sun shafi sigar demo:

• Iyakance zuwa adiresoshin rukuni 16, ƙungiyoyi 16 da abubuwan sadarwa 16 maimakon 255.
• An cire abubuwan haɗin aikace-aikacen.
• An saita ƙidayar rout zuwa sifili a cikin layin hanyar sadarwa, yana iyakance amfani da aikace-aikacen zuwa layi ɗaya kawai.
• Babu maimaituwa akan layin sufuri.
• Ba zai yiwu a canza adireshin mutum ɗaya na na'urar ta hanyar ETS ba.
• Ƙwaƙwalwar ƙira ɗaya ce kawai ake tallafawa.

Abubuwan da ake bukata

An jera a ƙasa duk abubuwan da ake buƙata don gina ƙaramin hanyar sadarwar KNX tare da NCN5100ASGEVB.

• KNX wutar lantarki (ciki har da shake).
• Kebul-KNX ke dubawa don sadarwa tare da ETS akan PC.
• Nunin demo na ETS.
• STM32F103-NUCLEO allo don toshe garkuwa a ciki.
• Duk wani sigar NCN5100ASGEVB.

Gyaran Hardware

Don farawa da software na demo, ana buƙatar garkuwar NCN5110, NCN5121 ko NCN5130 Arduino tare da allon STM32F103-NUCLEO. Domin samun software yana gudana akan microcontroller, ana buƙatar wasu gyare-gyare na hardware. Don saduwa da buƙatun lokaci don sadarwa akan KNX-bus, wajibi ne a sami ingantaccen agogo fiye da na na'urar RC-oscillator na ciki na microcontroller. Ana ba da shawarar zaɓuɓɓuka biyu a ƙasa.

Sanya Crystal

• Hana crystal a cikin sawun X3 akan allon Nucleo.
• Wannan crystal dole ne ya sami mitar 16 MHz. Don ƙimar da aka ba da shawarar na masu ɗaukar nauyi C33/C34, koma zuwa bayanan bayanan crystal.
• Kyakkyawan crystal shine 9B-16.000MEEJ-B, wanda ke buƙatar ɗaukar nauyin 18 pF.

Don samun kristal yana aiki akan hukumar Nucleo ana buƙatar tsari mai zuwa (Figures 21 da 22):

• Wuri 0 resistors a R35 da R37.
• Solder da loading capacitors a kan C33 da C34.
• Cire na 0 Saukewa: SB50.
• Sayar da crystal akan X3.

Aiwatar da Agogon Waje

Zabi na biyu shine amfani da agogon waje. Yi amfani da fitowar XCLK na KNX-transceiver azaman shigarwar agogo don microcontroller. Ta hanyar ɗaure XCLKC-pin babban/ƙananan mitar agogo na 16 MHz ko 8 MHz za a iya zaɓar. Ta hanyar tsoho akan garkuwar Arduino, XCLKC-pin yana ja da tsayi, ma'ana siginar agogo na 16 MHz yana kan XCLK-pin. Wannan hanyar tana da fa'idatage cewa cikakken aikace-aikacen yana buƙatar crystal ɗaya kawai.

Don amfani da fitowar XCLK azaman siginar agogo, ana buƙatar saitin mai zuwa:

• Sanya 0 Saukewa: SB55.
• Cire na 0 resistor daga SB50.
• Haɗa fil ɗin XCLK akan garkuwar Arduino zuwa fil 29 na CN7 akan allon Nucleo. Yi haka ta amfani da waya wanda gajere ne gwargwadon yiwuwa.

Sadarwar UART

• A kan allon Nucleo ana amfani da ƙirar USART2 ta tsohuwa don sadarwa tare da kan jirgin ST-LINK.
• Wannan yana nufin cewa ba zai yiwu a yi amfani da D0 da D1 akan kanun Arduino don sadarwar UART ba, saboda ba a haɗa su ba.

Don ba da damar sadarwar UART akan masu kai Arduino aiwatar da matakai masu zuwa (Hoto na 21 da 22):

• Cire na 0 resistors daga SB13 da SB14.
• Dutsen 0 resistors a SB62 da SB63.

Waɗannan matakan za su kashe sadarwa tsakanin microcontroller da ST-LINK. Sa'an nan kuma ba zai yiwu a yi amfani da Virtual COM-port akan allon Nucleo ba. Don ci gaba da amfani da Virtual COM-port, haɗa wani na'urar USART zuwa ST-LINK. USART3 shine mai yuwuwar ɗan takara wanda za'a iya amfani dashi ta hanyar haɗa wayoyi biyu kamar haka:

• Fitin 1 na CN7 da aka haɗa (PC10-USART3_TX) zuwa fil ɗin RX akan CN3.
• Haɗa fil 2 na CN7 (PC11-USART3_RX) zuwa fil ɗin TX akan CN3.

Saita hanyar sadarwa

Da zarar kwamitin STM32F103-NUCLEO ya shirya, za a iya saita ƙaramin hanyar sadarwa don farawa tare da NCN5100ASGEVB.

Haɗin Wuta

Akwai zaɓuɓɓuka da yawa don kunna allon Nucleo. Koma zuwa Wutar Sashe don duk yuwuwar daidaitawa. Don farawa, cire masu tsalle J10 da J11 daga garkuwar Arduino kuma sanya JP5 akan Nucleo a matsayin U5V. Ta wannan hanyar za a yi amfani da microcontroller daga tashar USB yayin da KNX-transceiver ke aiki daga KNX-bus. Don iko da cikakken bayani daga KNX-bas, sanya J10 a kan garkuwar Arduino da JP5 a cikin matsayi na E5V akan Nucleo.

Sadarwar UART

Software na demo daga Tapko yana sadarwa tare da transceiver a 19.2 kb/s ta amfani da madaidaicin bit. Sanya J1 da J2 a cikin '0'-matsayi don zaɓar madaidaicin saurin sadarwa.

Gina Cibiyar sadarwa

Ƙananan saitin hanyar sadarwa ya ƙunshi samar da wutar lantarki na KNX, KNX USB-interface da NCN5100ASGEVB. Ana nuna wannan saitin a cikin Hoto 23. Ana amfani da KNX USB-interface don saita NCN5100ASGEVB ta hanyar ETS kuma don aikawa da karɓar saƙonni. Bayan kafa cibiyar sadarwar, haɗa kebul ɗin da ke fitowa daga KNX USB-interface da Nucleo zuwa PC. Saitin kayan masarufi na zahiri yanzu ya cika.

Girkawa Software

Ana iya samun software na demo na microcontroller akan ON Semiconductor webshafin [5]. Zazzage software ɗin, cire kaya kuma aiwatar da mai sakawa. Mai sakawa zai fara tambaya a cikin waɗanne manyan fayiloli ne zai shigar da software. Babban fayil ɗin farko zai ƙunshi KAIstack, mai tarawa, software misaliamples da takardun. A cikin babban fayil ɗin shigarwa na biyu, an shigar da wasu ƙarin kayan aikin da takaddun bayanan KAIstack.

Bayan haka, mai sakawa yana ba da zaɓi don zaɓar abubuwan da za a girka. Ana ba da shawarar barin duk abin da aka zaɓa. Lokacin danna Next, ana ba da taƙaitaccen abin da za a shigar.

