National Instruments myDAQ and myGrid Bundle Click on images to enlarge

Sale Price: $298.00

National Instruments myDAQ and myGrid Bundle - Bundle Includes an NI Student myDAQ with NI LabVIEW, NI Multisim, & NI Ultiboard and a myGrid

National Instrument's NI myDAQ is designed to give students the ability to work on engineering course work and experiment with projects hands-on anywhere, anytime. The NI myDAQ is a high-quality instrumentation device gives student's the power to prototype systems and test circuits outside of the classroom while improving comprehension with continuous reinforcement.

The myGrid for NI myDAQ is an AC power grid that will help a student investigate the components of a power grid. The myGrid interfaces with NI myDAQ to demonstrate energy monitoring, energy conservation, and the concept of the smart grid. The system includes a traditional power source through a motor representing fossil fuels and a renewable power source using a solar panel. It models how power is generated, transmitted, and distributed in a residential setting across three houses.

The myDAQ is a single device the has eight commonly used plug-and-play computer-based lab instruments. With NI myDAQ, the computer becomes the an engineering instrument.

Designed by National Instruments with high-quality Texas Instruments Analog Integrated Circuits (ICs) The hardware system diagram and list of Texas Instruments IC's in the NI myDAQ user guide depicts how TI data converters, amplifiers, and interface and power management circuits were used in the design of NI myDAQ.

Extend the Capabilities with LabVIEW and Multisim. Verify homework solutions with real signals using Multisim for circuit simulation and LabVIEW for automating measurements and performing signal processing.


How does the myGrid work?

Actual working scaled-down models of the power sources are included in the myGrid. A DC voltage is used to represent fossil fuels. The sum of DC currents created from these DC voltages are used to produce an infrared beam that is connected to circuits producing an AC voltage proportional to the total energy input. A power amplifier produces the AC power required to drive a smart distribution grid. A transformer steps up the voltage that is transmitted over wires with resistance added to emulate a long distance. A second transformer returns the voltage to the required value for consumer consumption on the receiving end of the high voltage line.

For safety purposes the actual voltages are reduced by 100 times. Houses with internal loads are switched on and off to emulate the consumption of the AC power after transmission. Using a software front panel, AC voltage measurements monitor the supply and demand of the grid.

If the load voltage falls below a low line value the power station automatically increases the voltage being generated to satisfy the load conditions. This is accomplished by increasing the current through an infrared diode that is mixing the different energy sources. If the frequency deviates from the desired set value, the power station automatically makes an adjustment on the DC motor that is attached to the device that is breaking the infrared beam.

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