Arduino Nano ESP32 tare da Jagorar Mai Amfani

Bayani
Arduino Nano ESP32 (tare da kuma ba tare da kai ba) kwamiti ne na nau'in Nano bisa ESP32-S3 (wanda aka saka a cikin NORA-W106-10B daga u-blox®). Wannan shine allon Arduino na farko da zai dogara da cikakken ESP32, kuma yana fasalta Wi-Fi® da Bluetooth® LE.
Nano ESP32 ya dace da Arduino Cloud, kuma yana da tallafi ga MicroPython. Yana da kyakkyawan allo don farawa tare da ci gaban IoT.
Wuraren manufa:
Maker, IoT, MicroPython

Siffofin

Xtensa® Dual-core 32-bit LX7 Microprocessor

Har zuwa 240 MHz
384 kB ROM
512 kB SRAM
16 kB SRAM a cikin RTC (yanayin ƙarancin wuta)
Mai Kula da DMA

Ƙarfi

Ƙa'idar aikitagda 3.3v
VBUS yana samar da 5 V ta hanyar haɗin USB-C®
Matsayin VIN shine 6-21 V

Haɗuwa

WiFi®
Bluetooth® LE
Eriyar ginannen ciki
2.4 GHz watsawa / mai karɓa
Har zuwa 150 Mbps

Fil

14x dijital (21x ciki har da analog)
8x analog (akwai a yanayin RTC)
SPI(D11,D12,D13), I2C (A4/A5), UART(D0/D1)

Tashoshin Sadarwa

SPI
I2C
I2S
UART
CAN (TWAI®)

Ƙarfin Ƙarfi

7 μA amfani a cikin yanayin barci mai zurfi*
240 μA amfani a cikin yanayin barci mai haske*
Ƙwaƙwalwar RTC
Ultra Low Power (ULP) Coprocessor
Sashin Gudanar da Wuta (PMU)
ADC a cikin yanayin RTC

* Ma'aunin ƙimar wutar lantarki da aka jera a cikin ƙananan yanayin wutar lantarki don ESP32-S3 SoC ne kawai. Sauran abubuwan da ke cikin allo (kamar LEDs), suna amfani da wutar lantarki suma, wanda ke ƙara yawan wutar lantarki na hukumar.

Hukumar

Nano ESP32 shine kwamitin haɓakawa na 3.3 V dangane da NORA-W106-10B daga u-blox®, ƙirar da ta haɗa da tsarin ESP32-S3 akan guntu (SoC). Wannan tsarin yana da goyan bayan Wi-Fi® da Bluetooth® Low Energy (LE), tare da ampinganta sadarwa ta hanyar ginanniyar eriya. CPU (32-bit Xtensa® LX7) yana goyan bayan mitocin agogo har zuwa 240 MHz.

1.1 Aikace-aikace Examples
Kayan aiki na gida: allon da ya dace don sarrafa gidan ku, kuma ana iya amfani da shi don wayowin komai da ruwan, hasken atomatik da sarrafa mota misali makafi masu sarrafa motoci.
Na'urori masu auna firikwensin IoT: tare da tashoshi na ADC da aka keɓe da yawa, bas ɗin I2C/SPI masu isa da ingantaccen tsarin rediyo na ESP32-S3, ana iya tura wannan kwamiti cikin sauƙi don sa ido kan ƙimar firikwensin.
Ƙirƙirar ƙirar wutar lantarki: ƙirƙira aikace-aikacen da ke da ƙarfin baturi tare da ƙarancin amfani da wutar lantarki, ta yin amfani da ginanniyar a cikin ƙananan yanayin wutar lantarki na ESP32-S3 SoC.

