Iompróir Nascóra Nano
Bileog sonraí
Lámhleabhar Úsáideora
SKU: ASX00061
Cur síos
The Nano Connector Carrier is a practical solution for expanding the capabilities of our Nano product family. It is plug-and-play compatible with Qwiic and Grove modules, making rapid prototyping easier than ever.
Whether diving into MicroPython or Matter, building with Modulinos, or developing AI-powered applications, this carrier provides a simple platform for bringing your ideas to life.
Díghlasálann an sliotán cárta microSD ar bord féidearthachtaí nua maidir le logáil sonraí, Edge AI agus riachtanais stórála fíor-ama.
Sprioc-Réimsí:
Uathoibriú Tionsclaíoch, Fréamhshamáirí Tapa, Cruthúnas Coincheapa, Imeall Intleachta Saorga, Taighde agus Forbairt
Feidhmchlár Examples
Uathoibriú Tionsclaíoch:
- Logáil Sonraí: Data Logger as a compact, all-in-one device for efficient data collection and storage, ideal for IoT and sensor-based applications. With Nano boards advanced features and a compact design, it simplifies sensor interfacing, data management, and storage, making it perfect for smart homes, industrial monitoring, and research projects.
- Cothabháil Thuarthach: Leverage the powerful features of the Nano Connector Carrier to develop a robust
predictive maintenance prototype for industrial machinery. Utilize Modulino to monitor key operational parameters and detect anomalies or early signs of wear, enabling proactive maintenance and reducing downtime. Enhance this system with the Nano 33 BLE Sense, which continuously gathers crucial environmental data, including temperature, humidity, and vibrations to assess the overall health of the machinery. - Cruthúnas ar Choincheap: Expand your Nano board’s capabilities with Nano Connector Carrier. The Nano Connector Carrier is ready for use with a wide range of external hardware components or modules, covering all your needs, from embedded sensing to actuation.
Fréamhshamhail: - Compact Device: Effortlessly integrate the Connector Carrier into your interactive prototype, regardless of whether the Nano board is based on. Its plug-and-play sensors and actuators make development seamless. Whether using modules from our Qwiic or Grove series, its compact design allows you to experiment in small spaces, making it a perfect platform for testing and validating your tech ideas.
- Baile Cliste: Easily prototype any smart device that can monitor and adjust temperature, humidity, or occupancy levels by combining Nano Connector Carrier, Modulinos and Nano Matter. Integrate with Matter-compatible smart home systems like Alexa or Google Home for frictionless voice control and automation.
- Rialaitheoir: Using the Nano Connector Carrier, you can easily prototype a versatile RC-MIDI – RF-BLE – HID -DMX controller for your projects. With plug-and-play support for sensors and actuators, you can create custom interfaces that respond to touch, motion or even pressure. The compact design allows for a fully portable setup using Modulinos or third-party sensors.
Oideachas:
- Micropython Learning: Easily dive into MicroPython with the Nano Connector Carrier, Modulinos and Nano ESP32 as your learning platform, Its plug-and-play support for sensors and actuators allows you to experiment with real-world applications right away, whether you’re reading sensor data, controlling LEDs, or building interactive projects.
- Cross-Disciplinary Student Projects: The Connector Carrier accelerates interdisciplinary collaboration by
enabling rapid prototyping in classroom and lab environments. Its compact, modular design allows students across various fields (including engineering, computer science and the arts) to quickly develop, test, and refine ideas using Arduino Nano boards. Students can seamlessly integrate sensors, actuators and communication modules with built-in connectivity and expansion options, fostering hands-on experimentation and innovation. - Sustainability and Green Tech: Energy Management project where students can design and test systems that monitor or reduce energy use in buildings or devices, promoting sustainability and teaching about renewable energy or energy efficiency, within integrated solar or wind power systems.
