Maximize Battery Life in Cellular and LPWAN IoT Deployments скачать в хорошем качестве

Maximize Battery Life in Cellular and LPWAN IoT Deployments

Watch this webinar to explore the battery-operated IoT device ecosystem. Discover how power consumption optimization is a cornerstone of prolonged, reliable field operation. Request a developer kit: https://www.telit.com/nb-iot/ Optimizing power consumption for battery-operated Internet of Things (IoT) devices is pivotal to ensure scalability and viability. Use cases that require prolonged, uninterrupted functioning in the field include:   → Smart meters  → Various smart city applications  → Asset tracking solutions  Such devices are often deployed for a decade or more. They require long battery life to prevent frequent battery replacements and maintenance.   Cellular IoT technologies like NB-IoT and LTE-M are top choices for global network coverage and maturity. Moreover, embedded SIM (eSIM) technology advancements facilitate secure deployment and remote provisioning. These technologies cater to the prolonged lifespan that IoT deployments need.  Low-power wide-area network (LPWAN) technologies are optimal for power-constrained IoT applications. They balance power efficiency and extended coverage, facilitating connectivity in remote or subterranean environments.   Selecting the right hardware and software ensures sustained operations in diverse environments. Partnering with solution providers that offer quality manufacturing and support packages fortifies IoT deployment longevity and reliability.  Join us for a webinar to learn how to improve battery performance in IoT systems using cellular and LPWAN IoT technologies with smart design and power control. You will learn: → How to extend the life of your IoT devices and increase their efficiency  → The importance of embracing cellular and LPWAN technologies   → How to implement robust power management strategies   00:00 Introduction: Battery Efficiency for Cellular and LPWAN IoT 01:21 Project Planning: Power-Saving Requirements and Design Process 04:03 Key Hardware Considerations for Low-Power IoT Devices 06:40 Using Dev Boards to Validate IoT Power Efficiency 08:30 Software Requirements: Frequency, Payload and Wake-Up Strategies 13:00 Understanding Power States: Idle, eDRX, PSM and Suspend Modes 18:56 Protocol Choices and Their Impact on IoT Energy Use 26:42 Measuring Real-World Energy Consumption: Cat M vs. NB-IoT 36:12 Energy Optimization Techniques: Release Assistance Indicator and Modem Sleep Cycles 47:55 Hardware Strategies: Battery Selection and Power Circuit Design ▶ What Is Cellular LPWAN?:    • What Is Cellular LPWAN?   ▶ Designing Your LTE Devices for Maximum Battery Life:     • Designing Your LTE Devices for Maximum Bat...   ▶ How to Reduce Power Consumption and Develop Applications for IoT Deployments:     • How to Reduce Power Consumption and Develo...   Read our blog and white paper to learn more about extending battery life for IoT devices:  → What Is Cellular LPWAN, and How Is It Used in IoT?:  https://www.telit.com/blog/what-is-ce... → Designing Cellular IoT Devices for Battery Life: https://www.telit.com/resources/white... Learn more about our cellular IoT modules and their applications:  → Cellular LPWA and Mobile IoT Modules: https://www.telit.com/modules-overvie... → Enabling IoT Solutions for Smart Cities: https://www.telit.com/smart-cities-tr... → Telematics and Transportation IoT Solutions: https://www.telit.com/telematics-tran... For more webinars, subscribe to our YouTube channel! https://www.youtube.com/c/telit?sub_c... Follow us:   → LinkedIn:   / 269797    → Facebook:   / 136885348490     → X: https://x.com/telitcinterion    #nbiot  #lpwan  #cellulariot