Saukewa: ESP32

Nano ESP32 yana amfani da Kunshin Hukumar Arduino don allunan ESP32, asalin Espressif's arduino-esp32.
Rating

Sharuɗɗan Aiki da aka Shawarar

Alama	Bayani	Min	Buga	Max	Naúrar
VIN	Shigar da kunditage daga VIN pad	6	7.0	21	V
VUSB	Shigar da kunditage daga kebul na USB	4.8	5.0	5.5	V
Tambient	Yanayin yanayi	-40	25	105	°C

Aiki Ya Ƙareview

Tsarin zane

Cibiyar Topology

5.1 Gaba View
View daga Top side

Sama View Arduino Nano ESP32

Ref.	Bayani
M1	NORA-W106-10B (ESP32-S3 SoC)
J1	CX90B-16P USB-C® mai haɗawa
JP1	1 × 15 analog header
JP2	1 × 15 na dijital
U2	MP2322GQH mai canzawa
U3	GD25B128EWIGR 128 Mbit (16 MB) ext. ƙwaƙwalwar ajiya
Farashin DL1	LED RGB
Farashin DL2	LED SCK (Serial Agogo)
Farashin DL3	LED Power (kore)
D2	PMEG6020AELRX Schottky Diode
D3	PRTR5V0U2X,215 Kariyar ESD

NORA-W106-10B (Module Radio / MCU)

Nano ESP32 yana fasalta tsarin NORA-W106-10B na tsaye shi kaɗai, yana haɗa jerin ESP32-S3 na SoC da kuma eriya da aka haɗa. ESP32-S3 ya dogara ne akan tsarin Xtensa® LX7 microprocessor.
6.1 Xtensa® Dual-Core 32bit LX7 Microprocessor
Microprocessor don ESP32-S3 SoC a cikin tsarin NORA-W106 dual-core 32-bit Xtensa® LX7. Kowace cibiya na iya aiki har zuwa 240 MHz kuma tana da ƙwaƙwalwar ajiyar 512 kB SRAM. LX7 yana da fasali:

Saitin umarni na musamman na 32-bit
128-bit data bas
32-bit multiplier / rabawa

LX7 yana da 384 kB ROM (Karanta Kawai Ƙwaƙwalwar ajiya), da 512 kB na SRAM (Ƙwaƙwalwar Ƙwararren Ƙwararren Ƙwararren Ƙwaƙwalwa). Hakanan yana fasalta 8kB RTC FAST da RTC SLOW ƙwaƙwalwar ajiya. An tsara waɗannan abubuwan tunawa don ayyukan ƙananan ƙarfi, inda ƙwaƙwalwar SLOW za ta iya samun dama ga mai sarrafa ULP (Ulta Low Power), yana riƙe da bayanai cikin yanayin barci mai zurfi.
6.2 Wi-Fi®
Tsarin NORA-W106-10B yana goyan bayan ma'aunin Wi-Fi® 4 IEEE 802.11 b/g/n, tare da fitarwar EIRP har zuwa 10 dBm. Max kewayon wannan module ne 500 mita.

802.11b: 11Mbit/s
802.11g: 54Mbit/s
802.11n: 72 Mbit/s max a HT-20 (20 MHz), 150 Mbit/s max a HT-40 (40 MHz)

6.3 Bluetooth ®
Tsarin NORA-W106-10B yana goyan bayan Bluetooth® LE v5.0 tare da ikon fitarwa EIRP har zuwa 10 dBm da ƙimar bayanai har zuwa 2 Mbps. Yana da zaɓi don dubawa da tallata lokaci guda, da kuma tallafawa haɗin kai da yawa a yanayin gefe/tsakiya.

6.4 PSRAM
Tsarin NORA-W106-10B ya ƙunshi 8 MB na shigar da PSRAM. (Octal SPI)
6.5 Samun Antenna
Eriyar da aka gina a kan tsarin NORA-W106-10B yana amfani da dabarar daidaitawa ta GFSK, tare da ƙimar aikin da aka jera a ƙasa:
Wi-Fi®:

Ikon fitarwa na yau da kullun: 17 dBm.
Ikon fitarwa na yau da kullun: 20 dBm EIRP.
Hannun hankali da aka gudanar: -97dBm.

Ƙarfin Ƙarfi ta Bluetooth®:

Ikon fitarwa na yau da kullun: 7 dBm.
Ikon fitarwa na yau da kullun: 10 dBm EIRP.
Hannun hankali da aka gudanar: -98dBm.

An dawo da wannan bayanan daga takardar bayanan uBlox NORA-W10 (shafi na 7, sashe 1.5) da ke nan.

