pnx8510 NXP Semiconductors, pnx8510 Datasheet

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... The sync raster engine together with an up-sampling filter and a sync insertion unit compose a complete HDTV-capable data path including tri-level sync generation. PNX8510/11 also provides two independent pairs of stereo audio DACs with two corresponding I Figure 1 2. Features 2 ...

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... Type number Package Name Description PNX8510HW/B1 HTQFP100 Plastic thermal enhanced thin quad flat package; 100 leads, body mm, exposed die pad PNX8511HW/B1 HTQFP100 Plastic thermal enhanced thin quad flat package; 100 leads, body mm, exposed die pad 5 ...

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... Audio digital ground 5 - Audio digital ground 6 - Audio DAC digital supply 7 - Digital ground 8 - JTAG controller test data input 9 I JTAG controller test data output 10 O Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip 75 DV4_IN2 74 DV5_IN2 73 DV6_IN2 72 DV7_IN2 71 DV8_IN2 70 DV9_IN2 69 DV_CLK2 ...

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... Current return path for all primary channel DACs 49 O Video output for primary video DAC 2 (C/red) Analog supply for video DACs 50 - Current setting resistor for primary channel DACs 51 - Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... General purpose input/output 87 I/O General purpose input/output 88 I/O Audio DAC output buffer supply 89 - Audio DAC supply 90 - Audio output for right secondary audio channel 91 O Audio DAC ground 92 - Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... The video interfaces and sync raster engines are designed in a generic way. The only limiting factor is the data rate of the received video streams. All formats with a total interface speed requirement below 81 MHz can be displayed by the PNX8510/11. Primary video channel standard interface modes ...

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... Muxed Components 10/8-bit 4:4:4 Muxed components/ 4:2:2 Muxed components (use of both D1 interfaces required) 10/8-bit Secondary video channel standard interface modes Mode 4:2:2 Muxed components 10/8-bit Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Interface Used data path speed 27 MHz SD-CVBS-data path 27 MHz SD-CVBS and ...

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... DV_IN2[6] blue[7] - DV_IN2[5] blue[6] - DV_IN2[4] blue[5] - DV_IN2[3] blue[4] - DV_IN2[2] blue[3] - DV_IN2[1] blue[2] - DV_IN2[0] blue[1] - GPIO[1] blue[0] - DV_CLK2 Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Mode Interface speed 24-bit direct MHz RGB/YUV 8/10-bit © Koninklijke Philips Electronics N.V. 2004. All rights reserved. ...

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... Aside from built-in video encoders, which generate all necessary timing and filtering for an appropriate sync raster for PAL, NTSC and SECAM, the PNX8510/11 contains a separate raster-generation engine which also supports but is not limited to the HD-formats, such as the SMPTE 274M ...

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... YUV 1080i Double Interface Mode 7.1.2 Video input modes The PNX8510/11 video interface supports a wide variety of video formats. The video interface is designed in a generic fashion de-coupled from the actual video data paths in the system and imposes only a few restrictions on the video data streams provided to the chip ...

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... Philips Semiconductors RGB 4:4:4 Fig 5. RGB 4:4:4 This mode is only useful if the HD data path in the PNX8510/ operation. The RGB 4:4:4 interface mode is not applicable to the standard definition RGB path operation due to the implicit clocking requirements. The data rate for standard definition RGB 4:4:4 data would be 13.5 MHz per component resulting in an interface speed of 40 ...

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... This mode supports two video data streams through one physical video interface. It can be used to utilize both video encoder channels in the chip with one interface only or to hook up two PNX8510/11 devices to one source providing an interleaved data stream. Each chip extracts one slice from the interleaved stream. This video format is useful for the standard definition RGB data path as well as for the HD data path ...

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... SAV-EAV DE-SLICE input DETECTION O_E SLICE_MODE SLICE_DIR 8/10-bit mode D1-IN SAV-EAV DE-SLICE DETECTION O_E SLICE_MODE SLICE_DIR VBI DATA SLICER Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Figure 11. REGISTER ARRAY SECONDARY TTX data port DEMUX_MODE R/Y/Y OUTPUT OUT- G/U/U-V FORMATTER SEL B/V SEL1 DEMUX_MODE Y OUTPUT ...

