CH7202 CHRONTEL MPEG to TV Encoder with 8-bit Input Features Description • Outputs NTSC, PAL (B,D,G,H,I) and PAL-M (NTSCJ or PAL-60 available as options) The CH7202 video encoder integrates a dual PLL clock generator and a digital NTSC/PAL video encoder. By generating all essential clock signals for MPEG playback, and converting digital video inputs to either NTSC or PAL video signals, the CH7202 is an essential component of any low-cost solution for video-CD playback machines. The CH7202 dual PLL clock synthesizer generates all clocks and timing signals from a 14.31818 MHz reference crystal (see application note 19 “Tuning Clock Outputs” for selection and tuning of the 14.31818 MHz crystal). The CH7202 will accept HSYNC*, VSYNC*, and 2XPCLK clock inputs during slave mode operation. Timing signals from the PLLs can be used to generate the horizontal and vertical sync signals which enable operating the CH7202 in master mode. The fully digital video encoder is pin-programmable to generate either a 525-line NTSC or a 625-line PAL compatible video signal. It also features a logic selectable sleep mode which turns the encoder off while leaving both PLL’s running. • 8-bit YCrCb (4:2:2) input format • Master or slave mode operation • Triple 9-bit DAC for composite and S-video output • 27 MHz DAC operating frequency eliminates the need for 1/sinc(x) correction filter • Low-jitter phase-locked loop circuitry operates using a low-cost 14.31818 MHz crystal • 40.5 or 33.9 MHz video decoder clock output • 16.934 or 11.289 MHz audio decoder clock output • 13.5 MHz and 27 MHz video pixel clock outputs • Internal 4.6 MHz (m ax) luminance and 1.3 MHz chrom inance filters • Sub-carrier genlocked to HSYNC* and VSYNC* • Sleep mode • CMOS technology in 44-pin PLCC • 5V single-supply operation MOD 0 MOD 1 FS YCSWAP C bSWAP VDD R SET IREF M/S* BL AN KING H ,V SYNC GEN ERATO R YC[7 :0], AVDD M U X Y FILTER Y DAC C VBS DAC C 8 I NTE RFACE Σ L INE AR INTE RP OLATO R H SYNC* S TAT E VSYNC* M ACHI NE PCLK DAC U FILTER M U X Σ X 1/2 V FILTER 2XPC LK M U X PLL1 X DCLK AC LK PLL2 OSC XI XO/FIN B LA NKIN G S IN + COSINE COL O R-B URST CO NT RO L GENERATOR GN D A GN D Figure 1: Functional Block Diagram 201-0000-030 Rev 2.0, 6/2/99 1 CHRONTEL AVDD AGND XI XO/FIN VDD ACLK GND 2XPCLK VDD DCLK GND 6 5 4 3 2 1 44 43 42 41 40 CH7202 YCSWAP 7 39 PCLK FS 8 38 MOD0 MOD1 9 37 VSYNC* CbSWAP 10 36 VDD YC[7] 11 35 HSYNC* YC[6] 12 34 GND YC[5] 13 33 GND YC[4] 14 32 Y YC[3] 15 31 CVBS YC[2] 16 30 C YC[1] 17 29 AVDD 18 19 20 21 22 23 24 25 26 27 28 YC[0] NC NC NC NC NC NC NC M/S* AGND RSET CHRONTEL CH7202 Figure 2: CH7202 Pinout Diagram 2 201-0000-030 Rev 2.0, 6/2/99 CHRONTEL CH7202 Table 1. Pin Descriptions Pin Type S ymbol Description 1 Out ACLK Audio Decoder Clock Output 16.934 MHz or 11.289 MHz clock output (selectable by FS) for MPEG audio decoder operation. The output swing is 5V. 2, 36, 42 Power VDD Digital Supply Voltage These pins supply the 5V power to the digital section of the CH7202. 