I needed to change a lot to the javascript on the website to fix some stuff.
Fix IPhone control. (I hate iphone)
Fix screenlock timeout
Added meta refresh
The XMAS/Fireworks controller was often used, and I got notifications via my TV. (see other posts)
Now I want to see when MQTT movement when I’m in the livingroom. So I programmed a Wemos controller to blink the internal when MQTT messages are received.
CODE:
#include <ESP8266WiFi.h>
#include <PubSubClient.h>
const char* ssid = "WIFIAP";
const char* password = "WIFIPASS";
const char* mqtt_server = "MQTTBROKER"; // MQTT broker IP
const char* mqtt_topic = "game/tilt";
WiFiClient espClient;
PubSubClient client(espClient);
String lastPayload = "";
void setup_wifi() {
delay(10);
WiFi.begin(ssid, password);
while (WiFi.status() != WL_CONNECTED) {
delay(500);
}
}
void blinkLED() {
digitalWrite(LED_BUILTIN, LOW); // LED ON
delay(200);
digitalWrite(LED_BUILTIN, HIGH); // LED OFF
delay(200);
}
void callback(char* topic, byte* payload, unsigned int length) {
String message;
for (unsigned int i = 0; i < length; i++) {
message += (char)payload[i];
}
// Blink only if topic value changed
if (message != lastPayload) {
blinkLED();
lastPayload = message;
}
}
void reconnect() {
while (!client.connected()) {
if (client.connect("WemosClientMqttBlink")) {
client.subscribe(mqtt_topic);
} else {
delay(2000);
}
}
}
void setup() {
pinMode(LED_BUILTIN, OUTPUT);
digitalWrite(LED_BUILTIN, HIGH);
setup_wifi();
client.setServer(mqtt_server, 1883);
client.setCallback(callback);
}
void loop() {
if (!client.connected()) {
reconnect();
}
client.loop();
}
I’ve been playing with LoRa for some time now, mostly with two adhoc LilyGO nodes. After seeing a YT clip from Andreas Spiess I installed a meshtastic node on a Heltec V3. Wanting more, I bought a Heltec V4 and an 8DBi (60cm) antenna. Heltec V3 got a new home in Tyrone’s home.
GPS for the Heltec V4 module!
Via meshtastic I communicated with a guy here in the neighbourhood. I installed Meshcore and my LoRa playground grew!
There is a Raspberry CM3 in there (Compute module) Some big antenna’s and a waterproof case. Using POE to power the thing, the plan is to have this installation at a high point around my house. (LED pole?!? 🙂 )
Meanwhile I got these : Seeed Xiao Lora ESP32 modules
MeshTUI
My mobile Heltec V4, big antenna coming and battery operated, so I can add to https://mapme.sh
I’ve been playing with all kinds of MicroControllers, but not this one.
Something new to learn.
The STM32 Nucleo-64 board provides a flexible way to try out the STM32 microcontroller. The Arduino Uno V3 can be connected as a shield.
STM32 excels in high-performance, deterministic industrial control with better real-time capability, lower power, and rich peripherals, using ARM Cortex-M cores, while ESP32 dominates IoT with built-in Wi-Fi/Bluetooth, lower cost, easier Arduino/PlatformIO access, and strong community, but with higher power and less precise real-time control (Xtensa cores), making ESP32 great for connected projects and STM32 for industrial/precision tasks.
STM32 (STMicroelectronics) Strengths:
Performance: Superior real-time processing, deterministic behavior, efficient for complex control.
Power: Advanced low-power modes, excellent for battery-powered devices.
Reliability: Strong for industrial, medical, and automotive applications.
Tools: STM32CubeIDE/MX, HAL/LL libraries.
Weaknesses:
Higher cost and learning curve.
Requires external modules for Wi-Fi/Bluetooth.
ESP32 (Espressif Systems) Strengths:
Connectivity: Integrated Wi-Fi and Bluetooth (BLE).
Cost & Ease: Cost-effective, easy entry with Arduino IDE/PlatformIO, great for rapid prototyping.
Community: Strong open-source community.
Features: Dual-core (often), built-in OTA updates, good for audio/AI.
Weaknesses:
Less deterministic/real-time performance than STM32.
Higher active power consumption, less precise analog.
Can have complex debugging/compilation.
When to Choose Which
Choose STM32 for: Industrial automation, precise instrumentation, medical devices, complex motor control, low-power wearables, general embedded systems learning.
Choose ESP32 for: IoT devices, smart home products, Bluetooth beacons, educational projects, rapid prototyping, audio/voice applications.
I saw some LED strip dividers on Aliexpress, next year it’s going to have a star on top.
Like this….
Another LED related project I started today is a Whack-A-Mole game with multiple levels. For this I need to convert a simple arcade button to a programmable multicolor version.
From single white LED to multi color, programmable.
Another game in the making is a Red Light – Green Light game. Like in Squid Game. This will use a lidar and a python script which detect movement using a camera.
It gave me the idea to make a pole which displays digital “fireworks” using leds. Fireworks are becoming illegal the next year in the Netherlands, I think.
So why not going digital? 12 Meter pole, 300 Leds.
There is a QR code and a website link mentioned on a page at the gate. 10 presets to select via a website.
Notification on my TV
While waiting for the first visitor I made a magnetic game. Using a bunch of magnets, and 3D printed hexagon rings. Two players try to place magnets in a small area without moving the others. If magnets slam together, you have more pieces to place. (Below, last player has to take those 6 pieces)
These are amazing, I’m using this in my Lab to switch on my big LED panel. You don’t need to move, it will detect human presence. Another one I’m using in my living room. It can power off all media at night (like TV, amplifier and lights) It’s part of my home alarm system when we are away.
Now I got a new MMWave sensor (hlk-ld2450) , it can detect up to 3 persons and their location.
Screenshot from a Bluetooth phone app reading the sensor.
"If something is worth doing, it's worth overdoing."