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... The PNX8510/11 supports two VBI data streams. The limitation to two VBI data streams implies certain limitations when using multiple PNX8510/11 chips in a system. In this case one PNX8510/11 gets either one or two (all) VBI data streams. The other PNX8510/11 IC would get one or none. ...

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... BC5 - field ID LN8 0=field 1 1=field 2 - LN2 LN1 SAV/EAV codes NTSC Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Figure 12 illustrates how the D2 FF DDC1 DDC timing reference sliced data start active video ...

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... Supported data types Standard Teletext EuroWST VPS video programming service WSS wide screen signalling closed caption US NABTS Programming (SubAddr1-Data1-SubAddr2-Data2...) Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip H (EAV) H (SAV (EAV) H (SAV ...

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... Primary video channel Figure 13 CLK input Fig 13. Primary display pipe PNX8510/11 supports color space conversion only in the primary RGB Standard definition data path. The fixed coefficients of this color space matrix are as follows 1.371 (0.336 0.698 x Cr 1.732 ...

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... Product data DEMUX BYPASS GAIN CONTROL UP-SAMPLE BYPASS SYNC-RASTER GENERATOR Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Y/R-DAC SYNC-INSERT LEVEL-SHIFT U /G-DAC SYNC-SHAPER V/C R /B-DAC H V MDB649 © Koninklijke Philips Electronics N.V. 2004. All rights reserved. ...

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... PHRES programming bits. These modes may only be switched on if the encoder is programmed to generate a standard signal; they will not work in non-interlaced mode. 9397 750 12612 Product data Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... G v (dB Luminance transfer characteristics Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip MGD672 (MHz) MBE736 ( (MHz) Luminance Transfer Characteristics (1) (2) (3) (4) © Koninklijke Philips Electronics N.V. 2004. All rights reserved. 14 ...

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... Product data ( handbook, halfpage (dB 0.4 0.8 Chrominance transfer characteristics Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip MBE737 (MHz) MBE735 (1) (2) 1.2 f (MHz) 1.6 Chrominance Transfer Characteristics (1) (2) © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... The sync generator also provides HS (Horizontal Sync), VS (Vertical Sync) and O_E (Odd/Even) signals to control the rest of the encoder. 9397 750 12612 Product data Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip MGB708 (MHz) MGB706 (MHz) © ...

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... Supplement document. Remark: Macrovision™ is not available in PNX8511. 7.2 HD data path The high definition data path of the PNX8510/11 IC features an up-sampling filter, gain control and a universal sync insertion engine. Input formats supported by the high definition data path are: Double D1 mode:16/20 bit 422 (8/10 bit for Y and 8/10 bit for U/V); ...

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... The sync engine’s flexibility is achieved by using a sequence of linked lists carrying the properties for the image, the lines as well as fractions of lines. The list dependencies are illustrated in 9397 750 12612 Product data Figure 22. Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... R/Y-Vallue_Array 8 entries 10-bit duration 1-bit select 10-bit value 3-bit value index 3-bit value index G/U-Vallue_Array 8 entries Line_Pattern_Array 10-bit value B/V-Vallue_Array 8 entries Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Line_Count_Ptr Pattern_Ptr 10-bit duration 10-bit duration 10-bit duration 1-bit select ...

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... Certain bits of the “value index” can also be used to generate a digital sync raster provided at the H- and V-sync outputs of the PNX8510/11. “Value array” can hold values (counted from 0 though 7) which are 10-bit signed 2’ ...

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... Product data Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Product data Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Product data Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Section 9. © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Signature analysis PNX8510/11 allows the signature analysis to be done on both primary and the secondary video channels and read the two signatures separately. The signature analysis is done on the upper 8 bits of the interface. The video channel select for the signature analysis is defined by the “SIG_SELECT” of the SIGCTRL (offset 0xBA) register ...

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... D1 input can be used to generate the sync raster driving the display device. 7.3 Audio pipeline The PNX8510/11 has two independent stereo channels, each connected to a separate audio interface. The primary audio channel is usually associated with the primary video channel and carries the accompanying sound information. The ...

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... In slave mode, all required clocks (System CLK, SCK and WS) must be generated externally and must be synchronous with each other. • In master mode, the PNX8510/11 only gets the System CLK and generates SCK and WS clocks synchronously to the applied System CLK. In this mode, System CLK is equal to 128 x Fs where Fs is the audio sampling frequency. ...

