M5Stamp C6LORA
Model: Stamp C6LoRA
Incwadi yokusebenzisa
Inkcazo
Stamp C6LoRa is a high-performance programmable LoRa module designed for the 830 ~ 930 MHz frequency range. The module features an ESP32-C6 SoC, an SX1262 LoRa RF transceiver, and an LNA signal amplifier chip. It comes with two onboard IPEX antenna connectors for external Wi-Fi and LoRa antennas, respectively.
At its core, the ESP32-C6 integrates a rich set of peripheral interfaces, enabling extended functionality through secondary development. It also supports 2.4GHz Wi-Fi 6, offering broader possibilities for IoT applications. Additionally, the module includes a PI4IOE5V6408 IO expander chip, which is used for LoRa transceiver circuit control and amplifier enable signal management, delivering enhanced power efficiency and providing additional usable IO resources.
A built-in DC-DC converter supports a DC input range of 3.7 to 5V and allows for lithium battery power, making it adaptable to various hardware deployment scenarios. The module is well-suited for long-range communication applications such as smart irrigation, remote metering, and power equipment control.
Iinkcukacha
| Inkcazo | Iiparamitha |
| I-SoC | ESP32-C6 |
| Flash | 16MB |
| Wi-Fi | 2.4GHz WiFi |
| LoRa Chip | SX1262 |
| LoRa Frequency | 830 ~ 930MHz |
| ProductSize | 18.0 × 15.0 × 2.3 mm |
Ukuqalisa ngokukhawuleza
3.1 Ukulungiselela
- Ndwendwela iArduino esemthethweni webindawo kwaye ufake i-Arduino IDE
https://www.arduino.cc/en/Main/Software - Yongeza uMlawuli weBhodi olandelayo URL ukuya File → Okukhethwayo → Umphathi webhodi ezongezelelweyo URLs:
https://espressif.github.io/arduino-esp32/package_esp32_dev_index.json
- Vula uMphathi weBhodi, khangela "ESP32", kwaye ucofe ukuhlohla.
- After installation, select the board “ESP32C6 Dev Module.”
- Configure the following options. USB CDC On Boot: “Enabled”
3.2 Wi-Fi Test
Khetha i-example nkqubo “Eksamples” → “WiFi” → “WiFiScan”, choose the port corresponding to your device, and click the compile and upload button in the top-left corner.
After uploading is complete, open the Serial Monitor to view Wi-Fi scan ulwazi.
3.3 BLE Scan
Khetha i-example nkqubo “Eksamples” → “BLE” → ”Scan”, choose the port corresponding to your device, and click the compile and upload button in the top-left corner.
After uploading is complete, open the Serial Monitor to view Ulwazi lwe-BLE scan.
3.4 LoRa TX
After burning the LoRa test firmware, check the LoRa transceiver information via the ESP32-C6 USB CDC serial port.
Isilumkiso seFCC
Isilumkiso seFCC:
Naluphi na uTshintsho okanye uhlengahlengiso olungavunywanga ngokucacileyo liqela elinoxanduva lokuthotyelwa lunokuphelisa igunya lomsebenzisi lokusebenzisa isixhobo.
Esi sixhobo sithobela inxalenye ye-15 yeMithetho yeFCC. Ukusebenza kuxhomekeke kwezi meko zimbini zilandelayo: (1) Esi sixhobo asinakubanga luphazamiseko luyingozi, kwaye (2) esi sixhobo kufuneka samkele naluphi na uphazamiseko olufunyenweyo, kubandakanywa uphazamiseko olunokubangela usetyenziso olungafunekiyo.
INQAKU ELIBALULEKILEYO:
Phawula: Esi sixhobo sivavanyiwe saza safunyanwa ukuba sithobela imida yesixhobo sedijithali soDidi B, ngokungqinelana nenxalenye ye-15 yeMithetho yeFCC. Le mida yenzelwe ukubonelela ngokhuseleko olufanelekileyo ekuphazamisekeni okuyingozi kwindawo yokuhlala. Esi sixhobo sivelisa, sisebenzisa, kwaye sinokusasaza amandla erediyo yerediyo kwaye, ukuba asifakanga kwaye sisetyenziswa ngokuhambelana nemiyalelo, sinokubangela uphazamiseko oluyingozi kunxibelelwano lwerediyo. Nangona kunjalo, akukho siqinisekiso sokuba ukuphazamiseka akuyi kwenzeka kufakelo oluthile. Ukuba esi sixhobo sibangela uphazamiseko oluyingozi kunomathotholo okanye ulwamkelo lukamabonakude, olunokumiselwa ngokucinywa nokulayita isixhobo, umsebenzisi uyakhuthazwa ukuba azame ukulungisa uphazamiseko ngenye okanye ngaphezulu kwezi ndlela zilandelayo:
- Jongisa kwakhona okanye uhambise i-eriyali efumanayo.
- Yandisa ukwahlukana phakathi kwesixhobo kunye nomamkeli.
- Qhagamshela izixhobo kwindawo yokuphuma kwisekethe eyahlukileyo kuleyo apho umamkeli aqhagamshelwe khona.
- Dibana nomthengisi okanye igcisa likanomathotholo/kumabonakude ukuze ufumane uncedo.
Ingxelo yokuchazwa kwemitha yeFCC: Esi sixhobo sihambelana nemida yokuvezwa kwemitha yeCCC ebekelwe imeko engalawulekiyo.
