I-Arduino® Nano ESP32
Imanuwali Yereferensi Yomkhiqizo
I-SKU: ABX00083
I-Nano ESP32 enezihloko
Incazelo
I-Arduino Nano ESP32 (enamaheda nangenayo) iyibhodi lesici sefomu le-Nano elisuselwe ku-ESP32-S3 (eshumekwe ku-NORA-W106-10B kusuka ku-u-blox®). Leli ibhodi lokuqala le-Arduino elisekelwe ngokugcwele ku-ESP32, futhi lihlanganisa i-Wi-Fi® kanye ne-Bluetooth® LE.
I-Nano ESP32 iyahambisana ne-Arduino Cloud, futhi inokusekelwa kwe-MicroPython. Kuyibhodi ekahle yokuqala ngokuthuthukiswa kwe-IoT.
Izindawo eziqondiwe:
Umenzi, IoT, MicroPython
Izici
I-Xtensa® Dual-core 32-bit LX7 Microprocessor
- Kufika ku-240 MHz
- 384 kB iROM
- 512 kB SRAM
- I-16 kB SRAM ku-RTC (imodi yamandla aphansi)
- Isilawuli se-DMA
Amandla
- I-vol esebenzayotage 3.3v
- I-VBUS inikezela nge-5 V ngesixhumi se-USB-C®
- Ububanzi be-VIN yi-6-21 V
Ukuxhumana
- I-Wi-Fi®
- I-Bluetooth® LE
- I-antenna eyakhelwe ngaphakathi
- I-2.4 GHz transmitter/receiver
- Kufika ku-150 Mbps
Izikhonkwane
- 14x idijithali (21x kufaka phakathi i-analog)
- 8x analog (itholakala kumodi ye-RTC)
- SPI(D11,D12,D13), I2C (A4/A5), UART(D0/D1)
Amachweba Okuxhumana
- SPI
- I-I2C
- I2S
- UART
- I-CAN (TWAI®)
Amandla Aphansi
- 7 μA ukusetshenziswa kumodi yokulala okujulile*
- 240 μA ukusetshenziswa kumodi yokulala elula*
- Inkumbulo ye-RTC
- I-Ultra Low Power (ULP) Coprocessor
- Iyunithi yokuphathwa kwamandla (PMU)
- I-ADC kumodi ye-RTC
*Izilinganiso zokusetshenziswa kwamandla ezisohlwini lwamamodi amandla aphansi eze-ESP32-S3 SoC kuphela. Ezinye izingxenye ebhodini (njengama-LED), zisebenzisa amandla futhi, okwandisa ukusetshenziswa kwamandla ebhodini.
Ibhodi
I-Nano ESP32 iyibhodi yokuthuthukisa engu-3.3 V esekelwe ku-NORA-W106-10B evela ku-u-blox®, imojula ehlanganisa uhlelo lwe-ESP32-S3 ku-chip (SoC). Le mojula inosekelo lwe-Wi-Fi® kanye ne-Bluetooth® Low Energy (LE), nge ampukuxhumana okuthuthukisiwe nge-antenna eyakhelwe ngaphakathi. I-CPU (32-bit Xtensa® LX7) isekela amafrikhwensi ewashi afika ku-240 MHz.
1.1 Isicelo ExampLes
I-automation yasekhaya: ibhodi elilungele ukwenza ikhaya lakho libe ngokuzenzakalela, futhi lingasetshenziselwa amaswishi ahlakaniphile, ukukhanyisa okuzenzakalelayo kanye nokulawula imoto njengesib.
Izinzwa ze-IoT: ezinamashaneli e-ADC amaningana azinikele, amabhasi e-I2C/SPI afinyelelekayo kanye nemojula yomsakazo esekelwe ku-ESP32-S3 eqinile, leli bhodi lingasatshalaliswa kalula ukuze liqaphe amanani enzwa.
Imiklamo yamandla aphansi: dala izinhlelo zokusebenza ezisebenza ngebhethri esebenzisa amandla aphansi, usebenzisa imodi yamandla aphansi e-ESP32-S3 SoC.
I-ESP32 Core
I-Nano ESP32 isebenzisa i-Arduino Board Package kumabhodi we-ESP32, okuphuma ku-Espressif's arduino-esp32 core.
