Jury Designs

  The quality of the voltage reference is key to a precision multimeter so it was worth spending some time to run some simple tests on the MAX6341 to verify that it will be fit for the task of building a precision multimeter.         MAX6341 Key Features ·          Ultra-Low, 1ppm/°C Max Tempco  ·          Very Low, 1.5µVp-p Noise (0.1Hz to 10Hz) (MAX6325)  ·          ±0.02% Initial Accuracy (MAX6350)  ·          ±15mA Output Source and Sink Current  ·          Low, 18mW Power Consumption (MAX6325)  ·          Industry-Standard Pinout  ·          Optional Noise Reduction and Voltage Trim  ·          Excellent Transient Response  ·          8-Pin SO Package Available  ·          Low, 30ppm/1000h Long-Term Stability  ·          Stable for All Capacitive Loads  Pictured below is the schematic that was followed for this test. There is no reason to stray from this design in the final product as the

Hi, I thought I'd blog some study/revision I'm currently doing for an exam. This won't necessarily be a comprehensive explanation of the topic, rather just the relevant formulas and notes that I'd personally create for myself when studying for an exam. This entry is on linear motion and uses the "Engineering Mechanics" book by "Val Ivanoff". Linear displacement , a vector quantity (distance and magnitude), is described as the position change of an object from one place to another along its path. The symbol for displacement is "S" and the SI base unit is m (metres). Linear Velocity is the change in position of an object which occurs in time or the time it takes to change from one position to another. The symbol for linear velocity is "v" and SI base unit is in m/s (metres/second). This is most commonly used when referring to the speed of a car. For example, "I'm currently travelling 60km/h sounds better than 16.7m/

Hi, This is just a quick post showing my tests of the OPA2134 OPAMP from TI. Datasheet - http://www.ti.com/lit/ds/sbos058a/sbos058a.pdf I'm not sure whether or not I'll use this in the final design but as its touted as a "High Performance Audio Op Amp" I figured it's not a bad place to start. At around $7 AUD its not necessarily the cheapest Op Amp around. It's available in single, dual and quad versions but as I'm after individual control of the Left and Right channels, I chose the 2 channel 2134. Now to the breadboard! If you read the previous entry I explained how to setup a split power rail (and the reasons why you need one) to supply the + & - voltages used by the chip. Whilst not shown in this quick example, I used a TLE2426 rail splitter IC to supply +6V and -6V from a 12V power supply. I'll show the use of this chip in detail in another entry. Rather than go through the theory of the values used I've decided t

Audio Mixer - Part 1 - Playing with OP-AMPS When I decided to do this mixer project I first started to play around with op-amps. This entry was originally done as a little report for myself on my first experience using an op-amp. So its mainly theory and simulation. In the next entry I'll breadboard up an op-amp circuit using the OPA-2134 that will be used in the mixer circuit. The objective is to demonstrate a straight forward, easy to understand, example of the operation and use of Op Amps in a circuit. The circuit consists of an LM324 Quad Op-Amp, Microphone and a speaker. To get a decent audible level from the selected speaker, a Peak to Peak (PP) voltage of 12V is required. This was calculated by feeding a source signal from a wave generator and adjusting the PP value. Using the oscilloscope it was also determined that the microphone produced a PP value of roughly 20mV. This leads to the following formulas:                  Required Output (Vout) = 12V                

First things first... I've been a musician basically all of my life. Around 12 years ago I played drums professionally in local bands and managed to do around 500 shows. I also dabbled in guitars & keyboards. Anyways over the years I've accumulated a ton of semi-pro audio equipment for home recordings etc. but nowadays I just want a good quality, simple, setup for audio playback from my PC. To cut a long story short, I want to decrease my clutter and replace my old Soundcraft Spirit SX 20 input mixer with a little 2 channel mixer I can have on my desk. So I plan to document the many steps involved in creating this little mixer. The topics I hope to cover are:  Schematic and PCB designs Determining the required specifications of the mixer Various electronic measurements Case design in Solidworks Parts selection At the end of the project hopefully I will have documented the design well enough that the reader can make their own version of this little mixe

Hi, Welcome to my Blog. I'm currently a Mechatronics/Mechanical Engineering student and I decided to start this Blog to basically keep a diary of the various topics I'm learning whilst studying and some of my projects outside of my studies. As I'm still learning, the articles covered in this Blog should not be taken as gospel but I hope some of the topics covered can be of interest (and possible help) some fellow students out there. Thanks for visiting :) Justin Ryan