I ordered micro JST off Ebay and they work fine. Downside is that they come in pairs, so I now have a number of micro JST male in-line connectors…
Which exact model is ‘Micro JST’?
I am unable to locate it on the JST site: JST Product Selection Guide
None of their 1.25mm connectors looks like the one on the Heltec board.
I think that the Heltect board uses a Molex PicoBlade Header:
1.25mm Pitch PicoBlade Header, Surface Mount, Right Angle, 2 Circuits
I ordered ebay item 232485892646 - it is just described as micro JST 1.25mm. They fit fine - pic below shows one alongside my test rig that is now being powered by a LiPo.
Good to hear that these ‘JST 1.25mm’ connectors do fit.
Molex 1.25mm PicoBlade
I have added a link for ‘JST 1.25mm’ cable assemblies in the Bargain Basement: The BARGAIN basement part 3
I was very interested to see the video about using both of the main cores of the ESP32 (https://youtu.be/k_D_Qu0cgu8), but even more excited to see in the comments an example sketch using the ULP - https://gist.github.com/tomtor/99e2a33bfa404ff99454aa94fc0df804 - to try this you will need to have installed the current ESP32 hardware support for your Arduino IDE - https://github.com/espressif/arduino-esp32
Has anyone managed to get the power usage of these modules below 10ma? Even in deep sleep and with wifi/BT off I can’t manage it with a battery. Are they maybe using a low efficiency regulator that keeps on switching?
Received mine finally.
The antenna is quite different looking from what was in the aliexpress pictures.
They also provided a miniature heatsink - probably for the ESP32 chip ?
Now I must find some time to play with this…
I was wondering about that too, until I read about “fever” in the document you provided earlier
ESP32 is a highly integrated chip QFN package, due to high frequency, small size and not easy to heat, so when used in the higher fever is normal, Our company has done a complete stability assessment of the circuit t,Pls no worry about it ,and if you very care about the head you can add heat sink by yourself.
Found a new place discussing those boards at https://hackaday.io/project/27791-esp32-lora-oled-module
It mention someone designed a nice 3d printable case : https://www.thingiverse.com/thing:2581459
I finally found the official board page on Heltec site. Maybe they improved the site navigability or I was just not awake enough last time I tried.
No new information as far I see, but it’s probably worth bookmarking in case they update the docs, etc.
@F_Dam posted this link elsewhere: https://www.aliexpress.com/item/-/32840258107.html
Black PCB, blue charging LED, battery cable included, better English description and above all (if one gets delivered what is advertised):
- different kind of WiFI antenna
- different (positioned) battery connector
- some component engraved “SL” is now underneath the battery connector, but seems to be above it (and marked S4) on my HelTec boards (moved to make room for the different antenna?)
- two mounting holes
“WeMos” / Lily GO (not WEMOS.cc group)
Clone of Heltec Automation’s WIFI LoRa 32 board
ttgo oled "lora" gets a lot of new search results, like:
- Not quite useful, yet: https://github.com/LilyGO
The module can also be found without an OLED display, for just US$ 9.00 (but a different WiFi antenna, if one gets what’s shown):
Also, I ran into https://www.alictronix.com/archives/817 with easy instructions to get the Arduino IDE running for the (HelTec) board. (I’ve not tested that; for me the instructions on HelTec’s GitHub work fine too, but need some Git commands.)
I’ve order one, since neither I have a ESP32 yet, and the price for this around 10€ with lora is quite good. Even cheaper than the diymall atmega32u4 lora based boards. But probably only in January I’ll receive it
And in fact what also caught my attention was the antenna ( I know that those existed since I’ve receive samples of them, but never used) so let’s see how they behave, and the same shop sells the case. But the case might not be very useful since it has no space for anything else, like sensors or whatever.
Edit: The sl marked component looks like a diode? Probably to protect reverse polarity, since the battery cable is provided.
Hi @arjanvanb … i’m having the same problem … does anyone successfully used Lora.onReceive to call a function for when a packet is received? Thanks
The antenna might be better but it is positioned very poorly. It is surrounded by metal pins and positioned on the module’s bottom side so the PCB will shield the RF signals on the top side and a breadboard or base PCB where the module will be mounted on will shield RF signals on the bottom side (almost like a Faraday cage).
Antenna is like the one used on this board: https://twitter.com/EspressifSystem/status/897060890553442305
Will you keep us updated if you manage to find it, please?
Sure but I’m not searching very actively (just ordered a RAK831).
I already have one
And I am hesitating: to buy another or to wait for RAK832.
But still I would like to have a decent 1-channel gateway to compare signal strengths etc - to keep tabs on multichannel gateway, basicaly
Not sure if this was the question - but, the antenna looks like the ones from Swedish company ProAnt - http://www.proant.se/en/home.htm
I have been told by the UK distributor that these bent metal antennae don’t require a ground plane and can mounted over components
Note that ProAnt are behind the tuned cavity antenna on the Raspberry Pi Zero W
They can be mounted over simple components like capacitors etc and tolerate less grounding than eg ceramic patch antennas but here they are are on the bottom side of the PCB, surrounded by metal power/signal pins and even placed over a mounting screw, AFAIK that is definitely out of spec.
Last week I received 2pcs Heltec Lora node.
I’ve already implemented RTOS system. Core0 dedicated for webserver, Core1 dedicated for common tasks
It’s working smoothly! In this week I will publish it on Github and here!
Currently I’m working on Lora mesh network. There will be a gateway node, which will forward the messages to the private Cloud (UDP server+ MySQL). Each client node can send message to the Database trough GW node. Each client node will also a forwarder/amplifier, so if a client node cannot reach the GW node, the other nodes will forward the message. The packets are encrypted by RC4. I have to implement a packet tracking method, if a packet damage or lost, the client node will resend the message. It will be a huge project, I hope I will have enough time!