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| INTEGRATED CIRCUITS DATA SHEET SAA4700 VPS dataline processor Preliminary specification File under Integrated Circuits, IC02 March 1991 Philips Semiconductors Preliminary specification VPS dataline processor FEATURES * Adaptive sync slicer with buffered composite sync output VCS * Adaptive data slicer * Data rate clock regenerator * Field selection and line 16 decoding * Startcode and biphase check * Data valid output * Storage of data line information in a 40 bit register bank * I2C-bus transmission GENERAL DESCRIPTION The SAA4700 is a bipolar integrated circuit designed for use in dataline receivers and incorporates a dataline slicer and decoder. The slicer extracts the dataline signal from the video signal and regenerates the data clock. It also provides signals for the decoder in order to decode the binary data that is transmitted in line 16 of every first field of the composite video signal (video programming signal and video recording programming by Teletext, VPS and VPT systems). The decoded information out of words 5 and 11 to 14 is accessed via the built-in I2C-bus interface. This information then can be used for programming a video cassette recorder in order to start and stop a recording of a television program at the correct aligned time, regardless of a delay or extension in the transmission time of the required program. Tamb QUICK REFERENCE DATA SYMBOL VP IP Vi CVBS PARAMETER supply voltage (pins 15 and 16) total supply current CVBS input signal sync-to-white (peak-to-peak value) operating ambient temperature MIN. 4.5 - TYP. 5 18 SAA4700 MAX. 5.5 23 UNIT V mA 0.5 0 1 - 1.4 +70 V C ORDERING AND PACKAGE INFORMATION EXTENDED TYPE NUMBER SAA4700 Note 1. SOT102-1; 1996 December 4. PACKAGE PINS 18 PIN POSITION DIL MATERIAL plastic CODE SOT102 (1) March 1991 2 Philips Semiconductors Preliminary specification VPS dataline processor SAA4700 handbook, full pagewidth CSO 0.1 F 5 6 (test line 16) 11 FIELD SELECTOR LINE 16 DECODER line 16 DAV AD = LOW 12 OUTPUT CONTROLLER 7 8 I2C-BUS CONTROL SCL SDA CVBS 4.7 nF 2 SYNC SEPARATOR 9 470 pF SAA4700 1 nF 5 8 1 DATA SLICER data 40-BIT DATA REGISTER data 4 4.7 k INPUT CONTROLLER 40-BIT DATA LATCH CLOCK REGENERATOR 75 k (2%) to VP 4.7 nF 22 nF 8.2 k VCS 13 PLL WITH 5 MHz VCO AND PHASE DETECTOR 6 MULTIPLEXER 18 REFERENCE VOLTAGES POWER-ON RESET 3 4 15 16 external reset n.c. 17 TIME BASE 14 10 clock pulse 0.1 F +5 V VP MEH095 Fig.1 Block diagram and test circuit. FUNCTIONAL DESCRIPTION Dataline 16 The information in dataline 16 consists of fifteen 8-bit words; the total information content is shown in Table 1; and the organization of transmitted bytes is shown in Table 2. Out of the fifteen possible 8-bit words the SAA4700 extracts words 5 and 11 to 14. The contents of these words can be read via the built-in I2C-bus interface. The circuit is fully transparent, thus each bit is transferred without modification with only the sequence of words being changed. Words 11 to 14 are transmitted first followed by word 5. By evaluating the sliced sync signal the circuit can identify the beginning of dataline 16 in the first field. The dataline decoder stage releases the start code detector. When a correct start code is detected (for timing of start code detection see Fig.3) words 5 and 11 to 14 are decoded, checked for biphase errors and stored in a register bank. If no biphase error has occurred, the contents of the register bank are transferred to a second register bank by the data valid control signal. If the system has been addressed, this transfer will be delayed until the next start or stop condition of the I2C-bus has been received. The last bit of correct information on the dataline remains available until it is read via the I2C-bus. Once the stored information has been read it is considered to be no longer valid and the internal new data flag is reset. Subsequently, if the circuit is addressed, the