Home Blog  

16 Apr 2014


The Logic Pirate is an inexpensive yet capable open source logic analyzer. For just 30 bucks it can sample 8 channels, 256K samples per channel, at a blazing (overclocked!) 60 MILLION samples per second! It’s designed to support the SUMP logic analyzer protocol on Jawi’s open source software that works on most platforms. [via dangerousprototypes.com]

Logic Pirate 8 channel, 256K sample, 60MSPS logic analyzer - [Link]

16 Apr 2014


Jakub Felcenloben has received his PCBs as part of our PCB givewaway campaign and there is an update on his miniLOG – Precision Standalone Voltage Logger:

I’m currently testing all the hardware on the board. So far I got the MCU running, managed to talk to the 74HC595. Also the DC-DC converter works quite well, so does the voltage reference.

The board currently uses way too much power, that’s why I need to consider underclocking the microcontroller to 4MHz.

I still need to get the ADC and SD card working, I haven’t had much luck with that so far.

I already have a few ideas on changes I want to make on the board, a blog post about them coming up soon.

UPDATE: miniLOG – Precision Standalone Voltage Logger - [Link]

15 Apr 2014


karllunt @ www.seanet.com writes:

This is pretty much one of those required projects; everyone builds a datalogger in an Altoids can. But each is different and I enjoyed making mine.

Uses ATmega328P (low power, 32K flash for lots of program space)
Uses Maxim/Dallas DS1337 Real Time Clock (uses I2C)
Logs data to microSD flash card, readable on PC (uses FAT32)
Runs on two AAA alkaline batteries
Low power draw (exact consumption varies based on SD card used)
Supports RS-232 for entering commands
Uses CR2032 lithium coin cell for RTC backup
Uses Analog Devices TMP36 for temperature sensor (not shown, it gets wired to the green four-position terminal shown below)
Uses SparkFun 3.3VDC boost converter to provide stable voltage even as batteries die

Datalogger in an Altoids can - [Link]

14 Apr 2014


Here’s an interesting open source project on Kickstarter the Re:Load Pro by Nick Johnson of Arachnid Labs:

A constant current load for testing your projects. 6 amps, 60 volts and 25 watts in a workbench-friendly package with a USB interface.
The Re:Load Pro is an active load. It acts as a current sink, always drawing the same amount of current regardless of the voltage across it.
Active loads are incredibly useful for all sorts of electronics testing requirements. You can use one to see how a power supply performs under load, check if a battery lives up to its manufacturer’s specifications for capacity or current draw, test motor drivers, or a variety of common constant-current tasks, such as testing LEDs, or even doing electroplating. With computer control of the load, you can even do your own IV-curve tracing.


Re:Load Pro – A DC active load - [Link]

12 Apr 2014

Why do digital oscilloscopes appear noisier than traditional analog oscilloscopes?
Dave busts the myth that digital scopes are noiser than analog scopes, and demonstrates what inherent advantages digital scopes can have over analog scopes in terms of true waveform capture. And also why your analog scope may be hiding important signal detail from you.
Demonstrations of how memory depth, analog bandwidth, averaging, and intensity graded displays can all effect the signal detail you see on your digital oscilloscope.
And how long exposure camera shots on analog oscilloscopes can reveal detail you can’t see with your eyes.

EEVblog #601 – Why Digital Oscilloscopes Appear Noisy - [Link]

8 Apr 2014

This is a review of the Sanwa PC7000 Multimeter. Video has two parts, Part1 and Part2.

Review: Sanwa PC7000 Multimeter - [Link]

8 Apr 2014

In this episode Shahriar repairs an Agilent 86120B Multi-Wavelength Meter. The instrument reports “E14 Data Acquisition Problem” which corresponds to a potential internal HeNe reference laser failure. After the instrument disassembly, the old HeNe laser is removed and its optical power is compared to that of a new laser. The measurements confirm that the old laser has significantly deteriorated in output light intensity. The new laser is fitted inside the unit and the error message is eliminated. The free-space optic portion of the instrument is revealed and the principle operation is reviewed. Various components of the Michelson Interferometer is examined.

To test the correct operation of the instrument, a single tone semiconductor laser is applied to the unit and the result is compared to a different wavelength meter. The concept behind the operation of a Fabry-Perot laser is also presented before the signal is applied to the wavelength meter.

Teardown, Repair and Experiments of an Agilent 86120B Multi-Wavelength Meter - [Link]

3 Apr 2014


Kerry Wong writes:

In this post, I will show you yet another thermometer/hygrometer build. But instead of using an LCD or 7 segment display for the output, I decided to go retro, using two “needles” to display the temperature and humidity readings instead. And to make the project more fun, I did not use analog meters for the output but chose to use two servos instead. The temperature humidity sensor I used is SHT21 from Sensirion, the same sensor I used in my temperature logging project before. In that project, the temperature and humidity readings were sent over the network and displayed on my web server (you can see the current readings in my lab here).


A digital thermometer hygrometer with analog displays - [Link]

31 Mar 2014


The accelerometer can measure acceleration in two axis using Analog Devices ADXL202. +-2g can be measured in each axis.

The accelerometer can measure acceleration and time. Using the time and the acceleration it can calculate and display:Time (s)

  • Average acceleration (m/s2)
  • Instantanous acceleration (min/max) (m/s2)
  • Speed (m/s & km/h)
  • Distance (m & km)

The mass of the object can also be input, the accelerometer can then also display:Instantenous Force (N)

  • Average Force (N)
  • Instantenous Power (kW and HP) * .

Bullit Accelerometer – Accelerometer with microcontroller and display - [Link]


30 Mar 2014

This video discusses how to measure the ESR (equivalent series resistance) of a capacitor using an oscilloscope and function generator. All of the capacitors tested in this video were 220uF electrolytic caps. In reality, the resistance in the plates of a dried out electrolytic capacitor can’t be modeled as a simple series resistor, but for the purposes of identifying good from bad, this simplification works fine.

Measure Capacitor ESR with an Oscilloscope and Function Generator - [Link]





Search Site | Advertising | Contact Us
Elektrotekno.com | Free Schematics Search Engine | Electronic Kits