Schematic Design

Schematic Design process begins with the careful selection of processors, memory devices, and communication interfaces to achieve optimal performance and functionality.

Schematic Design Process

• •Processing Power: Choosing microcontrollers or processors based on required computing power.
• •Memory Devices: Selecting the appropriate memory type (DDR3, DDR4, DDR5, NAND/NOR Flash, eMMC, EEPROM) based on design requirements.
• •Communication Interfaces: Defining protocols such as I²C, SPI, UART, USB, Ethernet, PCIe, CAN, RS-485, MIPI, DDR.
• •Power Requirements: Determining voltage levels and power delivery networks (PMICs, LDOs, DC-DC converters).
• •Analog Design: Identifying the need for analog front-end, ADC/DAC, op-amps, RF components.
• •Create the Schematic Diagram: We develop a comprehensive schematic diagram that represents all components and their interconnections, organized into functional blocks for clarity and maintainability.
• •Establish Electrical Connections: We carefully define all electrical connections between components, ensuring proper signal routing, power distribution, and ground connections to maintain signal integrity and minimize noise.
• •Perform Electrical Rule Check (ERC): We conduct thorough electrical rule checks to identify and resolve potential issues before moving to PCB layout.