Solid state transformers are already making their way out of the labs, what an amazing tech! https://t.co/KUIceivwA5 #Solar #windpower— FritzenMaker (@TheFritzenMaker) July 12, 2017
I'm Clovis Fritzen!. Passionated by electronics, engineering and the maker movement. I am in an effort to bring you quality content full of knowledge and insight.
July 12, 2017
Solid state transformers - becoming a reality
May 21, 2017
Repairing an Arduino nano - replacing ATMEGA328
Hey everyone, how are you doing today?
There is a new video on Youtube for you. In today's video I *try* to repair an Arduino Nano by replacing the SMT ATMEGA328 chip on it. I burned it by appling 8V to the +5V terminal :(
Hope you enjoy watching me replace the chip:
May 06, 2017
Creating a Menu system on a LCD display
Hey everyone, how are you doing todaaay ?. This blog post (and video) is all about how to create menu systems (screens) on a LCD (16x2) display, making use of Arduino UNO.
Menus are specially useful on small LCD screens when you have a lot of information to show and too little space available. I show in the video below how to implement a six (6) screen menu system that you can navigate by simply pressing a button.
The actual schematic diagram (drawn in Fritzing) is shown below, and contain one push-button, one i2c LCD display and one Arduino UNO. As simple as it gets!!.
Click the image to enlarge
Coding for this project has its own details, but is nothing beyond beginner: every button press increments the variable "WhichScreen" by one (up to six), then a switch..case function is used to determine which screen (tied to a specific function) will be shown at the moment.
The button pressing is debounced by the use of the 'debounce.ino' sketch, which comes with the current Arduino IDE. Every one of the six functions contains all code necessary to write messages (or other things) to every column and line of the chosen LCD display.
Code for this project (same seen in the video) is available on my GitHub and also shown below:
All materials used in this tutorial are available on ICStation (click here) and below:
May 01, 2017
TCS230 RGB color sensor with Arduino
Hello everyone, how is it going? Today post and video is all about the TCS230, a light-to-frequency converter. In order to demonstrate its hability to sense color in RGB (Red, Green, Blue) I have made an Arduino sketch to convert its readings to a WS2812b, Neopixel RGB LED.
Source: Arduino&Cia
According to TCS230 datasheet its output frequency is up to 600Khz (square wave), with the possibility to reduce it to 20% (120Khz) and 2% (12Khz). It features two inputs (S2 and S3) to binary select which color will be read at the moment (either Red, Green or blue). Its supply voltage is up to 5V (same as Arduino during my tests).
You can see below both the schematic diagram of the test (drawn in Fritzing) and the code I used for my Arduino UNO (which is also available here). Notice that the sketch can control a Neopixel (WS2812b) and also send RGB color to the serial monitor of Arduino IDE.
Click the image to enlarge
The target with this post was to show you that it is possible to identify RGB color "on the cheap", based on a simple color sensor and some Arduino code. The precision of the TCS230 is not great, but it cuts for what we need; its performance could be improved by better controlling room lighting and the quality of those white LEDs as well.
Here are the links so that you can buy all components necessary to do this experiment yourself:
- TCS230 RGB color sensor: [A157] TCS230 Color Sensor Module + GY-302 BH1750 Light Intensity Sensor Module
- Arduino UNO: ICStation Atmega328P UNO R3 Dev. Board Compatible Arduino
- WS2812b NeoPixel RGB Led: 1pcs WS2812B 5050 RGB LED & PCB Board LED Module Pixel Light 5V
- WS2812b NeoPixel RGB Led: 1pcs WS2812B 5050 RGB LED & PCB Board LED Module Pixel Light 5V
April 25, 2017
Wireless IP camera review - T7838WIP
Hello everyone, how is it going? Today I will be reviewing a nice wireless IP camera: the T7838WIP 720p WiFi capable camera, made by VstarCam and brand-labeled by MANY others. Note that I have also recorded the above video with the actual T7838WIP camera.
Some specs:
- Up to 720p video (1280 x 720, HD)
- WiFi capable (works with Ethernet as well)
- Infrared LED's (night vision!)
- Supplied by 5v power adaptor
- Pan 355º and tilt 120º
- Captures and reproduces audio on camera
- Works paired with the Yoosee app (Android and iPhone)
- micro SD card for recording (up to 32GB)
- Supports ONVIF protocol (can be paired to compatible DVR's for recording and monitoring!)
Starting it up is as easy as three steps:
- Download the Yoosee APP on your phone (and open it)
- Power the camera UP on the same WiFi network as the cellphone
- Follow the app instructions!
This camera has positively surprised my in many ways: the fist is the image quality, 720p over WiFi; there is also the capability of capturing and reproducing sound to and from the camera and the APP (you can listen and talk to whoever is close to the camera - I recorded the video this way!). Finally the capability of panning and tilting around -in real time- amazing.
As far as buying this camera yourself, I can only recommend it and give you two links where you can find it: GearBest (here) and BangGood (here). I hope you guys like the camera and this article about i; see you soon!.
April 23, 2017
Arduino-based datalogger - DIY data logging
Update: this project is also on Hackaday.io: https://hackaday.io/project/21409-arduino-datalogger-with-microsd-card
Hey everyone, how are you doing? Today's video is all about a project I have been thinkering around (and designing) for a long time: an Arduino-based data logging system. It basically reads data from Arduino micro's analog and digital inputs and saves it to a microSD card.
The reason I created it is that I need a datalogger myself; I am always experimenting with analog and digital data from physical systems (rc cars, servo motors, etc etc) and I simply love to record said data for after-the-fact analysis and comparison.
I have programmed it to read all four analog inputs of Arduino micro (A1..A4) and store the data in '.csv' format inside the microSD card; it allows me to easily post-process and copy/paste/move information.
The schematic diagram (made in Fritzing) for the datalogger is seen below, and the Arduino code can be downloaded in this link (or copyied from below as well - use it without worries).
Source (original image): here
Here are links for you to buy every necessary component to assemble this project yourself. Buying from our partner (ICStation) helps us keep the blog going:
- Arduino Micro: http://www.icstation.com/product_info.php?aid=40&products_id=8402
- MicroSD breakout: http://www.icstation.com/product_info.php?aid=40&products_id=3643
- Double-side green protoboard: http://www.icstation.com/product_info.php?aid=40&products_id=2659
- Diodes (1N4000...1N4007): http://www.icstation.com/product_info.php?aid=40&products_id=8513
- Resistor (10k 1/4W): http://www.icstation.com/product_info.php?aid=40&products_id=2244
April 21, 2017
FritzenMaker's Youtube Channel
Hey everyone, how is it going?
I just would like to give you heads up that I now own an Youtube channel. Is is also called FritzenMaker (link here) and will be the main content platform for FritzenMaker (besides this blog, of course!!).
Have fun here: FritzenMaker Youtube Channel !!
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