Gnéithe
2.1 Sonraíochtaí Ginearálta Tharview
Tá príomhghnéithe an Iompróra Nano-Nascóra mionsonraithe sa tábla thíos.
| Gné | Cur síos |
| Comhéadain | 2x Grove analog/digital connector 1x Cónascaire Grove I2C 1x Cónascaire Grove UART 1x cónascaire Qwiic I2C Léitheoir cárta microSD 1x |
| I/O Voltage | Switch between +3.3 V and +5 V |
| Toisí | 28 mm x 43 mm |
| Teochtaí Oibriúcháin | -40 °C go +85 °C |
2.2 Roghnú Boird
Ligeann an Iompróir Nascóra Nano duit boird Nano +5 V nó +3.3 V a roghnú chun comhoiriúnacht leis an teaghlach Nano ar fad a chinntiú. Chun seo a dhéanamh, bog lasc ar bord an iompróra go dtí a shuíomh faoi seach, ag leanúint an tábla thíos.
| 3V3 | 5V |
| Nano ESP32 | Arduino Nano |
| Nana 33 IoT | Nano Every |
| Nana 33 BLE | |
| Nano 33 BLE Rev2 | |
| Nana 33 BLE Sense | |
| Nano 33 BLE Sense Rev2 | |
| Nano RP2040 Connect | |
| Ábhar Nana |
Setting the switch to a specific position (3.3 V or 5V) also manages the voltage output on the Grove connector VCC pin.
Nóta: The logic and power voltagBíonn e an nascóir Qwiic agus an sliotán cárta microSD i gcónaí +3.3 V beag beann ar shuíomh an lasc roghnóra boird.
Nascóir I2C 2.3 Qwiic
Tá an nascóir Qwiic ceangailte leis an mbus I2C caighdeánach ar an mbord (trí bhioráin A4 agus A5). Cumhachtaítear é trí +3.3 V, ag leanúint chóras caighdeánach Qwiic, rud a fhágann go bhfuil an Nano Connector Carrier comhoiriúnach leis na nóid Arduino Modulino.
Its logic level is fixed to +3.3 V, which is translated to the host Nano board voltage defined by the board selector switch.
2.4 Nascóirí Grove
Tá 4 chónaisc Grove ag an Nano Connector Carrier a nochtann príomh-chomhéadain chumarsáide an bhoird óstach.
Nóta: The Grove connectors VCC voltagTá e á rialú ag an lasc roghnóra boird.
2.5 Cárta Micrimhilseogra SD
Díghlasálann an sliotán cárta microSD ar bord féidearthachtaí nua maidir le logáil sonraí, Edge AI agus riachtanais stórála fíor-ama.
Nóta: The microSD card SPI Slave Select (SS) pin can be changed using the solder jumpers on the carrier. See pinout section for more details.
2.6 Comhéadain Chumarsáide
Nochtann Iompróir an Nano-Nascóra gach ceann de na naisc agus na comhéadain chumarsáide den bhord óstach Nano trí na bioráin ceanntásca agus na nascóirí.
| Comhéadain | Cónascaire |
| UART (x1) | – Nano header connector – Grove connector |
| SPI (x1) | – Nano header connector - Sliotán cárta micrea SD |
| I2C (x1) | – Nano header connector – Nascóir Qwiic – Grove connector |
| Analógach/Digiteach | – Nano header connector – 2x nascóirí Grove |
2.7 Táirgí Gaolmhara
- Arduino Nano (A000005)
- Nano 33 BLE (ABX00030)
- Nano 33 BLE Rev2 (ABX00071 / ABX00072)
- Nano 33 BLE Sense (ABX00031)
- Nano 33 BLE Sense Rev2 (ABX00069)
- Nano 33 IoT (ABX00027)
- Nano ESP32 (ABX00083 / ABX00092 / ABX00083_CN / ABX00092_CN)
- Nano Every (ABX00028)
- Nano Matter (ABX00112 / ABX00137)
- Nano RP2040 Connect (ABX00053)
- Arduino Modulino nodes
Cumhacht agus Rátálacha
3.1 Coinníollacha Oibriúcháin Molta
| Siombail | Cur síos | Min | Clóscríobh | uas | Aonad |
| 3V3 | Ionchur voltage from 3.3 V boards | – | 3.3 | – | V |
| 5V | Ionchur voltage from 5 V boards | – | 5.0 | – | V |
| BARR | Teocht Oibriúcháin | -40 | 25 | 85 | °C |
Nóta: The Nano Connector Carrier is powered by the host board’s nominal voltage.
3.2 Crann Cumhachta
Léiríonn an léaráid seo a leanas ailtireacht chumhachta phríomhchórais an Nano Connector Carrier.
Feidhmiúil Tharview
Leathnaíonn an Iompróir Nascóra Nano nascacht theaghlach na mbord Nano, ina bhfuil réimse nascóirí Grove agus Qwiic. Cuimsíonn sé comhéadan cárta Micrea SD freisin le haghaidh logáil sonraí.
4.1 Pionna
The Nano Connector Carrier pinout is shown in the following figure.
