STM32 : Internet Of Things with 4G LTE Modem

"If you want to learn hardware designing then think about taking this course, I promise, you will never be disappointed"

Note : This course is designed for electronics enthusiast and also for the advanced audience, please check course content before subscribing to this course. I can assure you, you will never regret spending your valuable money on this course.

This course is not just a PCB Design course but it's a complete hardware design course and covers all the aspects of hardware design which a hardware Designer has to go through in his professional life. The purpose of this course to develop a sense of hardware based product design in the student. All sections of this course is structured in following manner.

Introduction to section
Datasheet explanation
Circuit design explanation
Components selection
Schematic design
Layout Design
Complete soldering process
Testing, Troubleshooting & Demonstration
Mistakes to avoid

We created this course because we believe that, its important how much knowledge you have but even more important thing is at what age you have it. Normally it takes time to develop skills in hardware and in this course we are sharing our experience and giving you a right approach to develop your skills in hardware designing. Which will help you to avoid mistakes and gain more knowledge in less time.

A quote that we want to share with you

"Learn from other peoples mistakes

Life is too short to make them all yourself"

- Sam Levenson

Our Promise.

One thing that we can promise you is this course is going to save your lot of time to learn hardware designing. I will personally answer your questions about this course . If you are in any way not satisfied, for any reason, you can get a full refund from Udemy within 30 days with no questions asked. But we am confident you won't need to. We stand behind this course 100% and we are committed to helping you.

This course is an application oriented course that teaches hardware designing considering a 4G GSM Modem based IOT application. The hardware is based on Microcontroller from worlds leading semiconductor manufacturer "ST Microelectronics" & 4G LTE Modem from "SIMCOM". Both STM32 Microcontroller & SIMCOM Modem are most widely used for industrial IOT based application.

This course is mainly divided in three sections and covers the detailed procedure in their respective sections. For that you can check the course content.

Power Supply Section
- Switch Mode Power Supply
- Li-Ion Battery Charger
- Low Dropout Regulator (LDO)
STM32 Microcontroller Section
4G LTE Modem Section
- Modem Power Supply Design
- Modem ON/OFF mechanism
- Modem UART Interface
- Modem USB 2.0 Interface
- Modem USIM Interface
- Modem SD Card Interface
- Modem Network & Status
- Modem Antenna : Mains & Diversity
- Modem Antenna : GNSS
- Modem DFU (Device Firmware Upgrade)

"If you want to learn hardware designing then think about taking this course, I promise, you will never be disappointed"

What's inside

Learning objectives

Industrial iot hardware design, electronics circuit design, eagle pcb design, hardware development process
Interface design & layout : stm32 mcu, 4g lte gsm, usb 2.0, sd card, sim card, antenna design (gsm & gnss), smps, ldo, li-ion battery charger, usb2uart
Detailed circuit design process, component selection, soldering, testing & troubleshooting using dso, practical demonstration
How to convert customer requirement into a hardware based product
Detailed power supply design process : smps, li-ion battery charger, ldo
Detailed hardware design process : stm32 microcontroller
Detailed hardware design process : simcom 4g lte gsm modem
Details components selection process : power supply, microcontroller & 4g lte modem block

Layout design process : layout guidelines, components placement planning, layout design
Layout guideline and components selection process for esd & emi suppression
Manufacturing : understanding gerber data, stencil files
Detailed soldering process : solder paste, hot air gun, reflow profile, digital microscope
Testing & troubleshooting with digital oscilloscope, lab bench power supply & dmm
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Industrial iot hardware design, electronics circuit design, eagle pcb design, hardware development process
Interface design & layout : stm32 mcu, 4g lte gsm, usb 2.0, sd card, sim card, antenna design (gsm & gnss), smps, ldo, li-ion battery charger, usb2uart
Detailed circuit design process, component selection, soldering, testing & troubleshooting using dso, practical demonstration
How to convert customer requirement into a hardware based product
Detailed power supply design process : smps, li-ion battery charger, ldo
Detailed hardware design process : stm32 microcontroller
Detailed hardware design process : simcom 4g lte gsm modem
Details components selection process : power supply, microcontroller & 4g lte modem block
Layout design process : layout guidelines, components placement planning, layout design
Layout guideline and components selection process for esd & emi suppression
Manufacturing : understanding gerber data, stencil files
Detailed soldering process : solder paste, hot air gun, reflow profile, digital microscope
Testing & troubleshooting with digital oscilloscope, lab bench power supply & dmm
Show more
Show less

