Qoitech Resources & Support
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Resources
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Technical Articles
- A Guide to IoT Battery Selection
- AAA Battery Performance Testing with Otii
- Analyzing the Energy Consumption of CPython
- Automatic Switch Between Debugger and Power Measurements
- Battery Passivation: Saft LS14500 Case Study
- Can I Power My Device with an Energy Harvester?
- Choosing the Right Battery for IoT Devices
- Embedded Power Testing with a Compact and Scalable Setup
- Evaluating Energy Storage for Your Solar IoT Device
- Exploring Strategies for LPWAN Battery Life
- Feature Graphic Assets
- Feature Spotlight: Battery Validation with Otii
- Functional Testing with Raspberry Pi and Otii
- GPIO Examples for Power Measurements on Otii Arc and Ace
- Harnessing Light Energy for Embedded and IoT Devices
- How Accurate is Your Current Measurement?
- How Much Battery Capacity is Actually Used?
- How to Emulate Battery Charging with Otii Ace
- How to Leverage Debug UART Logs for Power Profiling
- Impact of Sleep Time on Lithium Thionyl Chloride Performance
- Improving Cellular Power Efficiency
- Introduction to Automated Power Testing
- IoT Solar Panel Performance Assessment
- Maximizing IoT Battery Performance in LPWAN Devices
- Measuring LTE Power Save Modes on Nordic nRF9151 DK
- New API Makes Battery Emulation Easy for IoT Devices
- New Documentation Release for Otii Product Suite
- New Release: Otii Software 3.6
- Optimizing Battery Performance in LPWAN IoT Devices
- Otii as a Smart Lab Power Supply
- Otii Product Suite Availability in India via Nihon Denkei
- Otii Toolboxes Available via Mouser Electronics
- Performance of LTE Power Save Modes on Nordic’s nRF9151 DK
- Picking the Right Battery for Your IoT Device
- Potato vs. Grapefruit: Which Makes the Best Battery?
- Power Automation using C#
- Power Efficiency in Regression Testing for Embedded Systems
- Power Measurement Automation using Python and Otii
- Qoitech at Embedded World 2023
- Qoitech Blog: Power Optimization Insights
- Qoitech on The Amp Hour Podcast
- Rethinking Low Power Testing: Why We Built Otii
- Shared License Pool for Low Power Test Automation
- The Hidden Cost of IoT: Why Battery Life Must Be a Top Priority
- The Impact of Temperature on IoT Battery Life
- The Limits of Battery Datasheets in IoT Development
- Understanding Ampere-Hours vs. Watt-Hours
- Understanding the Otii License Model
- Using P-FET for Reverse Voltage Protection
- Using Solar Cells to Power Your Embedded Device
- Using the Otii Offline License
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Use Cases
- Ampere Meter Mode Measurements
- Automated Measurement of PMIC Efficiency
- Automation with Scripting
- Battery Cycling and Performance Validation
- Battery Emulation
- Battery Profiling
- Configuring a 2-Channel Power Supply
- Differential Measurements
- Importing External Logs into Otii Projects using Python
- Overview of Use Cases
- Photovoltaic (PV) and Energy Storage Evaluation
- Photovoltaic (PV) and Energy Storage Stress Testing
- Power and Current Profiling
- Power Profiling with AT Commands using Otii
- Power Profiling with Raspberry Pi
- Subsystem Testing
- Syncing UART Logs with Power Measurements
- Understanding and Testing Battery Passivation
- Using Otii as a Logic Analyzer