4.1.1 Analógach (JP1)
| Bioráin | Feidhm | Cineál | Cur síos |
| 1 | D13 / SCK | Digiteach | Clog Srathach |
| 2 | +3.3 V | Cumhacht Amach | +3.3 V Power Rail |
| 3 | B0 / AREF | Analógach | Analog Reference |
| 4 | A0 | Analógach | Ionchur analógach 0 |
| 5 | A1 | Analógach | Ionchur analógach 1 |
| 6 | A2 | Analógach | Ionchur analógach 2 |
| 7 | A3 | Analógach | Ionchur analógach 3 |
| 8 | A4 | Analógach | Ionchur analógach 4 / I²C Sonraí Srathach (SDA) |
| 9 | A5 | Analógach | Ionchur analógach 5 / I²C Clog Srathach (SCL) |
| 10 | A6 | Analógach | Ionchur analógach 6 |
| 11 | A7 | Analógach | Ionchur analógach 7 |
| 12 | +5V | Cumhacht | USB power (5 V) |
| 13 | BOAT1 | Mód | Athshocraigh Bord 1 |
| 14 | GND | Cumhacht | Talamh |
| 15 | VIN | Cumhacht | Imltage Ionchur |
4.1.2 Digiteach (JP2)
| Bioráin | Feidhm | Cineál | Cur síos |
| 15 | D12 / MISO | Digiteach | Máistir i Sclábhaí Amach |
| 14 | D11 / MOSI | Digiteach | Sclábhaí Máistir Amach Isteach |
| 13 | D10 / SS | Digiteach | Sclábhaí Roghnaigh |
| 12 | D9 | Digiteach | Biorán digiteach 9 |
| 11 | D8 | Digiteach | Biorán digiteach 8 |
| 10 | D7 | Digiteach | Biorán digiteach 7 |
| 9 | D6 | Digiteach | Biorán digiteach 6 |
| 8 | D5 | Digiteach | Biorán digiteach 5 |
| 7 | D4 / SD_SS | Digiteach | Digital pin 4 / Default SD card SS |
| 6 | D3 / *SD_SS | Digiteach | Digital pin 3 / Optional SD card SS |
| 5 | D2 / *SD_SS | Digiteach | Digital pin 2 / Optional SD card SS |
| 4 | GND | Cumhacht | Talamh |
| 3 | RST | Inmheánach | Athshocraigh |
| 2 | D0 / RX | Digiteach | Bioráin dhigiteach 0 / Glacadóir Srathach (RX) |
| 1 | D1 / TX | Digiteach | Bioráin dhigiteach 1 / Tarchuradóir Srathach (TX) |
*Is bioráin roghnacha iad SD_SS do Roghnú Sclábhaí SPI (SS) le haghaidh cumarsáide le cárta Micrea SD. Féach ar an biorán le haghaidh tuilleadh sonraí.
4.2 Léaráid Bhloc
An os cionnview of the Nano Connector Carrier high-level architecture is illustrated in the figure below.
Topology an Bhoird
5.1 Tríd is tríd View
| Tagairt | Cur síos |
| U1, U2, U3, U5 | Push pull translators (SN74LVC1G125DCKR) |
| U4 | Open drain translator (TCA9406DCUR) |
| S2, S3 | Nano board headers |
| S1 | Board selector switch |
| J5 | Grove analog connector |
| J7 | Grove analog connector |
| J4 | Grove UART connector |
| J8 | Qwiic I2C connector |
| J9 | microSD card connector |
Oibriú Gléas
6.1 Tús a chur leis – IDE
If you want to program your Nano board to use the Nano Connector Carrier while offline you need to install the Arduino® Desktop IDE [1]. To connect the Nano board to your computer, you will need a USB cable, which can also provide power to the board.
6.2 Acmhainní Ar Líne
Anois go bhfuil bunghnéithe an iompróra foghlamtha agat, is féidir leat a fhéidearthachtaí gan teorainn a iniúchadh trí thionscadail spreagúla a sheiceáil ar Arduino Project Hub [4], ar an Arduino Library Reference [5], agus ar an siopa ar líne [6]. Anseo, is féidir leat do bhord a chomhlánú le braiteoirí, gníomhaitheoirí agus tuilleadh.
Eolas Meicniúla
Is bord déthaobhach 28 mm x 43 mm é an tIompróir Nascóra Nano le ceanntásca Nano dé-sraithe baineann timpeall na n-imeall fada uachtarach, 4 nascóir cothrománacha Grove, ceann ar gach cúinne den taobh bun, sliotán cárta Micrea SD agus nascóir Qwiic ar na himill bun.
