ENSC 440/ENSC December
Shamsul Hoque (Sam) Chief Executive Officer Amir Najafzadeh Chief Financial Officer Zhouhao Cui (Joe) Chief Technical Officer Milad Moezzi Chief Marketing Officer 2
3 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
4 Environmental Considerations Project Specifics Lessons learnt Conclusion Resources Acknowledgements Questions Low Level System Details
5 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
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8 ACSR Wire SpliceFaulty Splice Splice in a Transmission Line
9 Dangers of a faulty Splice Loss of power and electricity transmission Live wire may fall on ground! May even cause electrocution and forest fires!!
10 A typical splice lasts about years. Why change it if there is no damage? After researching expensive not-so-effective existing solutions, we were looking for an alternative
11 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgardes
12 Zhuohao Cui (Joe) Hardware Design Software Implementation Research and Development Shamsul Hoque (Sam) Research and Development Quality Assurance Documentation
13 Amir Najafzadeh Research and Development Hardware Design Budgeting Milad Moezzi Marketing and Finances Hardware Design Troubleshooting
14 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
15 Efficient weekly meetings were held Each member was assigned tasks with specific deadlines Disagreements were overcome maturely Progress was monitored on a weekly basis
16 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
An alternating magnetic field is generated around a conducting wire Due to corrosion and other factors, as splices deteriorate, conducting wires slowly loose contact As strands start becoming inactive, a change in magnetic field intensity can be observed A Hall Effect Sensor or other sensors can be used to measure this alternating magnetic field intensity 17
18 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
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20 Operational Algorithm
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Control Unit Hall Effect Sensors Microcontroller Voltage Regulators Shifter Circuit Software 22
Hall Effect Sensors are able to measure magnetic field intensity directly in to mili volts (mV), once placed near a current conducting splice can measure a wide range of magnetic field strengths unlike other sensors 23 An actual size HE Sensor
Microcontroller Once input data has been collected by the Hall Effect Sensors, a Arduino Duemilanove board processes this data The board has a Atmel ATmega328 chip. It also has a built in analog to digital data converter 24 Arduino Duemilanove PIC board
Microcontroller There is a built in 32 kilo bytes (KB) flash memory, which is more than enough to store sufficient data for one scanning process. After each scanning process, stored data is reset. There is a dedicated software provided by the manufacturer free of cost which is related to this board 25 Arduino Duemilanove PIC board
Shifter Circuit Tests were carried out on a overhead cable. When only one strand was conducting current the output voltage was V When all the strands were conducting current the output voltage was V 26 Voltage Regulator circuit to provide a constant Vcc for a Shifter circuit
Shifter Circuit This provided a very small range of 60.7 mV to determine a splice’s health We need a shifter circuit to map the V range to 0-5V range We also need a voltage regulator to make sure the Op Amp receives constant voltage supply from the source 27 Shifter circuit calculations and results
User Interface Unit LCD This LCD does not require an additional power source to operate. It can be powered using the power from the microcontroller LEDs The green LED is used to show that data is within optimal range. The red LED is used to indicate data is out of range. The blue LED lights up when data is irrelevant or there is insufficient data. 28
29 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
Infrared Thermography Technique Use infrared cameras to detect hot spots. This process can detect hot spots to determine failures only at later stages of a splice’s life under certain conditions Wind flow and weather conditions can significantly impact test results 30
Resistance Measurement A properly installed splice has lower resistance than that of a similar length conductor. It should have a resistance of 30%-80% of the conductor; i.e., the ratio is Any splice with a ratio greater than 1.2 will heat up and show abnormality. Replacements should be made if the ratio goes over
X-Ray/Radiography Method Improper installation or misplaced splices can be a major cause of splice failures. But this is not an accurate indication of a failed splice as proper placement and alignment do not assure lifetime connection. It is a costly method to carry out 32
33 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
Power transmission cable companies Auto-Splice makers Power line maintenance companies Tie-line data management companies Between countries Between provinces and states Turbine cross-cables, induced machine cables
Cheap i.e $ Even cheaper if mass produced No other product with same accuracy and simplicity Accuracy- Rises as testing period decreases Simplicity- Simple to use, maintain Way cheaper, when compared with power losses and hazards associated
Reduces operation cost, from engineering, or high level positions to technicians As it takes few minutes for each connection point. Big savings on overall costs Very feasible
Thermal testing Costly Inefficient Hard to operate Node by Node Only operational when cable has already failed Power shut off Hard to test and replace in harsh climates
41 Motivation Team Members’ Roles Team Dynamics System Overview High Level System Design Alternative Solution Marketability Future Upgrades
Hall Effect Sensor Noise Reducing Circuit This is a very simple circuitry that might be used to reduce introduced noise. This circuit can be particularly useful where the data is irrelevant and can be filtered out. 42
Integrating Hot Stick and separating the user interface unit The ASCA device has multiple power sources. This gives the device added portability and a chance to power/operate the device from a laptop or an alternating power source. In future models, for instantaneous observations, the user interface unit can be separated and held in hand while the rest of the device is mounted on overhead wire. For this model to be produced, wiring needs to be incorporated with the hot stick. 43
44 Environmental Considerations Project Specifics Conclusion Resources Acknowledgements Questions Low Level System Details
Started On Time ? Meet The Deadlines ? The Outcome ?
What we paid for: Arduino Micro Controller$45 LEDs$3 LCD Display$17 Bread Board$21 Hall Effect Sensors$50 Regulators$1 Wireless Circuit$25 Battery$35 Electric Kettle$25 Transmission Cable$70 Total $292
Designed to be cheap Estimated Unit Price: $100
Programming micro-controller i.e. Arduino Applied C++ to coding and debugging LCD display coding and encoding Control of different components in the circuit, i.e. sensors, LEDs, LCD Timing, between the data captures and desired time
Arduino Duemilanova connections Sensors and regulators Shifting the voltage value to desired Single power source Concepts of load Isolation and cable preparation for testing
Mapping university studies with applied concepts and practices Management individual and team duties Deadline and what they mean in real world Keeping log book and journal for organization purposes Communitarian skills and team dynamics
Dr. John Bird Steve Whitmore Jason Lee RP Electronics Lee’s Electronics