MICRO DEGREE
Embedded Hardware Design
Embedded Hardware Designer
100% LIVE Interactive Classes
Embedded Hardware Designer
100% LIVE Interactive Classes
Reserve your spot today!
Basic Info
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Application closes on:07 May 2026
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What is in it for you?
100% Live Classes
Instructor-led Live Sessions
Attend 4 weeks of instructor led live classes from the top 1% industry experts
Projects & Case Studies
Projects & Case Studies
Gain hands-on experience with projects and real-world case studies for impactful learning.
Verified Certificate
Verified Certificate
Earn a industry recognized certificate and kick start your career
Session Recordings
Session Recordings
Revisit older chapters anytime with recorded sessions
Flexible Schedule
Flexible Schedule
Choose live classes from different cohorts that fit your availability.
Hands-on Classes
Hands-on Classes
Hands-on classes to enhance your learning experience
100% Moneyback Guarantee
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Reserve your spot today!
Basic Info
Select Offers
Application closes on:07 May 2026
Get instant access of pre-course material!
Talk to Us
We’re here to help! Reach us at:
Learn from Top 1%
Sr. Managers, VPs, CXOs, Directors & Founders from companies shaping the future.
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Available in 4 monthly installments at $169/month
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Curriculum
Duration: 6 weeks
Max Batch Size: 15 persons
Live Sessions Schedule 
Sat - Sun (Weekends Only) 
Timing 7:00 AM - 9:00 AM / 8:30 AM - 10:30 AM / 11:00 AM - 1:00 PM / 5:00 PM - 7:00 PM / 7:30 PM - 9:30 PM EST
- Real-world embedded system examples and design flow
- Role of hardware in system performance
- Balancing hardware-software partitioning
- Common hardware design challenges and mitigation
- Embedded design lifecycle: prototype to product
- Key design documentation and version control practices
- ARM architecture overview and evolution
- Internal blocks: CPU, memory, peripherals
- Clocking systems and power domains
- Interrupt systems and priority handling
- Comparison of MCU, MPU, and SoC
- Selecting the right controller for application
- Hardware design workflow and documentation
- Schematic capture best practices
- Component libraries and symbol management
- Design rule checks and validation
- Version control in hardware design (Git, Altium Concord)
- Industry tools overview – Altium, OrCAD, KiCad, etc.
- Serial communication (UART, SPI, I2C) – practical debugging
- Parallel interfaces and timing
- USB, CAN, LIN, and industrial buses
- Ethernet and wireless communication hardware
- Signal integrity in high-speed interfaces
- Testing and validating communication interfaces
- Power supply topologies (LDOs, DC-DC converters)
- Power sequencing and distribution design
- Noise, ripple, and efficiency optimization
- Battery-powered system design considerations
- Grounding, decoupling, and EMI control
- Thermal considerations and component derating
- Oscillators, crystals, and clock sources
- PLLs and clock tree design
- Signal skew, jitter, and synchronization
- Design for timing reliability
- Clock domain crossing strategies
- Practical troubleshooting of clock-related issues
- Breadboard vs. PCB prototype strategy
- Using logic analyzers, oscilloscopes, and multimeters
- Power-on debugging and hardware bring-up
- Boundary scan and test point planning
- Common hardware debugging pitfalls
- Hardware–firmware integration testing
- Design flow from schematic to layout
- Component placement for signal and thermal optimization
- Power and ground plane design
- Trace routing for high-speed and mixed-signal designs
- Impedance control and differential pair routing
- Design for manufacturability (DFM) and assembly
- Design verification and validation strategy
- Functional and environmental testing (ESD, thermal)
- Signal integrity and EMC compliance
- HALT/HASS and accelerated life testing
- Debugging manufacturing defects (rework, soldering)
- Documentation for certification (CE, FCC, ISO)
- From prototype to production: scaling challenges
- Cost optimization through design iteration
- Component lifecycle and obsolescence management
- Vendor selection and supply chain coordination
- Preparing design for compliance audits
- Case studies: real-world embedded hardware projects
Mentors
20+ Years, Sr. R&D Engineer, Ideaforge
CTO SoftCircuits, 13+ Years, Ex-CDOT Research
Course Includes
LIVE Interactive Sessions
Quizzes, Assignments & Projects
Study Materials & Session Recordings
Certificate
Tools Covered
Course Includes
LIVE Interactive Sessions
Quizzes, Assignments & Projects
Study Materials & Session Recordings
Certificate
Course Pre-requisites
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Basic understanding of electronics and digital logic- Familiarity with C/C++ programming
