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INNO MEDU100

Biomedical Engineering Education - INNO-MEDU100

NI Hardware/Software based Educational Biological signals measurement KIT by using various sensors (EMG, ECG, SpO2, NIBP)

Button 0, WIFI Button, Digital I/O, Analog I/O, 3.3V, 5V, EMG Sensor, NIBP Sensor, Bread Board, PPG Sensor, ECG Sensor, DC Power 12V, USB Slave Port, USB Host Port, Status LCD, Audio I/O

INNO-MEDU100

Product Constitution

  • SENSORS

    • ECG, EMG Sensor
    • SpO2 Sensor
    • NIBP Sensor(Optional)
  • HARDWARE

    • NI myRIO
    • LCD Display Module
    • Bread Board
    • Analog signal
      processing circuit
  • SOFEWARE

    • NI LabVIEW (Optional)
    • NI Multisim (Optional)

INNO-MEDU100 UI

Product Feature

  • Educational Kit for Experiment and Practice
  • Provide a lecture and learning book
  • Provide a development software source by user
  • Provide a circuit and Hardware design by user
  • Using myRIO(National Instruments), develop FPGA/Real-Time application
  • Wired/Wireless Data transmit
  • Compatible product with Tablet PC or Mobile device

Product Advantage

  • Drive only +12V single power
  • Apply variety Multiple function using NI myRIO based software system
  • Use Cables and Sensor for measuring Biological signals
  • Strengthen Safety through preventing Overcurrent that come flowing in the human body by Medical Isolation
  • LCD display

INNO-MEDU100 Qualification

  • LCD display
  • 4 Sensors connector (ECG, EMG, SpO2, NIBP)
  • Analog Input – 4ea (500 KS/s, 12bits, A/B : 0~5V, C : +-10V)
  • Analog Output – 4ea (345 KS/s, 12bits, A/B : 0~5V, C : +-10V)
  • Digital I/O – 32ea
    • SPI : 4MHz, PWM : 100kHz, I2C : 400kHz
    • Quadrature encoder input : 100kHz
  • WIFI (IEEE 802.11 b,g,n / ISM 2.4 Ghz)
  • User Button
  • USB 2.0 Hi-Speed
  • Uart Lines (Max baud rate : 230,400 bps)
  • Xilinx Z-7010, 667MHz, FPGA
  • Dual Core ARM® Cortex™-A9 Processor
  • Programming by LabVIEW or C

INNO-MEDU100 MANUAL

INSTALLATION GUIDE BOOK[DOWNLOAD]download Manual

Utilization method of INNO-MEDU100

NI LabVIEW

It is a graphic based programming platform able to test application and design as expandable system to a larger system from a compact system. LabVIEW integrated with existing legacy software, IP and Hardware show advantage of the latest computing technology. We solve many problems effectively through LabVIEW, can implement the future innovations.

NI FPGA Module

User could configure custom hardware chip manually using a programmable routing resource including a reprogrammable silicon chip, logic block without bread board or soldering iron.

FPGA Source of INNO-MDEDU100 by NI LabVIEW FPGA Source of INNO-MDEDU100 by NI LabVIEW

NI Real Time Module

It could be constructed as a stand-alone embedded system that run a long time and reliable system using graphical programming type.

  • Extending a stand-alone embedded system from LabVIEW graphic based program
  • Realize a precise timing and high reliability using Real-Time OS
  • Use a various IP and Real-Time Hardware driver

Real Time system Source by NI LabVIEW Real Time system Source by NI LabVIEW

NI Multisim

It is an intuitive schematic capture and SPICE simulation circuit teaching environment. Multisim software is possible to design and verification of PCB directly.

  • Reinforce theory with unified, easy-to-use schematic capture and interactive simulation environment
  • Comprehensive collection of 22 virtual instrumentation and 22 advanced analysis for circuit operating verification
  • Comprehensive database with more than 16,000 components and the simulation model
  • Advanced LabVIEW integration for actual measurement and custom analysis
  • Advanced project management tool as variable support and advanced spreadsheet view
  • Integration Ultiboard layout
  • Circuit design by Multisim Circuit design by Multisim
  • Circuit implementation Circuit implementation

Introduction of basic sensors for measuring biomedical biological signals

  • EMG Sensor

    sEMG(surface EMG) measured a biological signal after attach the electrode on the skin surface without pain and needle. Thus it could be analyzed overall MUAPTs(Motor unit action potential trains) activities quantitatively unlike nEMG(needle EMG) measured only MUAPTs.

    • 2 Channel(measuring electrode, reference electrode), sENG Sensor (need grounding electrode)
    • 4 Connector (Vs(+2.7V), GND, Sig, Con)
    • Using a disposable Ag/Agcl electrode

    EMG Sensor

  • ECG Sensor

    ECG is the recording of the electrical activity of the heart. Traditionally this is in the form of a transthoracic (across the thorax or chest) interpretation of the electrical activity of the heart over a period of time, as detected by electrodes attached to the surface of the skin and recorded or displayed by a device external to the body. It is reflected in P, QRS, T wave like as below picture

    • 4 metal electrode (using 3 electrode when measure signal)
    • Reusable electrode
    • Need the analog signal processing circuit by user

    ECG Sensor

  • SpO2 Sensor

    PPG measured a pulse wave signal. Pulse wave give the LED lighting on skin surface when measuring Capillary blood flow and it changed the pulse vibration, measure the amount of light as reflecting Photodiode.

    • Luminosity with Infrared light(904nm) and Red LED(660nm), Optic acquisition with photodiode
    • SpO2 measure signal that is inquired into two light sources in a pulse form at a different time
    • When generate a single light source, pulse wave measurement obtain the signal of light transmittance caused by movement of the blood.
    • Need the analog signal processing circuit by user

    SpO2 Sensor

  • NIBP Sensor

    NIBP is the pressure exerted by circulating blood upon the walls of blood vessels, and is one of the principal vital signs. BP is depending on heart rate. It measure diastolic blood pressure, top blood pressure, heart rate.

    • range: 20 ~ 250 mm hg
    • Use a LabVIEW sample source by Vernier company

    NIBP Sensor

Learning effect of INNO-MEDU100

INNO-MEDU100 has a commitment to provide experience that students develop projects using utilization of medical sensor hardware, software design with a basic sensor that is used in medical engineering.

Comprehension of medical sensors

You can increase the understanding of biological signal measuring sensor (ECG, EMG, PPG, NIBP) by using these sensors directly.

Comprehension of medical sensors

Signal Conditioning by Circuit design

Acquired biological signal using sensor, design and simulate a amplifier circuit and filter circuit by NI Multisim. Learn and experience the basic idea of the circuit design to make the analog signal processing hardware by user.

Signal Conditioning by Circuit design

Software design by LabVIEW

Learn to develop software with signal analysis and system configuration, measuring signal using NI myRIO based INNO-MEDU100 by user.

Software design by LabVIEW 1 Software design by LabVIEW 2 Software design by LabVIEW 3

Utilization with PC or Tablet PC/Smart phone

You can develop one of the interlocking system with desktop or laptop and Tablet PC in WIFI

Utilization  with PC or Tablet PC/Smart phone

Provide Learning book for improved learning and understanding

  • Provide a book to get the basic knowledge for handling the product and using source.
  • Provide a Developer SDK(Software Development Kit) including schematic diagram and programming source.