Syllabus

Note & Information

About Instructor

Warning

Important Note

Career center

Learners who complete STM32 : Internet Of Things with 4G LTE Modem - Hardware will develop knowledge and skills that may be useful to these careers:

Internet Of Things Hardware Engineer

An Internet Of Things Hardware Engineer designs and develops the physical components of connected devices, ensuring reliable communication and functionality. This course is perfectly aligned for an Internet Of Things Hardware Engineer, as its name explicitly states "Internet Of Things with 4G LTE Modem - Hardware." It focuses on "Industrial IOT Hardware Design," utilizing widely adopted components like the "STM32 Microcontroller" and "4G LTE Modem from SIMCOM" for industrial applications. The curriculum covers the entire hardware development process: "circuit design explanation," "component selection," "schematic design," "layout design," and "testing, troubleshooting & demonstration." Learners gain specific expertise in "Power Supply Section" design, various "Modem Interface" designs, and "Antenna design" (GSM & GNSS). This comprehensive training helps individuals master the specific hardware challenges of IoT product development.

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Hardware Design Engineer

A Hardware Design Engineer conceptualizes, designs, and validates electronic systems from initial circuit creation to final product testing. This "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course directly builds skills essential for a Hardware Design Engineer. It offers a "complete hardware design course," covering "circuit design explanation," "component selection," "schematic design," and "layout design" using Eagle. Learners gain practical experience in "Industrial IOT Hardware Design," integrating "STM32 Microcontroller" and "4G LTE Modem" for connected applications. The curriculum details converting "customer requirement into a hardware based product" and includes practical "testing, troubleshooting & demonstration" with a "digital oscilloscope." It also develops expertise in detailed power supply design, interface designs, antenna design, ESD/EMI suppression, and manufacturing considerations. This training helps individuals successfully design and refine electronic products.

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Embedded Systems Engineer

An Embedded Systems Engineer integrates hardware and software to create specialized computing systems, often for specific functions within larger products. While this course focuses on hardware, a deep understanding of the underlying electronics is paramount for an Embedded Systems Engineer. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course provides practical experience in "Industrial IOT Hardware Design," specifically with the "STM32 Microcontroller" and "4G LTE Modem." It covers critical aspects like "interface design & layout" for USB, SD, and SIM cards, and antenna design. The course details "circuit design explanation," "component selection," "schematic design," "layout design," and "testing, troubleshooting & demonstration" of hardware systems. This detailed knowledge of hardware development, from power supply design to manufacturing considerations, helps to create robust embedded solutions, ensuring effective integration and reliable performance.

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Research And Development Engineer Hardware

A Research And Development Engineer Hardware explores new technologies and designs innovative electronic products from concept to prototype. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course is exceptionally well-suited for an aspiring Research And Development Engineer Hardware, as it centers on "hardware based product design." It provides a structured approach to "developing a sense of hardware based product design," guiding learners from understanding "customer requirement into a hardware based product" through to "testing, troubleshooting & demonstration." The course offers extensive coverage of "Detailed Circuit Design Process," "Component Selection," and "Hardware Development Process," applied specifically to "Industrial IOT Hardware Design" using "STM32 Microcontroller" and "4G LTE Modem." This holistic approach to developing new electronic systems empowers individuals to innovate and solve complex technical challenges.