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... Fig 25. Input format Table 20: Port SCK SD WS 7.3.2 Mute modes The audio modules of the PNX8510/11 have several mute functions. The mute operation is controlled via the bits “quickmute, and mutemode” of the programming register, INTERPOLATOR_REG2(offset 0x00FD). 9397 750 12612 Product data and Figure 25 ...

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... I horizontal blanking interval. With the VBI programming interface, a reliable real-time programming for the PNX8510/11 video blocks can be accomplished. For instance, this mode makes it very easy to carry the necessary programming data over to the digital encoder to encode a certain teletext packet in a specific scanline without ...

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... Philips Semiconductors extensive buffering. The format for programming registers in the PNX8510/11 via the VBI interface can be found in audio registers are not possible via the VBI interface. The PNX8510/ address the primary, secondary, audio and remaining control registers. The I address set can be configured during reset with a pull-up or pull-down combination of GPIO pins ...

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... If GPIO_IN_EN4 is set to one, the status of the GPIO pin can be monitored by reading the STATUS bit of the appropriate GPIO register. The function of all relevant GPIO_IN/OUT signals are listed in Table Fig 27. Operation modes for one GPIO in the PNX8510/11 Table 25: Signal gpio5_out1 ...

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... Clock module All of the PNX8510/11 modules receive their input clocks from the clocks module. The top level structure of the clocks module is Fig 28. Clocks module The PNX8510/11 in normal operation mode receives four external clocks. Two clocks dv_clk1 and dv_clk2 are the clocks used for the primary and secondary video data paths ...

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... Philips Semiconductors The PNX8510/11 video clocks are used to create two internal clocks: one for operating the video input interface (clk_dv1_if, clk_dv2_if), and one for operating the main video processing pipeline (clk_dv1_proc, clk_dv2_proc). The audio interface normally operates in slave mode (over-sampling clock, word select and bit clock are provided from the externally connected I the PNX8510/11 can be operated in master mode ...

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... Test mode This section describes how the analog test modes are implemented in the PNX8510/11. Note that these test modes are intended for production test only. The chip needs to be brought into analog test mode via the JTAG boundary scan controller. Once the chip is in analog test mode the different test modes can be enabled via the GPIO pins ...

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... GPIO4 GPIO5 Fig 31. Audio and video DAC test modes 8. Register descriptions The PNX8510/11 register space is divided into four different spaces. Each of them is addressed by a different I the primary video channel, the second space belongs to the secondary video channel. The third I first audio channel. The fourth I channel ...

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... Philips Semiconductors Table 28: PNX8510/11 register summary Descriptions with * have different meaning, or are not present in secondary video address space. See details. Address Name 0x1B MSMS 0x26 WSS1 0x27 WSS2 0x28 BCTL 0x29 BCTL2 0x2A CGD1 0x2B CGD2 0x2C CGD 0x2D DACCTL 0x38 ...

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... Philips Semiconductors Table 28: PNX8510/11 register summary Descriptions with * have different meaning, or are not present in secondary video address space. See details. Address Name 0x74 TTXHL/TTXHD 0x75 CSYNCA 0x76 TTXOVS 0x77 TTXOVE 0x78 TTXEVS 0x79 TTXEVE 0x7A FAL 0x7B LAL 0x7C TTXCTRL 0x7E ...

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... Philips Semiconductors Table 28: PNX8510/11 register summary Descriptions with * have different meaning, or are not present in secondary video address space. See details. Address Name 0xAF SYNC_HEIGHT2 0xB0 SYNC_WIDTH1 0xB1 SYNC_WIDTH2 0xB2 SYNC_TRIGPOS_Y1 0xB3 SYNC_TRIGPOS_Y2 0xB4 SYNC_TRIGPOS_X1 0xB5 SYNC_TRIGPOS_X2 0xB6 SIG1 0xB7 SIG2 0xB8 ...