Inqaku elibalulekileyo:
Kwimeko apho le miqathango ayinakufezekiswa (umzekeloample, certain laptop configurations or co-location with another transmitter), then the FCC authorization is no longer considered valid, and the FCC ID cannot be used on the final product. In these circumstances, the OEM integrator will be responsible for re-evaluating the end product (including the transmitter) and obtaining a separate FCC authorization.
Phelisa ukuleyibhelishwa kweMveliso
The final end product must be labeled in a visible area with the following “Contains FCC ID: 2AN3WM5STAMPC6LORA”.
Ulwazi lweManuwali kuMsebenzisi wokugqibela
Umdibanisi we-OEM kufuneka aqonde ukuba angaboneleli kumsebenzisi wokugqibela malunga nendlela yokufaka okanye ukususa le modyuli yeRF kwincwadana yomsebenzisi yemveliso yokugqibela edibanisa le modyuli.
Incwadi yomsebenzisi wokugqibela iya kubandakanya zonke iinkcukacha ezifunekayo zolawulo/izilumkiso njengoko kubonisiwe kule ncwadana.
Imiyalelo yodibaniso kubavelisi bemveliso abamkeli ngokwe KDB 996369 D03 OEM Manual v01
2.2 Uluhlu lwemigaqo yeFCC esebenzayo
CFR 47 FCC ICANDELO 15 ICANDELO C liye laphandwa. Isebenza kwimodyuli yothumelo.
2.3 Iimeko ezikhethekileyo zokusetyenziswa
Le modyuli yimodyuli ezimeleyo. Ukuba imveliso yokugqibela iya kubandakanya iimeko ezininzi zokuhambisa ngaxeshanye okanye iimeko zokusebenza ezahlukeneyo zothumelo lwemodyuli emele yodwa kwinginginya, umenzi womkhosi kufuneka adibane nomenzi wemodyuli kwindlela yofakelo kwinkqubo yokugqibela.
2.4 Iinkqubo zemodyuli ezilinganiselweyo
Ayingeni
2.5 Landela uyilo lwe-eriyali
Ayingeni
2.6 Iingqwalaselo zokuba sesichengeni seRF
The device has been evaluated to meet the general RF exposure requirements. The device can be used in mobile or fixed exposure conditions with a minimum distance of 20 cm between the radiator & user’s body.
2.7 Iimpondo
This radio transmitter has been approved by the Federal Communications Commission to operate with the antenna types listed below, with the maximum permissible gain indicated. Antenna types not included in this list that have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device.
| I-antenna | Inombolo yemodeli ye-eriyali: | Uhlobo lwe-eriyali: | Inzuzo ye-eriyali (Ubukhulu.) | Uluhlu lokuphindaphinda: |
| WIFI/BLE | / | I-Antenna yangaphandle | 2.77dBi | 2400-2500MHz |
| lora | / | I-eriyali yePCB | -5.37 dBi | 840-940MHz |
2.8 Ilebhile kunye nolwazi lokuthotyelwa
The final end product must be labeled in a visible area with the following “Contains FCC ID: 2AN3WM5STAMPC6LORA”.
2.9 Ulwazi malunga neendlela zovavanyo kunye neemfuno zovavanyo ezongezelelweyo
The host manufacturer that installs this module with limited modular approval should perform the test of radiated emission and spurious emission according to FCC part 15C:15.247 and 15.209 requirement, only if the test result complies with FCC part 15.247 and 15.209 requirements, then the host can be sold legally.
Imiyalelo yokudityaniswa yabavelisi bemveliso yomkhosi ngokwe KDB 996369 D03 Incwadi ye-OEM v01
2.10 Uvavanyo olongezelelweyo, iCandelo 15 Icandelwana B lokuzihlangula
This transmitter module is tested as a subsystem, and its certification does not cover the FCC Part 15 Subpart B (unintentional radiator) rule requirement applicable to the final host. The final host will still need to be reassessed for compliance to this portion of the rule requirements if applicable.
2.11 Qaphela Iingqwalasela ze-EMI
We recommend using “best practice” RF design engineering, testing, and evaluation in case non-linear interactions generate additional non-compliant limits due to module placement to host components or properties. The host manufacturer is responsible for ensuring compliance with the applicable FCC rules for the transmitters operating individually and simultaneously. This includes compliance for the summation of all emissions from all outputs occupying the same or overlapping frequency ranges, as defined by the applicable rules.
2.12 Ulwenziwa njani utshintsho – Inqaku elibalulekileyo
Kwimeko apho le miqathango ayinakufezekiswa (umzekeloample, certain laptop configurations or co-location with another transmitter), then the FCC authorization is no longer considered valid, and the FCC ID cannot be used on the final product. In these circumstances, OEM integrator contacts Grantees to make permissive changes, or the OEM integrator will be responsible for reevaluating the end product (including the transmitter) and obtaining a separate FCC authorization.
Logama nje zonke iimeko ezingentla zifezekisiwe, ezinye iimvavanyo zothumelo aziyi kufunwa. Nangona kunjalo, umdibanisi we-OEM usenoxanduva lokuvavanya imveliso yabo yokugqibela kuzo naziphi na iimfuno zokuthobela ezongezelelweyo ezifunekayo kule modyuli efakiweyo.
Amaxwebhu / Izibonelelo
 | C6LoRA Module |
Iimbekiselo
- espressif.github.io/arduino-esp32/package_esp32_dev_index.jsonespressif.github.io
- arduino.cc/en/Main/Softwarewww.arduino.cc
- Incwadi yokusebenzisamanual.tools