7.1 Toisí an Bhoird
The outline and dimensions of the Nano Connector Carrier and mounting holes can be seen in the following figure; all the dimensions are in mm.
The Nano Connector Carrier has two 3.2 mm drilled mounting holes for mechanical fixing.
7.2 Nascóirí Boird
The Nano Connector Carrier’s connectors are placed on the top side of the board, as shown in the figure below; all the dimensions are in mm.
Deimhnithe
8.1 Certificactions Summary
| Certifiiarratas | Stádas |
| CE (An tAontas Eorpach) | Tá |
| RoHS | Tá |
| REACH | Tá |
| WEEE | Tá |
| CCFG (SAM) | Tá |
| IC (Ceanada) | Tá |
| RACA (An Ríocht Aontaithe) | Tá |
8.2 Dearbhú Comhréireachta CE DoC (AE)
Dearbhaímid faoinár bhfreagracht amháin go bhfuil na táirgí thuas i gcomhréir le bunriachtanais na dTreoracha AE seo a leanas agus dá bhrí sin cháilíonn siad do shaorghluaiseacht laistigh de mhargaí a chuimsíonn an tAontas Eorpach (AE) agus an Limistéar Eorpach Eacnamaíoch (LEE).
8.3 Dearbhú Comhréireachta le RoHS an AE & REACH 211 01/19/2021
Comhlíonann boird Arduino Treoir RoHS 2 2011/65/AE ó Pharlaimint na hEorpa agus RoHS 3 Treoir 2015/863/AE ón gComhairle an 4 Meitheamh 2015 maidir le srian a chur le húsáid substaintí guaiseacha áirithe i dtrealamh leictreach agus leictreonach.
| Substaint | Uasmhéid Teorainn (ppm) |
| Luaidhe (Pb) | 1000 |
| Caidmiam (Cd) | 100 |
| Mearcair (Hg) | 1000 |
| Cróimiam Heicfhiúsacha (Cr6+) | 1000 |
| Défheinilí Polaibróimínithe (PBB) | 1000 |
| Éitear défheinile Ilbróimínithe (PBDE) | 1000 |
| Phthalate Bis(2-Ethylhexyl) (DEHP) | 1000 |
| Phthalate búitile beinsile (BBP) | 1000 |
| Phthalate Dibutyl (DBP) | 1000 |
| Phthalate diisobutyl (DIBP) | 1000 |
Díolúintí : Níl aon díolúintí á éileamh.
Cloíonn Boird Arduino go hiomlán le ceanglais ghaolmhara Rialachán an Aontais Eorpaigh (CE) 1907/2006 maidir le Clárú, Meastóireacht, Údarú agus Srianadh Ceimiceán (REACH). Ní dhearbhaímid aon cheann de na SVHCanna (https://echa.europa.eu/web/guest/candidate-list-table), tá Liosta na nIarrthóirí de Shubstaintí arb Imní An-Ard iad le haghaidh údarú arna scaoileadh faoi láthair ag ECHA, i láthair i ngach táirge (agus pacáiste freisin) i gcainníochtaí arb ionann iad agus tiúchan iomlán cothrom le nó os cionn 0.1 %. Chomh fada agus is eol dúinn, dearbhaímid freisin nach bhfuil aon cheann de na substaintí atá liostaithe ar an “Liosta Údaraithe” (Iarscríbhinn XIV de na rialacháin REACH) agus Substaintí ar Imní an-Ard-Ard (SVHC) inár dtáirgí in aon mhéideanna suntasacha mar a shonraítear. le hIarscríbhinn XVII den Liosta Iarrthóirí arna fhoilsiú ag ECHA (An Ghníomhaireacht Eorpach Ceimiceán) 1907/2006/CE.
8.4 Dearbhú Coimhlinte Mianraí
Mar sholáthraí domhanda comhpháirteanna leictreonacha agus leictreacha, tá Arduino feasach ar ár n-oibleagáidí maidir le dlíthe agus rialacháin maidir le Mianraí Coinbhleachta, go háirithe an tAcht um Athchóiriú agus Cosaint Tomhaltóirí Dodd-Frank Wall Street, Alt 1502. mianraí cosúil le Stán, Tantalam, Tungstan, nó Óir. Tá mianraí coinbhleachta inár dtáirgí i bhfoirm sádrála, nó mar chomhpháirt i gcóimhiotail miotail. Mar chuid dár ndíograis chuí réasúnta tá Arduino tar éis dul i dteagmháil le soláthraithe comhpháirteanna laistigh dár slabhra soláthair chun a fhíorú go bhfuil siad ag comhlíonadh na rialachán go leanúnach. Bunaithe ar an bhfaisnéis a fuarthas go dtí seo dearbhaímid go bhfuil Mianraí Coinbhleachta a thagann ó limistéir saor ó choinbhleacht inár gcuid táirgí.
