MAX® V CPLDs
With its mix of low price, low power, and on-chip features, MAX® V CPLDs deliver the market's best value. Featuring a unique, non-volatile architecture, MAX® V devices provide robust new features at up to 50% lower total power compared to competitive CPLDs.
See also: MAX® V CPLDs Design Software, Downloads, Documentation, Community, and Support
MAX® V CPLDs
Benefits
Best CPLD Value
When you use MAX® V devices, you'll enjoy lower total system cost because the MAX® V architecture integrates previously external functions, such as flash, RAM, oscillators, and phase-locked loops. MAX® V CPLDs deliver a large number of I/Os and logic per footprint. The devices also use low-cost and green packaging technology, with packages as small as 20 mm.
Lower Total Power
With MAX® V CPLDs, you'll get robust new features at up to 50 percent lower total power vs. other equivalent-density CPLDs on the market.
- Extended battery life with static power as low as 45 uW.
- As few as one power supply (Vcc-core) required, which also lowers bill of materials (BOM) costs.
Built on a mature and low-cost wafer fab process, MAX® V CPLDs leverage a proven architecture while delivering robust features including:
- In-system programming (ISP), which lets you program the device while it is in operation, so you can perform in-field updates without affecting overall system operation.
- User flash memory, embedded flash memory that provides non-volatile memory storage of critical system information.
- Digital PLLs (DPLLs), which enable flexible implementation of designs requiring frequency multiplication or phase shifting.
Easy-to-Use, Free Design Software
MAX® V CPLDs are supported with free Intel® Quartus® Prime Lite Edition software. With Intel® Quartus® Prime Software, you'll get productivity enhancements resulting in faster simulation, faster board bring-up, and faster timing closure. This software also comes with a system-level integration tool called Qsys, delivering higher circuit performance while also enabling you to design at a higher level of abstraction.
Features
MAX® V devices are ideal for general-purpose and power-and space-constrained designs in many market segments.
Design Tools
Here are some resources to help you get started designing with MAX® V CPLD devices.
Download Cables
Learn the details about the download cable options for programming MAX® V CPLDs.
MAX® V PowerPlay Early Power Estimator
Estimate power consumption for your MAX® V CPLD design.
Learn to Use Intel® Quartus® Prime Software
Are you new to programmable logic? New to the Intel® Quartus® Prime Software? Watch these self-paced, online demonstrations to learn how to become a programmable logic designer in about one hour.
IP Website
Select off-the-shelf IP core functions from us and our partners. IP cores are optimized for our devices, reducing design and test time, and can be evaluated in hardware and simulation prior to licensing.
Applications
I/O Expansion
Perform I/O decoding, efficiently increasing the available I/O capability of another standard device at a low cost.
Interface Bridging
Translate bus protocols and voltages between incompatible devices at the lowest possible cost.
Power Management Control
Manage the power-up sequencing and monitoring of other devices on the board.
Configuration and Initialization Control
Control the configuration or initialization of other devices on the board.
Analog Control
Digital control of analog standard devices (light, sound, or motion) via pulse-width modulator (PWM) without needing a digital-to-analog converter (DAC).
Samples and Ordering
Learn more about how to buy Intel® Programmable solutions, explore available development kits, and more.
Development Kits
Get information about hardware solutions and tools offered by Intel to accelerate the design process.
Powering FPGAs
See recommended Intel® Enpirion® Power Solutions and resources for powering Intel® FPGAs.
Ordering Codes
Decipher Intel® FPGA part numbers, including the significance of certain prefixes and package codes.
Where to Buy
Contact an Intel® Authorized Distributor today.
MAX® V CPLD
Featuring a unique, non-volatile architecture, MAX® V devices provide robust new features at up to 50% lower total power compared to competitive CPLDs.