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... Philips Semiconductors 8.1 Video address space Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol Offset 0x00 STATUS 7 VER2 6 VER1 5 VER0 4 CCRDO 3 CCRDE 2 Unused 1 FSEQ 0 O_E Registers 0x01 through 0x10 must be initialized to zero. Offset 0x1A MSMT 7:0 MSMT Offset 0x1B MSMS ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 5:0 WSSD[13:8] Offset 0x28 - RTC1/BCTL1 7 DECFIS 6 DECCOL 5:0 BS Offset 0x29 - BCTL2 7:6 Unused 5:0 BE Offset 0x2A - CGD1 7:0 CG Offset 0x2B - CGD2 7:0 CG Offset 0x2C - CGD 7 CGEN 6:4 Unused 3:0 CG Offset 0x2D - DACCTL Video data path ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 6 CVBSEN 5 CEN* 4:0 Unused Registers 0x2E–0x37 must be initialized to zero. Offset 0x38 - GAIN_Y * 7:5 Unused 4:0 GAIN_Y* Offset 0x39 - GAIN_UV* 7:5 Unused 4:0 GAIN_UV* Offset 0x3A - INPCTL 7 CBENB 6 QUALINVERT* 5 USE_QUAL* 4 DEDGE 3 SD_HD* ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 0 L2C* Registers 0x3B through 0x53 must be initialized to zero. Offset 0x54 - VPS1 7 VPSEN 6:0 Unused Offset 0x55 - VPS2 7:0 VPSB5 Offset 0x56 - VPS3 7:0 VPSB11 Offset 0x57 - VPS4 7:0 VPSB12 Offset 0x58 - VPS5 ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 7:0 GAINV Offset 0x5D - BLCKL 7 GAINU 6 DECOE 5:0 BLCKL Offset 0x5E - BLNNL 7 GAINV 6 DECPH 5:0 BLNNL 9397 750 12612 Product data …continued Access Value Description R/W 0xaf Variable gain for Cr signal; input representation is in accordance with CCIR656 ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol Offset 0x5F - BLNVB/CCR 7:6 CCRS 5:0 BLNVB Offset 0x60 - Must be initialized to zero Offset 0x61 - STDCTL 7:6 Unused 5 INPI 4 YGS 3 SECAM 2 SCBW 1 PAL 0 FISE Offset 0x62 - RTCCTL/BSTA 7 RTCE 6:0 BSTA Offset 0x63–0x66 - FSC0-FSC3 ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 7:0 0x63=FSC0 0x64=FSC1 0x65=FSC2 0x66=FSC3 Offset 0x67 - L21O0 7:0 L21O0 Offset 0x68 - L21O1 7:0 L21O1 Offset 0x69 - L21E0 7:0 L21E0 Offset 0x6A - L21E1 7:0 L21E1 Offset 0x6B - Must be initialized to zero. Offset 0x6C - TRGCTL1* ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 3:2 LDEL 1:0 FLC Offset 0x6F - TTXCTL 7:6 CCEN 5 TTXEN 4:0 SCCLN Offset 0x70 - ADWHS (Horizontal) 7:0 ADWHS7:0 Offset 0x71 - ADWHE (Horizontal) 7:0 ADWHE7:0 Offset 0x72 - ADWHS/E 7 Unused 6:4 ADWHE10:8 3 Unused 2:0 ADWHS10:8 Offset 0x73 - TTXHS ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol Offset 0x74 - TTXHL/TTXHD 7:4 TTXHL 3:0 TTXHD Offset 0x75 - CSYNCA 7:3 CSYNCA 2:0 Unused Offset 0x76 - TTXOVS 7:0 TTXOVS Offset 0x77 - TTXOVE 7:0 TTXOVE