Isilinganiso
Izimo Zokusebenza Ezinconyiwe
| Uphawu | Incazelo | Okuncane | Thayipha | Ubukhulu | Iyunithi |
| I-VIN | Okokufaka ivoltage kusuka ku-VIN pad | 6 | 7.0 | 21 | V |
| I-VUSB | Okokufaka ivoltage kusuka kusixhumi se-USB | 4.8 | 5.0 | 5.5 | V |
| I-Tambient | I-Ambient Temperature | -40 | 25 | 105 | °C |
Isebenza Ngaphezuluview
Umdwebo weBlock
I-Topology yebhodi
5.1 Ngaphambili View
View kusukela phezulu ohlangothini
Phezulu View ye-Arduino Nano ESP32
| Ref. | Incazelo |
| M1 | I-NORA-W106-10B (ESP32-S3 SoC) |
| J1 | CX90B-16P USB-C® isixhumi |
| JP1 | 1 × 15 unhlokweni we-analog |
| JP2 | 1×15 unhlokweni wedijithali |
| U2 | MP2322GQH isiguquli sesinyathelo esiphansi |
| U3 | I-GD25B128EWIGR 128 Mbit (16 MB) ext. inkumbulo flash |
| DL1 | I-RGB LED |
| DL2 | I-LED SCK (iwashi le-serial) |
| DL3 | Amandla e-LED (okuluhlaza) |
| D2 | I-PMEG6020AELRX Schottky Diode |
| D3 | PRTR5V0U2X,215 ESD Ukuvikelwa |
I-NORA-W106-10B (I-Radio Module / MCU)
I-Nano ESP32 ifaka imojuli yomsakazo emele yodwa ye-NORA-W106-10B, ishumeka uchungechunge lwe-ESP32-S3 SoC kanye nothi olushumekiwe. I-ESP32-S3 isuselwe kuchungechunge lwe-microprocessor ye-Xtensa® LX7.
6.1 Xtensa® Dual-Core 32bit LX7 Microprocessor
I-microprocessor ye-ESP32-S3 SoC ngaphakathi kwemojuli ye-NORA-W106 iyidual-core 32-bit Xtensa® LX7. Ingqikithi ngayinye ingasebenza kufika ku-240 MHz futhi inememori engu-512 kB SRAM. Izici ze-LX7:
- Isethi yemiyalo eyenziwe ngokwezifiso engu-32-bit
- 128-bit ibhasi yedatha
- 32-bit isiphindaphindi / isihlukanisi
I-LX7 ine-ROM engu-384 kB (Inkumbulo Efundwayo Kuphela), kanye no-512 kB we-SRAM (Inkumbulo Yokufinyelela Engahleliwe e-Static Random). Iphinde ibe nenkumbulo engu-8 kB RTC FAST kanye ne-RTC SLOW. Lezi zinkumbulo zidizayinelwe ukusebenza kwamandla aphansi, lapho imemori ethi SLOW ingafinyelelwa yi-coprocessor ye-ULP (Ulta Low Power), egcina idatha kumodi yokulala okujulile.
6.2 Wi-Fi®
Imojula ye-NORA-W106-10B isekela i-Wi-Fi® 4 IEEE 802.11 amazinga b/g/n, enamandla okukhiphayo we-EIRP afika ku-10 dBm. Ibanga eliphezulu lale mojula lingamamitha angu-500.
- 802.11b: 11 Mbit/s
- 802.11g: 54 Mbit/s
- 802.11n: 72 Mbit/s max ku-HT-20 (20 MHz), 150 Mbit/s max ku-HT-40 (40 MHz)
6.3 I-Bluetooth®
Imojula ye-NORA-W106-10B isekela i-Bluetooth® LE v5.0 enamandla okukhiphayo e-EIRP afika ku-10 dBm kanye nezinga ledatha elifika ku-2 Mbps. Inenketho yokuskena nokukhangisa ngasikhathi sinye, kanye nokusekela ukuxhumana okuningi kumodi ye-peripheral/central.