Shigar da software kuma buɗe babban fayil ɗin shigarwa inda aka shigar KAIstack. Tsarin fayil ɗin zai yi kama da wanda aka nuna a hoto 27. A cikin appl_example babban fayil, da yawa exampAna iya samun shirye-shiryen aikace-aikacen. Koma zuwa takaddun da aka haɗa tare da shigarwa kan yadda ake gyara software exampdon bukatun ku.

Gina da Load da Software

Tsarin babban fayil na aikace-aikacen farko example 1in1out 07B0 yana nunawa a cikin Hoto na 28.

Fayiloli biyu masu suna dummy da tmp sun ƙunshi wasu na ɗan lokaci fileya zama dole don hada shirin. Wadannan files za a iya watsi da su. Babban fayil ɗin ETS_DB ya ƙunshi aikin ETS, wanda za a yi amfani da shi daga baya don saita NCN5100ASGEVB. Babban fayil mai suna 1_IN_OUT_07B0 ya ƙunshi duka fileya zama dole don farawa a cikin kayan aikin masana'anta na KNX. Ana iya amfani da su don ƙirƙirar shigarwar kasida, bayanan samfur, da sauransu…

Fitowar ƙarshe fileAna sanya s ɗin da mai tarawa ya ƙirƙira a cikin babban fayil ɗin fitarwa. Ana iya samun binary wanda dole ne a ɗora a cikin microcontroller a can. Shirin aikace-aikacen takamaiman tushe da rubutun kai files suna cikin babban fayil ɗin src. A file mai suna project.h ya ƙunshi duk takamaiman saitunan aikin. Waɗannan ayyukan duk an haɗa su ta amfani da mai tarawa ARM KEIL. Yana yiwuwa a bude exampda ayyukan a cikin KEIL µVision IDE. Abin da ake bukata files suna cikin babban fayil ɗin sararin aiki. Don ƙarin bayani koma zuwa takaddun da aka haɗa tare da shigarwa. A ƙarshe akwai nau'i biyu files kunshe a cikin babban fayil.

Ana iya amfani da waɗannan don ginawa da sake gina aikace-aikacen. Don farawa da saitin da aka gina a baya, ɗaya daga cikin exampDole ne a loda ayyukan a cikin microcontroller. Haɗa 1in1out_07B0 misaliample ta hanyar aiwatar da rebuild.cmd batch file. Tagan umarni zai fito yana nuna ci gaban tsarin tattarawa. Zai nuna saƙo, kamar yadda aka nuna a hoto na 29 da zarar an gama haɗawa. Yanzu babban fayil ɗin fitarwa ya ƙunshi .hex file, wanda za'a iya lodawa a cikin microcontroller.

Don tsara microcontroller, ana amfani da kayan aikin STM32CubeProgrammer. Bude shirin bayan zazzagewa da shigar da sabuwar sigar. A cikin kayan aiki danna Buɗe File kuma zaɓi .hex da aka samar file. Da zarar an ɗora shi a cikin kayan aiki, danna maɓallin Zazzagewa don loda shi a cikin microcontroller. Taga yana cewa File zazzage cikakke ya kamata ya tashi, kamar yadda aka nuna a hoto na 30. Yanzu na'urar KNX tana shirye kuma ana iya saita hanyar sadarwa.

Daki ba zai iya zama da kansa ba kuma dole ne a ƙirƙira shi a cikin gini. Don ƙirƙirar gini, danna kalmar Gine-gine sannan Ƙara Gine-gine. Da zarar an ƙirƙiri ginin, danna dama akansa kuma zaɓi Ƙara → dakuna don ƙirƙirar ɗaki. Don sanya NCN5100ASGEVB zuwa ɗakin da aka ƙirƙira, danna kan Ba ​​a sanya shi zuwa babban fayil ɗin daki kuma ja na'urar zuwa cikin ɗakin. Bayan an haɗa na'urar zuwa daki, dole ne a sanya adireshi ɗaya zuwa gare ta.

Adireshin mutum ɗaya yana da ƙayyadadden tsari, kuma ana zaɓar shi ta yadda zai nuna matsayinsa a cikin hanyar sadarwa. Ana amfani dashi kawai don tsara na'urar. Don ƙarin bayani kan wannan batu, koma zuwa KNX-takardun bayanai [4]. Tapko demo ba ya goyan bayan canza adireshin mutum ɗaya. Don haka dole ne a ba wa na'urar kafaffen adireshi na mutum 1.5.8 kamar yadda aka nuna a hoto na 33. Danna kan na'urar da ke cikin ginin ginin don buɗe Properties panel a hannun dama. A ƙarƙashin saitunan shafin ana iya samun adireshin mutum ɗaya.

Yanzu dole ne a sanya adiresoshin rukuni don na'urar ta iya sadarwa a cikin motar bas. Koma zuwa ga hukuma KNX-takardun [4] don ƙarin bayani kan yadda tsarin sadarwa tare da adiresoshin rukuni ke aiki. Danna kan na'urar da ke cikin rukunin Gine-gine kuma je zuwa shafin Abubuwan Abubuwan Rukuni, kamar yadda aka nuna a hoto na 34. Zai nuna duk abubuwan ƙungiyar da aka goyan baya da adireshin rukunin da aka sanya mata. Adireshin rukunin da aka keɓe za su zama babu kowa.

Don sanya adireshin rukuni zuwa abu na rukuni, danna kan shi dama kuma zaɓi Link with…. Taga kamar yadda aka nuna a hoto na 35 zai tashi. A cikin wannan taga, zaɓi Sabo. A cikin wannan shafin ana iya ƙirƙirar sabon adireshin rukuni wanda za a sanya shi nan da nan zuwa ga abin rukuni. Sanya adireshin rukuni 0/0/2 zuwa abun rukuni na bit da 0/0/1 zuwa abin ƙungiyar canzawa. Ka ba su duka suna da ya dace. Ana amfani da abu na rukuni don aika ɗan ƙima akan bas ɗin duk lokacin da aka danna maɓallin SW3. Ana amfani da abu na rukuni don sarrafa LED3 akan garkuwa.

Yana yiwuwa a sakeview kuma daidaita adiresoshin / sunayen rukuni a cikin rukunin adiresoshin rukunin ( Wurin aiki → Buɗe Sabon Panel ).

Yanzu an daidaita cikakken aikin kuma ya kamata yayi kama da Hoto 34. Yanzu ana iya ɗaukar wannan tsari a cikin NCN5100ASGEVB. Tabbatar cewa an haɗa haɗin kebul-KNX zuwa PC. Dama danna na'urar a cikin ETS kuma zaɓi Zazzagewa → Cikakken zazzagewa.

ETS yanzu zai nemi danna maɓallin shirye-shirye akan NCN5100ASGEVB. Ana iya samun shi a ƙananan kusurwar hagu na garkuwa. Bayan danna maɓallin, LED ɗin da ke sama zai haskaka. Yanzu ETS zai fara aiwatar da zazzagewa. Da zarar an gama zazzagewar, buɗe panel Diagnostics ta danna maɓallin ganowa a saman mashaya menu. A cikin wannan rukunin yana yiwuwa a saka idanu akan abin da ke faruwa akan hanyar sadarwa kuma sarrafa hanyar sadarwar ta hanyar kebul na USB-KNX. Danna maɓallin Fara don fara sa ido kan hanyar sadarwa.