3 In XO/FIN Crystal Output or External F REF Input 1 A parallel resonance 14.31818 MHz (± 50 ppm) crystal may be attached between XO/FIN and XI. An external CMOS compatible clock can be connected to XO/FIN as an alternative. 4 In XI Crystal Input 1 A parallel resonance 14.31818 MHz ( ± 50 ppm) crystal should be attached between XI and XO/FIN. However, if an external CMOS clock is attached to XO/FIN, XI should be connected to ground. 5, 27 Power AGND Analog ground These pins provide the ground reference for the analog section of the CH7202. These pins MUST be connected to the system ground to prevent latchup. 6,29 Power AVDD Analog Supply Voltage These pins supply the 5V power to the analog section of the CH7202. 7 In YCSWAP 8 In FS Luma/Chroma Swap. Internally pulled-up. YCSWAP=0 indicates a luminance sample is the first sample following the leading edge of HSYNC*. YCSWAP=1 indicates a chroma sample (Cb or CR depending on CbSWAP) is the first sample following the leading edge of HSYNC*. See Figure 5 on page 7. Frequency Select. Internally pulled-up FS = 1 (default), then DCLK = 40.5 MHz, ACLK = 16.934 MHz FS = 0, then DCLK = 33.9 MHz, ACLK = 11.289 MHz 9 In MOD1 Mode bit 1 - Internally pulled-up This input works in conjunction with the MOD0 input to select NTSC, PAL, or Sleep mode functions. Refer to Table 3, “Video Encoder Modes,” on page 6 for details. 10 In CbSWAP Cb/Cr Swap. Internally pulled-up When CbSWAP=0, the first chroma sample following the leading edge of HSYNC* will be a Cb sample. When CbSWAP=1, the first chroma sample following the leading edge of HSYNC* will be a Cr sample. See Figure 5 on page 7 11 – 18 In YC[7:0] Video Input These pins accept the YCrCb data in CCIR656 (4:2:2) digital video format. The sequence of the Y, Cb, Cr data is defined by the YCSWAP and CbSWAP pins. For more details, please refer to the timing diagram shown in Figure 5 on page 7. Y has a nominal range of 16–235. Cb & Cr have a nominal range of 16–240, with 128 equal to zero. Note: 1. Please refer to crystal manufacturer specifications for proper load capacitances. The optional variable tuning capacitor is required only if the crystal oscillation frequency cannot be controlled to the required accuracy. The capacitance value for the tuning capacitor should be obtained from the crystal manufacturer. For further information, request a copy of Application Note AN-19, “Tuning Clock Outputs.” 201-0000-030 Rev 2.0, 6/2/99 3 CHRONTEL CH7202 Table 2. Pin Descriptions (continued) 4 Pin Type Symbol Description 26 In M/S* 19-25 In NC 28 In RSET Reference Resistor A 360 Ω resistor with short and wide traces should be attached between RSET and ground. No other connections should be made to this pin. 30 Out C Chrominance Output A 75 Ω termination resistor with short traces should be attached between C and ground for optimum performance. 31 Out CVBS Composite Output A 75 Ω termination resistor with short traces should be attached between CVBS and ground for optimum performance. 32 Out Y Luminance Output A 75 Ω termination resistor with short traces should be attached between Y and ground for optimum performance. 