Tsari

7.1 Sake saiti
ESP32-S3 yana da tallafi don matakan sake saiti huɗu:

CPU: sake saita CPU0/CPU1 core
Core: sake saita tsarin dijital, ban da na'urorin RTC (ULP coprocessor, RTC memory).

Tsarin: yana sake saita tsarin dijital gaba ɗaya, gami da na'urorin RTC.
Chip: sake saita guntu gaba ɗaya.

Yana yiwuwa a gudanar da sake saitin software na wannan allon, da kuma samun dalilin sake saiti.
Don yin sake saitin allo na hardware, yi amfani da maɓallin sake saiti na onboard (PB1).

7.2 Masu ƙidayar lokaci
Nano ESP32 yana da masu ƙidayar lokaci:

Mai ƙidayar tsarin 52-bit tare da ƙidayar 2x 52-bit (16 MHz) da masu kwatancen 3x.
4x maƙasudi na gabaɗaya 54-bit masu ƙidayar lokaci
3x masu sa ido na lokaci, biyu a cikin babban tsarin (MWDT0/1), ɗaya a cikin tsarin RTC (RWDT).

7.3 Katsewa
Duk GPIOs akan Nano ESP32 za a iya saita su don amfani da su azaman katsewa, kuma ana samar da su ta hanyar matrix katsewa.
Ana saita fil masu katsewa akan matakin aikace-aikacen, ta amfani da saitunan masu zuwa:

LOW
MAI GIRMA
CANJI
FADUWA
tashin

Serial Communication Protocol

Guntuwar ESP32-S3 tana ba da sassauci ga ka'idojin serial iri-iri da yake tallafawa. Don misaliampHar ila yau, ana iya sanya bas ɗin I2C zuwa kusan kowane GPIO da ke akwai.

8.1 Haɗin kai (I2C)
Tsoffin fil:

A4-SDA
A5-SCL

An sanya bas ɗin I2C ta tsohuwa zuwa fil ɗin A4/A5 (SDA/SCL) don dacewa da baya. Ana iya canza wannan aikin fil ɗin, saboda sassaucin guntu ESP32-S3.
Ana iya sanya fil ɗin SDA da SCL zuwa mafi yawan GPIOs, duk da haka wasu daga cikin waɗannan fil ɗin na iya samun wasu mahimman ayyuka waɗanda ke hana ayyukan I2C yin nasara cikin nasara.
Da fatan za a kula: yawancin ɗakunan karatu na software suna amfani da daidaitaccen aikin fil (A4/A5).

8.2 Sautin Inter-IC (I2S)
Akwai masu sarrafa I2S guda biyu waɗanda galibi ana amfani da su don sadarwa tare da na'urorin sauti. Babu takamaiman fil da aka sanya wa I2S, wannan na iya amfani da kowane GPIO kyauta.
Yin amfani da ma'auni ko yanayin TDM, ana amfani da layin masu zuwa:

MCLK - babban agogo
BCLK - agogon bit
WS - zaɓi kalma
DIN/DOUT – serial data

Amfani da yanayin PDM:

CLK - PDM agogo
DIN/DOUT serial data

Kara karantawa game da ka'idar I2S a cikin Espressif's Peripheral API - InterIC Sauti (I2S)
8.3 Matsakaicin Keɓaɓɓen Interface (SPI)

SCK-D13
CIPO-D12
COPI-D11
CS-D10

An sanya mai sarrafa SPI ta tsohuwa zuwa fil ɗin da ke sama.
8.4 Mai karɓa/Mai aikawa da Asynchronous Universal (UART)

D0/TX
D1/RX

An sanya mai kula da UART ta tsohuwa zuwa fil ɗin da ke sama.

8.5 Waya Mota Mota Biyu (TWAI®)
Ana amfani da mai sarrafa CAN/TWAI® don sadarwa tare da tsarin ta amfani da ka'idar CAN/TWAI®, musamman na kowa a cikin masana'antar kera motoci. Babu takamaiman fil da aka sanya don mai sarrafa CAN/TWAI®, ana iya amfani da kowane GPIO kyauta.
Da fatan za a kula: Ana kuma san TWAI® da CAN2.0B, ko “CAN classic”. Mai sarrafa CAN baya dacewa da firam ɗin CAN FD.

