IoTeach is a comprehensive tool chain of hardware and software components designed specifically to promote engineering, scientific research and innovation. Our products ensure modern technology is taught in the best way possible (hands-on), with the most relevant literature supplied in the right format. Users encounter a world of fascinating, practical interfacing challenges from engineering, mathematics, physics, to biomedical sciences and beyond. ‘IoTeach-Motion&DrivesTM’ assists with hands-on mastering of power electronics, machines, motion, drives and associated electrical circuits, including high-voltage/current/power applications. It provides deep background along with circuits, wiring diagrams, hardware and covers key research areas and more:
- Three phase AC systems, AC circuit analysis, phasors
- DC, synchronous, asynchronous, brushless, stepper, switched reluctance motors.
- Motor drives and control techniques.
- Inverters, cycloconverters, AC choppers, rectifiers.
- Magnetic circuits.
‘IoTeach-SensorsTM’ teaches sensor applications including ultrasonic ranging, silicon pressure, gaussmeters, hall effect, thermometers, pan/tilt controller, LED displays, stepping motor, video surveillance, electronic compasses,data acquisition. We keep up with sensors technology development and more sensors are added on regular basis. ‘IoTeach-Sensors’ is a toolbox full of solutions, packed with intriguing exercises, circuit and devices that could be handy for students as well as professionals integrating sensors in modern hand-held devices.
‘IoTLabsTM’ teaches computer-based experimental research skills as we believe that the personal computer stands alongside such equipment as multimeters and oscilloscopes. IoTLabs seamlessly teaches scientific data acquisition and analysis, such as least-squares curve fitting and Fast Fourier Transform FFT.
By utilizing low cost, sophisticated and reliable commercial-off-the-shelf COTS instrumentation, IoTLabs free researchers to focus on data analysis and interpretation. Some COTS instrumentation includes:
NI USB-based Oscilloscopes feature an open architecture and flexible, software-defined functionality to deliver unmatched versatility for both time- and frequency-domain applications. We can perform standard oscilloscope measurements and easily build other instruments, such as spectrum analyzers, transient recorders, and ultrasonic receivers. We also can synchronize multiple oscilloscopes with other instruments at picosecond-level accuracy for high-channel-count and mixed-signal applications.
NI virtual bench common instruments into a single device and connects to a PC or iPad. It combines a mixed-signal oscilloscope with protocol analysis, an arbitrary waveform generator, a digital multimeter, a programmable DC power supply, and digital I/O. The all-in-one features are simple, convenient, and provide more efficient circuit design, debugging, and validation.
Use spectrum analyser to measure the magnitude of an input signal versus frequency within full frequency range of instrument. We supply, commission and provide training for NI spectrum analysers. Our software defined libraries assist with studying spectral compositions of electrical as well as other signals, such as acoustic pressure waves and optical light waves. Measurement with spectrum analyser assist with measurement of other spectral components of a signal that are not easily detectable in time domain waveforms. Such parameters could be useful in characterization of electronic devices, such as wireless transmitters.
We welcome clients’ and visitors’ interest in our technology and research. Further information on our condition monitoring solutions is available on request…