Arduino is an open source computer hardware and software company, project, and user community that designs and manufactures single-board microcontrollers and microcontroller kits for building digital devices and interactive objects that can sense and control objects in the physical world. The project's products are distributed as open-source hardware and software, which are licensed under the GNU Lesser General Public License (LGPL) or the GNU General Public License (GPL), permitting the manufacture of Arduino boards and software distribution by anyone. Arduino boards are available commercially in preassembled form, or as do-it-yourself (DIY) kits.
Video embeddedUsing a UBlox NEO7M GPS module as a frequency standard. Design Build a GPS locked Frequency Reference Standard Reading GPS data via Arduino.
How to Interface GPS with Arduino? In this tutorial the data regarding the geographical coordinate is extracted from the GPS output with the help of the Arduino.
Arduino en RPi projects. 10 MHz GPS Frequency Standard. Simple GPS Stabilisied 10 MHz Oscillator by G3RUH Einfache GPSDecoder mit LCD anzeige von DJ7OO
This tutorial allows the user to track vehicles in real time using Arduino and GPRSGPS Quadband Module Realtime GPSGPRS Tracking of Vehicles Using Arduino.
Arduino Frequency Counter with LCD with maximum frequency input 64 Mhz
Low Cost 10Mhz Frequency use I had to come up with design parameters for my frequency standard, Low Cost 10Mhz Frequency Reference Use Arduino for.
Consequently, for a frequency standard with a short term stability measured over a few tens of GPS Disciplined Frequency Standard Link: Arduino Prototype Kit
10MHz OCXO Frequency Standard Module or Kit from AnalysIR on Tindie. Hackable OCXO Frequency Standard with Advanced Infrared analyzer decoder for Arduino.
Arduino clock frequency accuracy. The standard deviation of the frequency is a first Recommendations for next iteration of Arduino; Ladyada, GPS.
GPS Disciplined Frequency Standards GPS disciplined frequency standard have been recorded below. Although from reading Allan Deviation specifications.
GPS Basics; GPS Basics Pages for a walkthrough example on how to connect an Arduino to a GPS module and parse more expensive than your standard GPS.
Find great deals on eBay for GPS 10MHz in Trimble Thunderbolt GPS Disciplined Oscillator GPSDO Frequency Standard HP Z3805A A GPS FrequencyTime.
This homebrewed 10MHz frequency reference is locked by the GPS satellite system and achieves an estimated I use a backlit 24 x 2 LCD with standard.
If you\'re like me, then you have a small pile of clothes on the floor that may or may not be dirty. This could include jeans, dress shirts, and barely worn shorts. So how can you tell which clothes are clean or dirty? I came up with a way to track various articles of clothing using NFC and a Raspberry Pi.
Learn how to make a powerful Arduino GPS tracker that posts data to the cloud via LTE and view data graphically on IoT dashboards!
It is a type of lamp which consist of magnetic reed switch, integrated with relayand Arduino board. This small magnet which is hidden under my hand which will activate the relay and the lamp. This is the secret behind the lamp.
It turns out that it is quite easy to get Alexa communicate with Arduino via Raspberry Pi with Node-RED. All you have to do is installing two Node-RED modules and setup up a Node-RED Flow with Alexa Local and Arduino nodes. Here I have a project which has Alexa turn on and off two LED lights as a demo.
Learn how to use a Lidar sensor and an Arduino to build a configurable forward-facing obstacle detection solution for your 3DR Solo.
Here it comes: an affordable, front facing collision detection solution for your 3DR Solo Drone!
This hack describes everything you need to establish Lidar-based obstacle detection with direct feedback in the Solex App.
The devices which connect to internet has been shrinking at very fast pace, Now its got to the size which fits on your fingers and can not only connect to the internet but as also do some sensing.
ESP8266 chipset has made waves since it got introduced, Due to its small size and capablities. This is the first generation of IOT technologies which is going to change the way we live.
You may have seen these fun, fluffy clouds hanging in someone\'s house or office as light fixtures. We\'re going to adapt the design to be a wearable. Yup, a giant, fluffy, cloud shaped wearable. Also, it won\'t be cloud connected, but it will use a button to change patterns, which for our purposes actually works better.
GPS Module for Arduino and Raspberry Pi. Controlling the output of standard NMEA Also it is possible to change the frequency of the output, see the GPS module.
I2C and SPI are standard Within this second the program determines which frequency should.
uBloxNEO67. Warren, 9V1TD, alerted the Softock group of these modules. So the series 6T and 7 may output any frequency up to 10MHz with GPS precision.
Design Build a GPS locked Frequency Standard Part 4. (A0) is RX on Arduino connected to GPS TX pin. 255 a nonexistent pin number used to free up a pin
Very simple GPS disciplined 10 MHz oscillator using a Navman JupiterT GPS engine. and you then have a simple locost frequency standard with remarkable performance.
Homemade GPS Receiver. it had inconvenient power requirements and no onboard frequency standard. There is no Arduino in this project.
Some time ago I saw people reverse engineering the infrared protocol of the Syma S107G toy helicopter and I wanted to get my hands on it as well. It is a coaxial helicopter, which means that it doesn\'t require a torque cancelling tail rotor. Yaw is controlled by using the speed difference to a second rotor underneath the main rotor, which spins in the opposite direction.
We use infrared transmitters when making Cubecon. So we studied how to send infrared values to an infrared transmitter. We also studied an infrared receiver to make sure it works properly.