Yanzu duk lokacin da maɓallin SW3 akan garkuwa yana dannawa ana aika saƙo akan bas ta NCN5100ASGEVB. Kwamitin bincike yana nuna wanda ke aika saƙon, menene adireshin rukuni da ake aika da menene ƙimar. Ya kamata darajar ta kunna tsakanin Kunnawa da Kashe duk lokacin da aka danna maɓallin.

Yana yiwuwa a aika saƙonni a kan bas ta hanyar Diagnostics panel don sarrafa daya daga cikin LEDs a kan garkuwa. A cikin filin Adireshin Ƙungiya shigar da 0/0/2. Lokacin danna maɓallin Karanta, kebul-KNX ke dubawa yana aika buƙatar karantawa akan bas don abun rukuni 0/0/2. NCN5100ASGEVB zai amsa tare da halin yanzu na LED3, wanda ke kashewa. A cikin ƙimar darajar shigar da 1. Lokacin da aka danna maɓallin Rubuta, kebul na USB-KNX yana aika abu na rukuni 0/0/2 akan bas tare da ƙimar Kunnawa. LED3 akan garkuwa yakamata ya haskaka yanzu. Lokacin sake danna maɓallin Karanta na'urar zata amsa da Kunnawa yanzu.

LITTAFI MAI TSARKI

Matsayi

1. Ma'auni na KNX v2.1 - Abubuwan Bukatun Hardware na KNX da Gwaje-gwaje - Sashe na 4-1: Bukatun Tsaro da Muhalli - Gabaɗaya. KNX, 2013.
2. Ma'auni na KNX v2.1 - Gwajin Yarda da Tsarin - Sashe na 8-2-2: Gwaje-gwajen Dogara na Matsakaici - TP1 Jiki da Gwajin Haɗin Haɗin. KNX, 2013.

Intanet

• Ƙungiyar KNX. 2020, shiga Janairu 28, 2020. URL: https://www.knx.org.
• Cibiyoyin Horar da KNX. 2020, shiga Janairu 28, 2020. URL: https://www.knx.org/knx−en/for−professionals/community/training−centres/index.php.
• Hanyoyin haɗin haɗin waya. 2020, shiga Janairu 28, 2020. url: https://www.onsemi.com/PowerSolutions/segment.do?method=subSolution&segmentId=IoT&solutionId=19116&subSolutionId=19126.

RATAYE A

RATAYE A - MICROCONTROLLER NET LIST NCN5100AS-1

Tebur 4. LISHIN PIN na MICROCONTROLLER

Pin Arduino Headers	An haɗa zuwa	Aiki	Hanyar Pin MCU
D0/RX	SDO/TXD	Layin karɓar UART	IN
D1/TX	SDI/RXD	Layin watsa UART	FITA
D2	SAVEB	Ajiye nunin bayanai	IN
D3/PWM	LED5	CH2 Red up button LED	FITA
D4	Farashin SW4	Saukewa: CH2	IN
D5/PWM	LED3	CH2 Yellow down button LED	FITA
D6/PWM	LED2	CH1 Green saukar da maɓallin LED	FITA
D7	Farashin SW1	Saukewa: CH1	IN
D8	Farashin SW3	Saukewa: CH1	IN
D9/PWM	LED4	CH1 Orange up button LED	FITA
D10/CS	CSB/UC1	SPI guntu zaɓi	IN
D11/MOSI	SDO/TXD	SPI MOSI	IN
D12/MISO	SDI/RXD	MISO SPI	FITA
D13/SCK	SCK/UC2	agogon SPI	IN
A0	ANAOUT	Analog multiplexer fitarwa	IN (analog)
A1	Farashin SW2	Saukewa: CH2	IN
A2	TREQ	Neman aikawa	FITA
A3	LED6	LED shirye-shirye	FITA
A4	S1	Maballin shiryawa	IN

RATAYE B

RATAYE B - MICROCONTROLLER NET LIST NCN5100AS-2

Tebur 5. LISHIN PIN na MICROCONTROLLER

Pin Arduino Headers	An haɗa zuwa	Aiki	Hanyar Pin MCU
D3/PWM	LED5	CH2 Red up button LED	FITA
D4	Farashin SW4	Saukewa: CH2	IN
D5/PWM	LED3	CH2 Yellow down button LED	FITA
D6/PWM	LED2	CH1 Green saukar da maɓallin LED	FITA
D7	Farashin SW1	Saukewa: CH1	IN
D8	Farashin SW3	Saukewa: CH1	IN
D9/PWM	LED4	CH1 Orange up button LED	FITA
D11	Saukewa: RXD2	Bayanan Bayani na NCN5110	FITA
D12	Saukewa: RXD1	Bayanan Bayani na NCN5110	FITA
A0	TXD	Saukewa: NCN5110	IN
A1	Farashin SW2	Saukewa: CH2	IN
A3	LED6	LED shirye-shirye	FITA
A4	S1	Maballin shiryawa	IN

RATAYE C

RATAYE C - JERIN DA AKA GWADA

Tebur 6. DANDALIN GWAJI

Mai ƙira	Ci gaban Hukumar	Mai sarrafawa
STMicroelectronics	NUCLEO-F103RB	Saukewa: STM32F103RB
Cypress	CY8CKIT-044	Saukewa: CY8C4247AZI-M485
Waveshare	Saukewa: XNUCLEO-F103RB	Saukewa: STM32F103RB

