I am an Engineering graduate of the University of Cambridge, having spent four years there and specialised in Electrical and Control Engineering (BA/MEng).

These days I work for a startup in Denmark as the lead electrical and control systems engineer!

I also spend a fair amount of time making educational engineering videos – check out my YouTube channel!

M.Eng. – University of Cambridge

Final Year Project: Self-Balancing Bicycle

Robust and Non-Linear Systems and Control: H-Infinity control, robust stability and performance, design of multi-variable systems, limit cycles, Lyapunov stability, LaSalle, describing functions, circle and Popov criteria, …

Optimal and Predictive Control: LQR control, H-2 control, H-infinity control, model predictive control, reinforcement learning, …

Control System Design: classical SISO loop-shaping, robustness, Nyquist, compensator design, …

Analogue Integrated Circuits: MOSFET differential amplifier design, biasing circuits, noise, …

Radio Frequency Systems: Network analysis, noise and distortion, impedance matching, amplifier design, RF system architecture, …

Embedded Systems: C programming, peripheral drivers, noise, performance, …

Electronic Sensors and Instrumentation:Temperature and strain sensors, precision measurements, electromagnetic devices, micro-fabricated sensors, ultrasonic transducers, …

Computer Vision: Image structure (edge detection, corner detection, …), projection (camera calibration, recovery of world position, …), stereo vision and structure from motion (epipolar geometry, recovery of depth, …), object detection and recognition (machine learning, CNNs, …), …

B.A. – University of Cambridge

Third Year Courses: Radio Frequency Electronics, Integrated Digital Electronics, Switch-Mode Electronics, Signals and Systems, Systems and Control, Statistical Signal Processing, Information Theory and Coding, Inference, Modelling Risk

Second Year Courses: Mechanics, Structures, Materials, Thermofluid Mechanics, Analysis of Circuits and Devices, Electrical Power, Electromagnetic Fields and Waves, Linear Systems and Control, Communications, Fourier Transforms & Signal and Data Analysis, Vector Calculus, Linear Algebra, Probability, Electives: Electrical and Information Engineering

First Year Courses: Mechanics, Mechanical Vibrations, Thermofluid Mechanics, Structures, Materials, Physical Principles of Electronics and Electromagnetics, Analysis of Circuits and Devices, Digital Circuits and Information Processing, Mathematics, Computing

17 Replies to “About”

  1. Hi there Philip.
    Many thanks for the youtube videos about the PCB process , they have been a great help and very interesting too . You explained a lot of the fiddly bits , some great tips and things to look out for too .
    Thank you again .


    1. Hi Karen, Thanks a lot. I’m very glad to hear that!


  2. Keep it up Philip! Nice projects so far, wish you a nice road ahead!


    1. Thank you, Mihai!


  3. Hey!

    Please do more hardware design related videos on YouTube. Your thought process is great!

    Watching from Punjab, India.


    1. Thank you – will do!


  4. Hi am building a replica of your UAV board “Hades” hope you release the next stage soon.
    Thank you so much.


  5. Gavin Andrews June 3, 2020 at 1:17 pm

    I really enjoyed reading your Self Balancing Bicycle Paper and watching the recent KiCad to JLPCB Video. Good stuff!


    1. Thank you, Gavin – really glad to hear that!


  6. Hi Philip,
    Great YouTube videos! Very educational. I just started to get back at electronics after a 30 year break. A lot has changed, in a good way. I am learning a lot of new things and I discover new possibilities every day. At this moment I am working on a project related to avionics in small aircraft. However, I think I am going out of depth here trying to connect the dots (sensors, displays etc).
    Would you be interested in joining the project or simply offer advise?


  7. Hi Philip

    Hope you are well in these somewhat COVID challenging times? I’ll add my voice here to all the thanks for the YouTube tutorials 🙂

    As I said with my comment to your tutorial: “KiCad STM32 Hardware Design and JLCPCB Assembly” this was invaluable in helping me get right through the process of design, to holding a JLCPCB in my hands. A small wish would be for JLCPCB to add more ‘standard’ components in their line up, something that I imagine will happen with time once the World gets past COVID.

    Other then saying “thanks”, the reason for this reach-out is to ask if you have any experience with relatively high power MOSFET design? My project is to (slowly) build a VESC ESC. The VESC forums often show trials and tribulations due to output ringing etc through less-than optimal MOSFET/Driver layout. Obviously issues I would rather avoid! Any thoughts or experience you could share would be very appreciated.

    Cheers, Brendan.


  8. Hi Philip
    Saw you PID video, very informative, we tried implementing integral windup by it. But somehow our PV(process variable) crosses SV(set_point) to high value, then return back. Reason we observed Integral_sum gets accumulated, takes long time to fall back actually.
    Can you help I can share entire code with you.
    Here is my email id:: vindhyachal.takniki@gmail.com


  9. Actually didnt saw your email id on page, if you can send Hi on mail, I can share all the details.


  10. Do you take commissions?


  11. HI.
    Hong Kong fans with CS background.
    I really like your video. I want to know more about electronic knowledge after watching your video. May I get your advice on choosing PCB developing tools?
    Fusion 360, EasyEDA, and KiCAD which is better for a newbie?


  12. Great stuff. I matriculated in Natural Sciences in 1967 so it is interesting to see what’s going on now. The videos on KiCad are especially welcome.


  13. I love the YouTube videos, and have started using some of them as a basis to do my own designs. Would you be able to include your GitHub link in your About page as well?


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