33, 34, 40, 44 Power GND Digital Ground These pins provide the ground reference for the digital section of the CH7202. These pins MUST be connected to the system ground through independent ground vias. 35 In/Out HSYNC* Horizontal Sync Input/Output The horizontal sync output is generated by the CH7202 for master mode operation. HSYNC* is an active low signal. In slave mode, the horizontal sync becomes an input. For additional information, please refer to the timing diagrams shown in Figures 6 and 7 on page 8. 37 In/Out VSYNC* Vertical Sync Input/Output The vertical sync output is generated by the CH7202 for master mode operation. VSYNC* is an active low signal. In slave mode, the vertical sync becomes an input. For additional information, please refer to the timing diagrams shown in Figures 6 and 7 on page 8. 38 In MOD0 Mode bit 0 - internally pulled-up This input works in conjunction with the MOD1 input to select NTSC, PAL, or Sleep Mode functions. Refer to Table 3, “Video Encoder Modes,” on page 6 for details. 39 Out PCLK Video Pixel Clock Output 13.5 MHz clock output. 41 Out DCLK MPEG Decoder Clock Output 40.5 MHz or 33.9 MHz clock output (selectable by FS). 43 In/Out 2XPCLK Master/Slave* Internally pulled-up. M/S*=1 then the CH7202 operates in master mode. M/S*=0, then the CH7202 operates in slave mode. No Connect Double Pixel Clock Input/Output 27 MHz clock output. In slave mode, this pin becomes a 27 MHz clock input. 201-0000-030 Rev 2.0, 6/2/99 CHRONTEL CH7202 Y 11 - 18 YC[7:0] 1 41 43 39 MPEG Decoder and System Controller 32 37 35 75 Ω 2XPCLK PCLK C YCSWAP 38 30 Ferrite Bead 1 75 Ω VSYNC* HSYNC* CH7202 CbSWAP 9 1 ACLK DCLK 7 10 Ferrite Bead S-Video Connector 8 M/S* CVBS 31 Ferrite Bead 1 75 Ω MOD1 Composite Connector 25 MOD0 28 RSET 27 pF2 3 14.318 MHz 4 360 Ω XO/FIN FS XI 8 JUMPER 27 pF2 Figure 3: CH7202 Interface Diagram Note: Note: 1. 2. Please refer to the Optional Output Filter diagram below. The proper value of these capacitors depends on the crystal manufacturer’s specifications. Please refer to AN06 for the details of the calculation. 47 pF 1.2 µH 1.2 µH OUTPUT Y, C, CVBS 75 Ω 150 pF 270 pF Figure 4: Optional Output Filter 201-0000-030 Rev 2.0, 6/2/99 5 CHRONTEL CH7202 General Description The CH7202 is a fully integrated solution for converting 8-bit YCrCb (4:2:2) digital video inputs into highquality NTSC or PAL video signals while generating all essential clock signals for MPEG playback. All essential circuitry for this conversion and clock generation (Dual PLL’s, linear interpolator, digital filters, NTSC/PAL encoder, DAC’s) are contained in the CH7202 making it an essential component of any low-cost solution for video-CD playback machines. Refer to the Block Diagram on page 1 and the Interface Diagram on page 5. Functional Description The encoded luminance (Y) and color-difference (U,V) values are interpolated and filtered through digital filters to minimize aliasing problems. The filtered signals go to the digital encoder where they are transformed to composite and S-video outputs, and then they are converted by the three 9-bit DACs to analog outputs. 