RATAYE D

RATAYE D - NCN5130ASGEVB

Sigar UART

Tebur 7. LITTAFI NA KAYAN UART-VERSION

Mai tsarawa	Qty	Bayani	Daraja	Lambar Sashe
J1	1	WR-PHD 2.54 mm THT Pin Header, 3p		61300311121
J2	1	WR-PHD 2.54 mm THT Pin Header, 3p		61300311121
J3	1	WR-PHD 2.54 mm THT Pin Header, 1p		61300111121
J4	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J6	1	Mai Haɗin allo-To-Board, 2.54 mm, Lambobin sadarwa 10, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J7	1	Mai Haɗin allo-To-Board, 2.54 mm, 6 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-106-03-G-S
J8	1	Seri 2141 - 3.50 mm Modular Shigar Tsare-tsare tare da Rising Cage Clamp WR-TBL, 3 pin		691214110003
J9	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-108-03-G-S
L2	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A		74406043221
L3	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A		74406043221
Q1	1	N-Channel Logic Level Haɓaka Yanayin Tasirin Filin Tasiri, 30 V, 1.7 A, -55°C zuwa 150°C, 3-Pin SOT−3, RoHS, Tef da Reel		Saukewa: NDS355AN
j10, j11	2	WR-PHD 2.54 mm THT Pin Header, 2p
R6, R7, R8, R23, R31, R32	6	Mai adawa	0 Q	Saukewa: RC0603JR-070RL
C10	1	Capacitor	1µF, 50V	Saukewa: GCM21BR71H105KA03L
D1	1	Schottky Rectifier, Singel 60 V, 1 A, DO-214AC, 2 Fil, 720 mV	1 A / 720 mV / 60V	Saukewa: SS16T3G
R20, R21	2	Mai adawa	1 Q	Saukewa: RC0603FR-071RL
LED3	1	LED, Yellow, SMD, 2 mA, 2.2 V, 594 nm	2 mA, 2.2 V, 594 nm	VLMA3100-GS08
R19	1	2 (1 x 2) Mai Haɗin Shunt Matsayi Mara Insulated 0.400 in (10.16 mm) Zinare	2 pin	D3082-05
LED4	1	LED, Orange, SMD, 2.4mm, 2mA, 1.8V, 609nm ku	2.4mm, 2mA, 1.8V, 609nm ku	VLMO30L1M2-GS08
LED2	1	LED, Green, SMD, 2.4 mm, 2 mA, 1.9 V, 575 nm	2.4mm, 2mA, 1.9V, 575nm ku	VLMC3100-GS08
C11, C12	2	Capacitor	10µF	C3216X7R1E106K160AE
R2, R3, R4, R5, R26, R27, R28, R29, R37	9	Mai adawa	10 Q	Saukewa: CRCW060310K0FKEA
C1, C2	2	Capacitor	10 pF	Saukewa: C0402C100J5GACTU
SW1, SW2, SW3, SW4	4	Sauya	12V, 50mA	Saukewa: MCDTS6-3N
X1	1	Crystal Oscillator, 16 MHz, Low Profile SMD, 3.2 mm 2.5 mm, 30 ppm, 12.5 pF, 50 ppm, FA-238 Series	16 MHz zuwa 60 MHz / Loading: 12.5 pF / Kwanciyar hankali: 30 ppm / Haƙuri: 50 ppm	Q22FA23800181 FA-238
R22	1	Mai adawa	20 Q	Saukewa: CRCW060320K0FKEA
R10	1	Mai adawa	27 Q	Saukewa: 352027RJT
U1	1	Transceiver don KNX Twisted Pair Networks	40 pin	Saukewa: NCN5130MNTWG

D2	1	SMAJ40CA - TVS Diode, TRANSZORB SMAJ Jeri, Bidirectional, 40V, 64.5 V, DO-214AC, 2 Fil	40 V, 400 W	Saukewa: SMAJ40CA
C5	1	Capacitor	47 nF, 50v	CGA3E2X7R1H473K080AA
C9	1	Capacitor	100µF, 35V	Saukewa: EEEFT1V101AP
S1	1	6.0 x 3.8 mm SMD J-Bend WS-TASV	100mQ, 250V (AC)	434 123 025 816
C3, C4	2	Capacitor	100 nF ku	Saukewa: CC0402KRX7R7BB104
C8	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
C7	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
R18	1	Mai adawa	130 Q	Saukewa: CRCW0603130KFKEA
C6	1	Capacitor	220 nF, 50v	CGA3E3X7R1H224K080AB
R1, R16, R17, R34	4	Mai adawa	560 Q	Saukewa: CRCW0603560RFKEA
LED6	1	Surface Dutsen Chip LED, Red	0603, Ruwa	KPT-1608
R33, R38	2	Mai adawa	680 Q	Saukewa: CRCW0603680RFKEA
R14, R35, R36	3	Mai adawa	750 Q	Saukewa: CRCW0603750RFKEA
J5	1	Mai haɗa namiji don WAGO 243-211	Girman: 5.75 mm / Diamita: 1 mm / 100 V / 6 A	13.14.125
LED 1, LED5	2	LED, Ja, 2.4 mm, 636 nm, 1.8 V, 2 mA, 18 mcd	Ja, 1.8V, 2mA	VLMS30J1L2-GS08
D3	1	Surface Dutsen Schottky Power Rectifier	Uf = 430 mV, Idan = 500 mA, Ur = 30 V	Saukewa: MBR0530T1G

Sigar SPI

Tebur 8. LITTAFI NA KAYAN SPI-version

Mai tsarawa	Qty	Bayani	Daraja	Lambar Sashe
J3	1	WR-PHD 2.54 mm THT Pin Header, 1p		61300111121
J4	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J6	1	Mai Haɗin allo-To-Board, 2.54 mm, 10 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J7	1	Mai Haɗin allo-To-Board, 2.54 mm, 6 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-106-03-G-S
J8	1	Seri 2141 - 3.50 mm Modular Shigar Tsare-tsare tare da Rising Cage Clamp WR-TBL, 3 pin		691214110003
J9	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-108-03-G-S
L2	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A		74406043221
L3	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A		74406043221
Q1	1	N-Channel Logic Level Haɓaka Yanayin Tasirin Filin Tasiri, 30 V, 1.7 A, -55°C zuwa 150°C, 3-Pin SOT−3, RoHS, Tef da Reel		Saukewa: NDS355AN
j10, j11	2	WR-PHD 2.54 mm THT Pin Header, 2p
R6, R7, R8, R23, R25, R31	6	Mai adawa	0 Q	Saukewa: RC0603JR-070RL
C10	1	Capacitor	1µF, 50V	Saukewa: GCM21BR71H105KA03L
D1	1	Schottky Rectifier, Singel 60 V, 1 A, DO-214AC, 2 Fil, 720 mV	1 A / 720 mV / 60V	Saukewa: SS16T3G
R20, R21	2	Mai adawa	1 Q	Saukewa: RC0603FR-071RL
LED3	1	LED, Yellow, SMD, 2 mA, 2.2 V, 594 nm	2 mA, 2.2 V, 594 nm	VLMA3100-GS08
R19	1	2 (1 x 2) Mai Haɗin Shunt Matsayi Mara-Insulated 0.400 in (10.16 mm) Zinare	2 pin	D3082-05
LED4	1	LED, Orange, SMD, 2.4mm, 2mA, 1.8V, 609nm ku	2.4mm, 2mA, 1.8V, 609nm ku	VLMO30L1M2-GS08
LED2	1	LED, Green, SMD, 2.4 mm, 2 mA, 1.9 V, 575nm ku	2.4mm, 2mA, 1.9V, 575nm ku	VLMC3100-GS08
C11, C12	2	Capacitor	10µF	C3216X7R1E106K160AE
R2, R3, R26, R27, R28, R29, R37	7	Mai adawa	10 Q	Saukewa: CRCW060310K0FKEA
C1, C2	2	Capacitor	10 pF	Saukewa: C0402C100J5GACTU
SW1, SW2, SW3, SW4	4	Sauya	12V, 50mA	Saukewa: MCDTS6-3N
X1	1	Crystal Oscillator, 16 MHz, Low Profile SMD, 3.2 mm 2.5 mm, 30 ppm, 12.5 pF, 50 ppm, FA-238 Series	16 MHz zuwa 60 MHz / Loading: 12.5 pF / Kwanciyar hankali: 30 ppm / Haƙuri: 50 ppm	Q22FA23800181 FA-238
R22	1	Mai adawa	20 Q	Saukewa: CRCW060320K0FKEA
R10	1	Mai adawa	27 Q	Saukewa: 352027RJT
U1	1	Transceiver don KNX Twisted Pair Networks	40 pin	Saukewa: NCN5130MNTWG
D2	1	SMAJ40CA - TVS Diode, TRANSZORB SMAJ Jeri, Bidirectional, 40V, 64.5 V, DO-214AC, 2 Fil	40 V, 400 W	Saukewa: SMAJ40CA
C5	1	Capacitor	47 nF, 50v	CGA3E2X7R1H473K080AA