Offset 0x78 - TTXEVS 7:0 TTXEVS Offset 0x79 - TTXEVE 7:0 TTXEVE Offset 0x7A - FAL (Vertical Active Size Adjustment) ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 6 LAL8 5 TTXO 4 FAL8 3 TTXEVE8 2 TTXOVE8 1 TTXEVS8 0 TTXOVS8 Offset 0x7D - Must be initialized to zero. Offset 0x7E - DTTXL 7:0 DTTXL Offset 0x7F - DTTXL2 7:0 DTTXL Offset 0x80 - LCNT_ARRAY_LINE* 7:0 LCNT_ARRAY_LINE Offset 0x81 - LCNT_ARRAY_LINE* ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 3:0 LTYPE_ARRAY_ADR Offset 0x87–0x8D - LPATT_ARRAY_LINE* 7:0 LPATT_ARRAY_LINE 0x87 -> LSBs 0x8D -> MSBs Offset 0x8E - LPATT_ARRAY_ADR* 7:3 Unused 2:0 LTYPE_ARRAY_ADR Offset 0x8F - Must be initialized to zero. Offset 0x90–0x94 - GPIO5-GPIO1 (0x90=GPIO1 ... 0x94=GPIO5)* 7 GPIO_IN_EN4 ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 4:3 SEL 2:0 DEMUX_MODE Offset 0x96–0x97 - Must be initialized to zero. Offset 0x98 - VALUE_ARRAY_ADR/EVENT_TYPE_PTR* 7 Unused 6:4 EVENT_TYPE_PTR 3 Unused 2:0 VALUE_ARRAY_ADR Offset 0x99–0x9A - TRIGGER_LINE* 7:0 TRIGGER_LINE Offset 0x9B–0x9C - TRIGGER_DURATION* 7:0 TRIGGER_DURATION Offset 0x9D - TRIGGER_PTR* ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 7:2 Unused 1 DEMOFF 0 Reserved Register 0xA1 must be initialized to zero Offset 0xA2 - BORDER_Y 7:0 BORDER_Y Offset 0xA3 - BORDER_U 7:0 BORDER_U Offset 0xA4 - BORDER_V 7:0 BORDER_V Offset 0xA5 - MISCCTRL 7 Unused 6 M24/30* 5 TRIGGER_MODE* 4 VMODE* ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 7 Y_TOCO 6 U_TOCO 5 V_TOCO 4 Y/R_SYNC_INS_EN 3 U/G_SYNC_INS_EN 2 V/B_SYNC_INS_EN 1 SYNC_SIG_EN 0 UPSAMPLE_EN Offset 0xA6 - DAC6_ADJ* 7:5 Unused 4:0 DAC6_ADJ Offset 0xA7 - DAC5_ADJ* 7:5 Unused 4:0 DAC5_ADJ Offset 0xA8 - DACC_ADJ* 7:4 Unused 3:0 DACC_ADJ Offset 0xA7 - SYNC_DELAY 7 VBIPROG ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 2:0 SYNC_DELAY* Offset 0xA8 - BLANK_R/Y - (HD Data Path only)* 7:0 BLANK_R/Y Offset 0xA9 - BLANK_G/U - (HD Data Path only)* 7:0 BLANK_G/U Offset 0xAA - BLANK_B/V - (HD Data Path only)* 7:0 BLANK_B/V Offset 0xAE - SYNC_HEIGHT1* 7:0 SYNC_HEIGHT1 Offset 0xAF - SYNC_HEIGHT2* ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol 1:0 SIG_SELECT Offset 0xBC - BLANK_MSBs* 7:6 Unused 5:4 BLANK_R/Y 3:2 BLANK_G/U 1:0 BLANK_B/V Offset 0xBE - R/Y VALUE_ARRAY_LINE* 7:0 R/Y-VALUE_ARRAY_LINE R/W Offset 0xBF - G/U VALUE_ARRAY_LINE* 7:0 G/U-VALUE_ARRAY_LINE R/W Offset 0xC0 - B/V VALUE_ARRAY_LINE* 7:0 B/V-VALUE_ARRAY_LINE R/W Offset 0xC1 - VALUE_ARRAY_LINE-MSBs* 7:6 Unused 5:4 R/Y-VALUE_ARRAY_LINE R/W 3:2 G/U-VALUE_ARRAY_LINE R/W 1:0 B/V-VALUE_ARRAY_LINE R/W ...

