KL-75001 Electrocardiogram ECG Module
1. HPF Characteristic Experiment
2. Amplifier Experiment
3. LPF Characteristic Experiment
4. BRF Characteristic Experiment
5. ECG Simulator Experiment (Optional)
6. ECG Experiment
KL-75002 Electromyogram EMG Module
1. BRF Characteristic Experiment
2. LPF Characteristic Experiment
3. Gain Amplifier Experiment
4. HPF Characteristic Experiment
5. Half-Wave Rectifier Characteristic Experiment
6. Integrator Characteristic Experiment
7. EMG Experiment
KL-75003 Electrooculogram EOG Module
1. Horizontal & Vertical Electro Circuit Calibration Experiment
2. BRF Characteristic Experiment
3. HPF Characteristic Experiment
4. Amplifier Experiment
5. LPF Characteristic Experiment
6. EOG Experiment
KL-75004 Electroencephalogram EEG Module
1. Pre-Amplifier Calibration Experiment
2. BRF Characteristic Experiment
3. HPF Characteristic Experiment
4. Amplifier Experiment
5. LPF Characteristic Experiment
6. EEG Experiment
KL-75005 Blood Pressure Measurement Module
1. Pressure Sensor Calibration Experiment
2. HPF1 Characteristic Experiment
3. LPF Characteristic Experiment
4. HPF2 & Amplifier Characteristic Experiment
5. Rectifier Characteristic Experiment
6. Auscultatory Blood Pressure measurement Experiment
7. Oscillometric Blood Pressure Measurement Experiment
KL-75006 Photoplethysmogram Module
1. Infrared Photocoupler Calibration Experiment
2. HPF Characteristic Experiment
3. Gain Amplifier Experiment
4. 4th-order LPF Characteristic Experiment
5. Differentiator Experiment
6. Amplifier Experiment
7. Comparator Experiment
8. Monostable Multivibrator Experiment
9. Photoplethysmogram Measurement Experiment
KL-75007 Respiratory Ventilation Module
1. Differential Amplifier Calibration Experiment
2. BRF Characteristic Experiment
3. Amplifier Experiment
4. Differentiator Experiment
5. Hysteresis Comparator Experiment
6. Monostable Multivibrator Experiment
7. Respiratory Ventilation Detection Experiment
KL-75008 Pulse Meter Module
1. Strain Gauge Amplifier Calibration Experiment
2. HPF Characteristic Experiment
3. BRF Characteristic Experiment
4. Gain Amplifier Experiment
5. LPF Characteristic Experiment
6. Hysteresis Comparator Experiment
7. Monostable Multivibrator Experiment
8. Pulse Meter Experiment
9. Arterial Vessel Experiment
KL-75009 Impedance Module (People with cardiac pacemaker must avoid using this module)
1. Pre-Amplifier Calibration Experiment
2. BRF Characteristic Experiment
3. Wien-Bridge Oscillator Experiment
4. HPF Characteristic Experiment
5. Demodulator Experiment
6. Gain Amplifier Experiment
7. LPF Characteristic Experiment
8. Impedance Detection Experiment
KL-75010 Doppler Ultrasound Blood Velocity Module
1. OSC Experiment
2. Pre-Amplifier Experiment
3. Demodulation Experiment
4. HPF Characteristic Experiment
5. Amplifier Experiment
6. LPF Characteristic Experiment
7. Comparator Experiment
8. Monostable Multivibrator Experiment
KL-75011 TENS Module (People with cardiac pacemaker must avoid using this module)
1. 555 Timer-Astable Experiment
2. Transistor Switch Circuit Experiment
3. Transistor Bias Circuit Experiment
KL-75012 Respiration Flow / Vital Capacity Meter Module
1. Hall & Differential Experiment
2. Frequency to Voltage Experiment
3. Comparator Experiment
4. AND Gate Experiment
5. Decade Counter Experiment
6. Decoder Experiment
7. 7-Segment Experiment
The Biomedical Measurement Training System (KL-730) provides a platform for students to learn how to extract various body signals using bio-electronics sensors. There are a total of 12 modules covering a variety of topics, including: Electrocardiogram (ECG), Electromyogram (EMG), Electrooculogram (EOG), Electroencephalogram (EEG), Blood pressure (BP), Photoplethysmogram (PPG), Respiratory ventilation detection, Pulse meter measurement, Body impedance detection, Doppler ultrasound blood velocity measurement, and Respiration flow/vital capacity meter measurement.
Through the system, students can construct a circuit to process and convert signals into readable forms for further observation and analysis. Also, hands-on practices and experiments allow students to understand the characteristics of various bio-electronics sensors and transducers.
1. There are test points for adjustment of frequency bandwidth and amplifier gain, allowing students to learn the relationship
between a circuit and a corresponding signal on each processing stage.
2. The system consists of several bio-electronics sensors and transducers, including pressure transducers, infrared
photocouplers, strain gauges, temperature sensors, surface electrodes, dual element transducers, and pneumotach
transducers.
3. Display and storage of signals
The main unit of the system (KL-76001) has a 128 x 64 LCD graphic display to show the real-time physiological parameters.
Physiological signals can be displayed on a digital storage oscilloscope (DSO).
4. With embedded 10-bit A/D converters (2.4 Kbits/s), physiological signals can be converted to digital forms and transmitted to
computers in real-time via a USB port.
5. Graphic user interface software
a. Communication port : USB
b. Physiological signal can be analyzed after connection
c. Easy operation
d. X-axis : TIME/DIV ; Y-axis : VOLT/DIV
e. Data can be stored, replayed, or printed
f . Storage formats : *.BMP,*.JPEG,*.XLS
g. Measurements of ECG, EMG, EOG, EEG, blood pressure, respiration flow/vital capacities are available for analysis
