The IC component ISPGDX160VA-7BN208I is a Programmable Logic Device (PLD) manufactured by Lattice Semiconductor. It offers a range of features that make it suitable for various applications.
One key feature of the ISPGDX160VA-7BN208I is its high-density architecture, which enables it to provide 160 macrocells for implementing complex digital circuits. The device also offers extensive input and output capabilities with 156 user I/O pins, allowing for seamless integration with other components or interfacing with external devices.
Furthermore, the IC component supports a broad range of functionalities, including combinatorial and sequential logic, arithmetic operations, and various memory configurations. This flexibility makes it suitable for applications such as data acquisition systems, control logic circuits, communication devices, and more.
The ISPGDX160VA-7BN208I also features an embedded Flash memory, enabling in-system programmability. This means that the device can be reconfigured or updated without the need for additional hardware, making it more convenient and cost-effective.
To ensure reliable and efficient operation, the IC component has integrated power-saving features, including programmable pull-up resistors, bus-hold circuitry, and programmable slew rate control. These features help optimize power consumption and improve signal integrity.
Moreover, the ISPGDX160VA-7BN208I offers superior performance with its high-speed operation, supporting a clock frequency of up to 400 MHz. This allows for quick response times and efficient data processing, making it suitable for applications that require high performance and real-time operation.
In terms of design and configurability, the IC component is supported by Lattice Diamond design software. This software provides a comprehensive and user-friendly environment for designing, implementing, and debugging digital circuits with the ISPGDX160VA-7BN208I.
Overall, the IC component ISPGDX160VA-7BN208I offers high-density, flexibility, power efficiency, and high-speed operation, making it a versatile choice for various digital design applications.
