PNX8526EH NXP Semiconductors, PNX8526EH Datasheet

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PNX8526EH

Manufacturer Part Number
PNX8526EH
Description
Manufacturer
NXP Semiconductors
Datasheet
1.PNX8526EH.pdf (65 pages)

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1. General description
The PNX8526 is a highly integrated media processor for use in Advanced Set Top Boxes
(ASTB) and Digital Television (DTV) systems. The PNX8526 is targeted at the mid to
high-end ASTB/DTV systems, decoding ‘all format’ HD and SD MPEG-2 source material
with Standard Definition (SD), or double line-rate SD display capabilities. Although the
PNX8526 can process high level input formats, its display capabilities are primarily
targeted at NTSC, PAL and SECAM televisions. It is also intended for lower cost DTVs,
those not considered high definition. Progressive output is also available for double
line-rate television displays, or for high resolution graphic content to be displayed on a
computer monitor. The PNX8526 is designed in a high performance 0.12 micron process.
The PNX8526 performs source decode functions, including conditional access, MPEG-2
transport stream demultiplexing, MPEG-2 video decode, audio decode and processing,
graphics generation, video processing, and image composition and display. A 32-bit,
200 MHz VLIW processor, referred to as the TriMedia 3200 CPU core (TM32 CPU),
carries out the majority of media processing operations performed by the PNX8526. Fixed
function hardware will perform some operations that are not handled by the TM32 CPU.
Additionally, the PNX8526 supports a number of peripheral interfaces such as I
USB, IDE and UART. Other interfaces such as IEEE-1284 and Ethernet may be supported
via SuperI/O devices that reside on a PCI expansion bus. The expansion bus also
provides for glueless interface to 8-bit wide slave devices, such as flash/ROM, DOCSIS
modem, UARTs, etc.
An embedded MIPS processor (PR3940) running at 150 MHz is intended to run the OS.
(There is no direct support for an external processor; however, a CPU of any type may be
connected to the PNX8526 via the PCI interface.) This implies a complete CPU
subsystem consisting of the CPU itself, local memory, and an interface to PCI. The MIPS
processor is primarily responsible for control functions and graphics-intensive operating
systems, while the TM32 CPU is responsible for running all real-time media processing
functions. All resources supported within the PNX8526 are accessible by both the MIPS
processor and the TM32 CPU. The software documentation of the PNX8526 provides
more details on the interaction between the MIPS and the TM32 CPU.
The PNX8526 is intended to be used with a small companion IC, the PNX8510. This
analog companion chip provides the majority of analog video and audio support for the
output of the PNX8526. The PNX8510 companion is capable of simultaneously driving
two video channels (six DACs) and two stereo audio channels (four DACs).
PNX8526
Programmable source decoder with integrated peripherials
Rev. 02 — 11 July 2005
Product data sheet
2
C-bus,

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PNX8526EH Summary of contents

Page 1

PNX8526 Programmable source decoder with integrated peripherials Rev. 02 — 11 July 2005 1. General description The PNX8526 is a highly integrated media processor for use in Advanced Set Top Boxes (ASTB) and Digital Television (DTV) systems. The PNX8526 is ...

Page 2

... Applications Advanced Set Top Box (ASTB) Digital Television (DTV) 4. Ordering information Table 1: Type number PNX8526EH/M0 PNX8526EH/M0/G HBGA456 [1] Lead-free (Pb-free) package. 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials 2 C-bus, UART, USB, etc.) on the chip, other peripherals supported ...

Page 3

Philips Semiconductors 5. Block diagram IEEE1394 (1) DV1 656 DV2 656/TS DV3 656/TS 2 (1) I S-bus audio SPDIF audio (1) UART1 and 2 (1) UART3/sync serial i/f general purpose I/O USB host i/f (2 port) smart card1 and 2 ...

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... AE3 I/O multiplexed address or data bit 23 AF4 I/O multiplexed address or data bit 22 Rev. 02 — 11 July 2005 PNX8526 PNX8526EH 001aac986 for maximum ratings). for more details. © Koninklijke Philips Electronics N.V. 2005. All rights reserved. Alternate function ...