C9	1	Capacitor	100µF, 35V	Saukewa: EEEFT1V101AP
S1	1	6.0 x 3.8 mm SMD J-Bend WS-TASV	100mQ, 250V (AC)	434 123 025 816
C3, C4	2	Capacitor	100 nF ku	Saukewa: CC0402KRX7R7BB104
C8	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
C7	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
R18	1	Mai adawa	130 Q	Saukewa: CRCW0603130KFKEA
C6	1	Capacitor	220 nF, 50v	CGA3E3X7R1H224K080AB
R1, R9, R11, R12, R13, R15, R34	7	Mai adawa	560 Q	Saukewa: CRCW0603560RFKEA
LED6	1	Surface Dutsen Chip LED, Red	0603, Ruwa	KPT-1608
R33, R38	2	Mai adawa	680 Q	Saukewa: CRCW0603680RFKEA
R14, R35, R36	3	Mai adawa	750 Q	Saukewa: CRCW0603750RFKEA
J5	1	Mai haɗa namiji don WAGO 243-211	Fitar: 5.75 mm / Diamita: 1 mm / 100 V / 6 A	13.14.125
LED 1, LED5	2	LED, Ja, 2.4 mm, 636 nm, 1.8 V, 2 mA, 18 mcd	Ja, 1.8V, 2mA	VLMS30J1L2-GS08
D3	1	Surface Dutsen Schottky Power Rectifier	Uf = 430 mV, Idan = 500 mA, Ur = 30 V	Saukewa: MBR0530T1G

RATAYE E

RATAYE E - NCN5121ASGEVB

Sigar UART

Tebur 9: LITTAFI NA KAYAN UART-VERSION

Mai tsarawa	Qty	Bayani	Daraja	Lambar Sashe
J1	1	WR-PHD 2.54 mm THT Pin Header, 3p		61300311121
J2	1	WR-PHD 2.54 mm THT Pin Header, 3p		61300311121
J3	1	WR-PHD 2.54 mm THT Pin Header, 1p		61300111121
J4	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J6	1	Mai Haɗin allo-To-Board, 2.54 mm, Lambobin sadarwa 10, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J7	1	Mai Haɗin allo-To-Board, 2.54 mm, 6 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-106-03-G-S
J8	1	Seri 2141 - 3.50 mm Modular Shigar Tsare-tsare tare da Rising Cage Clamp WR-TBL, 3 pin		691214110003
J9	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-108-03-G-S
L2	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A		74406043221
L3	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A		74406043221
Q1	1	N-Channel Logic Level Haɓaka Yanayin Tasirin Filin Tasiri, 30 V, 1.7 A, -55°C zuwa 150°C, 3-Pin SOT−3, RoHS, Tef da Reel		Saukewa: NDS355AN
j10, j11	2	WR-PHD 2.54 mm THT Pin Header, 2p
R3, R6, R7, R8, R23, R31, R32	7	Mai adawa	0 Q	Saukewa: RC06030000Z0EA.
C10	1	Capacitor	1µF, 50V	Saukewa: GCM21BR71H105KA03L
D1	1	Schottky Rectifier, Singel 60 V, 1 A, DO-214AC, 2 Fil, 720 mV	1 A / 720 mV / 60V	Saukewa: SS16T3G
R20, R21	2	Mai adawa	1 Q	Saukewa: RC0603FR-071RL
LED3	1	LED, Yellow, SMD, 2 mA, 2.2 V, 594 nm	2 mA, 2.2 V, 594 nm	VLMA3100-GS08
R19	1	2 (1 x 2) Mai Haɗin Shunt Matsayi Mara Insulated 0.400 in (10.16 mm) Zinare	2 pin	D3082-05
LED4	1	LED, Orange, SMD, 2.4mm, 2mA, 1.8V, 609nm ku	2.4mm, 2mA, 1.8V, 609nm ku	VLMO30L1M2-GS08
LED2	1	LED, Green, SMD, 2.4 mm, 2 mA, 1.9 V, 575nm ku	2.4mm, 2mA, 1.9V, 575nm ku	VLMC3100-GS08
C11, C12	2	Capacitor	10µF	C3216X7R1E106K160AE
R2, R4, R5, R26, R27, R28, R29, R37	8	Mai adawa	10 Q	Saukewa: CRCW060310K0FKEA
C1, C2	2	Capacitor	10 pF	Saukewa: C0402C100J5GACTU
SW1, SW2, SW3, SW4	4	Sauya	12V, 50mA	Saukewa: MCDTS6-3N
X1	1		16 MHz zuwa 60 MHz / Loading: 12.5 pF / Kwanciyar hankali: 30 ppm / Haƙuri: 50 ppm	Q22FA23800181 FA-238
R22	1	Mai adawa	20 Q	Saukewa: CRCW060320K0FKEA
R10	1	Mai adawa	27 Q	Saukewa: 352027RJT
U1	1	Transceiver don KNX Twisted Pair Networks	40 pin	Saukewa: NCN5121MNTWG

D2	1	SMAJ40CA - TVS Diode, TRANSZORB SMAJ Jeri, Bidirectional, 40V, 64.5 V, DO-214AC, 2 Fil	40 V, 400 W	Saukewa: SMAJ40CA
C5	1	Capacitor	47 nF, 50v	CGA3E2X7R1H473K080AA
C9	1	Capacitor	100µF, 35V	Saukewa: EEEFT1V101AP
S1	1	6.0 x 3.8 mm SMD J-Bend WS-TASV	100mQ, 250V (AC)	434 123 025 816
C3, C4	2	Capacitor	100 nF ku	Saukewa: CC0402KRX7R7BB104
C8	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
C7	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
R18	1	Mai adawa	130 Q	Saukewa: CRCW0603130KFKEA
C6	1	Capacitor	220 nF, 50v	CGA3E3X7R1H224K080AB
R1, R16, R17, R34	4	Mai adawa	560 Q	Saukewa: CRCW0603560RFKEA
LED6	1	Surface Dutsen Chip LED, Red	0603, Ruwa	KPT-1608
R33, R38	2	Mai adawa	680 Q	Saukewa: CRCW0603680RFKEA
R14, R35, R36	3	Mai adawa	750 Q	Saukewa: CRCW0603750RFKEA
J5	1	Mai haɗa namiji don WAGO 243-211	Fitar: 5.75 mm / Diamita: 1 mm / 100 V / 6 A	13.14.125
LED 1, LED5	2	LED, Ja, 2.4 mm, 636 nm, 1.8 V, 2 mA, 18 mcd	Ja, 1.8V, 2mA	VLMS30J1L2-GS08
D3	1	Surface Dutsen Schottky Power Rectifier	Uf = 430 mV, Idan = 500 mA, Ur = 30 V	Saukewa: MBR0530T1G