8-bit YCrCb (4:2:2) Input Y data and CrCb data are multiplexed into the CH7202 through the YC[7:0] pins. The order of the multiplexed data is determined by the YCSWAP and CbSWAP pins, and is referenced to the horizontal sync pin. Refer to Figure 5 on page 7. Clock/Data/Synchronization Timing The CH7202 can operate in either master or slave mode. In master mode, it supplies the necessary clocks (1X, 2X, video system and audio) and synchronization (HSYNC* and VSYNC*) signals to other building blocks in the video system. In slave mode, the 2X pixel clock, HSYNC* and VSYNC* become inputs to the CH7202, and the remaining clock signals are still output. The timing relationships are shown in Figures 6 and 7 on page 8. Video Encoder Modes Combinations of the two signals MOD0 and MOD1 select the various TV signal format and power saving modes as shown below. Table 3 • Video Encoder Modes MOD1 MOD0 Video Encoder Mode 1 1 NTSC 1 0 PAL 0 1 PAL-M 0 0 Sleep mode (Encoder off, both PLLs running) Frequency Select Modes The frequency select input FS affects the DCLK and ACLK outputs as shown below. FS = 1 (default) DCLK = 40.5 MHz, ACLK = 16.934 MHz FS = 0 DCLK = 33.9 MHz, ACLK = 11.289 MHz 6 201-0000-030 Rev 2.0, 6/2/99 CHRONTEL CH7202 HSYNC* HS 2Xpixel Clock CRSEN*==00 YCSWAP ==00 CbSWAP CRS Pixel YC[7:0] Data Y0 Y0 Cb0 Cb0 Y1 Y1 Cr0 Y2 Y2 Cb2 Cb2 Y3 Y3 Y0 Y0 Cr0 Y1 Y1 Cb0 Cb0 Y2 Y2 Cr2 Cr2 Y3 Y3 Cb0 Y0 Y0 Cr0 Cr0 Y1 Y1 Cb2 Cb2 Y2 Y2 Cr2 Cr2 Cr0 Cr0 Y0 Y0 Cb0 Y1 Y1 Cr2 Cr2 Y2 Y2 Cb2 Cb2 YCSWAP CRSEN*==0 0 CbSWAP ==1 1 CRS Pixel Data YC[7:0] YCSWAP CRSEN*==11 ==00 CbSWAP CRS Pixel YC[7:0 Data ] YCSWAP=1 CRSEN* = 1 CbSWAP=1 CRS =1 Pixel YC[7:0] Data Figure 5: Data Input Format 201-0000-030 Rev 2.0, 6/2/99 7 CHRONTEL CH7202 Timing Diagrams HSYNC* t7 VSYNC* O DD FI E LD MA S T ER MODE t7 VSYNC* E VE N F IE LD MAS T E R MODE t8 VSYNC* O DD FI E LD S LA V E MODE VSYNC* t8 t9 t9 E V E N FI E LD S LA V E MO DE Figure 6: HSYNC* and VSYNC* Timing t1 t2 2Xpixel Clock t3 Pixel Data t4 t3 t4 HSYNC*,VSYNC (Slave Mode) HSYNC*,VSYNC (Master Mode) t6 t5 HSYNC*=64 2XPCLK, VSYNC*=2 Lines Figure 7: Clock/Data/Synchronization Timing Diagram Note: Refer to Table 8 on page 15 for timing values 8 201-0000-030 Rev 2.0, 6/2/99 CHRONTEL CH7202 ST STAR ART T OF OF VS VSYN YNC C AN ALOG LOG S tart AN of A fi el d F 1 FIELD IELD 1 1 5 23 520 520 5 24 521 521 52 5 522 522 1 523 523 2 524 524 525 525 3 5 2 2 1 14 Pre -e qu al iz in g pu lse ve rtica l 3 36 4 47 Ver ti ca l syn c p ul se i nte rva l 5 58 10 7 7 6 69 8 811 12 9 9 Po st-e qu al izi ng seini nte rval l ppululse te rva Li ne ReAN fereA nLOG ce AN A LOG ver ti ca l su b- car rie r ph a se in ter val coF loIELD r fi el d 12 F IELD 2 t1 +V 2 61 258 258 26 2 259 259 26 3 260 260 26 4 261 261 2 65 262 262 26 6 263 263 2 67 264 264 2 68 265 265 27 0 267 267 2 69 266 266 2 71 268 268 272 269 269 27 3 270 270 2 74 271 271 275 272 272 START OF VSYNC S ta