Page 5

Philips Semiconductors Table 2: # indicates multiplexed signal, see Symbol PCI_AD[21] PCI_AD[20] PCI_AD[19] PCI_AD[18] PCI_AD[17] PCI_AD[16] PCI_AD[15] PCI_AD[14] PCI_AD[13] PCI_AD[12] PCI_AD[11] PCI_AD[10] PCI_AD[9] PCI_AD[8] PCI_AD[7] PCI_AD[6] PCI_AD[5] PCI_AD[4] PCI_AD[3] PCI_AD[2] PCI_AD[1] PCI_AD[0] PCI_CBE[3] PCI_CBE[2] PCI_CBE[1] PCI_CBE[0] CLK PCI_DEVSEL PCI_FRAME PCI_GNT ...

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Philips Semiconductors Table 2: # indicates multiplexed signal, see Symbol PCI_GNT_B IDSEL PCI_INTA PCI_IRDY PCI_PAR PCI_PERR PCI_REQ PCI_REQ_A PCI_REQ_B RESET_IN PCI_SERR PCI_STOP PCI_TRDY 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials Peripheral Controller Interface (PCI) Section ...

Page 7

Philips Semiconductors Table 3: # indicates multiplexed signal, see Symbol XIO_A25 XIO_ACK XIO_SEL[2] XIO_SEL[1] XIO_SEL[0] SYS_RSTN_OUT Table 4: # indicates multiplexed signal, see Symbol MA[11] MA[10] MA[9] MA[8] MA[7] MA[6] MA[5] MA[4] MA[3] MA[2] MA[1] MA[0] MD[63] MD[62] MD[61] MD[60] ...

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Philips Semiconductors Table 4: # indicates multiplexed signal, see Symbol MD[46] MD[45] MD[44] MD[43] MD[42] MD[41] MD[40] MD[39] MD[38] MD[37] MD[36] MD[35] MD[34] MD[33] MD[32] MD[31] MD[30] MD[29] MD[28] MD[27] MD[26] MD[25] MD[24] MD[23] MD[22] MD[21] MD[20] MD[19] MD[18] MD[17] ...

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Philips Semiconductors Table 4: # indicates multiplexed signal, see Symbol MD[7] MD[6] MD[5] MD[4] MD[3] MD[2] MD[1] MD[0] MDQM[7] MDQM[6] MDQM[5] MDQM[4] MDQM[3] MDQM[2] MDQM[1] MDQM[0] MBA[1] MBA[0] MCKE MCLK[1] MCLK[0] MCS MRAS MCAS MWE Table 5: # indicates multiplexed ...

Page 10

Philips Semiconductors Table 5: # indicates multiplexed signal, see Symbol GPIO[2] GPIO[1] GPIO[0] Table 6: # indicates multiplexed signal, see Symbol UA1_TX UA1_RX UA2_TX UA2_RX UA2_RTSN UA2_CTSN SC1_DA SC1_CMD SC1_RST SC1_OFFN SC1_SCCK SC2_DA SC2_CMD SC2_RST SC2_OFFN SC2_SCCK SSI_SCLK_CTSN SSI_FS_RTSN SSI_RXD ...

Page 11

Philips Semiconductors Table 7: Symbol USB_OVRCUR W2 Table 8: Symbol PHY_D[7] PHY_D[6] PHY_D[5] PHY_D[4] PHY_D[3] PHY_D[2] PHY_D[1] PHY_D[0] PHY_CTL[1] PHY_CTL[0] PHY_LREQ PHY_ISO_N CLK_L1394 Table 9: Symbol I2C1_SCL I2C1_SDA I2C2_SCL I2C2_SDA Table 10: # indicates multiplexed signal, see Symbol DV_OUT1[9] DV_OUT1[8] ...

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Philips Semiconductors Table 10: # indicates multiplexed signal, see Symbol DV_OUT1[6] DV_OUT1[5] DV_OUT1[4] DV_OUT1[3] DV_OUT1[2] DV_OUT1[1] DV_OUT1[0] DV_OUT2[9] DV_OUT2[8] DV_OUT2[7] DV_OUT2[6] DV_OUT2[5] DV_OUT2[4] DV_OUT2[3] DV_OUT2[2] DV_OUT2[1] DV_OUT2[0] DV_CLK1 DV_CLK2 HSYNC VSYNC BLANK I2S_IN1_OSCLK I2S_IN1_SCK I2S_IN1_WS 9397 750 15101 Product data ...