Sigar SPI

Tebur 10: LITTAFI NA KAYAN SPI-version

Mai tsarawa	Qty	Bayani	Daraja	Lambar Sashe
J3	1	WR-PHD 2.54 mm THT Pin Header, 1p		61300111121
J4	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J6	1	Mai Haɗin allo-To-Board, 2.54 mm, Lambobin sadarwa 10, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J7	1	Mai Haɗin allo-To-Board, 2.54 mm, 6 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-106-03-G-S
J8	1	Seri 2141 - 3.50 mm Modular Shigar Tsare-tsare tare da Rising Cage Clamp WR-TBL, 3 pin		691214110003
J9	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-108-03-G-S
L2	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A		74406043221
L3	1	SMT Power Inductor WE-LQFS, girman 4828, 2-20µH, 0.4 A		74406043221
Q1	1	N-Channel Haɓaka Matsayin Ma'ana Yanayin Filin Tasirin Transistor, 30 V, 1.7 A, 55°C zuwa 150°C, 3-Pin SOT-3, RoHS, Tape da Reel		Saukewa: NDS355AN
j10, j11	2	WR-PHD 2.54 mm THT Pin Header,
R3, R6, R7, R8, R23, R25, R31	7	Mai adawa	0 Q	CRCW06030000Z0EA, Saukewa: RC0603JR-070RL
C10	1	Capacitor	1µF, 50V	Saukewa: GCM21BR71H105KA03L
D1	1	Schottky Rectifier, Singel 60 V, 1 A, DO-214AC, 2 Fil, 720 mV	1 A / 720 mV / 60V	Saukewa: SS16T3G
R20, R21	2	Mai adawa	1 Q	Saukewa: RC0603FR-071RL
LED3	1	LED, Yellow, SMD, 2 mA, 2.2 V, 594 nm	2 mA, 2.2 V, 594 nm	VLMA3100-GS08
R19	1	2 (1 x 2) Mai Haɗin Shunt Matsayi Mara Insulated 0.400in (10.16 mm) Zinare	2 pin	D3082-05
LED4	1	LED, Orange, SMD, 2.4mm, 2mA, 1.8V, 609nm ku	2.4mm, 2mA, 1.8 V, 609 nm	VLMO30L1M2-GS08
LED2	1	LED, Green, SMD, 2.4 mm, 2 mA, 1.9 V, 575nm ku	2.4mm, 2mA, 1.9 V, 575 nm	VLMC3100-GS08
C11, C12	2	Capacitor	10µF	C3216X7R1E106K160AE
R2, R26, R27, R28, R29, R37	6	Mai adawa	10 Q	Saukewa: CRCW060310K0FKEA
C1, C2	2	Capacitor	10 pF	Saukewa: C0402C100J5GACTU
SW1, SW2, SW3,	4	Sauya	12V, 50mA	Saukewa: MCDTS6-3N
Farashin SW4X1	1		16 MHz zuwa 60 Mhz / Load: 12.5 pF / Kwanciyar hankali: 30 ppm / Haƙuri: 50 ppm	Q22FA23800181 FA-238
R22	1	Mai adawa	20 Q	Saukewa: CRCW060320K0FKEA
R10	1	Mai adawa	27 Q	Saukewa: 352027RJT
U1	1	Transceiver don KNX Twisted Pair Networks	40 fil	Saukewa: NCN5121MNTWG
D2	1	SMAJ40CA - TVS Diode, TRANSZORB SMAJ Series, Hanya Biyu, 40V, 64.5V, DO-214AC, 2 fil	40 V, 400 W	Saukewa: SMAJ40CA
C5	1	Capacitor	47 nF, 50v	CGA3E2X7R1H473K080AA

C9	1	Capacitor	100µF, 35V	Saukewa: EEEFT1V101AP
S1	1	6.0 x 3.8 mm SMD J-Bend WS-TASV	100mQ, 250V (AC)	434 123 025 816
C3, C4	2	Capacitor	100 nF ku	Saukewa: CC0402KRX7R7BB104
C8	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
C7	1	Capacitor	100 nF, 50v	Saukewa: VJ0603Y104KXACW1BC
R18	1	Mai adawa	130 Q	Saukewa: CRCW0603130KFKEA
C6	1	Capacitor	220 nF, 50v	CGA3E3X7R1H224K080AB
R1, R9, R11, R12, R13, R15, R34	7	Mai adawa	560 Q	Saukewa: CRCW0603560RFKEA
LED6	1	Surface Dutsen Chip LED, Red	0603, Ruwa	KPT-1608
R33, R38	2	Mai adawa	680 Q	Saukewa: CRCW0603680RFKEA
R14, R35, R36	3	Mai adawa	750 Q	Saukewa: CRCW0603750RFKEA
J5	1	Mai haɗa namiji don WAGO 243-211	Fitar: 5.75 mm / Diamita: 1 mm / 100 V / 6 A	13.14.125
LED 1, LED5	2	LED, Ja, 2.4 mm, 636 nm, 1.8 V, 2 mA, 18 mcd	Ja, 1.8V, 2mA	VLMS30J1L2-GS08
D3	1	Surface Dutsen Schottky Power Rectifier	Uf = 430 mV, Idan = 500 mA, Ur = 30 V	Saukewa: MBR0530T1G

RATAYE F

RATAYE F - NCN5110ASGEVB SCHEMATIC (CIKAKKEN ZABI)

Cikakken Zabin

Tebur 11: CIKAKKEN lissafin KAYAN KAYAN

Mai tsarawa	Qty	Bayani	Daraja	Lambar Sashe
J1	1	WR-PHD 2.54 mm THT Pin Header, 03p		61300311121
J4	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J6	1	Mai Haɗin allo-To-Board, 2.54 mm, Lambobin sadarwa 10, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J7	1	Mai Haɗin allo-To-Board, 2.54 mm, 6 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-106-03-G-S
J8	1	Seri 2141 - 3.50 mm Modular Shigar Tsare-tsare tare da Rising Cage Clamp WR-TBL, 3 pin
J9	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-108-03-G-S
L2	1	SMT Power Inductor WE-LQFS, girman 4828, 220 µH, 0.4 A
L3	1	SMT Power Inductor WE-LQFS, girman 4828, 2-20µH, 0.4 A
Q1	1	Yanayin Haɓaka Matsayin Hankali na N-Channel Tasirin Filin Transistor, 30 V, 1.7 A, 55°C zuwa 150°C, 3-Pin SOT-3, RoHS, Tape da Reel
U2	1	Single 2-Input DA Ƙofar		Saukewa: MC74HC1G08DTT1G
j10, j11	2	WR-PHD 2.54 mm THT Pin Header, 2p
R6, R13, R15	3	Mai adawa	0 Q
C10	1	Capacitor	1µF, 50V
D1	1	Mai gyara Schottky, Singel 60 V, 1 A,	1 A / 720 mV / 60V	Saukewa: SS16T3G
R20, R21	2	Mai adawa	1 Q
LED3	1	LED, Yellow, SMD, 2 mA, 2.2 V, 594 nm	2 mA, 2.2 V, 594 nm	VLMA3100-GS08
R19	1	2 (1 x 2) Mai Haɗin Shunt Matsayi	2 pin	D3082-05
LED4	1	LED, Orange, SMD, 2.4mm, 2mA, 1.8V, 609nm ku	2.4mm, 2mA, 1.8V, 609nm ku	VLMO30L1M2-GS08
LED2	1	LED, Green, SMD, 2.4 mm, 2 mA, 1.9 V, 575nm ku	2.4mm, 2mA, 1.9V, 575nm ku	VLMC3100-GS08
C11, C12	2	Capacitor	10µF
R2, R3, R7, R8, R26, R27, R28, R29, R37	9	Mai adawa	10 Q
SW1, SW2, SW3, SW4	4	Sauya	12V, 50mA	Saukewa: MCDTS6-3N
R22	1	Mai adawa	20 Q
R10	1	Mai adawa	27 Q
U1	1	Transceiver don KNX Twisted Pair Networks	40 pin	Saukewa: NCN5110
D2	1	SMAJ40CA - TVS Diode, TRANSZORB Jerin SMAJ, Bidirectional, 40V, 64.5 V, DO-214AC, 2 Fil	40 V, 400 W	Saukewa: SMAJ40CA
C9	1	Capacitor	47µF, 35V
C5	1	Capacitor	47 nF, 50v
S1	1	6.0 x 3.8 mm SMD J-Bend WS-TASV	100mQ, 250V (AC)	434 123 025 816
C3, C4	2	Capacitor	100 nF, 16v

