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Details, datasheet, quote on part number:VP536
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Datasheet text preview:
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VP536E
NTSC/PAL Digital Video Encoder
DS4322 - 3.2 August 1997
FEATURES s Converts RGB data (3x8bits) to analog composite video and S-video s Internal video timing generation s RGB or YUV input modes s Progressive scanning (non-interlaced fields) display mode optional s Separate horizontal and vertical sync outputs s 68 pin PLCC package
DESCRIPTION
The VP536E converts digital RGB data (3x8bits) into analog NTSC/PAL composite video and S-video signals. The outputs are capable of driving doubly terminated 75 ohm loads with standard video levels. The device will also accept YUV data. Progressive scan (non-interlaced fields) video display is available in both NTSC and PAL modes. The output pixel rate is approximately 7 times Fsc (color subcarrier frequency) for NTSC (6.6 times Fsc for PAL) which is approximately 25MHz. Input pixel rate is half this frequency; approximately 12.5MHz. All the necessary synchronization signals are generated internally. Digital horizontal and vertical sync outputs are available for use by the host system. The rise and fall times of sync, burst envelope and video blanking are internally controlled to be within composite video specifications. Two 8-bit digital to analog converters (DACs) are used to convert the digital luminance and chrominance data into analog signals. An inverted composite video signal is generated by summing the complimentary current outputs of each DAC. An internally generated reference voltage provides the biasing for the DACs.
APPLICATIONS s s s s s s Multi-media Video Games PC's Graphics Display Adaptors Video Effects Processors
CTRLB1 VS CTRLB2
COMPOSITE SYNC
VIDEO TIMING GENERATOR HS
MATRIX BYPASS
BURST GATE
R0:7
Y
RGB
INTERPOLATOR
(SIN X/X)-1 PRECOMPENSATION
LUMAOUT LUMA DAC COMPOUTB
G0:7
TO YUV MATRIX
U
CHROMA LOW-PASS FILTER INTERPOLATOR BANDPASS MODULATOR FILTER CHROMA DAC CHROMAOUT
B0:7
V
COLOR SUBCARRIER GENERATOR CLK25I CLK12I CLK25O CLK12O CTRLA1 CTRLA2 CTRLA3
Fig. 1. Functional Block Diagram
VP536E
NTSC/PAL Video Standards
Both NTSC (4-field, 525 lines) and PAL (8-field, 625 lines) video standards are supported by the VP536E. All raster synchronization, color subcarrier and burst characteristics are adapted to the standard selected. However, different input clock frequencies are necessary for each of the two video standards. For the NTSC mode of operation, input clock frequencies of 25.048948MHz. and 12.524474MHz. are required. For the PAL mode of operation, the required input clock frequencies are 29.500000MHz. and 14.750000MHz. The two input clock frequencies in each of the video standards are related by a ratio of 2. The mode of operation is selected through the CTRLB1 and CTRLB2 pins as shown in Table 1. (VS) pulse signals. The HS and VS signals are negative true pulses coincident with the sync pulses in the output video signals. The HS signal has the same duration as a standard horizontal sync pulse but is continuous through the vertical sync interval.
Input Pixel Data Format
Input pixel data may be in one of two formats; pregamma corrected RGB and YUV. This format is controlled by the state of theCTRLA1, CTRLA2 and CTRLA3 pins as shown in Table 2. The RGB input data coding is straight binary and is in the range of 0-255. In the YUV input mode, Y, U and V data is presented on the R, B and G input data buses, respectively. Y data coding is binary and is in the range of 0-247. U and V coding is in two's compliment binary. U is in the range of 102 to +102 and V is in the range of -107 to +107.
Progressive Scan Display
Progressive scan (non-interlaced fields) display mode is available for semi-NTSC and semi-PAL video applications. For NTSC, there are 263 lines in each field instead of 262.5 lines per field in a normal NTSC display. Thus, 263 lines of field 2 data are scanned as field 1 resulting in 526 lines per `frame'. For PAL, there are 313 lines in each field instead of 312.5 lines per field in a normal PAL display. Thus, 313 lines of field 2 data are scanned as field 1, resulting in 626 lines per `frame'. Progressive scanning display mode is selected through the CTRLB1 and CTRLB2 pins as shown in Table 1. Table 1: VP536E Modes of Operation CTRLB2 0 0 1 1 CTRLB1 0 1 0 1 Video Standard
Dithering
In applications where the input RGB/YUV data has been subject to video compression, visual artefacts may occur in the video display depending on the type and quality of video compression employed. The VP536E incorporates dithering techniques on the incoming RGB data and on the internal luminance data in order to minimize any artefacts. Each of these dithering techniques can be enabled or disabled through the CTRLA1 and CTRLA2 pins as shown in Table 2 below. Table 2: Input Pixel Data Format and Dithering Selection CTRLA3 CTRLA2 CTRLA1 Input Pixel Data Format RGB input dither ON, Luma dither OFF RGB input dither ON, Luma dither ON RGB input dither OFF, Luma dither ON RGB input dither OFF, Luma dither OFF YUV input, Luma dither ON YUV input, Luma dither OFF reserved reserved
NTSC Progressive Scan NTSC PAL Progressive Scan PAL
0 0 0 0 1 1 1 1
0 0 1 1 0 0 1 1
0 1 0 1 0 1 0 1
NOTE: CTRLB1 & CTRLB2 are internally pulled low, therefore, if left unconnected, NTSC is the default mode of operation.
Video Timing
The VP536E has an internal sync generator which produces video timing signals appropriate to the mode of operation. All timing signals are derived from the two input clocks. These clocks are input on the CLK25I pin (25.048948MHz:NTSC/29.5MHz:PAL) and the CLK12I pin (12.52444MHz:NTSC/14.75MHz:PAL). The two input clock frequencies for NTSC and PAL are related by a ratio of 2. The lower frequency corresponds to the input pixel data rate. Input pixel data is latched in on the rising edge of the CLK12I clock. The clocks must be derived from a crystal controlled oscillator in order to avoid timing, chroma frequency and modulation errors. The video timing generator produces the internal composite sync, blanking and burst gate as well as externally available horizontal sync (HS) and vertical sync
NOTE: CTRLA1 is internally pulled high, while CTRLA2 & CTRLA3 are internally pulled low; therefore if left unconnected, pre-gamma corrected RGB is the default input pixel data format with input RGB and luma dithering enabled.
Video Blanking
The VP536E automatically performs standard composite video blanking. Lines 1-17, 261-279, 523-525 inclusive, as well as the last half of line 260 and the first half of line 280 are blanked in the NTSC mode. In PAL mode, lines 1-22, 311-335, 624-625 inclusive, as well as the last half of line 623 and the first half of line 23 are blanked.
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