Electronic system design
Overview
Electronic system design is the process of designing and developing electronic systems, devices, or components. This includes everything from the initial conceptualization and prototyping of a new product, to the integration and testing of existing systems. DV Research excels in electronic system design which includes
Defining the requirements and specifications for the system: This involves understanding the needs and goals of the system, as well as any constraints or limitations that must be taken into account.
Developing a system architecture: This involves designing the overall structure and layout of the system, including the hardware and software components that will be used.
Selecting and sourcing components: This involves choosing and procuring the various electronic components that will be used in the system, such as processors, memory, sensors, and actuators.
Designing and prototyping the system: This involves creating physical or virtual prototypes of the system and testing them to ensure that they meet the desired specifications and requirements.
Integrating and testing the system: This involves bringing all of the components and subsystems of the system together and testing them to ensure that they work correctly and meet the desired performance goals.
Overall, electronic system design is a complex and multi-faceted process that involves a wide range of skills and knowledge, including electrical engineering, computer science, and mechanical engineering.
PCB Development
Printed Circuit Boards (PCBs) are the physical support for electronic components in most electronic devices. They are made of a thin layer of insulating material, usually a fiberglass or plastic composite, with copper tracks on one or both sides. The tracks are used to connect the electronic components on the PCB and allow electricity to flow between them.
DV Research helps in following steps in the development of a PCB
Design: This involves creating a schematic diagram of the PCB, which shows the connections between the various components. The schematic is then used to create a layout, which determines the physical arrangement of the components on the PCB.
Fabrication: The layout is used to create a “gerber file,” which is a set of instructions that can be used to manufacture the PCB. The gerber file is sent to a PCB manufacturer, who uses it to produce the PCB.
Assembly: Once the PCB has been fabricated, it must be populated with electronic components. This is typically done using automated equipment or by hand, depending on the complexity of the PCB and the quantity being produced.
Testing: After the PCB has been assembled, it is tested to ensure that it is functioning correctly. This may involve testing individual components or the entire circuit.
Wireless Connectivity
We provide services to optimize wireless connectivity, including 5G, ensure electromagnetic compatibility (EMC), and perform radar cross section (RCS) and scattering analysis.
Installed antenna performance is heavily dependent on how and where antennas are integrated.
We simulates wireless coverage and enables radio network planning for a building, campus, city, or region.
Product Performance
DV Research accurately analyzes the performance of complex assemblies under real world conditions before physical prototyping.
Highly automated workflows drastically reduce the time spent creating models and interpreting results.
Automate structural stress, vibration, and drop test performance assessments.
We model fiber orientation during the injection molding process of plastic enclosures and manages structural solver coupling.
Circuit Simulation
Circuit simulation is the process of using computer software to model and analyzes the behavior of an electronic circuit. It allows testing different circuit configurations and predicting how the circuit will behave under different conditions without the need to physically build and test the circuit.
DV Research provides testing the performance of a circuit before it is built, identifies and fixes errors in a circuit design, and optimizes circuit performance. Circuit simulation is used to study the behavior of a circuit under different operating conditions, such as different supply voltages or temperatures.
Circuit simulation is a useful tool for designing and analyzing electronic circuits, and can save time and resources by allowing one to test and optimize their circuits before building them.