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Electronics Design Engineer

An Electronics Design Engineer is responsible for designing, developing, and testing electronic circuits and systems for various applications. This "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course provides an excellent foundation for an Electronics Design Engineer by comprehensively covering the "complete hardware design course" lifecycle. It delineates "circuit design explanation," "component selection," "schematic design," and "layout design" using tools like Eagle. The course integrates practical application through "Industrial IOT Hardware Design," featuring "STM32 Microcontroller" and "4G LTE Modem." Learners specifically benefit from detailed sections on "Power Supply design process" (SMPS, LDO, Li-Ion charger), "Interface design & Layout," and "ESD & EMI suppression." The emphasis on "testing, troubleshooting & demonstration" with a digital oscilloscope ensures a practical skill set, crucial for developing robust and reliable electronic products.

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Printed Circuit Board Design Engineer

A Printed Circuit Board Design Engineer specializes in translating electronic schematics into physical circuit board layouts suitable for manufacturing. This "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course is highly relevant for a Printed Circuit Board Design Engineer, as it features "Eagle PCB Design" prominently within its "complete hardware design course." The course dedicates significant attention to "Layout Design Process," including "Layout guidelines," "Components placement planning," and the actual "Layout Design." Learners will understand how to design specific modem interfaces, and implement robust power supply sections, directly influencing PCB complexity and performance. Furthermore, it covers "Layout Guideline and components selection process for ESD & EMI suppression" and "Manufacturing: Understanding Gerber data, Stencil files," which are all critical skills for optimizing board manufacturability and electrical performance.

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Systems Engineer Hardware

A Systems Engineer Hardware defines, designs, and integrates complex hardware systems, ensuring all components work together to meet overall product requirements. This role typically requires an advanced degree. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course is highly beneficial for a Systems Engineer Hardware, as it fosters a holistic understanding of "hardware based product design." It covers the end-to-end process of converting "customer requirement into a hardware based product," emphasizing the integration of various subsystems like "Power Supply Section," "STM32 Microcontroller Section," and "4G LTE Modem Section." The course details "interface design & layout" for critical components, "layout guidelines" for ESD/EMI, and practical "testing, troubleshooting & demonstration." This comprehensive view of hardware development is crucial for architecting robust and integrated electronic systems.

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Industrial Control Systems Engineer

An Industrial Control Systems Engineer designs, implements, and maintains control systems for industrial processes, often integrating hardware and software for automation. This "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course is highly relevant for an Industrial Control Systems Engineer, directly addressing "Industrial IOT Hardware Design." It focuses on components like the "STM32 Microcontroller" and "SIMCOM 4G LTE Modem," explicitly stating they are "most widely used for industrial IOT based application." The course covers the complete "hardware development process," including "detailed circuit design process," "component selection," "schematic design," and "layout design" for robust industrial solutions. Understanding power supply design, modem interfaces, and "testing, troubleshooting & demonstration" skills developed in the course are vital for creating reliable and connected control systems in industrial environments.

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Test Engineer Electronics

A Test Engineer Electronics designs and implements procedures to verify the functionality, performance, and reliability of electronic hardware. This "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course significantly aids an aspiring Test Engineer Electronics by integrating a comprehensive "Testing, Troubleshooting & Demonstration" section. Learners gain hands-on experience utilizing essential lab equipment such as a "Digital Oscilloscope," "Lab Bench Power Supply," and "DMM" for practical fault isolation. The course provides insights into "Mistakes to avoid" during hardware development, which is crucial for anticipating and diagnosing product issues. By understanding the entire "hardware development process," from "circuit design explanation" and "layout design" of power supplies, microcontrollers, and IoT modems, individuals are better equipped to develop effective test plans and efficiently resolve complex hardware malfunctions in diverse electronic systems.

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Applications Engineer Hardware

An Applications Engineer Hardware provides technical expertise and support to customers, helping them integrate and troubleshoot complex semiconductor components or modules into their designs. This "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course provides an excellent technical grounding for an Applications Engineer Hardware. It covers the "Detailed hardware design process" for "STM32 Microcontroller" and "SIMCOM 4G LTE GSM Modem," both widely used in industrial applications. Learners gain in-depth understanding of "Datasheet explanation," "Circuit design explanation," "Components selection," and "Interface design & Layout" for essential functionalities like USB, SD card, SIM, and Antenna. The practical focus on "Testing, Troubleshooting & Demonstration" is invaluable for diagnosing customer issues and providing effective solutions, making this course highly relevant for technical support and design guidance roles.