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... Philips Semiconductors Table 29: PNX8510/11 video registers * indicates not present in secondary video channel Bit Symbol Offset 0xC7 - HD_GAIN_RY(HD Data Path)* 7:0 HD_GAIN_R/Y Offset 0xC8 - HD_GAIN_GU(HD Data Path)* 7:0 HD_GAIN_G/U Offset 0xC9 - HD_GAIN_BV(HD Data Path)* 7:0 HD_GAIN_B/V 8.2 Audio/Clock Address Space Table 30: PNX8510/11 Audio/Clock Registers Bit Symbol ...

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... Philips Semiconductors Table 30: PNX8510/11 Audio/Clock Registers Bit Symbol 0 CLK_PROC_EN Offset 00F4 - I2S_SET_REG 7:4 Unused 3:0 I2S_FORMAT Offset 00F5(LSBs)–00FB(MSBs) - FEATURE_REG 54:47 Unused 46:39 Unused 38:36 Unused 35:33 DE-EMPH_1 32 Unused 31 MT1 30:29 SOUND_FEATURE 28:21 MASTER_VOL_RIGHT 9397 750 12612 Product data …continued Access Value Description R Normal functional mode 1 = Set the clock to zero. ...

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... Philips Semiconductors Table 30: PNX8510/11 Audio/Clock Registers Bit Symbol 20:17 BBOOST_RIGHT 16:15 TREBLE_RIGHT 14:7 MASTER_VOL_LEFT 6:3 BBOOST_LEFT 2:1 TREBLE_LEFT 0 MTM Offset 00FC - INTERPLATOR_REG1 7 SDET_ON 9397 750 12612 Product data …continued Access Value Description R/W 0 Bass-boost for right channel Result is dependent on the sound_feature setting [30:29]. 20:17 Flat 0000 0 dB 0001 0 dB ...

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... Philips Semiconductors Table 30: PNX8510/11 Audio/Clock Registers Bit Symbol 6 SILENCE_OVERRIDE 5 FILTER_COMP 4 DA_POL_INV 3:2 SD_VALUE 1 Unused 0 Unused Offset 00FD - INTERPOLATOR_REG2 7:6 Unused 5:4 Unused 3 QUICKMUTE 2 MUTEMODE 1 Unused 0 Unused Offset 00FE - Audio DAC Power On 7:1 Unused 0 PON 9397 750 12612 Product data …continued Access Value Description R/W 0 Silence override override ...

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... Philips Semiconductors 9. Video programming examples Table 31 into PAL, NTSC and SECAM modes. [PNX8510/11_VIDEO] has to be substituted with the appropriate I for the primary or secondary video channel. [PNX8510/11_AUDIO] has to be substituted with the appropriate I for the primary or secondary audio channel. Remark: The RGB and 1080i examples are applicable to the primary video channel. ...

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... Table 34: Offset 0x01 0x02 9397 750 12612 Product data PNX8510/11_AUDIO PNX8510/11_VIDEO PNX8510/11_AUDIO Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Value 0x0 0x0 Value 0x0 0x0 0xE0 0x48 0x0 0x0 0x0 ...

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... NTSC (RGB 27 MHz YUV422 Interface Mode Table 37: Offset 0x27 0x54 0x2D 9397 750 12612 Product data PNX8510/11_VIDEO PNX8510/11_AUDIO PNX8510/11_VIDEO Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Value 0x0 0x0 0xE0 0x48 0x0 0x0 0x0 0x0 0x80 0x21 0x1D ...

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... Product data PNX8510/11_VIDEO …continued PNX8510/11_AUDIO PNX8510/11_VIDEO Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Value 0x49 0x0 0x0 0x80 0x1D 0x25 0x88 0x86 0xBA 0x2A 0x2E 0x2E 0x11 0x45 ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Value 0x7D 0xAF 0x23 0x35 0x35 0x02 0x2F 0x2A098ACB 0xA0 0x1B 0x130 0x160 0x65A 0x107 0x0 ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Value 0x0 0x0 © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Rconv = 247Ω Rref = 18000Ω α: -5. 0.521 => vout(rms) = 0.607 vref Figure 32, it can be seen that the output voltage swing Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Value 0x70 0x10 0x70 Value 0x0 0x0 p-dac ...

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... H RV5 CV3 75 390 pF C41 120 pF L5 LUMA1 2.7 H RV6 CV5 75 390 pF C42 120 pF L7 VOUT6 2.7 H RV7 CV7 75 390 pF Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip L4 J6 RCA jack 2.7 H CV4 560 pF L6 LUMA1_OUT 2.7 H CV6 560 pF J7 S-video 4 3 CHROMA1_OUT 2 ...

