Don't Miss The Difference! Visit the IP500 Alliance at Light + Building, Messe Frankfurt, Germany, Hall 9, Stand A54
Sunday 2nd – Thursday 6th October 2022, from 09:00 to 18:00
To request a meeting at Light + Building, click here
To purchase tickets, click here
For more details and meetings at the event, please contact Markus Austermayer, Microchip Segment Manager EMEA - IoT and Ecosystems by
Email: [email protected] or Mobile: +49 172 8539478
The IP500® Alliance has developed an innovative wireless standard that has demonstrated capability for building safety and security applications. Microchip is pleased that our own AT86RF215 radio has been chosen as the lead device to demonstrate this robust mesh network. "We believe IP500 has the potential to become the de-facto wireless standard in this space. Partnering with CoreNetix allows us to leverage their expertise in providing the support needed to implement IP500 protocols.” said, Steve Caldwell, Vice President of Microchip’s Wireless Solutions business unit.
To access additional relevant information, please click the buttons below:
IP500
for Robust and Secure Wireless IoT Networks for Smart Buildings, Hotels, Smart Factories and Cities
Created to provide the most robust and secure wireless IoT networks for commercial and industrial buildings, the IP500 products are deployed to meet the highest requirements for sensor network applications, incl. mission critical applications, like intrusion or fire detection systems. For example, they can be found in battery-free energy-harvesting wireless light switches, in alarm sensors that require several years of battery life and in high-performance mesh utility networks supporting for example smart meters and street lighting. Microchip delivers the core semiconductors enabling that leading solution and OEM system design support worldwide.
IP500 Fast Design Concept – e.g. Indoor Climate Sensor
- CURIOSITY NANO BASE FOR CLICK BOARDS™ - AC164162
https://www.microchip.com/en-us/development-tool/AC164162 - IP500 Prototype Board based on MikroE - Available at BESTec EPT GMbH
https://bestec.online/ - WEATHER CLICK with BME280 - MIKROE-1978
https://www.mikroe.com/weather-click - SAMD21 & CURIOSITY NANO EVALUATION KIT - DM320119
https://www.microchip.com/en-us/development-tool/DM320119 - Additionally needed IP500 Gateway - GW360 - IP500 Gateway
https://bestec.online/
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.