only VPS data that will be sent back is "FFF to F". The same conditions apply after power-up when no data can be read out. New data is available after reception of another error-free dataline 16. March 1991 3 Philips Semiconductors Preliminary specification VPS dataline processor PINNING SYMBOL CVBS SYNC GND1 GND2 Cblack CSO AD SCL SDA RS TP DAV Rosc CP VP1 VP2 Cph n.c. PIN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 DESCRIPTION video signal input (CVBS from TV) sync amplitude input (CVBS from TV) analog ground (0 V) digital ground (0 V) capacitor for black level composite sync output address set input I2C-bus clock line I2C-bus data line reset input active LOW test point for line 16 decoder data available output active LOW oscillator resistor for frequency adjustment test point clock pulse +5 V supply voltage (digital part) +5 V supply voltage (analog part) capacitor of phase detector not connected To enable proper storage of the sync value in the decoupling capacitor, the sync generator output resistance should not exceed 1 k. Black level The capacitor connected to pin 5 stores the black level value for the adaptive sync slicer. Composite sync output (CSO) A composite sync output signal for customer application is provided (pin 6). DAV output The data available output pin 12 is set LOW after an error free dataline 16 is received. DAV returnes to HIGH after the beginning of the next first field. If Fig.2 Pin configuration handbook, halfpage SAA4700 PIN CONFIGURATION CVBS SYNC GND1 GND2 Cblack CSO AD SCL SDA 1 2 3 4 5 6 7 8 9 MBH796 18 n.c. 17 Cph 16 VP2 15 VP1 SAA4700 14 CP 13 Rosc 12 DAV 11 TP 10 RS External reset The circuit provides an internal power-on reset. When using this facility pin 10 should be connected to VP or, if external reset (RESET = LOW) is to be used pin 10 should be prepared by connecting pin 10 via a 10 k pull-up resistor to VP. Reset forces the following: - I2C-bus not to acknowledge - DAV output to go HIGH (pin 12) I2C-bus transfer register to "FFF" no valid data is available DAV remains HIGH. A short duration pulse of 1 s (Fig.5) is inserted at the beginning of dataline 16; it will ensure that a HIGH-to-LOW transmission occurs which can then be used for triggering. 5 MHz VCO and phase detector The resistor connected between pin 13 and VP2 determines the current into the voltage controlled oscillator. The RC network connected to pin 17 acts as a low-pass filter for the phase detector. Power supply To prevent crosscoupling the circuit is provided with separate ground and supply pins for analog and digital parts (pins 3, 4, 15 and 16). CVBS input The CVBS signal is applied to the sync separator (pin 2) via a decoupling capacitor and to the data slicer (pin 1) via an RC high-pass filter. March 1991 4 Philips Semiconductors Preliminary specification VPS dataline processor Table 1 Information per word in dataline 16 content run in start code program source identification (binary coded) program source identification (ASCII sequential) sound and VTR control information program/test picture identification internal information exchange address assignment of signal distribution address assignment of signal distribution messages/commands SAA4700 word number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Table 2 VTR control / information reserve VTR control information of dataline 16 VTR CONTROL INFORMATION Word number 1 Bit number Label binary Word 5: 5 8 0 11 78 12 15 16 13 23 24 14 31 XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX Progr. source AD (1) Day Month Hour Minute Nation Bit1 0 0 System status code 1 1 Bit3 Pause code Interrupt code Note 1 0 Bit2 Status 0 1 0 1 2-channel Mono Stereo 2-channel 1X00000111111111111111 NC.. .NC PC...PC Special system code Bit4 Status 0 1 free free 1X00000111111110111111 NC.. .NC NC.. .NC PC...PC 1X00000111111101111111 PC...PC 1. address range; NC = nation code; PC = program source code; X = 0 or 1 (bit) March 1991 