Page 13

Philips Semiconductors Table 10: # indicates multiplexed signal, see Symbol I2S_IN1_SD I2S_IN2_OSCLK I2S_IN2_SCK I2S_IN2_WS I2S_IN2_SD I2S_IO_OSCLK I2S_IO_SCK I2S_IO_WS I2S_IO_SD[3] I2S_IO_SD[2] I2S_IO_SD[1] I2S_IO_SD[0[ I2S_OUT1_OSCLK K3 I2S_OUT1_SCK I2S_OUT1_WS I2S_OUT1_SD I2S_OUT2_OSCLK K2 I2S_OUT2_SCK I2S_OUT2_WS I2S_OUT2_SD SPDIF_IN SPDIF_OUT Table 11: # indicates multiplexed signal, ...

Page 14

Philips Semiconductors Table 11: # indicates multiplexed signal, see Symbol DV2_DATA[6] DV2_DATA[5] DV2_DATA[4] DV2_DATA[3] DV2_DATA[2] DV2_DATA[1] DV2_DATA[0] DV2_SOP DV2_ERR DV2_VALID DV2_CLK DV3_DATA[7] DV3_DATA[6] DV3_DATA[5] DV3_DATA[4] DV3_DATA[3] DV3_DATA[2] DV3_DATA[1] DV3_DATA[0] DV3_SOP DV3_ERR DV3_VALID DV3_CLK TS_DATA[7] TS_DATA[6] TS_DATA[5] TS_DATA[4] TS_DATA[3] TS_DATA[2] TS_DATA[1] ...

Page 15

Philips Semiconductors Table 12: Symbol XTALI XTALO PLL_OUT Table 13: Symbol V DDC1 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials Phase Lock Loop (PLL) Pin Type Description C2 I PLL reference crystal input D3 O ...

Page 16

Philips Semiconductors Table 13: Symbol V DDC2 DD1 V DD2 V DD3 V SS 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials Analog and digital power (PWR) Pin Description E4 system 1.26 V ...

Page 17

Philips Semiconductors Table 13: Symbol V SS 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials Analog and digital power (PWR) Pin Description AB22 system ground AB21 system ground AA22 system ground F22 system ground E22 system ...

Page 18

Philips Semiconductors Table 13: Symbol V SS Table 14: Symbol DBG_TDI DBG_TDO DBG_TCK DBG_TMS JTAG_TRST JTAG_TDI JTAG_TDO JTAG_TCK JTAG_TMS Table 15: Symbol V SS DBG_TDI I2C1_SDA 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials Analog and ...

Page 19

Philips Semiconductors Table 15: Symbol USB_DP[1] PHY_ISO_N PHY_D[0] PHY_D[4] MDQM[0] MD[3] MD[6] MD[9] MD[13] MD[15] MD[20] MD[24] MDQM[3] MD[31] MD[28] MA[7] MA[9] MCS MCAS MDQM[ DBG_TDO GPIO[2] PHY_LREQ USB_DP[0] PHY_CTL[1] PHY_D[3] PHY_D[7] 9397 750 15101 Product data sheet ...

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Philips Semiconductors Table 15: Symbol MD[1] MD[5] MD[8] MD[12] MDQM[2] MD[19] MD[23] MD[27] MD[30] MCLK[0] MA[1] MA[10] MBA[0] MRAS MWE V SS DBG_TMS XTALI DBG_TCK GPIO[0] GPIO[3] USB_DM[0] PHY_CTL[0] PHY_D[1] PHY_D[5] MD[0] MD[2] MD[7] MD[11] MD[16] MD[18] MD[22] MD[26] MD[29] ...

Page 21

Philips Semiconductors Table 15: Symbol MCKE V SS MD[32] MCLK[1] V DDC V SS XTALO V SS GPIO[1] I2C1_SCL USB_DM[1] CLK_L1394 PHY_D[2] PHY_D[6] MD[4] MDQM[1] MD[10] MD[14] MD[17] MD[21] MD[25] MA[5] MA[4] MA[2] MA[0] MBA[ MD[33] MD[36] MD[35] ...