C8	1	Capacitor	100 nF, 50v
C1	1	Capacitor	100 nF, 16v
C7	1	Capacitor	100 nF, 50v
R18	1	Mai adawa	130 Q
C6	1	Capacitor	220 nF, 50v
R1, R4, R5, R34	4	Mai adawa	560 Q
LED6	1	Surface Dutsen Chip LED, Red	0603, Ruwa	KPT-1608
R33, R38	2	Mai adawa	680 Q
R14, R35, R36	3	Mai adawa	750 Q
LED 1, LED5	2	LED, Ja, 2.4 mm, 636 nm, 1.8 V, 2 mA, 18 mcd	Led, Ja, 1.8V, 2mA	VLMS30J1L2-GS08
J5	1	Mai haɗa namiji don WAGO 243-211	Fitar: 5.75 mm / Diamita: 1 mm / 100 V / 6 A	243-211 Namiji
D3	1	Surface Dutsen Schottky Power Rectifier	Uf = 430 mV, Idan = 500 mA, Ur = 30 V	Saukewa: MBR0530T1G

Karamin Sigar BoM

Tebur 12: KUDIN KAYAN KYAUTATA BOM VERSION

Mai tsarawa	Qty	Bayani	Daraja	Lambar Sashe
J1	1	WR-PHD 2.54 mm THT Pin Header, 03p		61300311121
J4	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J6	1	Mai Haɗin allo-To-Board, 2.54 mm, Lambobin sadarwa 10, Raba, Ta Ramin, Layuka 1		SSQ-110-03-G-S
J7	1	Mai Haɗin allo-To-Board, 2.54 mm, 6 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-106-03-G-S
J9	1	Mai Haɗin allo-To-Board, 2.54 mm, 8 Lambobin sadarwa, Raba, Ta Ramin, Layuka 1		SSQ-108-03-G-S
J11	1	WR-PHD 2.54 mm THT Pin Header, 2p
L3	1	SMT Power Inductor WE-LQFS, siz-e 4828, 220H, 0.4 A
Q1	1	Yanayin Haɓaka Matsayin Hankali na N-Channel Tasirin Filin Transistor, 30V, 1.7 A, 55°C, 3-Pin SOT-3, RoHS, Tef da Reel
U2	1	Single 2-Shigar da Ƙofa		Saukewa: MC74HC1G08DTT1G
R6, R9, R11, R12, R16	5	Mai adawa	0 Q
D1	1	Schottky Rectifier, Single 60V, 1 A, DO-214AC, 2 Fil, 720 mV	1 A / 720 mV / 60V	Saukewa: SS16T3G
R21	1	Mai adawa	1 Q
LED3	1	LED, Yellow, SMD, 2 mA, 2.2 V, 594 nm	2 mA, 2.2 V, 594 nm	VLMA3100-GS08
R19	1	2 (1 x 2) Mai Haɗin Shunt Matsayi Mara Insulated 0.400in (10.16 mm) Zinare	2 pin	D3082-05
LED4	1	LED, Orange, SMD, 2.4mm, 2mA, 1.8V, 609nm ku	2.4mm, 2mA, 1.8V, 609nm ku	VLMO30L1M2-GS08
LED2	1	LED, Green, SMD, 2.4 mm, 2 mA, 1.9 V, 575nm ku	2.4mm, 2mA, 1.9V, 575nm ku	VLMC3100-GS08
C12	1	Capacitor	10µF
R2, R3, R7, R8, R26, R27, R28, R29, R37	9	Mai adawa	10 Q
	4	Sauya	12V, 50mA	Saukewa: MCDTS6-3N
R10	1	Mai adawa	27 Q
U1	1	Transceiver don KNX Twisted Pair Networks	40 pin	Saukewa: NCN5110
D2	1	SMAJ40CA - TVS Diode, TRANSZORB Jerin SMAJ, Bidirectional, 40V, 64.5 V, DO-214AC, 2 Fil	40 V, 400 W	Saukewa: SMAJ40CA
C9	1	Capacitor	47µF, 35V
C5	1	Capacitor	47 nF, 50v
S1	1	6.0 x 3.8 mm SMD J-Bend WS-TASV	100mQ, 250V (AC)	434 123 025 816
C3, C4	2	Capacitor	100 nF, 16v
C8	1	Capacitor	100 nF, 50v
C1	1	Capacitor	100 nF, 16v
C7	1	Capacitor	100 nF, 50v
C6	1	Capacitor	220 nF, 50v
R1, R4, R5, R34	4	Mai adawa	560 Q

LED6	1	Surface Dutsen Chip LED, Red	0603, Ruwa	KPT-1608
R33, R38	2	Mai adawa	680 Q
R14, R35, R36	3	Mai adawa	750 Q
LED 1, LED5	2	LED, Ja, 2.4 mm, 636 nm, 1.8 V, 2 mA, 18 mcd	Led, Ja, 1.8V, 2mA	VLMS30J1L2-GS08
J5	1	Mai haɗa namiji don WAGO 243-211	Fitar: 5.75 mm / Diamita: 1 mm / 100 V / 6 A	243-211 Namiji

Arduino alamar kasuwanci ce ta Arduino AG.
Duk sauran sunaye da sunayen samfur da ke bayyana a cikin wannan takaddar alamun kasuwanci ne masu rijista ko alamun kasuwanci na masu riƙe su. onsemi, da sauran sunaye, alamomi, da alamun suna rajista da/ko alamun kasuwanci na gama gari na Semiconductor Components Industries, LLC dba “onsemi” ko alaƙa da/ko rassan sa a Amurka da/ko wasu ƙasashe. onsemi ya mallaki haƙƙin haƙƙin haƙƙin haƙƙin haƙƙin haƙƙin haƙƙin haƙƙin haƙƙin haƙƙin haƙƙin mallaka, alamun kasuwanci, haƙƙin mallaka, sirrin ciniki, da sauran kayan fasaha. Za a iya isa ga jerin samfuran onsemi / keɓaɓɓiyar ɗaukar hoto a www.onsemi.com/site/pdf/Patent-Marking.pdf. onsemi shine Daidaitaccen Dama/Mai Aiwatar da Ayyukan Aiki. Wannan wallafe-wallafen yana ƙarƙashin duk dokokin haƙƙin mallaka kuma ba don sake siyarwa bane ta kowace hanya.

