Title :
A display processor conforming to all DTV formats with 188-tap FIR filters and 284 Kb FIFO memories
Author :
Hosotanl, S. ; Yazawa, Minobu ; Matsuo, Natsuko ; Sugawa, Satoshi ; Hayashi, Naoki ; Shinohara, Takashi ; Imamura, Yukinaga ; Takashima, Masahiko ; Okada, Keisuke ; Sumi, Tadashi
Author_Institution :
LSI Res. & Dev. Lab., Mitsubishi Electr. Corp., Hyogo, Japan
fDate :
8/1/1997 12:00:00 AM
Abstract :
To achieve a single chip solution for a display processor conforming to all DTV formats, various hardwired approaches such as the write end toggle signal (WETS) based design technique and dynamic voltage sensing FIFO architecture have been developed. As a result, all functions including macroblock-to-raster conversion, frame/filed rate conversion, scan format conversion, and ordinary picture making functions such as color interpolation, enhancement, inverse matrix, on screen display, and D/A conversion have been successfully integrated into a single chip. The display processor has a total memory capacity of 284 Kb and filters with a total of 188 taps in an area of 14.9 mm×14.9 mm. It was fabricated in 0.5 um CMOS technology with 2-metal
Keywords :
CMOS digital integrated circuits; CMOS memory circuits; FIR filters; digital filters; digital signal processing chips; digital television; digital-analogue conversion; high definition television; image enhancement; interpolation; 188-tap FIR filters; 284 Kb FIFO memories; 284 kB; CMOS technology; D/A conversion; DTV formats; HDTV; WETS; color interpolation; digital television; display processor; dynamic voltage sensing FIFO architecture; enhancement; frame/filed rate conversion; hardwired approaches; inverse matrix; macroblock-to-raster conversion; on screen display; picture making functions; scan format conversion; single chip solution; total memory capacity; write end toggle signal based design technique; CMOS technology; Circuits; Digital TV; Displays; Finite impulse response filter; HDTV; Interpolation; Monitoring; Signal design; Voltage;
Journal_Title :
Consumer Electronics, IEEE Transactions on
