PNX1500E NXP Semiconductors, PNX1500E Datasheet - Page 366

PNX1500E

Manufacturer Part Number

PNX1500E

Description

Manufacturer

NXP Semiconductors

Datasheet

1.PNX1500E.pdf (828 pages)

Specifications of PNX1500E

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NXP Semiconductors

Volume 1 of 1

PNX15XX_PNX952X_SER_N_4

Product data sheet

2.4.4 HIST (Histogram Modiﬁcation) Unit

2.4.5 LSHR (Luminance/Luma Sharpening) Unit

2.4.6 Color Features (CFTR) Unit

"Panorama mode" or "Superwide mode", and it is recommended for showing 4:3 or

14:9 images on a 16:9 display. Besides a linear constant upscaling ratio, the HSRU

also supports special non-linear upscaling ratios for the panorama mode.

Remark: Layer size(final) register has to be updated to match the scaled output size

of HSRU

The Histogram modiﬁcation block complements the Histogram measurement blocks

in the MBS. It modiﬁes the Y, U & V data according to a non-linear transfer curve. The

Y transfer curve is described by the 32 values of a look up table. The color difference

signals are also coupled to this curve by a calculation derived from the original Y and

its value after the Histogram modiﬁcation. The ﬁnal aim is to provide a greater

contrast by increasing the range of intensities in the input signal.

The LSHR module is used to improve (increase) the sharpness impression. Inputs to

the LSHR unit are all three of the Y, U and V signals. They are 10 bit signed values (-

512 to 511 range). The LSHR unit modiﬁes the Y component only; U and V remain

untouched. Outputs of the LSHR unit are also 10-bit signed values.

The LSHR unit has a latency of 33 cycles when it is enabled. In the bypass mode, it

has no latency. For proper operation, at least 7 dummy cycles are required between

any two lines. The unit also performs sharpness measurements on the luma signal

and the results are stored in two status register: LSHR_E_max and LSHR_E_sum.

They are updated at the end of each frame.

The Color Features block performs a sequential combination of three functions:

These features are intended to correct the errors caused by the transmission and the

phosphors used in CRT displays. The reason that skin tone, blue-stretch (alters the

white temperature) and green enhancement are chosen is that the human eye is

most sensitive to unnatural errors in these colors. In practice, they can also be used

to enhance the vividness of certain colors in the picture. Skin tone correction will be

useful to compensate for a small phase error in the demodulation of analog NTSC

(hue error). Blue stretch and green enhancement just look nice.

Remark: It may not be fully correct to state above that the color features are intended

to correct the errors caused by the transmission and the phosphors used in CRT

displays. The real cause of the tint problem may well be that people are trying to

correct for an error that no longer exists. The current practice in NTSC countries has

been for a long time to encode for phosphors that are similar to EBU. If the TV makes

no corrections for presumed original NTSC phosphors, then there will be no error.

•

Skin Tone Correction

Blue Stretch

Green Enhancement

Rev. 4.0 — 03 December 2007

PNX15xx/952x Series

Chapter 11: QVCP

11-366

PNX1500E NXP Semiconductors, PNX1500E Datasheet - Page 366

PNX1500E

Specifications of PNX1500E

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