rt of fi el d 2 AN ALOG Re fere n ce su b -ca rrie1r p ha se FIELD t2 +V co lo r fi el d 2 52 3 520 5 24 521 52 5 522 1 523 S ta rt of fi el d 3 2 524 3 525 14 36 25 7 4 85 9 6 811 10 7 912 ANnAce LOG Re fere su b-Fca rrie r ph IELD 2 a se t +V co lo r fie ld 3 3 2 61 258 26 2 259 263 260 26 4 261 2 65 262 26 6 263 26 7 264 26 8 265 2266 69 27 0 267 27 1 268 272 269 273 270 2 74 271 27 5 272 Sta rt o f fie ld 4 R efe re nce su b-c arr ie r ph as e c ol or fie ld 4 Figure 8: Interlaced NTSC Timing Diagram 201-0000-030 Rev 2.0, 6/2/99 9 CHRONTEL CH7202 START OF VSYNC 62 620 0 621 622 623 624 625 ANAL ALO G OG FIELD 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 99 10 10 ANAL ALO G OG FIELD 2 308 309 310 311 312 313 314 31 315 5 31 316 6 31 317 7 31 318 8 31 319 9 32 320 0 32 321 1 32 322 2 32 32 33 ANAL ALO G OG FIELD 3 62 620 0 621 622 623 624 625 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 99 10 10 ANAL ALO G OG FIELD 4 308 BU UR RST ST B BLAN LANK KIN G B ING IN TE R VA L S 309 310 311 312 313 314 31 315 5 31 316 6 31 317 7 31 318 8 31 319 9 32 320 0 32 321 1 32 322 2 32 33 32 4 3 BU UR RST ST P PH ASE = RE EF ERE EN CE E PH PHASE = 135°° RELA ELAT IVE TO B HAS E= FE NC TIVE TO U P AL SW IT C H = 0, +V C OM PO N ENT PAL SWITCH 0, COMPON2 1 BU UR RST ST P PH ASE = RE EF ERE EN CE E PH PHASE+ 90°° = 22 225 IV E TO U B HAS E= FE NC 5°° RELA ELAT TI VE PAL AL SW SWIT ITC CH H= 1 1, VC CO OM MPO PONENT P , -V Figure 9: Interlaced PAL Timing Diagram 10 201-0000-030 Rev 2.0, 6/2/99 CHRONTEL CH7202 Color / Level mA V Wh ite Yellow 24.60 26.59 22.85 24.59 0.922 0.997 0.857 0.922 Cyan Green 19.85 21.30 18.11 19.30 0.745 0.799 0.679 0.724 Magenta Red 15.23 16.15 13.49 14.15 0.571 0.606 0.506 0.531 Blue Black Blank 10.49 11.00 8.74 9.00 7.49 7.58 0.393 0.413 0.327 0.338 0.281 0.284 Sync 0.50 0.00 0.019 0.000 COLOR BARS : Note: 1 100% amplitude, 100% saturation color bars are shown Note: 2 Vref = 1.235V, RSET = 360 Ω, 75 Ω doubly terminated load Figure 10: NTSC Y (Luminance) Output Waveform Color / Level mA V Wh ite Yellow 24.60 26.83 22.85 24.69 0.922 1.006 0.857 0.926 Cyan Green 19.85 21.19 18.11 19.05 0.745 0.795 0.679 0.715 Magenta Red 15.23 15.70 13.49 13.57 0.571 0.589 0.506 0.509 Blue Black Blank Blank 10.49 10.21 8.74 8.08 7.49 0.393 0.383 0.327 0.303 0.281 Sync 0.50 0.00 0.019 0.000 COLOR BARS : Note: 1 100% amplitude, 100% saturation color bars are shown Note: 2 Vref = 1.235V, RSET = 360 Ω, 75 Ω doubly terminated load Figure 11: PAL Y (Luminance) Video Output Waveform 201-0000-030 Rev 2.0, 6/2/99 11 CHRONTEL Color / Level CH7202 mA V Cyan / Red Green / Magenta 22.60 25.37 21.85 24.59 0.848 0.951 0.819 0.922 Yellow / Blue 19.61 22.16 0.735 0.831 Peak Burst 15.98 18.15 0.599 0.681 Blank 12.49 14.294 0.468 0.536 Peak Burst 8.99 10.44 0.337 0.391 COLOR BARS : 3.579545 MHz Color Burst (9 cycles) Yellow / Blue 5.37 6.43 0.201 0.241 Green / Magenta Cyan / Red 3.12 4.00 2.37 3.21 0.117 0.150 0.089 0.121 Note: 1 100% amplitude, 100% saturation color bars are shown Note: 2 Vref = 1.235V, RSET = 360Ω, 75 Ω doubly terminated load Figure 12: NTSC C (Chrominance) Video Output Waveform Color / Level mA V Cyan / Red Green / Magenta 22.60 27.06 21.85 26.22 0.848 1.015 0.819 0.983 Yellow / Blue 19.61 23.63 0.735 0.886 Peak Burst 16.23 19.21 0.609 0.720 Blank 12.49 15.24 0.468 0.572 Peak Burst 8.74 11.28 0.328 0.423 Yellow / Blue 5.37 6.85 0.201 0.257 Green / Magenta Cyan / Red 3.12 4.27 2.37 3.43 0.117 0.160 0.089 0.129 COLOR BARS : 4.433619 MHz Color Burst (10 cycles) Note: 1 100% amplitude, 100% saturation color bars are shown Note: 2 Vref = 1.235V, RSET = 360Ω, 75 Ω doubly terminated load Figure 13: PAL C (Chrominance) Video Output Waveform 12 201-0000-030 Rev 2.0, 6/2/99 CHRONTEL BLACK BLUE 0.997 1.026 RED 26.59 27.37 BLUE White COLOR BARS : RED 1.271 1.217 MAGENTA 33.89 32.45 GREEN Peak Chroma MAGENTA V CYAN mA YELLOW Color / Level WHITE CH7202 3.579545 MHz Color Burst (9 Cycles) Peak Burst Black Blank 12.00 11.43 9.00 9.62 7.58 8.16 0.450 0.429 0.338 0.360 0.306 0.284 Peak Burst 4.32 3.72 0.162 0.139 Sync 0.50 0.00 0.019 0.000 Figure 14: Composite NTSC Video Output Waveform 33.89 33.08 1.271 1.240 White 27.37 26.83 1.026 1.006 COLOR BARS : BLACK Peak Chroma GREEN V CYAN mA YELLOW Color / Level WHITE Note: Vref = 1.235V, RSET = 360 Ω, 75Ω doubly terminated load 4.433619 MHz Color Burst (10 Cycles) Peak Burst 12.00 12.04 0.450 0.452 Blank/Black 8.64 8.08 0.324 0.303 Peak Burst 4.58 4.12 0.171 0.154 Sync 0.50 0.00 0.019 0.000 Figure 15: Composite PAL Video Output Waveform Note: Vref = 1.235V, RSET = 360 Ω, 75 Ω doubly terminated load 201-0000-030 Rev 2.0, 6/2/99 13 CHRONTEL CH7202 Electrical Specifications Table 4 • Absolute Maximum Ratings Symbol Description Min Typ Max Units VDD relative to GND - 0.5 7.0 V Input voltage of all digital pins 1 GND - 0.5 VDD + 0.5 V T SC Analog output short circuit duration Indefinite Sec Ambient operating temperature - 55 125 °C TAMB TSTOR Storage temperature - 65 150 °C TJ Junction temperature 150 °C TVPS Vapor phase soldering (one minute) 220 °C PMAX Maximum power dissipation TBD W Note: Stresses greater than those listed under absolute maximum ratings may cause permanent damage to the device. These are stress ratings only. Functional operation of the device at these or any other conditions above those indicated under the normal operating conditions is not recommended. Exposure to absolute maximum rating conditions for extended periods may affect reliability. The device is fabricated using high-performance CMOS technology. It should be handled as an ESD-sensitive device. Voltage on any signal pin that exceeds the power supply voltage by more than +0.5V can induce destructive latchup. Table 5 • Recommended Operating Conditions Symbol AVDD DVDD TA RL Description Analog supply voltage Digital supply voltage Ambient operating temperature Output load to DAC outputs Min 0 Typ 5.00 5.00 25 37.5 Max Units 70 °C Ω Table 6 • Electrical Characteristics (Operating Conditions: TA = 0°C – 70°C, VDD = 5V ± 5%) Symbol Note: Description Min Typ Max Unit Video