Ƙwaƙwalwar Flash na waje

Nano ESP32 yana da filasha na waje 128 Mbit (16 MB), GD25B128EWIGR (U3). An haɗa wannan ƙwaƙwalwar ajiya zuwa ESP32 ta hanyar Interface Quad Serial Peripheral Interface (QSPI).
Mitar aiki na wannan IC shine 133 MHz, kuma yana da ƙimar canja wurin bayanai har zuwa 664 Mbit/s.

Haɗin USB

Nano ESP32 yana da tashar USB-C® guda ɗaya, ana amfani da ita don kunnawa da tsara allon allo tare da aikawa da karɓar sadarwar serial.
Lura cewa bai kamata ku kunna allon da fiye da 5 V ta tashar USB-C® ba.

Zaɓuɓɓukan wuta

Ana iya ba da wutar lantarki ta hanyar fil ɗin VIN, ko ta hanyar haɗin USB-C®. Kowane voltage shigarwa ko dai ta USB ko VIN an sauka zuwa 3.3 V ta amfani da mai sauya MP2322GQH (U2).
Ayyukan aiki voltage don wannan allo yana da 3.3 V. Lura cewa babu fil ɗin 5V da ke akwai akan wannan allo, VBUS kawai zai iya samar da 5V lokacin da allon ke aiki ta USB.

11.1 Itace Wuta

11.2 Fil Voltage
Duk dijital & analog fil akan Nano ESP32 sune 3.3 V. Kada ku haɗa kowane mafi girman voltage na'urorin zuwa kowane fil kamar yadda zai yi kasadar lalata allon.
11.3 Matsayin VIN
Shawarar shigarwa voltagMatsakaicin iyaka shine 6-21 V.
Kada kayi ƙoƙarin kunna allon allo da voltage wajen kewayon da aka ba da shawarar, musamman bai fi 21 V ba.
Ƙwarewar mai canzawa ya dogara da shigar voltage ta hanyar VIN pin. Duba matsakaicin ƙasa don aikin hukumar tare da amfani na yau da kullun:

4.5 V -> 90%.
12 V - 85-90%
18 V - <85%

An ciro wannan bayanin daga takaddar bayanan MP2322GQH.

11.4 VBUS
Babu fil ɗin 5V da ake samu akan Nano ESP32. 5V kawai za a iya bayar ta VBUS, wanda aka kawo kai tsaye daga USB-C® tushen wutar lantarki.
Yayin da ake kunna allo ta hanyar fil ɗin VIN, ba a kunna fil ɗin VBUS ba. Wannan yana nufin ba ku da zaɓi na samar da 5V daga allon sai dai idan an kunna ta ta USB ko waje.
11.5 Amfani da 3.3 V Pin
An haɗa fil ɗin 3.3 V zuwa dogo 3.3 V wanda aka haɗa da fitarwa na MP2322GQH mai sauya saukowa. Ana amfani da wannan fil da farko don kunna abubuwan waje.
11.6 Pin Yanzu
GPIOs akan Nano ESP32 na iya ɗaukar igiyoyin ruwa har zuwa 40mA, da kuma nitsewa har zuwa 28mA. Kada a taɓa haɗa na'urorin da ke zana mafi girma na yanzu kai tsaye zuwa GPIO.
Bayanin Injiniya

Pinout

12.1 Analog (JP1)

Pin	Aiki	Nau'in	Bayani
1	D13 / SCK	NC	Serial Agogo
2	+3V3	Ƙarfi	+ 3V3 Wutar Lantarki
3	KASATA 0	Yanayin	Sake saitin allo 0
4	A0	Analog	Analog shigarwar 0
5	A1	Analog	Analog shigarwar 1
6	A2	Analog	Analog shigarwar 2
7	A3	Analog	Analog shigarwar 3
8	A4	Analog	Shigarwar Analog 4/I²C Serial Data (SDA)
9	A5	Analog	Shigarwar Analog 5/I²C Serial Clock (SCL)
10	A6	Analog	Analog shigarwar 6
11	A7	Analog	Analog shigarwar 7
12	V-BUS	Ƙarfi	Kebul na USB (5V)
13	KASATA 1	Yanayin	Sake saitin allo 1
14	GND	Ƙarfi	Kasa
15	VIN	Ƙarfi	Voltage Shigarwa