Page 22

Philips Semiconductors Table 15: Symbol V DDC1 V DD1 V DDC1 V DD1 V DDC1 V DD1 V SS MD[34] MD[37] MD[38] MDQM[5] V DDC1 V SS MD[39] MD[40] MD[41] MD[42] JTAG_TCK JTAG_TRST V DDC1 V DD2 V DD1 MD[43] ...

Page 23

Philips Semiconductors Table 15: Symbol V DDC1 V DD2 V DD1 MD[47] MDQM[6] MD[48] MD[49] I2S_OUT1_SCK I2S_OUT1_SD I2S_OUT1_WS JTAG_TDI V DDC1 MD[50] MD[51] MD[52] MD[53] I2S_OUT2_WS I2S_OUT2_OSCLK K2 I2S_OUT1_OSCLK K3 I2C2_SDA V DDC1 MD[54] MD[55] MDQM[7] MD[56] HSYNC VSYNC I2S_OUT2_SCK ...

Page 24

Philips Semiconductors Table 15: Symbol MD[59] MD[60] DV_OUT1[8] DV_OUT1[9] DV_CLK1 BLANK V DD1 DD1 MD[61] MD[62] MD[63] GPIO[8] DV_OUT1[5] DV_OUT1[4] DV_OUT1[6] DV_OUT1[7] V DDC1 DDC1 GPIO[9] GPIO[10] SC2_SCCK GPIO[11] DV_OUT1[2] 9397 750 15101 Product ...

Page 25

Philips Semiconductors Table 15: Symbol DV_OUT1[3] DV_OUT1[0] DV_OUT1[1] V DDC1 DDC1 SC2_DA SC2_CMD SC2_OFFN SC2_RST DV_CLK2 DV_OUT2[9] DV_OUT2[7] DV_OUT2[8] V DD1 DD1 SC1_CMD SC1_RST SC1_OFFN SC1_SCCK DV_OUT2[6] DV_OUT2[5] 9397 750 15101 Product data sheet ...

Page 26

Philips Semiconductors Table 15: Symbol DV_OUT2[4] DV_OUT2[2] V DD1 DD1 UA2_TX UA2_RTSN UA2_CTSN SC1_DA DV_OUT2[3] DV_OUT2[1] DV_OUT2[0] SSI_RXD V DDC1 DV3_ERR UA1_TX UA1_RX UA2_RX SSI_SCLK_CTSN SSI_FS_RTSN SSI_TXD PCI_INTA V DDC1 DV3_DATA[2] DV3_SOP DV3_VALID DV3_CLK 9397 750 15101 ...

Page 27

Philips Semiconductors Table 15: Symbol USB_PWR USB_OVRCUR RESET_IN PLL_OUT V DD1 DV3_DATA[7] DV3_DATA[3] DV3_DATA[1] DV3_DATA[0] SYS_RSTN_OUT PCI_REQ PCI_GNT PCI_GNT_A V DD1 TS_DATA[0] DV3_DATA[6] DV3_DATA[5] DV3_DATA[4] CLK PCI_REQ_A PCI_REQ_B PCI_GNT_B 9397 750 15101 Product data sheet Programmable source decoder with integrated ...

Page 28

Philips Semiconductors Table 15: Symbol V SS TS_DATA[4] TS_SOP TS_VALID TS_CLK PCI_AD[31] PCI_AD[30] PCI_AD[29] PCI_AD[28 DD1 V DDC1 V DD1 V DDC1 V DD1 V DD3 V DDC1 V DD1 V SS TS_DATA[7] TS_DATA[5] TS_DATA[2] TS_DATA[1] PCI_AD[27] ...

Page 29

Philips Semiconductors Table 15: Symbol PCI_AD[7] PCI_AD[3] PCI_AD[0] XIO_SEL[1] GPIO[4] I2S_IO_WS SPDIF_OUT DV1_DATA[6] DV1_DATA[1] I2S_IN1_SCK I2S_IN2_SCK DV2_DATA[6] DV2_DATA[ DV2_CLK TS_DATA[6] TS_DATA[3] PCI_CBE[3] PCI_AD[24 PCI_AD[20] PCI_AD[18] PCI_TRDY PCI_PERR PCI_AD[15] PCI_AD[11] PCI_CBE[0] PCI_AD[4] PCI_AD[1] XIO_SEL[0] GPIO[5] I2S_IO_SD[3] I2S_IO_SD[0] ...