6.4 I-PSRAM
Imojula ye-NORA-W106-10B ihlanganisa u-8 MB we-PSRAM eshumekiwe. (Octal SPI)
6.5 Ukuzuza kwe-Antenna
I-antenna eyakhelwe ngaphakathi kumojula ye-NORA-W106-10B isebenzisa indlela yokushintshashintsha ye-GFSK, ngezilinganiso zokusebenza ezibalwe ngezansi:
I-Wi-Fi®:
- Amandla okukhiphayo aqhutshwayo: 17 dBm.
- Amandla okukhiphayo ajwayelekile: 20 dBm EIRP.
- Ukuzwela okwenziwe: -97 dBm.
I-Bluetooth® Amandla Aphansi:
- Amandla okukhiphayo aqhutshwayo: 7 dBm.
- Amandla okukhiphayo ajwayelekile: 10 dBm EIRP.
- Ukuzwela okwenziwe: -98 dBm.
Le datha ibuyiswa eshidini ledatha le-uBlox NORA-W10 (ikhasi 7, isigaba 1.5) elitholakala lapha.
Uhlelo
7.1 Ukusetha kabusha
I-ESP32-S3 inokusekelwa kwamazinga amane okusetha kabusha:
- I-CPU: isetha kabusha i-CPU0/CPU1 core
- Ingqikithi: isetha kabusha isistimu yedijithali, ngaphandle kwama-peripherals e-RTC (i-ULP coprocessor, imemori ye-RTC).
- Isistimu: imisa kabusha yonke isistimu yedijithali, okuhlanganisa nokuxhunywa kwe-RTC.
- I-chip: imisa kabusha yonke i-chip.
Kungenzeka ukwenza ukusetha kabusha kwesoftware yaleli bhodi, kanye nokuthola isizathu sokusetha kabusha.
Ukuze wenze ukusetha kabusha izingxenyekazi zekhompiyutha ebhodini, sebenzisa inkinobho yokusetha kabusha ebhodini (PB1).
7.2 Isilinganiso
I-Nano ESP32 inezibali sikhathi ezilandelayo:
- Isibali sikhathi sesistimu esingu-52-bit esinezinto zokubala ezingu-2x 52-bit (16 MHz) nezifanisi ezingu-3x.
- 4x izibali sikhathi zenhloso evamile engu-54-bit
- 3x watchdog timer, ezimbili ohlelweni main (MWDT0/1), eyodwa module RTC (RWDT).
7.3 Ukuphazamisa
Wonke ama-GPIO ku-Nano ESP32 angalungiswa ukuze asetshenziswe njengeziphazamiso, futhi ahlinzekwa ukuphazamisa kwe-matrix.
Izikhonkwane eziphazamisayo zilungiswa ezingeni lesicelo, kusetshenziswa izilungiselelo ezilandelayo:
- PHANSI
- PHEZULU
- SHINTSHA
- IYAWA
- Rising
Amaphrothokholi wokuxhumana we-serial
I-chip ye-ESP32-S3 ihlinzeka ngokuguquguquka kwamaphrothokholi ahlukahlukene ayisekelayo. Okwesiboneloample, ibhasi le-I2C linganikezwa cishe noma iyiphi i-GPIO etholakalayo.
8.1 I-Inter-Integrated Circuit (I2C)
Izikhonkwane ezizenzakalelayo:
- A4 – SDA
- I-A5 – SCL
Ibhasi le-I2C ngokuzenzakalela labelwe izikhonkwane ze-A4/A5 (SDA/SCL) ukuze zihambisane ne-retro. Lo msebenzi wephinikhodi ungashintshwa, ngenxa yokuguquguquka kwe-chip ye-ESP32-S3.
Amaphinikhodi we-SDA kanye ne-SCL anganikezwa ama-GPIO amaningi, nokho amanye alawa maphini angaba neminye imisebenzi ebalulekile evimbela imisebenzi ye-I2C ukuthi isebenze ngempumelelo.
Ngicela uqaphele: imitapo yolwazi yesofthiwe eminingi isebenzisa iphinikhodi evamile (A4/A5).
8.2 I-Inter-IC Sound (I2S)
Kukhona izilawuli ezimbili ze-I2S ezivame ukusetshenziselwa ukuxhumana namadivayisi alalelwayo. Awekho amaphinikhodi athile anikezwe i-I2S, lokhu kungasetshenziswa yinoma iyiphi i-GPIO yamahhala.