12.2 Dijital (JP2)

Pin	Aiki	Nau'in	Bayani
1	D12 / CIPO*	Dijital	Mai Gudanarwa A Wurin Wuta
2	D11 / COPI*	Dijital	Mai Sarrafa Wuta A
3	D10/CS*	Dijital	Zabi Chip
4	D9	Dijital	Dijital fil 9
5	D8	Dijital	Dijital fil 8
6	D7	Dijital	Dijital fil 7
7	D6	Dijital	Dijital fil 6
8	D5	Dijital	Dijital fil 5
9	D4	Dijital	Dijital fil 4
10	D3	Dijital	Dijital fil 3
11	D2	Dijital	Dijital fil 2
12	GND	Ƙarfi	Kasa
13	RST	Na ciki	Sake saiti
14	D1/RX	Dijital	Digital fil 1 / Serial Receiver (RX)
15	D0/TX	Dijital	Digital fil 0 / Serial Transmitter (TX)

*CIPO/COPI/CS ya maye gurbin kalmomin MISO/MOSI/SS.

Hawan Ramuka Da Bayanin allo

Aikin hukumar

14.1 Farawa - IDE
Idan kuna son tsara Nano ESP32 ɗinku yayin waje kuna buƙatar shigar da Arduino IDE [1]. Don haɗa Nano ESP32 zuwa kwamfutarka, kuna buƙatar kebul na USB Type-C®, wanda kuma zai iya ba da wuta ga allo, kamar yadda LED (DL1) ya nuna.

14.2 Farawa - Arduino Web Edita
Duk allunan Arduino, gami da wannan, suna aiki a waje akan Arduino Web Edita [2], ta hanyar shigar da plugin mai sauƙi kawai.
A Arduino Web Ana gudanar da edita akan layi, saboda haka koyaushe zai kasance na zamani tare da sabbin abubuwa da goyan baya ga duk allunan. Bi [3] don fara codeing akan mashigin yanar gizo kuma loda zane-zanen ku akan allo.
14.3 Farawa - Arduino Cloud
Duk samfuran da aka kunna Arduino IoT ana tallafawa akan Arduino Cloud wanda ke ba ku damar shiga, tsarawa da tantance bayanan firikwensin, jawo abubuwan da suka faru, da sarrafa gidanku ko kasuwancin ku.
14.4 Albarkatun Kan layi
Yanzu da kuka bi ka'idodin abin da za ku iya yi tare da hukumar za ku iya bincika damar da ba ta da iyaka da take bayarwa ta hanyar duba ayyukan ban sha'awa akan Arduino Project Hub [4], Rubutun Laburaren Arduino [5], da kantin sayar da kan layi [6] ]; inda za ku iya haɗa allonku da na'urori masu auna firikwensin, masu kunnawa da ƙari.
14.5 farfadowa da na'ura
Duk allunan Arduino suna da ginanniyar bootloader wanda ke ba da damar walƙiya allon ta USB. Idan zane ya kulle na'ura kuma ba a iya samun allon ta hanyar USB, yana yiwuwa a shigar da yanayin bootloader ta danna maɓallin sake saiti sau biyu bayan an kunna wutar lantarki.
Takaddun shaida

Sanarwa na Daidaitawa CE DoC (EU)

Muna ayyana ƙarƙashin alhakin mu kaɗai cewa samfuran da ke sama sun dace da mahimman buƙatun ƙa'idodin EU masu zuwa don haka sun cancanci tafiya cikin 'yanci a cikin kasuwannin da suka ƙunshi Tarayyar Turai (EU) da Yankin Tattalin Arziki na Turai (EEA).

Sanarwa na Daidaitawa ga EU RoHS & ISAUTAR 211
01/19/2021

Allolin Arduino suna bin umarnin RoHS 2 2011/65/EU na Majalisar Tarayyar Turai da RoHS 3 Directive 2015/863/EU na Majalisar 4 ga Yuni 2015 kan ƙuntata amfani da wasu abubuwa masu haɗari a cikin kayan lantarki da lantarki.

