Reference circuit
The ADI reference circuit allows design engineers to quickly apply ADI's various application expertise, and with expertly built and tested circuits, they can confidently complete their designs, ensuring performance and functionality. Low-cost hardware enables evaluation and rapid prototyping of multiple development platforms. Complete documentation and design files simplify application knowledge and minimize system integration issues.
Hardware achievable
Modular System Design Instant Application Software Rapid Prototyping of FPGAs and MCUs
Design and integration file support
Schematic, layout, BOM download Linux code for driver development? Simplify application integration
Documentation available
Professional application knowledge Circuit function knowledge Tested and validated performance data
![[A Dr. A series] For motor control systems and design (8)](http://i.bosscdn.com/blog/14/3P/24/N4_0.png)
Model-based design - simplified design
System design value of any motor control system
Model-based design is designed to help simplify the inherent difficulties and complexities encountered when designing control systems using traditional, non-automated methods. Model-based design provides designers with a visual design environment that allows developers to use a single model for the entire system for data analysis, model visualization, testing, validation, and final product deployment. Once the model is built and tested, accurate real-time software is automatically generated, saving time and reducing overall development costs compared to traditional manual coding. Model-based design with automatic code generation can also be used for rapid prototyping, further shortening the design cycle.
The model-based design itself provides a software reuse structure that allows the completed design to effectively increase or decrease complexity based on the desired application, enabling a reliable upgrade in a simpler, more cost-effective manner.
![[A Dr. A series] for motor control systems and design (9)](http://i.bosscdn.com/blog/14/40/3M/A2_0.png)
Model-based design saves valuable design resources by reducing design time and providing a final design that is more accurate and closer to pre-design expectations in terms of performance, system functionality, and features and scheduling. it has:
Advantage
Faster design adjustments to achieve the performance, functionality and capabilities you need.
Design cycle is more predictable and product shipments are faster
Reduce design, development, and deployment
![[A Dr. A series] For motor control systems and design (9)](http://i.bosscdn.com/blog/14/40/11/H26_0.png)
![[A Dr. A series] For motor control systems and design (9)](http://i.bosscdn.com/blog/14/39/19/59C_0.png)
![[A Dr. A series] For motor control systems and design (9)](http://i.bosscdn.com/blog/14/39/29/3K0_0.png)
Motor Control Architecture and Solutions
![[A Dr. A series] For motor control systems and design (10)](http://i.bosscdn.com/blog/14/45/35/4355_0.png)
In the motor control configuration, it is easy to get lost in endless changes. To simplify the design, ADI classifies the various possible motor control architectures into four basic types; most systems fall into one of these four categories. Based on your choice, ADI can quickly identify and recommend the right products and solutions for your specific design.
![[A Dr. A series] For motor control systems and design (10)](http://i.bosscdn.com/blog/14/45/11/9511_0.png)
microwave PCB
microwave PCB`s is a type of PCB designed to operate on signals in the megahertz to gigahertz frequency ranges (medium frequency to extremely high frequency). These frequency ranges are used for communication signals in everything from cellphones to military radars. The materials used to construct these PCB`s are advanced composites with very specific characteristics for dielectric constant (Er), loss tangent, and CTE (co-efficient of thermal expansion).
High frequency circuit materials with a low stable Er and loss tangent allow for high speed signals to travel through the PCB with less impedance than standard FR-4 PCB materials. These materials can be mixed in the same Stack-Up for optimal performance and economics.
The advantages of using materials with a low X, Y and Z CTE is a resulting PCB structure that will remain extremely stable in high temperature environments while operating at up to 40 GHz in analog applications. This allows for the effective placement of very fine pitch components including, in some cases, bare die-attach. Additionally, the low CTE materials will facilitate the alignment of multiple layers and the features they represent in a complex PCB Layout.
Features
.CTEr = +40/+50 ppm per °C (low); Tg (glass transition temperature) is 280°C
.ER = 3.38/3.48 at 10.0 GHz
.ER is constant to 40.0 GHz
.ED (electro-deposited) copper only
.Layer-to-layer thickness control = +/- 0.001
.Fabrication costs are typical to slightly increased
Microwave PCB,Microwave Frequency PCB,Bare Copper Microwave PCB,High Frequency PCB
Storm Circuit Technology Ltd , https://www.stormpcb.com