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 competitive products. The increasing demand for smaller, lower power and lower cost products with each subsequent generation adds another layer of complexity to the engineer's already difficult job.
This white paper will discuss some of the factors design engineers consider when developing a consumer product. Next it will discuss how Lattice Semiconductor's ispMACH® 4000ZE family of zero-power Complex Programmable Logic Devices (CPLDs) enables the use of CPLDs in ultra high volume, low power applications, a market that was once dominated by Application Specific Integrated Circuits (ASICs) and Application Specific Standard Products (ASSPs).
Download to find out 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, Power
More resources from Lattice Semiconductor Corporation
1:2 and 1:1 MIPI DSI Display Interface Bridge Soft IP
As the industry evolves, bandwidth requirements have exceeded what display manufacturers are capable of manufacturing, while application processor ...
Implementing Flexible USB Type-C Control Using FPGA Technology
Type-C interfaces bring dramatic benefits to consumers. However, in order to realize this potential designers must implement Type-C's Power Deliver...
Embedded Signal Processing Capabilities of the LatticeECP3 sysDSP Block
New market segments are increasingly driving competing FPGA vendors to incorporate a wider variety of functionality and flexibility within their de...