1 Executive Summary

2 References

3 Abbreviations

4 Introduction

5 MIoT RFFE Design

5.1 Overview
5.2 RFFE Design challenge
5.3 RFFE solution evolution
5.3.1 Discrete Solution
5.3.2 Integrated Solution
5.3.3 High Performance Low Voltage
5.3.4 System-in-Package
5.4 Conclusion

6 MIoT Chipset Requirements and Architecture

6.1 MIoT Technology Defined by 3GPP
6.1.1 Overview
6.1.2 MIoT Bands
6.1.3 MIoT UE Capability Summarization
6.1.4 Other Features Summarization
6.2 MIoT Solutions
6.2.1 Overview
6.2.2 Application Scenarios
6.2.3 Multi-Mode Solution for MIoT Device
6.3 MIoT Chipset Architecture
6.3.1 Overview
6.3.2 Chipset Architecture
6.3.3 SoC-wise Consideration
6.3.4 Battery Consideration
6.4 MIoT Chip Integration (SoC Design) Considerations
6.4.1 Overview
6.4.2 The Advantages of Chip Integration
6.4.3 Chip Integration Process
6.4.4 PA Integration Consideration
6.4.5 MIoT and WiFi/BT Coexistence
6.4.6 MIoT and GPS Coexistence

7 Optimized MIoT solution on low power

7.1 How is an MIoT Device Different from a Smartphone
7.2 Power Consumption Evaluation Methodology
7.2.1 Control Plane CIoT EPS Optimization Model
7.2.2 Tx, Rx and Idle Time Breakdown
7.2.3 Power Consumption Evaluation Methodology
7.3 Chip Process and Power Consumption
7.3.1 Ultra-Low Power Technology Definition
7.3.2 Ultra-Low-Power Processes
7.3.3 The Relationship between Process and Power Consumption
7.4 Power Consumption Consideration and Battery life Evaluation   
7.4.1 Power Consumption Consideration in System Design
7.4.2 Battery Selection and Power Supply Design
7.4.3 Memory Selection: PSRAM vs. DRAM
7.4.4 RFFE Design for Power Consumption Optimization

8 eUICC based implementation solution for MIoT devices

8.1 Overview
8.2 General Architecture
8.3 eUICC Remote Provisioning Implementation solution
8.3.1 Overview
8.3.2 eUICC Remote Provisioning Procedures
8.3.3 Bearer Independent Protocol

GTI MIoT Device Solution White Paper v3.1（clean）