R&D Equipment:
- Tektronix 11402A Digitizing Oscilloscope 4+2 channel amplifiers + One Differential Comparator
- Agilent 6621A System Power Supply
- Hewlett Packard 34401A Multimeter
- Fluke 43 Power Quality Analyzer
- McMahan Research Laboratories LightSpex Spectroradiometer & MRL LightSoft Plus R3
- Scanning Thermocouple Thermometer, 12 Channels, Barnant
Developing system for testing of PLC used for Tissue Culture Unit's control: Unitronics M-90 (PLC or Programmable Logic Controller).
This system has:
- IO-AI4-AO2: 4 PID Inputs (4-20mA - Proportional, Integral & Derivation)
- 2 TC (Thermo couple) Inputs
- IO-RO16: 16 Relays Outputs
- Universal Bread board for testing
- Humidity 4-20mA Sensor PID connected - Hewlett Packard
- Temperature 4-20mA Sensor PID connected - Hewlett Packard
My R&D Corner with:
- Tektronix 11402A Digitizing Oscilloscope 4+2 channel amplifiers + One Differential Comparator
- Agilent 6621A System Power Supply
- Hewlett Packard 34401A Multimeter
- Fluke 43 Power Quality Analyzer
- McMahan Research Laboratories LightSpex Spectroradiometer & MRL LightSoft Plus R3
- Scanning Thermocouple Thermometer, 12 Channels, Barnant
- Dell PC Processor Pentium 4, CPU 2.00GHz
Pictures Show one of Measurements in process (Set-up was for 400W High Pressure Sodium Lamp):
- Lamp's Light Spectrum and Light Intensity
- Ballast’s Electrical Power efficiency
- Calculation and writing a final report with diagrams
Picture shows testing of a new fibre-optic bundle, 9 legs system for the Hydra project.
I am measuring light intensity trough every single fibre end, than temperatures and finally ballast’s power.
Final calculation is giving efficiency of the fibre-optic bundle (quality).
For Debug and plot of data I have used:
- DasyLab V.7 software (see picture)
I have connected Unitronics M-90 (PLC-Programmable Logic Controller) and DasyLab acquisition program with OPC Server module.
My R&D Corner with:
- Tektronix 11402A Digitizing Oscilloscope 4+2 channel amplifiers + One Differential Comparator
- Agilent 6621A System Power Supply
- Hewlett Packard 34401A Multimeter
- Fluke 43 Power Quality Analyzer
- McMahan Research Laboratories LightSpex Spectroradiometer & MRL LightSoft Plus R3
- Scanning Thermocouple Thermometer, 12 Channels, Barnant
- Dell PC Processor Pentium 4, CPU 2.00GHz
Testing Chamber, updated for different type of measurements and testing:
- Retrofit Program (Fluorescent vs. HID & Fibre-optic System) - Testing
- Tissue Culture Unit Simulation (humidity and temperature, PID controlled by PLC hardware & software system)
Testing Chamber, updated for different type of measurements and testing:
- Retrofit Program (Fluorescent vs. HID & Fibre-optic System) - Testing of heat - pumping trough fibre optic conduits
- Tissue Culture Unit Simulation (humidity and temperature, PID controlled by PLC hardware & software system)
Click on Pictures to see more
My Optical, Mechanical & Electronics' Projects
Tektronix 11402A Digitizing Oscilloscope 4+2 channel amplifiers + One Differential Comparator
Hewlett Packard 34401A Multimeter
Fluke 43 Power Quality Analyzer
Developing system for testing of PLC used for Tissue Culture Unit's control: Unitronics M-90 (PLC or Programmable Logic Controller).
This system has:
- IO-AI4-AO2: 4 PID Inputs (4-20mA - Proportional, Integral & Derivation)
- 2 TC (Thermo couple) Inputs
- IO-RO16: 16 Relays Outputs
- Universal Bread board for testing
- Humidity 4-20mA Sensor PID connected - Hewlett Packard
- Temperature 4-20mA Sensor PID connected - Hewlett Packard
Empty Testing Chamber updated with the Thermo Climate Unlit, which I have designed some time ago.
Unit for work use "Heat Pumps" - Peltier Elements for:
- humidity control inside the chamber.
On the picture is visible "Hot Side" of device - heat sink with large fan.
Empty Testing Chamber updated with the Thermo Climate Unlit, which I have designed some time ago.
Unit for work use "Heat Pumps" - Peltier Elements for:
- humidity control inside the chamber.
On the picture is visible "Cold Side" of device - heat sinks.
Testing Chamber updated with the Thermo Climate Unlit, which I have designed some time ago.
Unit for work use "Heat Pumps" - Peltier Elements for temperature and humidity control inside the chamber.
On the picture is visible:
- "Hot Side" of device - heat sink with large fan,
- Power Supply for Heat Pumps
- Set of 4 Relies used for Reversible work of Heat Pumps
- Humidity 4-20mA Sensor PID connected - Hewlett Packard
- Temperature 4-20mA Sensor PID connected - Hewlett Packard
- Three Ballasts for Halogen Lamps (used as a heaters)
- Wire Harness for PLC - Chamber Control and Data acquisition
- Tested Hydra System with fibre optic conduits
Testing Chamber updated with the Thermo Climate Unlit, which I have designed some time ago.
Unit for work use "Heat Pumps" - Peltier Elements for temperature and humidity control inside the chamber.
On the picture is visible:
- "Hot Side" of device - heat sink with large fan,
- Power Supply for Heat Pumps
- Set of 4 Relies used for Reversible work of Heat Pumps
- Humidity 4-20mA Sensor PID connected - Hewlett Packard
- Temperature 4-20mA Sensor PID connected - Hewlett Packard
- Three Ballasts for Halogen Lamps (used as a heaters)
- Wire Harness for PLC - Chamber Control and Data acquisition
- Tested Hydra System with fibre optic conduits
Testing Chamber updated with the Thermo Climate Unlit, which I have designed some time ago.
Unit for work use "Heat Pumps" - Peltier Elements for temperature and humidity control inside the chamber.
On the picture is visible:
- "Hot Side" of device - heat sink with large fan,
- Power Supply for Heat Pumps
- Set of 4 Relies used for Reversible work of Heat Pumps
- Humidity 4-20mA Sensor PID connected - Hewlett Packard
- Temperature 4-20mA Sensor PID connected - Hewlett Packard
- Three Ballasts for Halogen Lamps (used as a heaters)
- Wire Harness for PLC - Chamber Control and Data acquisition
- Tested Hydra System with fibre optic conduits
Set of 4 Relies used for Reversible work of Heat Pumps