Page 30

Philips Semiconductors Table 15: Symbol DV2_DATA[2] DV2_SOP DV2_VALID DV2_ERR V SS PCI_AD[23] PCI_AD[21] PCI_AD[19] PCI_IRDY PCI_STOP PCI_CBE[1] PCI_AD[12] PCI_AD[8] PCI_AD[5] PCI_AD[2] XIO_A25 GPIO[7] I2S_IO_SCK I2S_IO_SD[1] DV1_DATA[9] DV1_DATA[5] DV1_DATA[2] DV1_CLK I2S_IN1_SD I2S_IN2_SD DV2_DATA[4] DV2_DATA[ IDSEL PCI_AD[22] PCI_CBE[2] 9397 750 ...

Page 31

Philips Semiconductors Table 15: Symbol PCI_FRAME PCI_DEVSEL PCI_PAR PCI_AD[13] PCI_AD[9] PCI_AD[6] XIO_SEL[2] XIO_ACK GPIO[6] I2S_IO_OSCLK I2S_IO_SD[2] SPDIF_IN DV1_DATA[7] DV1_DATA[3] DV1_VALID I2S_IN1_WS I2S_IN2_WS DV2_DATA[7] DV2_DATA[ 6.2.1 Multi-function pins Table 16 Section 6.2 of signals. Remark: The PNX8526 has a ...

Page 32

Philips Semiconductors Table 16: Pin MUX contacts primary signal and alternate function AF15 I2S_IO_OSCLK GPIO[45] AE15 I2S_IO_SCK GPIO[46] AC15 I2S_IO_WS GPIO[47] AD15 I2S_IO_SD[3] GPIO[51] AF16 I2S_IO_SD[2] GPIO[50] AE16 I2S_IO_SD[1] GPIO[49] AD16 I2S_IO_SD[0] GPIO[48] R2 DV_OUT2[9] SPY_OUT[9] R4 DV_OUT2[8] SPY_OUT[8] DSU_TPC1 ...

Page 33

Philips Semiconductors Table 16: Pin MUX contacts primary signal and alternate function T4 DV_OUT2[2] SPY_OUT[2] DSU_PCST0[1] U2 DV_OUT2[1] SPY_OUT[1] DSU_PCST0[0] U3 DV_OUT2[0] SPY_OUT[0] DSU_CLK K2 I2S_OUT2_OSCLK O DV_OUT[20] SPY_OUT[11] L3 I2S_OUT2_SCK DV_OUT[21] SPY_OUT[10] K1 I2S_OUT2_WS DV_OUT[22] DBG_EXT_STOP L4 I2S_OUT2_SD DV_OUT[23] ...

Page 34

Philips Semiconductors Table 16: Pin MUX contacts primary signal and alternate function AC18 DV1_DATA[1] GPIO[34] AD19 DV1_DATA[0] GPIO[33] AF20 DV1_VALID GPIO[44] AE20 DV1_CLK GPIO[43] AF23 DV2_DATA[7] VIP[9] AC21 DV2_DATA[6] VIP[8] TSS_DATA2 AD22 DV2_DATA[5] VIP[7] TSS_SOP2 AE23 DV2_DATA[4] VIP[6] TSS_ERR2 AC22 ...

Page 35

Philips Semiconductors Table 16: Pin MUX contacts primary signal and alternate function AC24 DV2_CLK VIP_CLK TSS_CLK1 W23 DV3_DATA[7] VIP[9] Y24 DV3_DATA[6] VIP[8] TSS_DATA2 Y25 DV3_DATA[5] VIP[7] TSS_SOP2 Y26 DV3_DATA[4] VIP[6] TSS_ERR2 W24 DV3_DATA[3] VIP[5] TSS_VALID2 V23 DV3_DATA[2] VIP[4] TSS_CLK2 W25 ...

