Microchip Contact Details
Andrés Muñoz
Senior Product Marketing Manager, MPU32 Metering
Microchip Technology
Email - [email protected]
LinkedIn - https://www.linkedin.com/in/andres-muñoz-matas-72593bb/
Gregg Watson
Strategic Marketing/Business Development Manager
Microchip Technology
Email - [email protected]
LinkedIn - https://www.linkedin.com/in/gregg-watson-77419813/
General Smart Meter Support: [email protected]
Relevant Webpages
Highlights
- Using high-precision architectures enables superior DC performance, regardless of operating conditions
- Low noise and additional EMI filtering on the inputs provide additional protection in electrically noisy environments
- Small packages, such as leadless DFNs, are ideal for space-constrained designs
- A wide operating temperature range of –40°C to +125°C provides a robust solution even at extreme temperatures
Data Converters
Subtitle
Overcome signal-chain design challenges and speed your products to market with our broad portfolio of proven, easy-to-use data conversion solutions.
Data Converters
Subtitle
Overcome signal-chain design challenges and speed your products to market with our broad portfolio of proven, easy-to-use data conversion solutions.
Data Converters
Subtitle
Overcome signal-chain design challenges and speed your products to market with our broad portfolio of proven, easy-to-use data conversion solutions.
Data Converters
Subtitle
Overcome signal-chain design challenges and speed your products to market with our broad portfolio of proven, easy-to-use data conversion solutions.
Week 1: COTS Rad-Tolerant to Rad-Hardened Microprocessors and Microcontrollers Scalable Solutions
Tuesday 18th May, 16:00pm CET | Presenter: Nicolas Ganry
Presentation of the COTS rad-tolerant concept applied to microcontrollers and the unique ARM M7 SoC scalable solution to rad-hard devices. This COTS based approach benefits from a widely deployed software & hardware ecosystem enabling a wide range of space applications.
Week 1: COTS Rad-Tolerant to Rad-Hardened Microprocessors and Microcontrollers Scalable Solutions
Tuesday 18th May, 16:00pm CET | Presenter: Nicolas Ganry
Presentation of the COTS rad-tolerant concept applied to microcontrollers and the unique ARM M7 SoC scalable solution to rad-hard devices. This COTS based approach benefits from a widely deployed software & hardware ecosystem enabling a wide range of space applications.
Week 1: COTS Rad-Tolerant to Rad-Hardened Microprocessors and Microcontrollers Scalable Solutions
Tuesday 18th May, 16:00pm CET | Presenter: Nicolas Ganry
Presentation of the COTS rad-tolerant concept applied to microcontrollers and the unique ARM M7 SoC scalable solution to rad-hard devices. This COTS based approach benefits from a widely deployed software & hardware ecosystem enabling a wide range of space applications.
Week 1: COTS Rad-Tolerant to Rad-Hardened Microprocessors and Microcontrollers Scalable Solutions
Tuesday 18th May, 16:00pm CET | Presenter: Nicolas Ganry
Presentation of the COTS rad-tolerant concept applied to microcontrollers and the unique ARM M7 SoC scalable solution to rad-hard devices. This COTS based approach benefits from a widely deployed software & hardware ecosystem enabling a wide range of space applications.
Week 1: COTS Rad-Tolerant to Rad-Hardened Microprocessors and Microcontrollers Scalable Solutions
Tuesday 18th May, 16:00pm CET | Presenter: Nicolas Ganry
Presentation of the COTS rad-tolerant concept applied to microcontrollers and the unique ARM M7 SoC scalable solution to rad-hard devices. This COTS based approach benefits from a widely deployed software & hardware ecosystem enabling a wide range of space applications.
Week 1: COTS Rad-Tolerant to Rad-Hardened Microprocessors and Microcontrollers Scalable Solutions
Tuesday 18th May, 16:00pm CET | Presenter: Nicolas Ganry
Presentation of the COTS rad-tolerant concept applied to microcontrollers and the unique ARM M7 SoC scalable solution to rad-hard devices. This COTS based approach benefits from a widely deployed software & hardware ecosystem enabling a wide range of space applications.
Microchip Instrumentation Amplifier with mCAL Technology
The MCP6N11 and MCP6V2x Wheatstone Bridge Reference Design demonstrates the performance of Microchip's MCP6N11 instrumentation amplifier (INA) and a traditional three op amp INA using Microchip's MCP6V26 and MCP6V27 auto-zeroed op amps. The input signal comes from an RTD temperature sensor in a Wheatstone bridge. Real world interference is added to the bridge's output, to provide realistic performance comparisons. Data is gathered and displayed on a PC, for ease of use. The USB PIC® microcontroller and included Graphical User Interface (GUI) provides the means to configure the board and collect sample data.
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Our Instrumentation Amplifiers (INAs) include internal matched feedback and are ideal for data acquisition applications. Their ability to accurately extract a small signal in the presence of a large common mode makes these INAs ideal for sensor amplification. Electromagnetic Interference (EMI) filtering on select devices maintains excellent performance in the most demanding environments.