- Fundamental knowledge of circuit analysis and Ohm's Law
Outcomes
- Design embedded hardware systems including microcontroller selection and schematic capture
- Implement communication interfaces (SPI, I2C, UART, CAN) for sensor and peripheral integration
- Design power supply circuits and battery management systems for embedded applications
- Apply PCB layout and design principles for reliable and manufacturable embedded boards
- Develop firmware for microcontrollers using C/C++ and real-time operating systems (RTOS)
- Analyse and select appropriate ARM Cortex-M microcontroller architectures for specific applications
- Test and debug embedded hardware using oscilloscopes, logic analyzers, and JTAG debugging tools
- Build complete embedded system prototypes from schematic design through PCB fabrication and assembly
Projects You Will Build
Practical, enterprise-grade projects that reflect real industry challenges
Smart Home Sensor Hub
Design a multi-sensor hub based on an ARM Cortex-M microcontroller that integrates temperature, humidity, and motion sensors via I2C and SPI interfaces. Create the full schematic, PCB layout, and power management circuitry optimized for low-power battery operation. Implement firmware to collect sensor data and transmit it over UART to a host system.
Industrial Motor Controller Board
Develop a custom PCB for controlling industrial DC motors with real-time feedback using CAN bus communication. Design the power supply regulation stage, gate driver circuitry, and microcontroller interface while applying PCB design best practices for EMI mitigation. Test and debug the board using oscilloscopes, logic analyzers, and JTAG tools.
IoT Environmental Monitor
Build an IoT-ready embedded device that monitors environmental conditions and communicates data wirelessly. Design the hardware from component selection through PCB fabrication, incorporating efficient power management for solar or battery-powered deployment. Integrate multiple peripheral interfaces and validate the design through systematic hardware debugging and testing.
for successfully completing the 'Embedded Hardware Design' course conducted from 25 Mar 2026 to 06 May 2026
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Opportunities
Attract exciting job prospects and promotions
for successfully completing the 'Embedded Hardware Design' course conducted from 25 Mar 2026 to 06 May 2026
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Looking for help? Here are our most frequently asked questions
What is a EdYoda Micro Degree?
EdYoda Micro Degree is an online, Live classroom based short-term course, where you get Live Sessions conducted by industry experts. It is designed to help you acquire practical & job-relevant skills quickly.
How do I register for the micro degree?
To register, visit the micro degree details page and fill up the registration form and make the payment to reserve your seat before the application closing date.
What happens after I register and pay?
After successful registration and payment, you will receive a confirmation email with instructions on how to access the online micro degree classes
Are there any pre-requisites?
All you need is a PC or Laptop to attend the online live classes and your commitment of 4 weeks. Apart from that there are no prerequisite for the Micro Degree.
What if I miss a live session?
We've got you covered! The session recording will be added automatically on the classroom platform after the session is ended.
Will I get a certificate after completion?
Yes. After successful completion of curriculum you will be provided a digital certificate which you can download and share with others.
What is a EdYoda Micro Degree?
EdYoda Micro Degree is an online, Live classroom based short-term course, where you get Live Sessions conducted by industry experts. It is designed to help you acquire practical & job-relevant skills quickly.
How do I register for the micro degree?
To register, visit the micro degree details page and fill up the registration form and make the payment to reserve your seat before the application closing date.
What happens after I register and pay?
After successful registration and payment, you will receive a confirmation email with instructions on how to access the online micro degree classes
Are there any pre-requisites?
All you need is a PC or Laptop to attend the online live classes and your commitment of 4 weeks. Apart from that there are no prerequisite for the Micro Degree.
What if I miss a live session?
We've got you covered! The session recording will be added automatically on the classroom platform after the session is ended.
Will I get a certificate after completion?
Yes. After successful completion of curriculum you will be provided a digital certificate which you can download and share with others.
General FAQs
Everything you need to know