Page 36

Philips Semiconductors Table 16: Pin MUX contacts primary signal and alternate function AC25 TS_DATA[6] GPIO[28] AB24 TS_DATA[5] GPIO[27] AA23 TS_DATA[4] GPIO[26] AC26 TS_DATA[3] GPIO[25] AB25 TS_DATA[2] GPIO[24] AB26 TS_DATA[1] GPIO[23] Y23 TS_DATA[0] GPIO[22] TS_SD AA24 TS_SOP GPIO[31] AA25 TS_VALID GPIO[32] ...

Page 37

Philips Semiconductors Table 16: Pin MUX contacts primary signal and alternate function AF13 XIO_ACK GPIO[55] AE13 XIO_A25 GPIO[56] U24 UA1_TX GPIO[12] U25 UA1_RX GPIO[13] T23 UA2_TX GPIO[14] U26 UA2_RX ICAM1_SETVPP GPIO[15] T24 UA2_RTSN ICAM1_C8 GPIO[16] T25 UA2_CTSN ICAM1_C4 GPIO[17] V1 ...

Page 38

Philips Semiconductors Table 16: Pin MUX contacts primary signal and alternate function C4 BOOTMODE[0] GPIO[0] P25 SC2_OFFN ICAM2_DETECT P24 SC2_CMD ICAM2_SETVCC P26 SC2_RST ICAM2_RESET N25 SC2_SCCK ICAM2_CLK P23 SC2_DA ICAM2_C7 R25 SC1_OFFN ICAM1_DETECT R23 SC1_CMD ICAM1_SETVCC R24 SC1_RST ICAM1_RESET R26 ...

Page 39

Philips Semiconductors The DV inputs support parallel transport stream formats. In addition, a single incoming 1394 transport stream is supported. Two selected transport streams can undergo internal de-scrambling and decoding. Based on the system implementation, one or both transport streams ...

Page 40

Philips Semiconductors secondary output. Compositing of more surfaces for future video algorithms is possible by using the TM32 CPU and/or the memory based scaler prior to invoking the compositing/display engine. This is subject to CPU and memory bandwidth availability. The ...

Page 41

Philips Semiconductors to digital VCR to HDTV set from external tuner transport stream OOB in POD-1/ NRSS-B/CI OOB out POD-2/ NRSS-B/CI transport stream analog 711X video transport stream analog 711X video stereo audio (2 ) SPDIF in IR remote USB ...

Page 42

Philips Semiconductors Table 17: Global 2 registers …continued Bit Symbol 13 SSI_SEL 12 RGB24_SEL 11:10 SMCRD2_MUX_CTRL[1:0] R/W 9:8 SMCRD1_MUX_CTRL[1:0] R/W 7 not used 6:4 VIP2_MUX_CTRL[2:0] 3 not used 2:0 VIP1_MUX_CTRL[2:0] 9. Power supply sequencing Power application and power removal should ...

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Philips Semiconductors 9.2 Power-off sequence • Power may be removed from V • Otherwise remove power from V 10. Limiting values Table 18: In accordance with the Absolute Maximum Rating System (IEC 60134). Symbol Parameter DDC V ...

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Philips Semiconductors Given the power dissipation of the PNX8526 and the ambient temperature inside the enclosure, the expected junction temperature can be calculated using the following equation amb In some applications the junction temperature may be ...

Page 45

Philips Semiconductors Table 20 3 Symbol OL1 I OH1 I OL2 I OH2 I OL3 I OH3 I OL4 I OH4 DD(core) I DD(periph) [1] The pin names ...

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Philips Semiconductors 12.1 Reset timing Fig 5. Reset timing Table 21: Symbol t LOW 12.2 Peripheral Controller Interface (PCI) timing For additional timing diagram information on XIO and IDE interfaces see “PNX8526 User Manual, Chapter 8" . Fig 6. PCI ...

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Philips Semiconductors Table 23: Symbol Parameter t OD(min) t OD(max) [1] Minimum delay is the minimum time after the clock edge that a valid signal state from the previous cycle will begin transition to the next state (become invalid). [2] ...

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Philips Semiconductors Table 24: Symbol t clk(L) t clk(H) f MCLK 12.4 GPIO timing Fig 8. GPIO timing Table 25: Symbol t MIN [1] If GPIO time-stamped, the minimum pulse width is 75 ns. 12.5 UART timing ...