D/A resolution 9 9 9 Bits Full scale output current 33.08 mA Video level error using external reference 5 % using internal reference 10 % Total Current Consumption 135 mA As applied to Tables 4, 5, and 6, Recommended Operating Conditions are used as test conditions unless otherwise specified. RSET = 360 Ω, and NTSC CCIR601 operation. Typical values are based on 25° C and +5V. Table 7 • Digital Inputs / Outputs Symbol VOH VOL VIH VIL I PU ILK CDIN CDOUT 14 Description Output high voltage Output low voltage Input high voltage Input low voltage Input internal pull-up current Input leakage current Input capacitance Output capacitance Test Condition @ TA = 25°C IOH = - 400 µA IOL = 3.2 mA Min 2.4 Typ 2.0 GND - 0.5 5 -10 f = 1 MHz, VIN = 2.4V 7 10 Max Units V 0.4 V VDD + 0.5 V 0.8 V 25 µA 10 µA pF pF 201-0000-030 Rev 2.0, 6/2/99 CHRONTEL CH7202 Electrical Specifications (continued) Table 8 • AC Characteristics Symbol Description Min Typ Max t1 2XPCLK t2 2XPCLK high time t3 Pixel/Sync setup time 6 ns t4 Pixel/Sync hold time 3 ns t5 Sync active delay time 3 ns t6 Sync inactive delay time t7 HSYNC* to VSYNC* delay t8 HSYNC* to VSYNC* field detect t9 HSYNC* to VSYNC* 16.1 µS HSYNC* pulse width 64 x t1 ns VSYNC* pulse width 2.0 Hor. lines Test Conditions: 37 Units 14.8 30 ns 22.2 ns 17 ns 30 ns 15.6 µS Unless otherwise specified, the testing conditions are the same as in Table 5, “Recommended Operating Conditions,” on page 14. TTL input values are 0 – 3V, with input rise / fall times < 3 ns, measured between the VIL and VIH. Timing reference points at 50% for non-TTL inputs and outputs. TTL reference points at 1.5V for inputs and outputs. Analog output load < 10 pF. Since the CH7202 does not have a pixel clock input, all input signal timing is chosen with respect to the output clock timing of 2XPCLK and PCLK. PCLK can be used at the “Qualifying” clock for certain MPEG decoders. 201-0000-030 Rev 2.0, 6/2/99 15 CHRONTEL CH7202 ORDERING INFORMATION Part number CH7202 Package type Number of pins Voltage supply PLCC 44 5V Chrontel 2210 O’Toole Avenue San Jose, CA 95131-1326 Tel: (408) 383-9328 Fax: (408) 383-9338 19 97 Ch rontel , Inc. All R igh ts Re served . C hron te l PRODU CTS ARE NOT AUTHORIZED FOR AN D SHOUL D NOT BE USED WITH IN LIFE SU PPOR T SYSTEMS OR NU CLEAR FACILITY APPLICATION S WITHOUT TH E SPEC IFIC WRITTEN CONSEN T OF Chro ntel. Life su ppo rt systems are th ose in te nde d to sup port or sustai n li fe and w hose fa ilu re to perform w hen used a s dire cte d can re ason abl y e xpect to resu lt i n p erson al in jury or dea th . C hron te l reserve s the rig ht to make chan ges at any ti me witho ut no ti ce to imp rove an d su ppl y the be st po ssibl e prod uct an d is n ot re spon sibl e and d oes no t assu me any li abi lity fo r mi sapp lica ti on or use o utside the li mits sp ecifie d in this do cumen t. We pro vide n o warra nty for the use of our pro ducts and a ssume no l iab ili ty for errors con ta ine d in this do cumen t. Printed i n th e U.S.A. 16 201-0000-030 Rev 2.0, 6/2/99