Introducing Trio Advanced Analog Mixed Signal Platform
Creating a Better Future with Elektronika 2024
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The world of electronics is constantly evolving, and at the forefront of this evolution is the Elektronika 2024 conference. As part of this event, Dennis Keller, a Field Application Engineer at Future Electronics, sat down with Alejandro to discuss the latest advancements in analog and mixed-signal technology.
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Introducing the Trio Platform
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Alejandro showcased the new Trio platform, a cutting-edge analog and mixed-signal platform built on 12-inch 65-nanometer technology. This innovative platform provides a complete, scalable architecture that enables designers to build products faster, better, and more efficiently.
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Scalability Redefined
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One of the key benefits of the Trio platform is its scalability. Alejandro highlighted an example where a simple product like standard LDOs and voltage translators can be easily scaled up to more complex products, such as analog front-ends for continuous glucose meters.
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Advantages of the Trio Platform
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The Trio platform offers several advantages over existing platforms. For instance, it enables smaller footprints and extremely lower power consumption. This translates to extended battery life for end-users and improved safety features in applications such as ultrasonic parking assistance.
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Enabling Better Safety Features
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The Trio platform's advanced technology enables more accurate and reliable safety features in various applications. This means better safety for cars and end-users, making it an attractive solution for designers and manufacturers.
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Evaluating the Trio Platform
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For customers interested in evaluating the Trio platform, Alejandro recommended getting in touch with their sales representative to obtain more information and samples. The platform is expected to have products available soon, starting with standard products.
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A Brighter Future Ahead
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As the electronics industry continues to evolve, it's clear that the Trio platform is poised to play a significant role in shaping its future. With its advanced technology, scalability, and focus on safety features, it's an exciting time for designers, manufacturers, and end-users alike.
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| Trio Platform |
The Trio Platform is an open-source software development framework that provides a set of tools and libraries for building scalable and maintainable applications. |
| Background |
The Trio Platform was created in response to the growing need for more efficient and effective ways to build modern web applications. Its development began in the early 2000s, as a collaborative effort between industry experts and researchers. |
| Key Features |
The Trio Platform is designed around three core principles: modularity, scalability, and maintainability. It includes features such as: |
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- Modular architecture for easy component reuse and replacement. |
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- Built-in support for load balancing, caching, and queuing for high scalability. |
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- Extensive use of design patterns and principles to ensure maintainability and readability. |
Introducing Trio: Advanced Analog Mixed Signal Platform |
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The Trio platform is a cutting-edge analog mixed signal (AMS) solution designed to address the growing demand for high-performance, low-power, and cost-effective AMS designs. This innovative platform offers a unique combination of features that enable designers to create complex AMS systems with ease. |
| Key Features: |
- High-performance analog front-end with up to 12-bit resolution
- Advanced digital signal processing capabilities with up to 32-bit resolution
- Integrated non-volatile memory for secure storage of sensitive data
- Low-power consumption with dynamic voltage and frequency scaling
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| Applications: |
The Trio platform is ideal for a wide range of applications, including:
- Industrial automation and control systems
- Medical devices and diagnostic equipment
- Aerospace and defense systems
- Consumer electronics and Internet of Things (IoT) devices
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| Benefits: |
The Trio platform offers numerous benefits to designers, including:
- Reduced design time and complexity with pre-validated IP blocks
- Improved system performance and accuracy with advanced AMS capabilities
- Enhanced security features for sensitive data protection
- Lower power consumption and reduced heat dissipation
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| Development Tools: |
The Trio platform is supported by a comprehensive suite of development tools, including:
- Trio Studio: A user-friendly design environment for AMS system design
- Trio Simulator: A high-performance simulation tool for verifying and testing AMS designs
- Trio Debugger: A powerful debugging tool for identifying and fixing errors in AMS code
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| Conclusion: |
The Trio platform is a game-changing solution for analog mixed signal design. With its unique combination of high-performance, low-power, and cost-effective features, it is poised to revolutionize the way AMS systems are designed and developed. |
| Q1: What is Trio Advanced Analog Mixed Signal Platform? |
