Stacked DSP/Memory Simplifies Designs

March 1, 2001

The DSP HeLP-Stack 3-D, stacked DSP/memory device claims to simplify system design and, via proprietary stacking technology, saves motherboard space equivalent to 50% of the TQFP footprint of the DSP device. The assembly combines a Texas Instruments fixed-point digital signal processor (DSP), a 4 Mb SRAM configured as 256K x 16, and a 10-MHz timing reference device. The entire configuration fits in the same 144-pin TQFP footprint as the DSP device with the SRAM and the timing reference stacked on top of the DSP.
The first device in the series, model DPHD15410SM16Q includes a TMS320VC5410PGE-100 DSP, 4 Mb of SRAM, a 10-MHz Timing Reference Device, and a 3.3V power supply. Features include a 10-ns access time and a four-pin LCC and 44-pin TSOP-2 stacked on top of the DSP. Sample quantity pricing is $150.

Stacked DSP/Memory Simplifies Designs

Continue Reading

Solving the contact resistance challenge for 7nm and beyond CMOS

Flash Memory Takes Over

Sponsored Recommendations

Near- and Far-Field Measurements

DigiKey Factory Tomorrow Season 3: Sustainable Manufacturing

Connectivity – The Backbone of Sustainable Automation

Empowered by Cutting-Edge Automation Technology: The Sustainable Journey

Comments

To join the conversation, and become an exclusive member of Electronic Design, create an account today!

New

Advances in IoT Security: Enhanced Crypto Standards and High-Power Processing

"Secrets of the Octopus" by James Cameron is a Scientific Triumph

UMI Scales the Memory Wall in the Chiplet/Multi-Die Era

Most Read

“Drinking Bird” Becomes an Evaporation-Driven Triboelectricity Energy Harvester

Advances in IoT Security: Enhanced Crypto Standards and High-Power Processing

Lesser-Known High-Voltage Methods: From X-rays to Offshore Wind Farms

Sponsored

Five Tips for Designing Scalable Automated Production Test Systems

DC-DC Converter Design Made Easy

Understanding EMI debugging with oscilloscopes