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... Product data 2 Common I C bits for all DAC devices Vout 0% +1% +2% +3% +4% +5% +6% +7% 0% -1% -2% -3% -4% -5% -6% -7% 2 Separate I C bits 31x21mV Vout +0% +3.6% +7.2% +10.7% +14.3% +17.9% +21.5% +25.0% +28.6% +32.2% +35.8% +39.4% +42.9% +46.5% Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Figure 34 given output voltage and termination. 9397 750 12612 Product data 2 Separate I C bits 31x21mV …continued provides an example for calculating the RSet for the video DACs from Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Vout +50.1% +53.7% +57.3% +60.8% +64.4% +68% +71.6% +75.1% +78 ...

Page 84

... IOUT =  ------------ - --------- -   RS 100   bus of the PNX8510/11 is disabled during the reset of the device and the Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip 1023 digital 10-bit inputs IOUT COMP DAC10 IDUMP ...

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... Product data Conditions Min 3.15 3.15 3.15 3.15 -0.5 2.0 - -0.5 0.7 V Conditions Min RGB/Y-C YPrPb YPrPb 3.15 3.15 3.15 3.15 -0.5 2.0 - clocks data I/Os at high impedance IOL=2mA - IOH=2mA 2.4 -0.5 2 0.7V DD(I C) Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Max Unit 3.45 V 3.45 V 3.45 V 3. +0.3 V DD(I C) DD(I C) Typical Max Unit 1.02 1.15 W 1.09 1. ...

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... Conditions Min Iol=3mA - during ACK ± Static 0.6 ± 0.5 Ω Load 37.5 //15pF 2.3 Ω Load 37.5 //15pF 2.3 See Section 10 for application information. Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Typical Max Unit 0 1.0 V rms 1.65 V Ω k Ω dB(A) -43 mV lsb ...

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... scale (1) ( 0.27 0.20 14.1 7.1 14.1 7.1 16.15 0.5 0.17 0.09 13.9 6.1 13.9 6.1 15.85 REFERENCES JEDEC JEITA Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip SOT638 detail (1) ( 16.15 0.75 1.15 1.15 1 0.2 0.08 0.08 15.85 0.45 0.85 0.85 EUROPEAN ISSUE DATE ...

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... Use a double-wave soldering method comprising a turbulent wave with high upward pressure followed by a smooth laminar wave. 9397 750 12612 Product data thick/large packages. Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip 3 so called 3 so called small/thin packages. © Koninklijke Philips Electronics N.V. 2004. All rights reserved. ...

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... Suitability of surface mount IC packages for wave and reflow soldering methods [1] [3] , [5] , SO, SOJ [8] Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip Soldering method Wave Reflow not suitable suitable [4] not suitable suitable suitable ...

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... Supersedes initial version of 27 August 2001 (9397 750 08495). The format of this document has been redesigned to comply with Philips Semiconductors’ new presentation and information standard. Preliminary release posted on BHS (DVI) Intranet web site Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip © Koninklijke Philips Electronics N.V. 2004. All rights reserved ...

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... Licenses Purchase of Philips I 20. Trademarks Nexperia – trademark of Koninklijke Philips Electronics N.V. Macrovision – trademark of the Macrovision Corperation Rev. 04 – 12 January 2004 PNX8510/11 Analog companion chip 2 C components 2 Purchase of Philips I C components conveys a license 2 under the Philips’ ...

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... Philips Semiconductors Contents 1 General description . . . . . . . . . . . . . . . . . . . . . . 1 2 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2.1 PNX8510 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2.2 PNX8511 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 3 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 4 Ordering information . . . . . . . . . . . . . . . . . . . . . 2 5 Block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . 2 6 Pinning information . . . . . . . . . . . . . . . . . . . . . . 3 6.1 Pin description . . . . . . . . . . . . . . . . . . . . . . . . . 3 7 Functional description . . . . . . . . . . . . . . . . . . . 6 7.1 Video pipeline . . . . . . . . . . . . . . . . . . . . . . . . . . 6 7.1.1 Video modes 7.1.2 Video input modes . . . . . . . . . . . . . . . . . . . . . 10 7.1.3 Video input module . . . . . . . . . . . . . . . . . . . . . 12 7.1.4 Video DAC control . . . . . . . . . . . . . . . . . . . . . 14 7.1.5 VBI data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 7.1.6 Primary video channel . . . . . . . . . . . . . . . . . . 17 7 ...