Abu	Matsakaicin iyaka (ppm)
Kai (Pb)	1000
Cadmium (Cd)	100
Mercury (Hg)	1000
Hexavalent Chromium (Cr6+)	1000
Poly Brominated Biphenyls (PBB)	1000
Poly Brominated Diphenyl ethers (PBDE)	1000
Bis (2-Ethylhexyl) phthalate (DEHP)	1000
Benzyl butyl phthalate (BBP)	1000
Dibutyl phthalate (DBP)	1000
Diisobutyl phthalate (DIBP)	1000

Keɓancewa : Ba a da'awar keɓancewa.
Al'amuran Arduino suna da cikakkiyar yarda da buƙatun da ke da alaƙa na Dokokin Tarayyar Turai (EC) 1907/2006 game da Rijista, Ƙimar, Izini da Ƙuntata Sinadarai (ISA). Ba mu bayyana ko ɗaya daga cikin SVHCs ba https://echa.europa.eu/web/guest/candidate-list-table), Jerin abubuwan da ke da matukar damuwa don ba da izini a halin yanzu da EHA ta fitar, yana nan a cikin duk samfuran (da kuma kunshin) a cikin adadi mai yawa a cikin taro daidai ko sama da 0.1%. A iyakar saninmu, muna kuma shelanta cewa samfuranmu ba su ƙunshi ko ɗaya daga cikin abubuwan da aka jera akan "Jerin Izini" (Annex XIV na ka'idojin REACH) da Abubuwan Damuwa Mai Girma (SVHC) a cikin kowane adadi mai mahimmanci kamar ƙayyadaddun. ta Annex XVII na jerin 'yan takara da ECHA (Hukumar Sinadarai ta Turai) ta buga 1907/2006/EC.

Sanarwar Ma'adinan Rikici

A matsayinsa na mai samar da kayan lantarki da na lantarki na duniya, Arduino yana sane da wajibcinmu game da dokoki da ƙa'idodi game da Ma'adanai masu rikice-rikice, musamman Dodd-Frank Wall Street Reform and Consumer Protection Act, Sashe na 1502. Arduino ba ya samo asali ko aiwatar da rikici kai tsaye. ma'adanai irin su Tin, Tantalum, Tungsten, ko Zinariya. Ma'adanai masu rikice-rikice suna ƙunshe a cikin samfuranmu a cikin nau'in siyar, ko a matsayin wani sashi a cikin gami da ƙarfe. A matsayin wani ɓangare na ƙwazonmu mai ma'ana Arduino ya tuntuɓi masu samar da kayan aiki a cikin sarkar kayan mu don tabbatar da ci gaba da bin ƙa'idodin. Dangane da bayanan da aka samu zuwa yanzu muna bayyana cewa samfuranmu sun ƙunshi Ma'adanai masu Rikici waɗanda aka samo daga wuraren da ba su da rikici.

FCC Tsanaki

Duk wani canje-canje ko gyare-gyaren da ƙungiyar da ke da alhakin bin doka ba ta amince da su ba na iya ɓata ikon mai amfani na sarrafa kayan aiki.
Wannan na'urar ta bi sashe na 15 na Dokokin FCC. Aikin yana ƙarƙashin sharuɗɗa biyu masu zuwa:

Wannan na'urar bazai haifar da tsangwama mai cutarwa ba
dole ne wannan na'urar ta karɓi duk wani tsangwama da aka samu, gami da tsangwama wanda zai iya haifar da aiki maras so.

FCC RF Bayanin Bayyana Radiation:

Wannan mai watsawa dole ne a kasance tare ko aiki tare tare da kowane eriya ko mai watsawa.
Wannan kayan aikin ya dace da iyakokin fiddawa na RF wanda aka tsara don muhalli mara sarrafawa.
Yakamata a shigar da wannan kayan aiki tare da mafi ƙarancin tazarar 20 cm tsakanin radiator & jikin ku.

