No examples yet, let’s see how it progress.
I’m trying to contact Aaron Lee from Heltec.
Ordered one from Aliexpress to test
No examples yet, let’s see how it progress.
HI Brothers I just saw heltec updated the instructions for connecting to TTN, it seems to support AT commands, which will make batch configuration easy.
Sleep power is lower than ESP32. This looks good.
tnx for the info.
I’m especially interested in the version with the attitude sensor
Haha, I received your email, thanks you for your hot heart to paste information here.
Here is the user manual of how to connect to TTN:
Overall, CubeCell’s technical advantages can be summarized into 4 points:
- Full Arduino-compatible, and work with Windows, Mac OS, Linux. Arduino is developed via C++, it’s very friendly for software developers to do some IoT applications, they just need call the API, don’t need mind the basic hardware;
- In the past, to make a LoRa Node application, we need a MCU + LoRa chip, at least two chip. Now, CubeCell use ASR6501/6502, it’s already integrated ARM M0+ core and SX1262, within one chip. The size and cost are more advantageous.
- Complete encryption system… For example, your products are developed by CubeCell series, but if your competitors copy the hardware and the firmware. And flash into the same hardware, it can’t run.
- Ultra low power design and Solar panel support.
We are gradually improving the information. If you are interested, please pay attention to the relative product page in our website: https://heltec.org/proudct_center/lora/cubecell/
Every relative resource will shown in the “Docs & Resource” table:
Hi Hunter8801 from Heltec , thanx for the information / clarification on your new product(s)
I was looking at some docs and especially the schematic
what’s not clear to me is this
- what do you mean by ’ Battery maximum input voltage 3.7 v’ ?
is that the voltage you’re max charging the lipo battery, or the max voltage coming from that battery ?
Uhh, I think that’s an expression error… Indeed, the battery input should be 3.3 ~ 4.2V.
But we are the easiest to find a 3.7V lithium battery. I will contact my colleague to fix this problem.
i got my CubeCell and the LORAWan-example (OTAA) worked fine.
Now i want to test the deepsleep (10 μA with LiPo)!
The goal ist to wake up the CPU with an external Signal on a GPIO and send one packet over LoRaWan (TTN) and then go into DeepSleep.
Is there any lowpower-library available like Arduino-lowpower:
Heltec Cube Cell Product is a great product using ASR65001/2 with SX1262.
I have now been using the product for a few weeks. I have found a number of issues and produced a guide for the community on how to use it and some of the pitfalls to ensure you can get an operational LoRaWAN node.
This is not a Vendor guide and I recommend that you use that as well.
This document is located in my GitHub https://github.com/Securethingsuk/Heltec_CubeCell and I have added some “Working” sketches for BME280.
I would also like to comment regarding sleep current. The best I have obtained is around 20 μA not the initial 3.5 μA which as Heltec have stated only occurs in some special conditions on battery in deep sleep mode.
The Board manager need to have a file updated, if you want to use the BMP/BME range of sensors and there are other issues such as: -Vext power line settle time, -TX output power, -Antennas, -AT Commands, -Key programming.
I will update as needed as time goes on and I am happy to receive other views and comments and if anyone gets LoRaWAN Solution with other sensors working that are not In Heltec GitHub, then happy to have them uploaded.
I hope this helps those that have CubeCell Products or considering buying one.
Arduino-lowpower library will not work with CubeCell series, because different MCU core has a different low power mechanism.
You can try our example:
Sleep 5000ms, wake up via GPIO:
Sleep 5000ms, wake up via RTC timer:
just got my hands on one of these.
I use AU915 and in libraries like LMIC I have always been able to set the sub band (i.e. channels 8-15) that TTN uses.
Anybody know how to do this on the Cube Cell
Look into the code,and set the channel mask. In LoRaWan_APP.cpp file:
thanks @hunter8801 for the response, trouble is I am not at all a programmer or even half decent at coding.
What would I need to change here to achieve this frequency plan?
I am often asked questions about the Capsule sensor’s screw nut… Hope this picture can make a direct sense to you.
When we design the capsule sensor, we hope users can do some basic test immediately, users can insert various sensors with a basic shell.
So, we don’t think there is anything easier than finding a cola bottle all over the world.
.stl file for 3D print (Thanks to Raystream for sharing): https://github.com/HelTecAutomation/ASR650x-Arduino/tree/master/3D_Print/HTCC-AC01
Choose AU_915 in Arduino menu firstly, and then change the channelsMaskTemp like this:
channelsMaskTemp = 0xFF00
@hunter8801 How does one program the “CubeCell – Module” without the board? Is it just a case of connecting a USB to serial to the TX and RX pins? Does it need to be in a special bootloader mode?
Thank you, great product.
That doesn’t seem to change the behaviour at all
No, that should work, let’s have a look the LoRaWAN protocol document:
Refer to my picture, the LoRaWAN protocol set the AU915 upstream channel frequency:
Total 64 channels, 915.2MHz begin, incrementing linearly by 200KHz, and 927.8MHz end.
Then look back to our code:
in the channelsMaskTemp, 0x00FF means use the first 0~7 channels, they are 915.2MHz, 915.4MHz, 915.6MHz … 916.6MHz. When you set the value to 0xFF00, it means the upload channels changed to 8~15, they are 916.8MHz, 917.0MHz … 918.2MHz.
Now, I think you need to confirm your gateway’s listening channels and listening frequency. Make sure they match the 8~15 channels.
We will update such a document within two days.