Reducing Cost and Power in Consumer Applications Using PLDs
The need to respond to changing market standards in a compressed time to market window has led to the widespread use of programmable logic devices (PLDs) in a broad range of consumer applications. While development of application specific integrated circuits (ASICs) and application specific standard parts (ASSPs) requires high non-recurring engineering charges, PLDs are standard off-the-shelf parts that can be customized for different applications using flexible software tools.
In many market segments, such as handheld devices, PLDs have found acceptance due to new product architectures that reduce power consumption, feature new packaging options and lower unit cost.
Download this whitepaper to learn more.
Read More
By submitting this form you agree to Lattice Semiconductor Corporation contacting you with marketing-related emails or by telephone. You may unsubscribe at any time. Lattice Semiconductor Corporation web sites and communications are subject to their Privacy Notice.
By requesting this resource you agree to our terms of use. All data is protected by our Privacy Notice. If you have any further questions please email dataprotection@techpublishhub.com
Related Categories: Components, Embedded, Memories, Motor control, Power, Processors
More resources from Lattice Semiconductor Corporation
ispMACH® 4000ZE - Enabling CPLDs in Ultra High Volume, Low Power Applications
Design engineers are constantly challenged to develop new products with improved features and functionality over previous generation and competitiv...
Intellegently Expanding Microprocessor Connectivity Using Low-cost FPGAs
Whether they be CPUs, micromicroprocessors or microcontrollers, microprocessors are an indispensable component in modern electronic system design. ...
Solving Today’s Interface Challenges With Ultra-LowDensity FPGA Bridging Solutions
Designers are implementing a wide variety of interface bridging solutions that allow them to transfer data across protocols and, in the process, ex...