Kusetshenziswa imodi ejwayelekile noma ye-TDM, kusetshenziswa imigqa elandelayo:
- I-MCLK – iwashi eliyinhloko
- I-BCLK – iwashi elincane
- I-WS – khetha igama
- I-DIN/DOUT – idatha ye-serial
Ukusebenzisa imodi ye-PDM:
- Iwashi le-CLK – PDM
- Idatha ye-serial ye-DIN/DOUT
Funda kabanzi mayelana nephrothokholi ye-I2S ku-Espressif's Peripheral API – InterIC Sounds (I2S)
8.3 Isixhumi Sesikhombimsebenzisi Sokuxhumana (SPI)
- SCK – D13
- I-CIPO – D12
- I-COPI – D11
- CS – D10
Isilawuli se-SPI ngokuzenzakalela sabelwe izikhonkwane ezingenhla.
8.4 I-Universal Asynchronous Receiver/Transmitter (UART)
- D0 / TX
- D1/RX
Isilawuli se-UART ngokuzenzakalela sabelwe izikhonkwane ezingenhla.
8.5 I-Two Wire Automotive Interface (TWAI®)
Isilawuli se-CAN/TWAI® sisetshenziselwa ukuxhumana namasistimu kusetshenziswa iphrothokholi ye-CAN/TWAI®, evame kakhulu embonini yezimoto. Awekho amaphinikhodi athile anikezwe isilawuli se-CAN/TWAI®, noma iyiphi i-GPIO yamahhala ingasetshenziswa.
Ngicela uqaphele: I-TWAI® yaziwa nangokuthi i-CAN2.0B, noma “i-CAN yakudala”. Isilawuli se-CAN ASIHAMBISANI nozimele be-CAN FD.
Inkumbulo ye-Flash yangaphandle
I-Nano ESP32 ifaka i-flash yangaphandle engu-128 Mbit (16 MB), i-GD25B128EWIGR (U3). Le nkumbulo ixhunywe ku-ESP32 nge-Quad Serial Peripheral Interface (QSPI).
Imvamisa yokusebenza yale IC ngu-133 MHz, futhi inezinga lokudlulisa idatha elifika ku-664 Mbit/s.
Isixhumi se-USB
I-Nano ESP32 inembobo eyodwa ye-USB-C®, esetshenziselwa ukunika amandla nokuhlela ibhodi lakho kanye nokuthumela nokwamukela ukuxhumana kwe-serial.
Qaphela ukuthi akufanele unike ibhodi amandla angaphezu kuka-5 V ngembobo ye-USB-C®.
Izinketho zamandla
Amandla anganikezwa ngephinikhodi ye-VIN, noma ngesixhumi se-USB-C®. Noma iyiphi ivolumutagokokufaka kwe-e nge-USB noma nge-VIN kwehliswa kuze kufike ku-3.3 V kusetshenziswa isiguquli se-MP2322GQH (U2).
Umthamo wokusebenzatage yaleli bhodi ingu-3.3 V. Sicela uqaphele ukuthi ayikho iphinikhodi engu-5V etholakalayo kuleli bhodi, i-VBUS kuphela engahlinzeka ngo-5 V uma ibhodi lisebenza nge-USB.
11.1 Isihlahla Samandla
11.2 pin Voltage
Wonke amaphinikhodi edijithali nawe-analog ku-Nano ESP32 angu-3.3 V. Ungaxhumi noma iyiphi ivolumu ephezulutage amadivaysi kunoma iyiphi yezikhonkwane njengoba izoba sengozini yokulimaza ibhodi.
11.3 Isilinganiso se-VIN
Ivolumu yokufaka enconyiwetagUbubanzi be-6-21 V.
Akufanele uzame ukunika ibhodi amandla nge-voltage ngaphandle kwebanga elinconyiwe, ikakhulukazi hhayi ngaphezulu kuka-21 V.
Ukusebenza kahle kwesiguquli kuncike kuvolumu yokufakatage ngephinikhodi ye-VIN. Bona isilinganiso esingezansi sokusebenza kwebhodi elinokusetshenziswa okujwayelekile kwamanje:
- 4.5 V – >90%.
- 12 V – 85-90%
- 18 V – <85%
Lolu lwazi lukhishwe kumininingwane ye-MP2322GQH.
