SAA7114HV2 NXP Semiconductors, SAA7114HV2 Datasheet - Page 51

SAA7114HV2

Manufacturer Part Number

SAA7114HV2

Description

Manufacturer

NXP Semiconductors

Datasheet

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Specifications of SAA7114HV2

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8.3.3.2 Vertical scaler (subaddresses B0h to BFh and E0h to EFh)

Vertical scaling of any ratio from 64 (theoretical zoom) to

The vertical scaling block consists of another line delay, and the vertical ﬁlter structure,

that can operate in two different modes; Linear Phase Interpolation (LPI) and

accumulation (ACM) mode. These are controlled by YMODE[B4h[0]]:

The phase and scale controlling DTO calculates in 16-bit resolution, controlled by

parameters YSCY[15:0] B1h[7:0] B0h[7:0] and YSCC[15:0] B3h[7:0] B2h[7:0],

continuously over the entire ﬁeld. A start offset can be applied to the phase processing by

means of the parameters YPY3[7:0] to YPY0[7:0] in BFh[7:0] to BCh[7:0] and YPC3[7:0]

to YPC0[7:0] in BBh[7:0] to B8h[7:0]. The start phase covers the range of

lines offset.

By programming appropriate, opposite, vertical start phase values (subaddresses

B8h to BFh and E8h to EFh) depending on odd or even ﬁeld ID of the source video stream

and A or B page cycle, frame ID conversion and ﬁeld rate conversion are supported (i.e.

de-interlacing, re-interlacing).

Figure 31

Remark: The vertical start phase, as well as scaling ratio are deﬁned independently

for the luminance and chrominance channel, but must be set to the same values in

the actual implementation for accurate 4 : 2 : 2 output processing.

The vertical processing communicates on its input side with the line FIFO buffer. The

scale related equations are:

•

LPI mode: In LPI mode (YMODE = 0) two neighboring lines of the source video

stream are added together, but weighted by factors corresponding to the vertical

position (phase) of the target output line relative to the source lines. This linear

interpolation has a 6-bit phase resolution, which equals 64 intra line phases. It

interpolates between two consecutive input lines only. LPI mode should be applied for

scaling ratios around 1 (down to

ACM mode: The vertical Accumulation (ACM) mode (YMODE = 1) represents a

vertical averaging window over multiple lines, sliding over the ﬁeld. This mode also

generates phase correct output lines. The averaging window length corresponds to

the scaling ratio, resulting in an adaptive vertical low-pass effect, to greatly reduce

aliasing artefacts. ACM can be applied for downscales only from ratio 1 down to

ACM results in a scale dependent DC gain ampliﬁcation, which has to be

precorrected by the BCS control of the scaler part.

Scaling increment calculation for ACM and LPI mode, downscale and zoom:

YSCY[15:0] and YSCC[15:0] = lower integer of

BCS value to compensate DC gain in ACM mode (contrast and saturation have to be

set): CONT[7:0] A5h[7:0] respectively SATN[7:0] A6h[7:0]

= lower integer of

and

Figure 32

Rev. 03 — 17 January 2006

Nline_out

----------------------- -

Nline_in

and

Table 13

and

, or = lower integer of

), it must be applied for vertical zooming.

Table 14

describe the use of the offsets.

1024

PAL/NTSC/SECAM video decoder

----------------------- -

Nline_out

Nline_in

(icon) can be applied.

----------------------------- -

YSCY[15:0]

1024

SAA7114

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SAA7114HV2 NXP Semiconductors, SAA7114HV2 Datasheet - Page 51

SAA7114HV2

Specifications of SAA7114HV2

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