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Monolithic Power Systems | MPS @UCqOx8jWRKEq4TpfcjCz0Isw@youtube.com

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We, Monolithic Power Systems (MPS), make power design fun! W


03:01
Why EMI Is Important
03:57
Approach to EMC Testing
01:56
The Cutting Edge of EMC Labs
05:49
Types of EMC Chambers and Testing
02:47
Intro to EMI Testing
42:08
EMC Labs: EMI Testing and Key Principles
01:59
Integrated PMIC for Power Backup in PLC Modules: MP5493
02:03
Advanced WLED Driver for LCD Backlighting and VR Applications: MP3314
01:31
Ultra-Compact, AEC-Q100 Qualified Synchronous Step-Down Converter: MPQ4323 Series
04:53
The Evolution of Automotive SoCs
01:43
Generations of Power Management Experience
03:49
Engineering and Design Support
04:16
Benefits of Digital Solutions
02:38
Solving Challenges in Core Power Applications
01:41
Automotive Computing Architecture
02:13
Market Trends Driving Demand for Automotive SoCs
02:51
Powering SoCs in Automotive Applications
23:24
MPS Driving Innovation in Automotive SoCs
02:09
Why Automotive Requires High-Power, High-Current Solutions
01:34
How ZDP Enables Smaller Solutions
05:42
ZDP Offers Speed, Efficiency, and Flexibility
01:13
Why We Need a New Control Topology
02:38
How Peak Current Mode Control Works
01:00
Advantages of Peak Current Mode Control
01:23
Zero-Delay PWM (ZDP) Control for Automotive
15:43
Zero-Delay PWM (ZDP): How It Works, Advantages, and Applications
42:55
Key Considerations when Designing Battery Management Systems
02:00
Highly Integrated Stepper Motor Driver: MP6602
01:51
MPS Isolation Solutions in High-Power and Electrification Systems Enable a Greener Future
02:06
How to Accurately Measure Battery Pack SOC
04:17
Advantages of Monolithic DrMOS Power Stages in Automotive SoCs
02:20
5A, Single-Cell NVDC Buck Charger with Integrated USB Type-C DRP Detection: MP2722
06:11
Automotive Lighting Design Using Adaptive Feedback Control
01:02:39
Optical Encoder Replacement
05:24
First Magnetic Design/Potential Difficulties
03:11
Cost Discussion
04:09
Reliability Comparison: Optical vs. Magnetic Sensing
04:43
Limitations of Magnetic Sensing: Where Will Optical Encoders Continue To Be Used?
05:52
Tradeoff between Resolution and Dynamic Bandwidth
07:45
How Precision and Resolution are Represented
04:28
Magnetic Sensing Technologies Comparison
02:21
Types of Encoders
10:14
Comparing Optical vs. Magnetic Encoders
47:17
Optical Encoders vs. Magnetic Sensors
01:56
Precision, Programmable Magnetic Angle Sensor: MA600
02:27
What Is Quiescent Current?
55:46
Understanding Motor Drivers Thermal Management
02:03
Triple-Output AMOLED Display Power Supply: MP5611
03:46
Built-In Soft Start & Cost Savings
03:16
Enabling Mixed-Model Technology
04:45
MPS Fuel Gauges Make Calibration Unnecessary
02:20
Benefits of an Accurate Cell Model
05:53
Key Battery Parameters
02:27
How MPS Fuel Gauges Handle Errors
05:24
SOC vs. Analog Front End (AFE) Accuracy
03:36
MPS Fuel Gauges Improve Safety
07:53
Cell Balancing Deep Dive
05:27
State-of-Charge Estimation Methods
07:59
Traditional Fuel Gauge Methods
02:57
Introduction to BMS