Work in progress. Questions? Contact [email protected]
- Audio Logger with Large Battery
- LiPo/Li-Ion Charging Station
- LiPo/Li-Ion Charger with Display
- LoRaWAN Gateway with 3G Uplink
- LoRaWAN Env Sensor Node
- LoRaWAN Env Sensor Node with Solar Power
- LoRaWAN Pax Sensor Node with Solar Power
- OpenMV Photo Logging Camera
- Raspberry Pi Streaming Camera with PoE
- Raspberry Pi Zero Streaming Camera with PoE
- Raspberry Pi ArduCam Streaming Camera with PoE
- Wi-Fi and PoE Access Point with 4G Uplink
- PoE Access Point Port Upgrade
- Color LED Pixel
- Direction Indicator
- Bluetooth Speaker
- Unfinished PoC
- License
This LoRaWAN environment sensor node can send small amounts (< 52 bytes) of data with a low frequency (1 per 15+ min) over long distances (1+ km).
- Feather M4 Express
- FeatherWing RFM95W
- Grove Adapter
- DHT11 or Soil Moisture or other Grove Sensors
- 3.7V, 2000 mAh LiPo Battery (JST 2, check polarity, e.g. these)
- AP9 Junction Box
- AP9 Template and Remixes by @tamberg, CC BY-SA
- AP9 PVCTubeFixture
- PVC Tube
Same as LoRaWAN Env Sensor Node, with additional solar power.
- 6V, 1W Solar Panel
- USB, Solar, LiPo Charger
- JST 2-pin Jumper Cable
- 3.5/1.1mm to 5.5/2.1mm Jack Adapter
- 4700uF, 10v Electrolytic Capacitor (optional)
- 10K Precision Epoxy Thermistor(optional)
Based on LoRaWAN Env Sensor Node with Solar Power, with more solar power.
- Feather HUZZAH32 ESP32
- FeatherWing RFM95W
- Stacking Headers
- RFM95W Adapter
- Antenna Connector
- Mini Antenna
- Grove Adapter
- 3000mAh Li-ion Battery
- 6V, 2W Solar Panel (or this w/ this)
- USB, Solar, LiPo Charger
- JST 2-pin Jumper Cable
- 3.5/1.1mm to 5.5/2.1mm Jack Adapter
- 4700uF, 10v Electrolytic Capacitor (optional)
- 10K Precision Epoxy Thermistor(optional)
- AP9 Junction Box
- Laser-cut AP9 Adapter
- Laser-cut AP9 Solar Fixture
This LoRaWAN gateway provides Internet-connectivity to LoRaWAN sensor nodes over a long range (1+ km).
- Geneko GWR352-EM770W 3G Router
- IMST iC880a SPI LoRaWAN Concentrator
- Raspberry Pi 3 B+
- Antenna
- Pigtail
- Power Supply
- Jumper Wires F-F
- RJ45 Cable
- SIM Card
- AP10 Junction Box
- AP10 Adapter by @tamberg, CC BY-SA
- TTN Console
- http://192.168.1.1/
- SIM Provider Backend
This audio logging microphone can record and store a broad range of frequencies, triggered by time of day or loudness.
- https://www.openacousticdevices.info/mobileapplications
- https://github.com/mitwelten/mitwelten-audio-uploader
- https://www.openacousticdevices.info/audiomoth
- Micro SD Card (ExFAT)
- 3.7V, 4400 mAh LiIon Battery
- JST 2-Pin Header Cable M
- USB Li-Ion charger (optional)
- AP9 Junction Box
- Laser-cut AP9 Adapter
- Membrane
This charging station allows to safely charge LiPo or Li-Ion batteries.
- https://www.adafruit.com/product/4062
- https://www.adafruit.com/product/4309
- https://www.seeedstudio.com/Grove-OLED-Display-0-66-SSD1306-v1-0-p-5096.html
This photo logging camera allows to continuously take snapshots in an outdoor setting.
- OpenMVH7_PhotoLogging.py
- OpenMVH7Plus_PhotoLogging.py (Deep Sleep, 51mA avg.)
- OpenMV Cam H7
- 3.7V, 6600 mAh LiIon Battery (JST 2, check polarity)
- Micro SD Card (ExFAT, Master Boot Record)
- AP9 Junction Box
- 3D printed AP9 Adapter
- 3D printed AP9 Hinge Fixture (optional)
- 3D printed PVCTubeFixture (optional)
- 1 M4 x 40mm screw w/ locking nut
- Set RTC time t0 in the source code
- Save code to SD card as main.py
- Connect LiPo battery at t0
A Raspberry Pi-based streaming camera with power over Ethernet.