5 Philips Semiconductors Preliminary specification VPS dataline processor SAA4700 handbook, full pagewidth 0.2 s clock signal to time base data to controller run in (word 1) 1 1 error start code pulse 00 01 1 start code (word 2) 01 1 01 1 00 0 11 1 00 0 1 word 3 biphase error pulse (ignored in word 2) MEH097 Fig.3 Timing diagram of start code detection. handbook, full pagewidth white level 0.7 V 1V 0.5 V 5% sync level 12.5 1.5 s 48 s MEH098 Fig.4 Timing diagram of dataline 16; modulation depth 71.4%. March 1991 6 Philips Semiconductors Preliminary specification VPS dataline processor SAA4700 handbook, full pagewidth 64 s word 10 word 11 word 12 word 13 word 14 word 15 word 1 word 2 word 3 word 4 word 5 word 6 word 7 word 8 word 9 12.5 s CVBS input 48 s DAV output 1 s line 16 start code pulse word 5 latch pulse word 11 latch pulse word 14 latch pulse MEH096 Fig.5 Timing diagram of the data available output and word latch pulses. March 1991 7 Philips Semiconductors Preliminary specification VPS dataline processor LIMITING VALUES In accordance with the Absolute Maximum System (IEC 134). Ground pins 3 and 4 as well as supply pins 15 and 16 tied together. SYMBOL VP1 VP2 Tstg Tamb PARAMETER supply voltage (pin 15) supply voltage (pin 16) storage temperature range operating ambient temperature range MIN. -0.5 -0.5 -20 0 6.0 6.0 125 +70 MAX. SAA4700 UNIT V V C C THERMAL RESISTANCE SYMBOL Rth j-a PARAMETER from junction to ambient in free air - MIN. 78 MAX. UNIT K/W CHARACTERISTICS VP1 = VP2 = 5 V; Tamb = 25 C; CVBS signal according to VPS and VPT standard and measurements taken in Fig.1, unless otherwise specified. SYMBOL VP1, VP2 IP Vi CVBS Vi data Vi sync RS VOL VOH IOL IOH td VOL VOH IOL IOH PARAMETER supply voltages (pins 15 and 16) total supply current I15 + I16 sync-to-white note 1; Fig.4 line 16; Fig.4 250 100 - - 2.4 - - - note 2 - 2.4 - - - - - 0.01 0.4 - 500 1 V V A A 500 - - - - - - 0.3 700 600 1 mV mV k CONDITIONS - MIN. 4.5 5 18 TYP. MAX. 5.5 23 V mA UNIT CVBS and sync inputs (pins 1 and 2) CVBS input signal (peak-to-peak value) data input signal (peak-to-peak value, pin 1) sync input signal (peak-to-peak value, pin 2) source resistance 0.5 1 1.4 V Composite sync output (pin 6) output voltage LOW output voltage HIGH output current LOW output current HIGH sync separator delay time 0.4 - 200 -500 - V V A A s DAV output (pin 12) output voltage LOW output voltage HIGH output current LOW output current HIGH March 1991 8 Philips Semiconductors Preliminary specification VPS dataline processor SAA4700 SYMBOL SCL and SDA (pins 8 and 9) VIL VIH II CI VO ACK tr tf tp L tp H SCL PARAMETER CONDITIONS - 3 0.9VP - - IOL = 3 mA - - - MIN. - - - - - - - - - - - - - - - TYP. MAX. UNIT input voltage LOW input voltage HIGH input current input capacitance output voltage during acknowledge on pin 9 rise time fall time pulse duration LOW pulse duration HIGH clock frequency note 2 address 23H address 21H note 2 reset active reset non-active 1.5 - 10 10 0.4 1 0.3 - - 100 V V A pF V s s s s kHz 4.7 4.0 - AD set input (pin 7) VIL VIH VIL VIH IIL IIH input voltage LOW input voltage HIGH 0 2.4 - 2.4 - - 0.4 VP 0.4 - -10 1 V V RESET input (pin 10) input voltage LOW input voltage HIGH input current LOW input current HIGH V V A A 0.01 Notes to the characteristics 1. With standard sync and data amplitude of 68% to 75% black-white. 2. If the open collector output DAV is used, a pull-up resistor to VP1 is necessary. March 1991 9 Philips Semiconductors Preliminary specification VPS dataline processor SAA4700 handbook, full pagewidth VP 22 nF +5 V 75 k (2%) DAV 8.2 k n.c. 18 17 4.7 nF 0.1 F 16 15 14 SAA4700 13 12 11 10 1 1 nF 470 pF 2 4.7 nF 3 4 5 0.1 F 6 7 8 9 4.7 k CSO SCL SDA CVBS MEH135 Fig.6 Application circuit. I2C-BUS FORMAT S SLAVE ADDRESS A DATA A DATA A DATA A DATA A DATA P S = start condition SLAVE ADDRESS A DATA P = = = = 0010 0001 or 0010 0011 for set input AD = HIGH respectively LOW on pin 7 (the circuit is