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Power Electronics Engineer

A Power Electronics Engineer specializes in the design, development, and control of electronic circuits for efficient power conversion and management. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course provides a highly valuable foundation for a Power Electronics Engineer, as it includes a dedicated and detailed "Power Supply Section." This section specifically covers "Switch Mode Power Supply," "Li-Ion Battery Charger," and "Low Dropout Regulator (LDO)." Learners will delve into "detailed Power Supply design process," including "how to select SMPS IC," "understanding SMPS IC circuit," "selecting components," and "SMPS Schematic Design." Furthermore, the course addresses "layout design" for these power circuits and "protection circuit for power supply," all essential for designing reliable power solutions in industrial IoT applications and beyond.

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Automation Engineer Hardware

An Automation Engineer Hardware designs and integrates the physical electronic components and systems that enable automated processes and machinery. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course is relevant for an Automation Engineer Hardware, as it provides strong foundational skills in embedded hardware design crucial for automation. It focuses on "Industrial IOT Hardware Design," using "STM32 Microcontroller" and a "4G LTE Modem," which are essential for connected automation solutions. The course covers "detailed circuit design process," "component selection," "schematic design," and "layout design," along with "detailed power supply design process" and "interface design & layout." Moreover, the practical "testing, troubleshooting & demonstration" skills developed are vital for implementing and maintaining reliable automated systems, ensuring robust and efficient operation in industrial settings.

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Manufacturing Engineer Electronics

A Manufacturing Engineer Electronics optimizes the production processes for electronic products, ensuring efficiency, quality, and cost-effectiveness. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course offers relevant insights for a Manufacturing Engineer Electronics, particularly in its practical sections. It covers "Manufacturing: Understanding Gerber data, Stencil files," which are fundamental for Printed Circuit Board fabrication and assembly. The course also details a "Complete soldering process," including proper use of "solder paste," "hot air gun," "reflow profile," and "digital microscope." By understanding the detailed "Layout Design Process" and "Components placement planning," learners can identify potential manufacturing challenges early. This knowledge helps improve assembly yields, reduce defects, and streamline production workflows for complex electronic devices like industrial IoT hardware.

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Quality Assurance Engineer Electronics

A Quality Assurance Engineer Electronics develops and executes tests to ensure electronic products meet design specifications, reliability standards, and regulatory requirements. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course may be useful for a Quality Assurance Engineer Electronics by providing a thorough understanding of the entire hardware development lifecycle. It covers "detailed circuit design process," "component selection," "layout guidelines," and crucial aspects like "ESD & EMI suppression." The course's emphasis on "Testing, Troubleshooting & Demonstration" using a "digital oscilloscope" and identifying "Mistakes to avoid" during hardware design is particularly valuable. Understanding how hardware is designed, manufactured, and tested enables a Quality Assurance Engineer Electronics to develop more effective test plans, identify potential failure points, and ensure the overall robustness and compliance of electronic products.

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Firmware Engineer

A Firmware Engineer develops the low-level software that runs directly on hardware, often microcontrollers, enabling them to control specific functions. While this course focuses on hardware, a deep understanding of the underlying electronics is exceptionally helpful for a Firmware Engineer. The "STM32 : Internet Of Things with 4G LTE Modem - Hardware" course offers detailed insights into the "STM32 Microcontroller" and "4G LTE Modem from SIMCOM," components frequently used in industrial IoT applications. It covers "interface design & layout" for elements like USB, SD card, and SIM card, along with "Modem UART Interface" and "Modem DFU (Device Firmware Upgrade)." Understanding the "circuit design explanation," "component selection," and "hardware development process" can significantly aid in writing efficient firmware, debugging hardware-software interactions, and optimizing system performance.

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