11.4 VBUS
Ayikho iphinikhodi ye-5V etholakalayo ku-Nano ESP32. I-5 V inganikezwa kuphela nge-VBUS, enikezwa ngokuqondile kumthombo wamandla we-USB-C®.
Ngenkathi unika amandla ibhodi ngephinikhodi ye-VIN, iphinikhodi ye-VBUS ayenziwa isebenze. Lokhu kusho ukuthi awunayo inketho yokuhlinzeka nge-5 V ukusuka ebhodini ngaphandle kokuthi unikwe amandla nge-USB noma ngaphandle.
11.5 Ukusebenzisa iphinikhodi engu-3.3 V
Iphinikhodi engu-3.3 V ixhunywe kumzila wesitimela ongu-3.3 V oxhunywe ekukhiqizweni kwe-MP2322GQH yesiguquli sesinyathelo esiya phansi. Le phinikhodi isetshenziswa ngokuyinhloko ukunika amandla izingxenye zangaphandle.
11.6 Phina Okwamanje
Ama-GPIO aku-Nano ESP32 angakwazi ukuphatha imisinga yomthombo kufika ku-40 mA, futhi azike imisinga aze afike ku-28 mA. Ungalokothi uxhume amadivayisi adonsa amandla aphezulu ngqo ku-GPIO.
Ulwazi Lwemishini
I-Pinout
12.1 I-Analog (JP1)
| Phina | Umsebenzi | Uhlobo | Incazelo |
| 1 | I-D13 / SCK | NC | Iwashi le-serial |
| 2 | +3V3 | Amandla | +3V3 Isitimela Samandla |
| 3 | IBHODI0 | Imodi | Ukusetha Kabusha Ibhodi 0 |
| 4 | A0 | I-Analog | Okokufaka kwe-analog 0 |
| 5 | A1 | I-Analog | Okokufaka kwe-analog 1 |
| 6 | A2 | I-Analog | Okokufaka kwe-analog 2 |
| 7 | A3 | I-Analog | Okokufaka kwe-analog 3 |
| 8 | A4 | I-Analog | Okokufaka kwe-Analog 4 / I²C Serial Data (SDA) |
| 9 | A5 | I-Analog | Okokufaka kwe-Analog 5 / I²C Serial Clock (SCL) |
| 10 | A6 | I-Analog | Okokufaka kwe-analog 6 |
| 11 | A7 | I-Analog | Okokufaka kwe-analog 7 |
| 12 | I-VBUS | Amandla | Amandla e-USB (5V) |
| 13 | IBHODI1 | Imodi | Ukusetha Kabusha Ibhodi 1 |
| 14 | GND | Amandla | Ground |
| 15 | I-VIN | Amandla | Voltage Ukufaka |
12.2 Idijithali (JP2)
| Phina | Umsebenzi | Uhlobo | Incazelo |
| 1 | D12 / CIPO* | Idijithali | Isilawuli Ku-Peripheral Out |
| 2 | D11 / COPI* | Idijithali | Isilawuli Ngaphandle kwe-Peripheral In |
| 3 | D10 / CS* | Idijithali | I-Chip Khetha |
| 4 | D9 | Idijithali | Iphinikhodi yedijithali 9 |
| 5 | D8 | Idijithali | Iphinikhodi yedijithali 8 |
| 6 | D7 | Idijithali | Iphinikhodi yedijithali 7 |
| 7 | D6 | Idijithali | Iphinikhodi yedijithali 6 |
| 8 | D5 | Idijithali | Iphinikhodi yedijithali 5 |
| 9 | D4 | Idijithali | Iphinikhodi yedijithali 4 |
| 10 | D3 | Idijithali | Iphinikhodi yedijithali 3 |
| 11 | D2 | Idijithali | Iphinikhodi yedijithali 2 |
| 12 | GND | Amandla | Ground |
| 13 | I-RST | Ngaphakathi | Setha kabusha |
| 14 | I-D1/RX | Idijithali | I-Digital pin 1 / I-Serial Receiver (RX) |
| 15 | D0/TX | Idijithali | Iphinikhodi yedijithali 0 / I-Serial Transmitter (TX) |
*I-CIPO/COPI/CS ithatha indawo yamagama we-MISO/MOSI/SS.
