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| TDA1180P TV HORIZONTAL PROCESSOR s s s s s s s s s NOISE GATED HORIZONTAL SYNC SEPARATOR NOISE GATED VERTICAL SYNC SEPARATOR HORIZONTAL OSCILLATOR WITH FREQUENCY RANGE LIMITER PHASE COMPARATOR BETWEEN SYNC PULSES AND OSCILLATOR PULSES (PLL) PHASE COMPARATOR BETWEEN FLYBACK PULSES AND OSCILLATOR PULSES (PLL) LOOP GAIN AND TIME CONSTANT SWITCHING ( VCR) COMPOSITE BLANKING AND KEY PULSE GENERATOR PROTECTION CIRCUITS OUTPUT STAGES WITH HIGH CURRENT CAPABILITY DIP16 (Plastic Package) ORDER CODE : TDA1180P DESCRIPTION The TDA1180P is a horizontal processor circuit for b.w. and colour monitors. It is a monolithic integrated circuit encapsulated in 16-lead dual in-line plastic package. PIN CONNECTIONS SUPPLY VOLTAGE NEGATIVE OUTPUT POSITIVE OUTPUT PROTECTION CIRCUIT INPUT PHASE SHIFTER FILTER FLYBACK INPUT KEY AND BLANKING PULSE OUTPUT SYNC. SEPARATOR INPUT 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 GROUND OSCILLATOR CONTROL CURRENT OSCILLATOR CONTROL CURRENT OUTPUT TIME CONSTANT SWITCH COINCIDENCE DETECTOR VERTICAL SYNC. OUTPUT VERTICAL SYNC. SEPARATOR INPUT 1180P-01.EPS May 1993 1/12 2/12 VS VS TDA1180P BLOCK DIAGRAM VS AAAA AAAA 10 7 6 1 5 4 9 Vertical Sync. Separator Pulse Shaper Vertical Sync. Output Stage Composite Key and Blanking Pulse Generator AAAA AAAA Phase Comparator (Oscillator Flyback) Phase Shifter and Pulse Shaper Protection Switch 2 VS Pulse Shaper Noise Video Signal Gate 8 Sync. Separator Oscillator Sync. Gate Vertical Sync. Blanking Phase Comparator (Oscillator Sync.) Under Voltage Protection AAAA AAAA Coincidence Detector Time Constant and Control Current Switch Voltage Limiter Output Stage 3 11 VCR 12 13 15 14 16 VS Frequency AAAA AAAA AAAA AAAA AAAA AAAA AAAA AAAA AAAA AAAA AAAA AAAA AAAA AAAA 1180P-02.EPS TDA1180P ABSOLUTE MAXIMUM RATINGS Symbol VS V2 V4 V8 V9 V11 I2 I3 I6 I7 I10 Ptot Tstg , Tj Supply voltage (Pin 1) Voltage at Pin 2 Voltage at Pin 4 Voltage at Pin 8 Voltage at Pin 9 Voltage at Pin 11 Pin 2 peak current Pin 3 peak current Pin 6 current Pin 7 current Pin 10 current Total power dissipation at Tamb 70 C Storage and junction temperature o Parameter Value 15 18 VS - 6 , VS 6 VS 1 0.5 30 20 30 1 - 40 , + 150 Unit V V V V A A mA mA W o 1180P-01.TBL 1180P-03.TBL 1180P-02.TBL mA C THERMAL DATA Symbol Rth (j-a) Parameter Thermal Resistance Junction-Ambient Max Value 80 Unit o C/W ELECTRICAL CHARACTERISTICS (refer to the test circuit, VS = 12V, TA = 25oC, unless otherwise specified) Symbol VS IS VS Supply current Supply voltage at which the output pulses (at pin 2 and 3) are switched off Parameter Supply voltage range I3 = 0 Test conditions Min. 9.5 Typ. 12 42 Max. 13.2 52 4 Unit V mA V HORIZONTAL SYNC. SEPARATOR VI V8 I8 I8 Peak to peak input signal Input switching voltage Input switching current Leakage current I8 = 80 A V8 = 1.4V V8 = -5V 1 3 1.5 10 1 6 V V A A VERTICAL SYNC. SEPARATOR VI V9 I9 I9 V10 R10 tLV tLV tV Peak to Peak Input Signal Input Switching Voltage Input Switching Current Leakage Current Vertical Sync. Pulse Output Voltage Output Resistance Delay between Leading Edge of Input and Output Signals Delay between Trailing Edge of Input and Output Signals Vertical Sync Pulse Duration I9= 80A V9 = 1.4V V9 = -5V No Load Pin10 11 10 17 50 190 1 3 1.5 5 1 6 V V A A V k s s s 3/12 TDA1180P ELECTRICAL CHARACTERISTICS (continued) (refer to the test circuit, VS = 12V, TA = 25oC, unless otherwise specified) Symbol PROTECTION CIRCUIT V4 R4 I4 Input Voltage for Switching off the Output Pulses Input Resistance Input Current 5 Output Pulses OFF Output Pulses ON 0.5 1 200 k A V Parameter Test conditions Min. Typ. Max. Unit FLYBACK PULSE V6 V6 I6 Input Threshold Voltage of Blanking Generator Input Threshold Voltage of Phase Comparator Input Switching Current V6 1.7V 1.8 7.6 0.45 V V mA OUTPUT PULSE V3 I3 R3 Peak-to-Peak Output Voltage Output Current Output Resistance I3 = 150 mApp V3 = 5V At Leading Edge of output pulse At Training Edge of Output Pulse 20 10 500 3 20 22 26 V mA s tp Output Pulse Duration COMPOSITE BLANKING AND KEY PULSE V7k V7B R7 tsk tk tfb Key Pulse Output Peak Voltage Blanking Pulse Output Voltage Output Resistance Phase Relation Between Trailing Edge of Key Pulse and Middle of Sync. Input Pulse Key Pulse Duration Delay between Flyback Pulse and Blanking Pulse V6 = 1.7V 3.5 9 4.2 11 4.5 100 2.7 3.8 0.2 4.8 V V s s s s s INTERNAL GATING PULSE tg t Gating Pulse Duration Phase Relation between Middle of Sync. Pulse and Trailing and Leading Edge of Gating Pulse 7.5 3.75 COINCIDENCE DETECTOR V11 I11 Output Voltage Peak Output Current With Coincidence Without Coincidence 6.8 4 0.5 V V mA VCR SWITCH V11 - I11 I11 Input Voltage Output Current Output Current 0 to 4 or 8.5 to 12 35 0.4 V A mA TIME CONSTANT SWITCH V12 R12 Output Voltage Output Resistance 4.5V < V11 < 8V V11 > 8.5V or V11 < 4V 3 100 40 V k 1180P-04.TBL 4/12 TDA1180P ELECTRICAL CHARACTERISTICS (continued) (refer to the test circuit, VS = 12V, TA = 25oC, unless otherwise specified) Symbol OSCILLATOR V14 V14 I14 I14 V15 I15 fO fO fO fO I15 fO Low Level Threshold Voltage High Level Threshold Voltage Charge Current Discharge Current Current Source Supply Voltage Current Source Supply Current Free Running Frequency Adjustment Range Frequency Control Sensitivity Frequency Change when VS Drops to 4V 5.4 8.2 0.6 0.3 3 0.3 15625 10 52 10 V V mA mA V mA Hz % Hz A % Parameter Test conditions Min. Typ. Max. Unit OSCILLATOR-FLYBACK PULSE PHASE COMPARATOR V5 I5 I5 tD t tD Control Voltage Range Peak Control Current Input Current (blocked Phase Detector) Permissible Delay between Output Pulse Leading Edge and Flyback Pulse Leading Edge Static Control Error tp - tf 0.2 -0.6 9.4 to 8.2 +0.6 5 V mA A s % SYNC PULSE-OSCILLATOR PHASE COMPARATOR V13 Control Voltage Range 4.6 to 1.4 +2 -2.2 2 700 -2 V I13 f t f Control Peak Current Phase Lock Loop Gain Catching and Holding Range mA kHz s Hz OVERALL PHASE RELATIONSHIP tO V5 tO I5 tO Phase Relation between Middle of Flyback Pulse and Middle of Sync. Pulse Adjustment Sensitivity Adjustment Sensitivity 2.2 65 16 s mV s A s 5/12 1180P-05.TBL TDA1180P TEST CIRCUIT Sandcastle Output Vert. Sync. Output +V S R8 47k R3 2.2M C1 470nF 9 R1 2.2k 2 10 7 6 5 C8 220nF 4 1 Flyback Input (100V) +V S TDA1180P Video Signal Input R2 2.7k 8 C3 220nF C2 100pF +V S C4 100nF R4 1.5M 11 12 R7 R6 3.6k R5 820k C5 680nF 1.2k C6 4.7F C7 10nF 13 R9 100k R10 10k R11 82k C9 4.3nF 15 14 16 3 Output Pulse R12 +V S 22k P2 22k Frequency Figure 1 : Vertical