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Philips Semiconductors 12.6 SSI timing Fig 10. SSI timing Table 27: Symbol dso t dho t dsi t dhi t clk(L) t clk(H) 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials ...

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Philips Semiconductors 2 12.7 I C-bus timing Fig 11. I Table 28: Symbol f SCL t su(STA) t h(STA) t LOW t HIGH t su(SDA) t h(SDA) t dv(SDA) t dv(STO) 12.8 IEEE 1394 Phy-Link interface CLK_1394 1394 link input ...

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Philips Semiconductors Table 29: Symbol Parameter f 1394 12.9 I S-bus audio input and output timing Fig 13. I Table 30: Timing is with respect to the SCK clock edge. The PNX8526 is ...

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Philips Semiconductors Fig 14. I Table 31: Symbol Parameter f AO_SCK t dv(SCK) t ws(SCK) 12.10 SPDIF timing Fig 15. SPDIF clock Table 32: Symbol Parameter t HIGH t LOW 9397 750 15101 Product data sheet Programmable source decoder with ...

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Philips Semiconductors 12.11 Digital video output (DV_OUT) timing Fig 16. DV_OUT timing Table 33: Symbol f DV_CLK t dv(CLK) t su(CLK) t h(CLK) [1] DV_CLK period is programmable via the internal PLL. 12.12 Digital video input (DV Input) timing Fig ...

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Philips Semiconductors 12.13 Transport Stream Output (TSO) timing Fig 18. TSO timing Table 35: Symbol Parameter 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials CLOCK OUTPUT (DATA, SOP, VALID) TSO timing data ...

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Philips Semiconductors 13. Application information 13.1 Differences between PNX8525 and PNX8526 There are a number of differences between the PNX8525 and the PNX8526 with respect to the physical interfacing of the device. These differences are described in Table 36: PNX8525 ...

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Philips Semiconductors [1] The new connections are [2] The new connections are 13.2 Lifetime versus temperature The relationship between operating (junction) temperature and the expected lifetime of a device is ...

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Philips Semiconductors 14. Package outline HBGA456: plastic thermal enhanced ball grid array package; 456 balls; body 1.8 mm; heatsink ball A1 index area ...

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Philips Semiconductors 15. Soldering 15.1 Introduction This text gives a very brief insight to a complex technology. A more in-depth account of soldering ICs can be found in our Data Handbook IC26; Integrated Circuit Packages (document order number 9398 652 ...

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Philips Semiconductors – for packages with a thickness – for packages with a thickness < 2.5 mm and a volume thick/large packages. • below 240 C (SnPb process) or below 260 C (Pb-free process) for packages with a thickness < ...

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Philips Semiconductors 15.4 Package related soldering information Table 37: Suitability of IC packages for wave, reflow and dipping soldering methods Mounting Package Through-hole mount CPGA, HCPGA DBS, DIP, HDIP, RDBS, SDIP, SIL [4] Through-hole-surface PMFP mount Surface mount BGA, HTSSON..T ...

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Philips Semiconductors 16. Abbreviations Table 38: Acronym 2D 5C AC-3 ATSB ATSC AVIF bitblt CI CPU CRT DAC DES DMA DVB DTV DVD EEPROM GPIO HBGA C-bus 2 I S-bus IC ICAM IDE IEEE JEDEC MIPS MPEG ...

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Philips Semiconductors Table 38: Acronym SD SDRAM SECAM SPDIF SSI TSO UART USB VLIW XIO 9397 750 15101 Product data sheet Programmable source decoder with integrated peripherials Abbreviations …continued Description Standard Definition Synchronous Dynamic Random Access Memory Systeme Electronique Couleur ...

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Philips Semiconductors 17. Revision history Table 39: Revision history Document ID Release date PNX8526_2 20050711 • Modifications: Status changed to Product data sheet • Editorial improvements made. PNX8526_1 20040211 9397 750 15101 Product data sheet Programmable source decoder with integrated ...

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Philips Semiconductors 18. Data sheet status [1] Level Data sheet status Product status I Objective data Development II Preliminary data Qualification III Product data Production [1] Please consult the most recently issued data sheet before initiating or completing a design. ...

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Philips Semiconductors 23. Contents 1 General description . . . . . . . . . . . . . . . . . . . . . . 1 2 Features . . . . . . . . ...

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