Izimbobo Okufakwayo Nohlaka Lwebhodi
Ukusebenza kwebhodi
14.1 Ukuqalisa – IDE
Uma ufuna ukuhlela i-Nano ESP32 yakho ngenkathi ungaxhumekile udinga ukufaka i-Arduino IDE [1]. Ukuze uxhume i-Nano ESP32 kukhompyutha yakho, uzodinga intambo ye-USB yohlobo C®, enganikeza namandla ebhodini, njengoba kukhonjiswe i-LED (DL1).
14.2 Ukuqalisa – i-Arduino Web Mhleli
Wonke amabhodi e-Arduino, okuhlanganisa naleli, asebenza ngaphandle kwebhokisi ku-Arduino Web Umhleli [2], ngokufaka nje i-plugin elula.
I-Arduino Web Umhleli usingathwa ku-inthanethi, ngakho-ke uzohlala usesikhathini samanje ngezici zakamuva nokusekelwa kwawo wonke amabhodi. Landela i-[3] ukuze uqale ukubhala amakhodi esipheqululini futhi ulayishe imidwebo yakho ebhodini lakho.
14.3 Ukuqalisa – i-Arduino Cloud
Yonke imikhiqizo enikwe amandla ye-Arduino IoT isekelwa ku-Arduino Cloud ekuvumela ukuthi ungene, udwebe futhi uhlaziye idatha yezinzwa, ucuphe imicimbi, futhi wenze ikhaya noma ibhizinisi lakho ngokuzenzakalelayo.
14.4 Izinsiza eziku-inthanethi
Manje njengoba usudlule ezintweni eziyisisekelo zalokho ongakwenza ngebhodi ungakwazi ukuhlola amathuba angapheli eliwahlinzekayo ngokubheka amaphrojekthi ajabulisayo ku-Arduino Project Hub [4], i-Arduino Library Reference [5], kanye nesitolo se-inthanethi [6] ]; lapho uzokwazi ukugcwalisa ibhodi lakho ngezinzwa, ama-actuator nokuningi.
14.5 Ukubuyiselwa Kwebhodi
Wonke amabhodi e-Arduino ane-bootloader eyakhelwe ngaphakathi evumela ukukhanyisa ibhodi nge-USB. Uma kwenzeka umdwebo uvala iphrosesa futhi ibhodi lingasatholakali nge-USB, ungakwazi ukufaka imodi ye-bootloader ngokuthepha kabili inkinobho yokusetha kabusha ngemva nje kokukhanyisa.
Izitifiketi
I-Declaration of Conformity CE DoC (EU)
Simemezela ngaphansi kwesibopho sethu sodwa ukuthi imikhiqizo engenhla ihambisana nezidingo ezibalulekile ze-EU Directives futhi ngenxa yalokho ifanelekela ukuhamba mahhala ezimakethe ezihlanganisa i-European Union (EU) kanye ne-European Economic Area (EEA).
Isimemezelo Sokuvumelana ne-EU RoHS & REACH 211
01/19/2021
Amabhodi e-Arduino ahambisana ne-RoHS 2 Directive 2011/65/EU ye-European Parliament kanye ne-RoHS 3 Directive 2015/863/EU yoMkhandlu wangomhla zizi-4 kuJuni 2015 mayelana nokukhawulelwa kokusetshenziswa kwezinto ezithile eziyingozi ezintweni zikagesi neze-elekthronikhi.
| Into | Umkhawulo Omkhulu (ppm) |
| Ukuhola (Pb) | 1000 |
| I-Cadmium (Cd) | 100 |
| I-Mercury (Hg) | 1000 |
| I-Hexavalent Chromium (Cr6+) | 1000 |
| I-Poly Brominated Biphenyls (PBB) | 1000 |
| I-Poly Brominated Diphenyl ethers (PBDE) | 1000 |
| I-Bis(2-Ethylhexyl} phthalate (DEHP) | 1000 |
| I-Benzyl butyl phthalate (BBP) | 1000 |
| I-Dibutyl phthalate (DBP) | 1000 |
| IDiisobutyl phthalate (DIBP) | 1000 |
Ukukhululwa : Akukho ukukhululwa okufunwayo.