Lura: An gwada wannan kayan aikin kuma an same shi don biyan iyaka don na'urar dijital ta Class B, bisa ga sashi na 15 na Dokokin FCC. An tsara waɗannan iyakokin don ba da kariya mai ma'ana daga kutsawa mai cutarwa a cikin shigarwar mazaunin. Wannan kayan aiki yana haifarwa, yana amfani da kuma zai iya haskaka ƙarfin mitar rediyo kuma, idan ba'a shigar da shi ba kuma akayi amfani dashi daidai da umarnin, yana iya haifar da tsangwama mai cutarwa ga sadarwar rediyo. Duk da haka, babu tabbacin cewa tsangwama ba zai faru a cikin wani shigarwa na musamman ba. Idan wannan kayan aikin ya haifar da tsangwama mai cutarwa ga liyafar rediyo ko talabijin, wanda za'a iya tantance shi ta hanyar kashe kayan aiki da kunnawa, ana ƙarfafa mai amfani da yayi ƙoƙarin gyara tsangwama ta hanyar ɗaya ko fiye na waɗannan matakan:

Sake daidaitawa ko matsar da eriya mai karɓa.
Ƙara rabuwa tsakanin kayan aiki da mai karɓa.
Haɗa kayan aiki zuwa wani mashigar da ke da'ira daban-daban daga abin da aka haɗa mai karɓa zuwa gare shi.
Tuntuɓi dila ko gogaggen masanin rediyo/TV don taimako.

Littattafan mai amfani don na'urar rediyon da ba ta da lasisi za ta ƙunshi sanarwa mai zuwa ko makamancinta a cikin wani fili a cikin littafin jagorar mai amfani ko a madadin na'urar ko duka biyun. Wannan na'urar ta dace da ma'auni(s) RSS wanda ba shi da lasisin Masana'antu Kanada. Aikin yana ƙarƙashin sharuɗɗa biyu masu zuwa:

wannan na'urar bazai haifar da tsangwama ba
dole ne wannan na'urar ta karɓi kowane tsangwama, gami da tsangwama wanda zai iya haifar da aikin da ba a so na na'urar.

Gargaɗi na IC SAR:
Ya kamata a shigar da wannan kayan aikin tare da mafi ƙarancin nisa na 20 cm tsakanin radiyo da jikinka.
Muhimmi: Yanayin aiki na EUT ba zai iya wuce 85 ℃ ba kuma kada ya kasance ƙasa da -40 ℃.
Ta haka, Arduino Srl ya bayyana cewa wannan samfurin ya dace da mahimman buƙatu da sauran tanadin da suka dace na Jagoran 201453/EU. An ba da izinin amfani da wannan samfurin a duk ƙasashe membobin EU.

Bayanin Kamfanin

Sunan kamfani	Arduino Srl
Adireshin Kamfanin	Ta hanyar Andrea Appiani, 25 Monza, MB, 20900 Italiya

Takardun Magana

Ref	mahada
Arduino IDE (Desktop)	https://www.arduino.cc/en/Main/Software
Arduino Web Edita (Cloud)	https://create.arduino.cc/editor
Web Edita - Farawa	https://docs.arduino.cc/cloud/web-editor/tutorials/getting-started/getting-started-web-editor
Cibiyar Aikin	https://create.arduino.cc/projecthub?by=part&part_id=11332&sort=trending
Maganar Laburare	https://github.com/arduino-libraries/
Shagon Kan layi	https://store.arduino.cc/

Canja Log

Kwanan wata	Canje-canje
08/06/2023	Saki
09/01/2023	Sabunta taswirar bishiyar wutar lantarki.
09/11/2023	Sabunta sashin SPI, sabunta sashin fil ɗin analog/dijital.
11/06/2023	Daidai sunan kamfani, daidai VBUS/VUSB
11/09/2023	Toshe Sabunta zane, Ƙayyadaddun Antenna
11/15/2023	Sabunta yanayin yanayin yanayi
11/23/2023	Ƙara lakabin zuwa yanayin LP

An sabunta: 29/01/2024

Takardu / Albarkatu

Arduino Nano ESP32 tare da Headers [pdf] Manual mai amfani
Nano ESP32 tare da masu kai, Nano, ESP32 tare da masu kai, tare da masu kai, masu kai

Magana

Manual mai amfani

Nano ESP32 tare da Headers