Overview of LC4256ZE-5MN144C by Lattice Semiconductor Corporation
The LC4256ZE-5MN144C is an electrically erasable programmable logic device designed for high-performance, low-power applications. With a maximum clock frequency of 149 MHz and a quick propagation delay of 5.8 ns, this part supports fast operations critical in today’s demanding electronic environments. Housed in a 144-pin thin profile BGA package (CSBGA-144), it measures just 7 x 7 mm with a fine pitch of 0.5 mm, ideal for compact layouts where space is at a premium.
From a technical viewpoint, this component accommodates 256 macro cells and provides 108 input/output lines, enabling significant flexibility for various digital and mixed-signal applications. Its power supply ranges between 1.7V and 1.9V, with a nominal voltage of 1.8V, aligning with modern low-power operational requirements. This device also includes features such as JTAG boundary scan test (BST) capability, in-system programmability, and a Moisture Sensitivity Level (MSL) of 3, making it suitable for use in environments where moisture control is managed.
Adhering to environmental compliance, LC4256ZE-5MN144C is RoHS compliant and REACH compliant, indicating its manufacturing processes minimize the use of hazardous substances.
Industry Applications for LC4256ZE-5MN144C
The LC4256ZE-5MN144C potentially serves a diverse range of industries due to its versatile features and performance capabilities. Here are some possible use cases:
- Industrial Automation: With its high I/O count and ability to perform under low power conditions, this part might be used in precision control systems, such as those in automated manufacturing lines, where quick digital logic adjustments are critical.
- Consumer Electronics: The device’s small footprint and high-speed operation could make it suitable for consumer electronics including smartphones, portable gaming consoles, or personal digital assistants, where space and power efficiency are paramount.
- Telecommunications: In telecommunications equipment, high clock frequencies and extensive programmability allow it to manage complex signal processing tasks, potentially aiding in data transmission and switching technologies.
- Data Storage: Owing to its quick propagation delay and substantial logic cell density, this CPLD might be implemented in data storage devices, possibly for managing buffer logic or address decoding tasks.
- Robotics: For robotic applications, this device might control motor functions or act as an interface between sensors and actuators, due to its low operational voltages and robust input/output capabilities.
It’s crucial to note these potential applications are speculative and should be validated by engineering teams for compliance with specific design requirements and industry standards.
About Lattice Semiconductor Corporation
Lattice Semiconductor Corporation is a recognized leader in the design of programmable logic devices, including field-programmable gate arrays (FPGAs) and complex programmable logic devices (CPLDs). The company specializes in delivering low-power, small-sized, and highly flexible solutions, exemplified by their iCE, Mach, and CrossLink product lines. These products cater to needs ranging from basic logic operations to complex system functions, integrating features like configurable logic blocks, high I/O counts, and advanced connectivity options. The LC4256ZE-5MN144C fits into this portfolio, offering a balance of power efficiency and functional density, characteristic of Lattice’s commitment to innovation in programmable logic solutions.
Where to Find LC4256ZE-5MN144C by Lattice Semiconductor Corporation
To acquire the LC4256ZE-5MN144C, we recommend checking availability and pricing through findchips.com. Utilize our part search to compare real-time data from various distributors. Historically, this part has been available through distributors such as Future Electronics, Mouser Electronics, DigiKey, and Newark. For potential alternative parts or equivalent devices, explore the Programmable Logic Devices section on findchips.com.