only a slave transmitter) acknowledge, generated by the slave or the master five data bytes, see words in Table 1 stop condition respectively non-acknowledge by the microcontroller Remarks to I2C-bus transmission * the MSB of each word is transmitted first * there is no restriction on the number of words to be transmitted, but if more than five words are requested, the following content will be "FF" continuously. * Normally every dataline transmission has to be ended with STOP condition by non-acknowledge of the controller. March 1991 10 Philips Semiconductors Preliminary specification VPS dataline processor PACKAGE OUTLINE DIP18: plastic dual in-line package; 18 leads (300 mil) SAA4700 SOT102-1 D seating plane ME A2 A L A1 c Z e b1 b 18 10 b2 MH wM (e 1) pin 1 index E 1 9 0 5 scale 10 mm DIMENSIONS (inch dimensions are derived from the original mm dimensions) UNIT mm inches A max. 4.7 0.19 A1 min. 0.51 0.020 A2 max. 3.7 0.15 b 1.40 1.14 0.055 0.044 b1 0.53 0.38 0.021 0.015 b2 1.40 1.14 0.055 0.044 c 0.32 0.23 0.013 0.009 D (1) 21.8 21.4 0.86 0.84 E (1) 6.48 6.20 0.26 0.24 e 2.54 0.10 e1 7.62 0.30 L 3.9 3.4 0.15 0.13 ME 8.25 7.80 0.32 0.31 MH 9.5 8.3 0.37 0.33 w 0.254 0.01 Z (1) max. 0.85 0.033 Note 1. Plastic or metal protrusions of 0.25 mm maximum per side are not included. OUTLINE VERSION SOT102-1 REFERENCES IEC JEDEC EIAJ EUROPEAN PROJECTION ISSUE DATE 93-10-14 95-01-23 March 1991 11 Philips Semiconductors Preliminary specification VPS dataline processor SOLDERING Introduction There is no soldering method that is ideal for all IC packages. Wave soldering is often preferred when through-hole and surface mounted components are mixed on one printed-circuit board. However, wave soldering is not always suitable for surface mounted ICs, or for printed-circuits with high population densities. In these situations reflow soldering is often used. This text gives a very brief insight to a complex technology. A more in-depth account of soldering ICs can be found in our "IC Package Databook" (order code 9398 652 90011). Soldering by dipping or by wave The maximum permissible temperature of the solder is 260 C; solder at this temperature must not be in contact DEFINITIONS Data sheet status Objective specification Preliminary specification Product specification Limiting values SAA4700 with the joint for more than 5 seconds. The total contact time of successive solder waves must not exceed 5 seconds. The device may be mounted up to the seating plane, but the temperature of the plastic body must not exceed the specified maximum storage temperature (Tstg max). If the printed-circuit board has been pre-heated, forced cooling may be necessary immediately after soldering to keep the temperature within the permissible limit. Repairing soldered joints Apply a low voltage soldering iron (less than 24 V) to the lead(s) of the package, below the seating plane or not more than 2 mm above it. If the temperature of the soldering iron bit is less than 300 C it may remain in contact for up to 10 seconds. If the bit temperature is between 300 and 400 C, contact may be up to 5 seconds. This data sheet contains target or goal specifications for product development. This data sheet contains preliminary data; supplementary data may be published later. This data sheet contains final product specifications. Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application information Where application information is given, it is advisory and does not form part of the specification. LIFE SUPPORT APPLICATIONS These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale. PURCHASE OF PHILIPS I2C COMPONENTS Purchase of Philips I2C components conveys a license under the Philips' I2C patent to use the components in the I2C system provided the system conforms to the I2C specification defined by Philips. This specification can be ordered using the code 9398 393 40011. March 1991 12 |
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