HDMI® Enhanced Audio Return Channel (eARC) Future Proofs Home Theater Connectivity with Uncompromised Audio Quality

What designers need is a highly flexible solution that offers the logic resources of a high performance, “best-in-class” co-processor capable of highly-parallel computation that is required in vision and intelligence applications.

In the automotive market as in all industries, competition breeds innovation. Over the last 100 years, this truth has transformed the horseless carriage into one of the most useful and ubiquitous tools in the modern world.

The Lattice Semiconductor CMOS to MIPI D-PHY Interface Bridge IP provides this conversion for Lattice Semiconductor CrossLink™ devices.

The Lattice Semiconductor SubLVDS to MIPI CSI-2 Image Sensor Interface Bridge IP for Lattice Semiconductor CrossLink™ solves the interface mismatch between subLVDS output image sensor and an ISP/AP using MIPI CSI-2 interface.

Lattice Semiconductor's Dual MIPI CSI-2 to Single MIPI CSI-2 Bridge IP for the Lattice Semiconductor CrossLink™ devices resolves this issue by merging two video image streams from two separate MIPI CSI-2 image sensor inputs to a single MIPI CSI-2 video image stream output.

The Lattice Semiconductor MIPI DSI to DSI Display Interface Bridge IP allows users to resolve these interfacing problems with the Lattice Semiconductor CrossLink™ programmable device.

Lattice Semiconductor's white paper discussing leveraging FPGA and CPLD digital logic to implement analog to digital converters.

Lattice Semiconductor's white paper describing why the MachXO2 PLD is a compelling choice for implementing video display interfaces.

Lattice Semiconductor's white paper explaining how pre-tested System-on-Chip design can accelerate PLD development.

Lattice Semiconductor's MachXO2 PLDs are ideal for implementing system functions commonly found in telecom infrastructure, computing, high end industrial, and high end medical applications.

Lattice Semiconductor's white paper examining some of the challenges associated with resetting modern day processors.

Lattice Semiconductor's white paper explaining how their MachXO devices can help optimize programmable devices for bus interfacing, bridging, and control.

Lattice Semiconductor's new generation of low cost PLDs that offer high performance IO buffers is now available for managing image data in automotive infotainment applications.

Lattice Semiconductor's article explaining that flash corruption can be caused by either a software bug or a supply voltage fault.

Lattice Semiconductor's PLDs are a good choice for implementing functions in consumer applications because they overcome the limitations of ASICs and ASSPs by providing a cost-effective, low power, and flexible solution.

Lattice Semiconductor's white paper examining techniques system designers can use to lower board cost when designing with PLDs in BGA packages.

Lattice Semiconductor's white paper describing several considerations that a system architect must think through when designing automobile video systems.

Lattice Semiconductor's instant-on, non-volatile PLDs implemented in platform management functions overcome the limitations of ASICs and ASSPs by providing a cost-effective, flexible and single chip solution.

Lattice Semiconductor's MachXO PLDs are ideal for implementing system control functions such as temperature measurement, current monitoring, power supply sequencing, fan control and fault logging.