Amabhodi e-Arduino athobelana ngokugcwele nezidingo ezihlobene ze-European Union Regulation (EC) 1907/2006 eziphathelene nokubhaliswa, ukulinganisa, ukugunyazwa kanye nokukhawulelwa kwamakhemikhali (REACH). Simemezela ukuthi awekho ama-SVHC https://echa.europa.eu/web/guest/candidate-list-table), Uhlu Lwabakhandidethi Lwezinto Ezikhathazayo Eziphakeme Kakhulu ngokugunyazwa okwamanje olukhishwe yi-ECHA, lukhona kuyo yonke imikhiqizo (kanye nephakeji) ngamanani anengqikithi yokuhlushwa elingana noma engaphezu kuka-0.1%. Ngolwazi lwethu olungcono kakhulu, siphinde simemezele ukuthi imikhiqizo yethu ayinazo noma yiziphi izinto ezisohlwini “Lokugunyazwa” (Isijobelelo XIV semithetho ye-REACH) kanye Nezinto Ezikhathazayo Eziphakeme Kakhulu (SVHC) kunoma yimaphi amanani abalulekile njengoba kushiwo. yiSijobelelo XVII sohlu lwabazokhethwa olushicilelwe yi-ECHA (European Chemical Agency) 1907 /2006/EC.
Isimemezelo Sezimbiwa Ezingqubuzanayo
Njengomphakeli womhlaba wonke wezingxenye zikagesi nezikagesi, i-Arduino iyazazi izibopho zethu maqondana nemithetho nemithethonqubo ephathelene ne-Conflict Minerals, ikakhulukazi i-Dodd-Frank Wall Street Reform and Consumer Protection Act, Isigaba 1502. I-Arduino ayikhiphi ngokuqondile noma icubungule ukungqubuzana amaminerali afana ne-tin, i-Tantalum, i-Tungsten, noma igolide. Amaminerali angqubuzanayo aqukethwe emikhiqizweni yethu ngendlela ye-solder, noma njengengxenye yama-alloys ensimbi. Njengengxenye yokukhuthala kwethu okunengqondo i-Arduino ithinte abahlinzeki bengxenye ngaphakathi kochungechunge lwethu lokuhlinzeka ukuze baqinisekise ukuqhubeka kwabo nokuthobela imithetho. Ngokusekelwe olwazini esilutholile kuze kube manje simemezela ukuthi imikhiqizo yethu iqukethe Amaminerali Aphikisanayo atholakala ezindaweni ezingenazo izingxabano.
Isexwayiso se-FCC
Noma yiziphi Izinguquko noma ukuguqulwa okungagunyazwanga ngokucacile yinhlangano enesibopho sokuthobela imithetho kungasusa igunya lomsebenzisi lokusebenzisa okokusebenza.
Le divayisi ithobela ingxenye 15 yeMithetho ye-FCC. Ukusebenza kungaphansi kwemibandela emibili elandelayo:
- Le divayisi ingase ingabangeli ukuphazamiseka okuyingozi
- lolu cingo kufanele lwamukele noma yikuphi ukuphazamiseka okutholiwe, okuhlanganisa ukuphazamiseka okungase kubangele ukusebenza okungafuneki.
Isitatimende Sokuchayeka Kwe-FCC RF:
- Lesi Transmitter akufanele sibekwe endaweni eyodwa noma sisebenze ngokuhlangana nanoma iyiphi enye i-antenna noma isidluliseli.
- Lokhu okokusebenza kuthobelana nemikhawulo yokuchayeka emisebeni ye-RF ebekwe endaweni engalawuleki.
- Le mishini kufanele ifakwe futhi isebenze ngebanga elincane elingu-20 cm phakathi kwesiphungathi somzimba nomzimba wakho.
Qaphela: Lesi sisetshenziswa sihloliwe futhi satholwa ukuthi sithobela imikhawulo yedivayisi yedijithali Yekilasi B, ngokuvumelana nengxenye 15 Yemithetho ye-FCC. Le mikhawulo iklanyelwe ukuhlinzeka ngokuvikeleka okufanele ekuphazanyisweni okuyingozi ekufakweni kwendawo yokuhlala. Lesi sixhobo sikhiqiza, sisebenzise futhi singakhipha amandla efrikhwensi yomsakazo futhi, uma singafakiwe futhi sisetshenziswa ngokuhambisana nemiyalelo, singadala ukuphazamiseka okuyingozi ezokuxhumana ngomsakazo. Nokho, asikho isiqinisekiso sokuthi ukuphazamiseka ngeke kwenzeke ekufakweni okuthile. Uma lesi sisetshenziswa sidala ukuphazamiseka okuyingozi emsakazweni noma kumabonakude, okunganqunywa ngokucisha nokuvula okokusebenza, umsebenzisi uyakhuthazwa ukuthi azame ukulungisa ukuphazamiseka ngesinyathelo esisodwa noma ngaphezulu kwezilandelayo:
- Hlela kabusha noma hambisa uthi olwamukelayo.