- Raspberry Pi 3 B+
- Raspberry Camera or USB Camera
- Raspberry Pi PoE Hat (802.3af)
- AP10 Junction Box
- AP10 Adapter
- AP10 Hinge Fixture
- Pot Fixture
- Alu Tube
- Gore Vent
- M4 * 25mm Screw
- M4 Locking Nut
Derived from Raspberry Pi Streaming Camera with PoE, based on a Pi Zero W with Wi-Fi.
- AP10 Junction Box
- AP10 Adapter
- AP10 Hinge Fixture v2
- Pot Fixture
- Alu Tube
- Gore Vent
- 3 * 10mm Spacers
- 3 * M2.5 * 16mm Screws
- 4 * M2 * 3mm Screws
- M4 * 40mm Screw
- M4 Locking Nut
- PoEPiCam Setup (Pi Cam) or
- PoePiZeroArducam (ArduCam 16MP)
Derived from Raspberry Pi Streaming Camera with PoE and Raspberry Pi Zero Streaming Camera with PoE.
- Raspberry Pi 3 B+
- Raspberry Pi Cam 3 or this ArduCam
- Raspberry Pi PoE Hat (802.3af)
- AP10 Junction Box
- AP10 Adapter
- AP10 Hinge Fixture v2
- RJ45 Wire Gland Tube (TPU)
- RJ45 Wire Gland Plug
- Pot Fixture
- Alu Tube
- Gore Vent
- 4 * M2.5 * 16mm Screws
- 2 * M2 * 3mm Screws
- M4 * 40mm Screw
- M4 Locking Nut
- TODO
This Wi-Fi and PoE Access Point with 4G uplink provides Internet-connectivity to Wi-Fi and PoE devices.
- TP-Link TL-MR6400 4G Router (< 50 Mbit/s Upload)
- TP-Link TL-SG105PE PoE Switch (4 * 802.3af)
- Raspberry Pi 4B, 2GB RAM
- Poly Case with Fan
- SD Card, 128 GB
- Disk, 2TB
- USB C Power Supply
- Outlet Power Adapter
- 2 * 0.5m RJ45 Cable
- 4 * 10m RJ45 Cable (or 15m)
- 25m PUR-PUR Power Cord (or 50m or 100m)
- T13 Power Coupling
- T12 Power Plug
- SIM Card
- 30L, 53cm, 32cm Barrel
- 8mm, 600mm, 600mm Plywood (or 2 * 4mm)
- 3D-printed Barrel Plug
- Laser-cut Barrel Fixture
- Gore Membrane
- Gore Nut
- Camouflage (optional, or this)
- Sun Protection (optional)
- 4 * 30 mm Wood Screws
- APGateway Setup (deprecated, use this)
- TPLink MR6400 Setup
Adds 4 extra PoE ports to an existing Wi-Fi and PoE Access Point.
- TP-Link TL-SG105PE PoE Switch (4 * 802.3af)
- Outlet Power Adapter
- 0.5m RJ45 Cable
- 4 * 10m RJ45 Cable (or 15m)
- 3D-printed Barrel Plug Port Upgrade
- 3D-printed AccessPoint Switch Fixture
- Laser-cut Barrel Fixture Port Upgrade
- Arduino IDE > Examples > Servo > swipe (e.g. on M4 pin 9)
- Feather M4 Express or any other Feather board with PWM
- Feather Grove Adapter (optional)
- 3.7V Li-Ion Battery
- AP3602A (or TPS61023) 5V charge pump
- 74AHCT125 3V to 5V level shifter
- Jumper wires M-M
- Mini Breadboard
- Servo
Additional, unfinished or abandoned PoC.
Copyright (c) 2024 FHNW University of Applied Sciences and Arts Northwestern Switzerland
- Source code (.C, .PY, ...) is licensed under MIT license, except where noted otherwise.
- Design files (.DXF, .SVG, .STL, ...) are licensed CC BY-SA 4.0, except where noted otherwise.
- Documentation (.PDF, .TXT, .MD, ...) is licensed CC BY-SA 4.0, except where noted otherwise.