Trio is a comprehensive platform that integrates advanced analog and mixed-signal technologies, providing a robust solution for designing and developing complex systems. |
| Q2: What are the key features of Trio Advanced Analog Mixed Signal Platform? |
Trio offers high-speed data converters, advanced signal processing capabilities, and a wide range of analog and digital interfaces, making it an ideal solution for various applications. |
| Q3: What type of applications can be developed using Trio Advanced Analog Mixed Signal Platform? |
Trio is suitable for developing a wide range of applications, including industrial automation, medical devices, automotive systems, and aerospace and defense systems. |
| Q4: What are the benefits of using Trio Advanced Analog Mixed Signal Platform? |
Trio offers several benefits, including reduced development time and cost, improved system performance, and increased design flexibility, making it an attractive solution for developers. |
| Q5: How does Trio Advanced Analog Mixed Signal Platform support analog-to-digital conversion? |
Trio features high-speed data converters that enable efficient analog-to-digital conversion, allowing for accurate and reliable signal processing. |
| Q6: Can Trio Advanced Analog Mixed Signal Platform be used for digital signal processing? |
Yes, Trio offers advanced digital signal processing capabilities, enabling developers to implement complex algorithms and signal processing techniques. |
| Q7: What kind of interfaces does Trio Advanced Analog Mixed Signal Platform support? |
Trio supports a wide range of analog and digital interfaces, including SPI, I2C, UART, and GPIO, among others. |
| Q8: Is Trio Advanced Analog Mixed Signal Platform compatible with various operating systems? |
Yes, Trio is compatible with popular operating systems, including Windows, Linux, and macOS, making it easy to integrate into existing development environments. |
| Q9: Can Trio Advanced Analog Mixed Signal Platform be used for real-time applications? |
Yes, Trio is designed to support real-time applications, offering low latency and high-performance capabilities that enable developers to create responsive systems. |
| Q10: What kind of development tools and support does Trio Advanced Analog Mixed Signal Platform offer? |
Trio offers a comprehensive suite of development tools, including software development kits (SDKs), evaluation boards, and technical documentation, as well as dedicated customer support. |
| Rank |
Pioneers/Companies |
Description |
| 1 |
Analog Devices (ADI) |
Introduced the first high-speed, multi-channel analog-to-digital converter (ADC) with integrated digital signal processing. |
| 2 |
Texas Instruments (TI) |
Pioneered the development of high-performance, low-power analog and mixed-signal devices for industrial and automotive applications. |
| 3 |
Microchip Technology |
Developed the first 8-bit microcontroller with integrated analog-to-digital conversion and digital signal processing. |
| 4 |
STMicroelectronics (STM) |
Introduced the first smart sensor node with integrated analog and digital interfaces for industrial IoT applications. |
| 5 |
NXP Semiconductors (NXPI) |
Developed the first high-performance, low-power analog and mixed-signal devices for automotive and industrial applications. |
| 6 |
ON Semiconductor (ON) |
Pioneered the development of high-performance, low-power analog and mixed-signal devices for automotive, industrial, and medical applications. |
| 7 |
Maxim Integrated (MXIM) |
Introduced the first high-performance, low-power analog and mixed-signal devices for industrial, medical, and IoT applications. |
| 8 |
Cirrus Logic (CRUS) |
Developed the first high-performance, low-power analog and mixed-signal devices for consumer electronics and IoT applications. |
| 9 |
Skyworks Solutions (SWKS) |
Pioneered the development of high-performance, low-power analog and mixed-signal devices for wireless communication applications. |
| 10 |
Integrated Device Technology (IDTI) |
Introduced the first high-performance, low-power analog and mixed-signal devices for datacenter and cloud computing applications. |
| Trio Advanced Analog Mixed Signal Platform Overview |
| The Trio Advanced Analog Mixed Signal Platform is a highly integrated, scalable, and adaptable platform designed for analog and mixed-signal applications. It provides a comprehensive set of features, peripherals, and interfaces to support the development of complex systems. |
| Platform Components |
Description |
| Analog Front-End (AFE) |
High-performance AFE with up to 8 channels, 24-bit resolution, and sampling rates of up to 1 MSPS. Features include programmable gain amplifiers, analog-to-digital converters, and digital filtering. |
| Digital Signal Processing (DSP) |
High-performance DSP core with up to 2 MB of internal memory, supporting floating-point operations, SIMD instructions, and hardware accelerators for FFT, FIR, and IIR filters. |
| Microcontroller Unit (MCU) |
ARM Cortex-M4-based MCU with up to 256 KB of flash memory, 64 KB of SRAM, and a range of peripherals including timers, UARTs, SPI, I2C, and USB. |
| Peripherals |
Support for a wide range of peripherals including CAN, LIN, I2S, SAI, and external memory interfaces (SDRAM, PSRAM). |
| Platform Features |
Description |
| Low Power Consumption |
Multiple power modes and a dedicated power management unit to minimize energy consumption. |
| Security |
AES encryption, secure boot mechanisms, and access control to prevent unauthorized access. |
| Scalability |
Support for up to 4 platforms in a single package, enabling the development of complex systems with multiple processing units. |
| Software Development Kit (SDK) |
A comprehensive SDK including compilers, debuggers, and libraries for developing applications on the Trio platform. |
| Specifications |
Description |
| Package Options |
LQFP, TFBGA, and WLCSP packages available. |
| Operating Temperature Range |
-40°C to +125°C (depending on the package option). |
| Supply Voltage |
1.8V, 2.5V, or 3.3V. |
| Clock Frequency |
Up to 200 MHz for the DSP and MCU cores. |
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