- Khulisa ukuhlukana phakathi kwesisetshenziswa nomamukeli.
- Xhuma okokusebenza endaweni yokuphuma kuyisekethe ehlukile kuleyo lapho umamukeli axhumeke khona.
- Xhumana nomthengisi noma uchwepheshe werediyo/TV onesipiliyoni ukuze uthole usizo.
Amamanuwali omsebenzisi ezinsizakusebenza zomsakazo ezikhishwe kulayisense azoqukatha isaziso esilandelayo noma esifanayo endaweni esobala kumanuwali yomsebenzisi noma ngenye indlela kudivayisi noma kokubili. Le divayisi ithobelana nezinga le-RSS elikhishwe yi-Industrial Canada. Ukusebenza kungaphansi kwemibandela emibili elandelayo:
- le divayisi ingase ingabangeli ukuphazamiseka
- lolu cingo kufanele lwamukele noma yikuphi ukuphazamiseka, okuhlanganisa ukuphazamiseka okungase kubangele ukusebenza okungafunwa kocingo.
Isexwayiso se-IC SAR:
Lo mshini kufanele ufakwe futhi usebenze ngebanga elincane elingama-20 cm phakathi kwe-radiator nomzimba wakho.
Okubalulekile: Izinga lokushisa lokusebenza le-EUT alikwazi ukweqa u-85℃ futhi akufanele libe ngaphansi kuka -40 ℃.
Ngalokhu, i-Arduino Srl imemezela ukuthi lo mkhiqizo uthobela izimfuneko ezibalulekile nezinye izinhlinzeko ezifanele ze-Directive 201453/EU. Lo mkhiqizo uvunyelwe ukusetshenziswa kuwo wonke amazwe angamalungu e-EU.
Ulwazi Lwenkampani
| Igama Lenkampani | I-Arduino Srl |
| Ikheli Lenkampani | Via Andrea Appiani, 25 Monza, MB, 20900 Italy |
Imibhalo Eyisethenjwa
| Ref | Isixhumanisi |
| I-Arduino IDE (Ideskithophu) | https://www.arduino.cc/en/Main/Software |
| I-Arduino Web Umhleli (Amafu) | https://create.arduino.cc/editor |
| Web Umhleli - Ukuqalisa | https://docs.arduino.cc/cloud/web-editor/tutorials/getting-started/getting-started-web-editor |
| Ihabhu Yephrojekthi | https://create.arduino.cc/projecthub?by=part&part_id=11332&sort=trending |
| Ireferensi Yelabhulali | https://github.com/arduino-libraries/ |
| Isitolo Esiku-inthanethi | https://store.arduino.cc/ |
Shintsha Ilogi
| Usuku | Izinguquko |
| 08/06/2023 | Khulula |
| 09/01/2023 | Buyekeza ishadi lokugeleza lesihlahla samandla. |
| 09/11/2023 | Buyekeza isigaba se-SPI, buyekeza isigaba sephinikhodi ye-analog/digital. |
| 11/06/2023 | Igama lenkampani elilungile, i-VBUS/VUSB elungile |
| 11/09/2023 | Vimba Ukuvuselelwa Komdwebo, Ukucaciswa Kwe-Antenna |
| 11/15/2023 | Isibuyekezo sezinga lokushisa le-ambient |
| 11/23/2023 | Kwengezwe ilebula kumamodi e-LP |
Kubuyekezwe: 29/01/2024
Amadokhumenti / Izinsiza
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I-Arduino Nano ESP32 enezihloko [pdf] Imaniwali yosebenzisayo I-Nano ESP32 enamaheda, i-Nano, i-ESP32 enezihloko, enezihloko, Izihloko |