Hukumar tantancewa/kit (bincike da hukumar haɓakawa/kit) (bayan “hudumar”) ba ƙaƙƙarfan samfur ba ne kuma ba a samuwa don siyarwa ga masu siye. An yi nufin hukumar ne kawai don bincike, haɓakawa, nunawa da dalilai na kimantawa kuma za a yi amfani da su ne kawai a cikin dakin gwaje-gwaje / wuraren ci gaba ta mutanen da ke da aikin injiniya / horon fasaha kuma sun saba da haɗarin da ke tattare da sarrafa kayan lantarki / injiniyoyi, tsarin da tsarin ƙasa. Wannan mutumin yana ɗaukar cikakken alhakin / alhaki don dacewa da aminci. Duk wani amfani, sake siyarwa ko sake rarrabawa don kowace manufa haramun ne.

AN BAYAR DA HUKUMAR TA ONSEMI GAREKU “KAMAR YADDA YAKE” KUMA BA TARE DA WANI WASU WAKILI KO WARRANTI KOWA BA. BA TARE DA IYAKA BA, ONSEMI (DA MASU SAMUN LASANCEWARSA) TA NAN YA YI RA'AYIN DUK WASU WAKILI DA GARANTIN GAME DA BOARD, KOWANE gyare-gyare, KO WANNAN YARJEJERIYA, KO BANGASKIYA, BAYANI, BANGAREN BAYANAI. IYAKA KOWANE DA DUKAN WAKILI DA GARANTIN SAUKI, KYAUTATA DON MUSAMMAN MANUFA, taken, RA'AYI, DA WA'DANDA SUKA TASO DAGA DARUSIN MA'AIKATA, AMFANI DA CINIKI, KWANCIN CINIKI KO DA'AWAR CINIKI. onsemi yana da haƙƙin yin canje-canje ba tare da ƙarin sanarwa ga kowane kwamiti ba.

Kai ne ke da alhakin tantance ko hukumar za ta dace da amfani ko aikace-aikacen da aka yi niyya ko kuma za ta cimma sakamakon da kake so. Kafin amfani ko rarraba kowane tsarin da aka kimanta, ƙira ko gwadawa ta amfani da allon, kun yarda don gwadawa da inganta ƙirar ku don tabbatar da ayyukan aikace-aikacenku. Duk wani fasaha, aikace-aikace ko bayanin ƙira ko shawara, ƙira mai inganci, bayanan aminci ko wasu ayyuka da onsemi ke bayarwa ba zai zama kowane wakilci ko garanti ta onsemi ba, kuma babu ƙarin wajibai ko haƙƙoƙi da zai taso daga onsemi bayan samar da irin waɗannan bayanai ko ayyuka.

samfuran onsemi ciki har da allunan ba a tsara su ba, an yi niyya, ko ba su izini don amfani da su a cikin tsarin tallafi na rayuwa, ko kowane na'urorin likitanci na FDA Class 3 ko na'urorin likitanci masu irin wannan ko makamancin haka a cikin ikon ƙasashen waje, ko duk wani na'urori da aka yi niyya don shukawa a cikin ɗan adam jiki. Kun yarda da ramuwa, kare da kuma riƙe marasa lahani, daraktocinsa, jami'anta, ma'aikata, wakilai, wakilai, rassansa, masu alaƙa, masu rarrabawa, da kuma sanyawa, akan kowane abin alhaki, asara, farashi, diyya, hukunci, da kashe kuɗi, tasowa na duk wani da'awar, buƙata, bincike, ƙara, matakin tsari ko dalilin aikin da ya taso daga ko alaƙa da kowane amfani mara izini, koda kuwa irin wannan da'awar ta yi zargin cewa onsemi ya yi sakaci game da ƙira ko kera kowane samfuri da/ko hukumar. Wannan kwamitin / kayan kit ɗin ba ya faɗi cikin iyakokin umarnin Tarayyar Turai game da dacewa da lantarki, ƙuntataccen abubuwa (RoHS), sake amfani da su (WEEE), FCC, CE ko UL, kuma maiyuwa ba zai cika buƙatun fasaha na waɗannan ko wasu umarnin da suka danganci ba. .

FCC GARGADI: Wannan kwamiti/kit ɗin kimantawa an yi niyya ne don amfani don haɓaka aikin injiniya, nuni, ko dalilai na ƙima kawai kuma ba a ɗauka ta onsemi a matsayin ƙaƙƙarfan samfurin da ya dace da amfanin mabukaci gabaɗaya. Yana iya samarwa, amfani, ko haskaka makamashin mitar rediyo kuma ba a gwada shi ba don bin iyakokin na'urorin ƙididdiga bisa ga sashi na 15 na dokokin FCC, waɗanda aka ƙera don ba da kariya mai ma'ana daga tsoma bakin mitar rediyo. Yin aiki da wannan kayan aiki na iya haifar da tsangwama ga hanyoyin sadarwa na rediyo, wanda a halin da ake ciki mai amfani zai ɗauki alhakin, a cikin kuɗinsa, don ɗaukar duk matakan da ake buƙata don gyara wannan kutse. onsemi baya isar da kowane lasisi ƙarƙashin haƙƙin mallaka ko haƙƙin wasu.

IYAKA NA HAKURI: onsemi ba zai zama abin dogaro ga kowane na musamman, sakamako, na kwatsam, kaikaice ko ladabtarwa, gami da, amma ba'a iyakance ga halin kaka na prequalification, jinkiri, asarar riba ko yardar rai, tasowa daga ko dangane da hukumar, ko da onsemi. ana ba da shawarar yiwuwar irin wannan lalacewa. Babu wani yanayi da za a iya haɗa jimlar abin alhaki daga kowane takalifi da ya taso na ko dangane da hukumar, a ƙarƙashin kowace ka'idar abin alhaki, ya wuce farashin sayan da aka biya na hukumar, idan akwai. An ba ku hukumar bisa lasisin da sauran sharuɗɗan kowane daidaitattun sharuɗɗan siyarwa na kowane ɗayan. Don ƙarin bayani da takaddun bayanai, da fatan za a ziyarci www.onsemi.com.

KARIN BAYANI

BUGABAN FASAHA:

• Laburaren Fasaha: www.onsemi.com/design/resources/technical-documentation
• wani Website: www.onsemi.com
• TAIMAKON ONLINE: www.onsemi.com/support
• Don ƙarin bayani, tuntuɓi Wakilin Talla na gida a: www.onsemi.com/support/sales

www.onsemi.com

Takardu / Albarkatu

ON Semiconductor NCN5100 Arduino Shield Evaluation Board [pdf] Manual mai amfani NCN5100 Arduino Shield Evaluation Board, NCN5100, Arduino Shield Evaluation Board, Shield Evaluation Board, Evaluation Board, Board

Magana

• Manual mai amfani