8.5 Rabhadh FCC
D'fhéadfadh aon Athruithe nó modhnuithe nach bhfuil ceadaithe go sainráite ag an bpáirtí atá freagrach as comhlíonadh údarás an úsáideora chun an trealamh a oibriú a chur ar neamhní.
Comhlíonann an gléas seo cuid 15 de Rialacha CCFG. Tá an oibríocht faoi réir an dá choinníoll seo a leanas:
- Ní fhéadfaidh an gléas seo a bheith ina chúis le cur isteach díobhálach
- ní mór don fheiste seo glacadh le haon chur isteach a fhaightear, lena n-áirítear cur isteach a d'fhéadfadh a bheith ina chúis le hoibríocht neamh-inmhianaithe.
Ráiteas um Nochtadh Radaíochta FCC RF:
- Ní ceadmhach an Tarchuradóir seo a chomhlonnú nó a oibriú i gcomhar le haon aeróg nó tarchuradóir eile.
- Comhlíonann an trealamh seo na teorainneacha nochta radaíochta RF atá leagtha amach do thimpeallacht neamhrialaithe.
- Ba chóir an trealamh seo a shuiteáil agus a oibriú le fad íosta 20 cm idir an radaitheora agus do chorp.
User manuals for licence-exempt radio apparatus shall contain the following or equivalent notice in a conspicuous location in the user manual or alternatively on the device or both. This device complies with Industry Canada licence exempt RSS standard(s). Operation is subject to the following two conditions:
(1) ní fhéadfaidh an fheiste seo a bheith ina chúis le cur isteach (2) ní mór don fheiste seo glacadh le haon chur isteach, lena n-áirítear cur isteach a d'fhéadfadh a bheith ina chúis le hoibriú neamh-inmhianaithe na feiste.
Rabhadh IC SAR:
Béarla Ba chóir an trealamh seo a shuiteáil agus a oibriú ar a laghad 20 cm idir an radaitheoir agus do chorp.
Tábhachtach: Ní féidir le teocht oibriúcháin an EUT a bheith níos airde ná 85 ℃ agus níor chóir go mbeadh sé níos ísle ná -40 ℃.
Leis seo, dearbhaíonn Arduino Srl go bhfuil ceanglais fhíor-riachtanacha agus forálacha ábhartha eile Threoir 201453/AE á gcomhlíonadh ag an táirge seo. Ceadaítear an táirge seo a úsáid i ngach ballstát den AE.
Eolas Cuideachta
| Cuideachta Ieolas | Sonraí |
| Ainm na Cuideachta | Arduino Srl |
| Seoladh Cuideachta | Trí Andrea Appiani, 25 - 20900 MONZA (An Iodáil) |
Doiciméadúchán Tagartha
| Tagairt | Nasc |
| Arduino IDE (Deisce) | https://www.arduino.cc/en/Main/Software |
| Arduino IDE (Cloud) | https://app.arduino.cc/sketches |
| Arduino Cloud - Tús a chur leis | https://docs.arduino.cc/arduino-cloud/guides/overview/ |
| Mol an Tionscadail | https://projecthub.arduino.cc/ |
| Tagairt Teanga | https://docs.arduino.cc/language-reference/ |
| Siopa Ar Líne | https://store.arduino.cc/ |
Athraigh Loga
| Dáta | Athbhreithniú | Athruithe |
| 22/05/2025 | 2 | Ceartúcháin theicniúla, iml.tage notation standardization, nomenclature fixes and change log correction |
| 21/05/2025 | 1 | An Chéad Eisiúint |
Bileog Sonraí Iompróra Nano-Nascóir
Athraithe: 26/05/2025
Doiciméid / Acmhainní
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Iompróir Nascóra Nano ARDUINO ASX00061 [pdfLámhleabhar Treoracha ASX00061, ASX00061 Iompróir Nascóra Nano, Iompróir Nascóra Nano, Nascóir Nano, Iompróir Nascóra, Iompróir |