MPLAB ICD 5 Competition: Terms and Conditions
Thank you for entering our draw to win an MPLAB ICD 5 In-Circuit Debugger/Programmer.
- Only one entry per person allowed
- This offer may be withdrawn without prior notice
- All winners will be notified by the end of October 2023
- No alternative prize will be offered
- The selection of the prize winner will be made by the appointed Microchip representative
- Winners will need to supply full address details and a company VAT number to enable shipment of their kit
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.
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.
