ADAC click – 12-bit ADC and DAC converter
Posted by Lana Vulic on 13 June 2017 12:07 PM
Analog to digital, digital to analog conversion – our click does it all. ADAC click picks up signals and translates them both ways.
ADAC click is an 8-channel 12bit ADC, DAC and GPIO. It carries the AD5593R configurable ADC/DAC. The click is designed to run on either 3.3V or 5V power supply. ADAC click communicates with the target microcontroller over I2C interface, with additional functionality provided by the RST pin on the mikroBUS™ line.
The real world is analog, to interface with the digital world conversion needs to happen. We use so much technology in our daily life that we don’t even notice small, practical devices like this one. Consider the ease with which you make a phone call. Your voice is an analog signal, picked up by the microphone and converted to digital form.
Every channel on ADAC click can be set individually as ADC, DAC, or GPIO. You can then read the values through I2C interface.
For more information about the click see the product page.
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AC Current click and the AC/DC battle
Posted by Lana Vulic on 02 February 2017 04:21 PM
AC or Alternating Current periodically changes direction, and it’s not easy to measure it. But we have a new click precisely for that — AC Current click.
AC Current click
AC Current click can measure alternating currents up to 30A. It features the MCP3210 12-bit Analog-to-Digital converter and the MCP607 CMOS Op Amp, both from Microchip.
There is an Analog output for users who want to side step the onboard ADC and use an ADC from a microcontroller instead.
Keep in mind that with this click, to measure current you need to put one wire through the sensor, not both.
Non-invasive AC Current sensor
Just so you know, we’re not talking about the band.
Towards the end of the 19th century, the “war of the currents” was going on. Sounds like something from an H. G. Wells story, but it really happened. Thomas Edison, George Westinghouse, and Nikola Tesla being the main protagonists of this story, here is what happened.
Direct Current (DC) was developed by Edison, but since it’s difficult to convert it (to higher or lower voltages) some other form of electricity needed to replace it. In comes Tesla with his Alternating Current solution, where the current periodically changes direction.
Now, AC could travel longer distances than DC. Fearing that he’s going to lose a lot of money Edison started a loud public campaign against AC.
For a time it seemed like Edison was winning this battle, until Westinghouse won the right to supply the 1893 World’s Fair in Chicago, with Tesla’s AC current. Today, almost all homes and offices use AC current.
For more information about the AC Current click, see the product page.
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