Chapter 4-4 high quality image & sound – Sony RDR-GX7 User Manual

V-Edge Compensation

In moving images originally created on video, diagonal edges,

depending on the angle, can often appear jagged. In order to

smoothly express these diagonal lines, without jagged effects, the

RDR-GX7 is equipped with original algorithm-based processing

which judges movement at the pixel level, then detects these

edges using an original algorithm. When edges are detected,

information from a number of surrounding pixels in the field is

used to create appropriate pixels to fill and smooth out the edge

for a more precisely even representation.

12-bit 108 MHz Noise Shaped Video D/A Converter

The video D/A converter has a high 12-bit resolution, and

operates at a high sampling frequency of 108 MHz, and is

incorporated onto a single LSI chip. The use of this advanced

D/A converter allows any aliasing noise generated to be shifted

to a higher frequency, enabling the use of an analog low-pass

filter with a gentler sloped cutoff curve and better phase

characteristics to assure superior quality image reproduction.

In the video signal, interlaced luminance signals are

processed at 8-times oversampling to express the image. With

this approach, the D/A converter for playback must have at least

8-bit resolution capability. In the RDR-GX7, however, the D/A

converter has a higher 12-bit resolution to assure processing with

even greater precision.

Accordingly, if sampling is performed at twice the operation

frequency range of the luminance signal, the original waveform,

in theory, can be perfectly reproduced. However, in the process

of sampling, unwanted aliasing noise is generated. In order to

eliminate this, an analog low-pass filter must be employed. But if

the sampling frequency is too low, excess load will be placed

upon the filter, adversely affecting its performance. For this

reason, a high sampling frequency of 108 MHz has been

adopted. This operation frequency represents eight times the

necessary sampling frequency of 13.5 MHz for video signals for

Standard Definition (SD) content with 525 horizontal lines, and

four times the sampling frequency required for Progressive Scan

(PS) content with 525 horizontal lines. Any aliasing noise

accompanying the video signal can be shifted well away into a

higher frequency, where it can be more effectively removed by

an analog filter with a more gently sloped cutoff curve. For a

digital filter, the Super Sub Alias Filter (SSAF) is also employed.

In addition, Noise Shaped Video (NSV) technology is employed

in the D/A converter to shift the noise outside of the operation

frequency bandwidth. As a result, noise inside the operation

bandwidth is greatly reduced, realizing an improvement in the

S/N ratio. These double and triple countermeasures work

synergistically to assure clearer, more accurate reproduction of

video images. These advances assure D/A conversion

performance on par with high-end DVD players for beautifully

superb image quality.

■ DC-coupled Analog Video Circuitry in All Stages

In order to take full advantage of the performance of the 12-bit

108 MHz video encoder, analog video processing circuits with

significantly improved performance have been incorporated into

the design of the RDR-GX7. In order to minimize APL shift and

assure optimum linearity, a dedicated video amplifier has been

adopted. In addition, DC-coupled active LPF and buffer amps

are employed in all stages.

Chapter 4-4

High quality

image & sound

RDR-GX7 Technical Notes

25

The 12-bit 108 MHz Noise Shaped Video DAC

Video
Signal

108 MHz

Sampling at 108 MHz

Super Sub Alias Filter

Including Noise

Analog Filter

Video
Signal

Aliasing

Noise

Aliasing

Noise

Aliasing

Noise

Aliasing

Noise

Aliasing

Noise

108 MHz

54 MHz

27 MHz

Sampling at 27 MHz

Analog Filter

Loss

108 MHz sampling enables improved noise reduction for better image quality

NSV and SSAF (Super Sub Alias Filter) are trademarks of ANALOG DEVICES, Inc.