Sync. Output Pulse tV 6/12 1180P-04.EPS t LV t TV 1180P-03.EPS TDA1180P Figure 2 : Relation Ship of Main Waveform Phases Flyback Input Pulse to tf Video Input Signal Phase Comparator Driving Pulse Separated Sync. Pulse tg Gate Pulse t t td Sandcastle Output Pulse V7K t SK tK V7B tp Output Pulse Pin 3 1180P-05.EPS 7/12 TDA1180P Figure 3 : Free Running Frequency versus Supply Voltage f O (kHz) 16 Figure 4 : Loop Gain f O (kHz) 1 15.625 15.5 0 1180P-06.EPS 15 0 2 4 6 8 10 12 VS (V) 14 16 (s) -1 -0.8 -0.6 -0.4 -0.2 0 0.2 0.4 0.6 0.8 APPLICATION INFORMATION Pin 1 - Positive supply The operating supply voltage of the device ranges from 10V to 13.2V Pin 2 and 3 - Output The outputs of TDA1180P are suitable for driving transistor output stages, they deliver positive pulse at Pin 3 and negative pulse at Pin 2. The negative pulse is used for direct driving of the output stage, while positive pulse is useful when a driver stage is required. The rise and fall times of the output pulses are about 150 ns so that interference due to radiation are avoided. Furthermore the output stages are internally protected against short circuit. Pin 4 - Protection circuit input By connecting Pin 4 of the IC to earth the output pulses at Pin 2 and 3 are shut off ; this function has been introduced to produced to protect the final stages from overloads. The same pulses are also shut off when the supply voltage falls below 4V. Pin 5 - Phase shifter filter To compensate for the delay introduced by the line final stages, the flyback pulses to Pin 6 and the oscillator waveform are compared in the oscillatorflyback pulse phase comparator. The result of the comparison is a control current which, after it has been filtered by the external capacitor connected to Pin 5, is sent to a phase shifter which adequately regulates the phase of the output pulses. 8/12 The maximum phase shift allowed is: td = tp - tf where tf is the flyback pulse duration. Pin 5 has high input and output resistance (current generator). Pin 6 - Flyback input The flyback pulse drives the high impedance input through a resistor in order to limit the input current to suitable maximum values. The flyback input pulses are processed by a double threshold circuit; this generates the blanking pulses by sensing low level flyback voltage and the pulses to drive the phase comparator by sensing high level flyback voltage, therefore phase jitter caused by ringing normally associated with the flyback pulse, is avoided. Pin 7 - Key and blanking pulse output The key pulse for taking out the burst from the chrominance signal is generated from the oscillator ramp and has therefore a fixed phase position with respect to the sync. The key pulse is then added internally to the blanking pulse obtained by correctly forming the flyback pulse present at Pin 6. The sum of the two signals (sandcastle pulse) is available on low impedance at output Pin 7. Pin 8 and 9 - Sync separators inputs The video signal is applied by means of two distinct biasing networks to pins 8 and 9 of the IC and therefore to the respective vertical and horizontal sync separators. The latter take the sync pulses out of the video signal and make them available to the rest of the circuit for further processing. 1180P-07.EPS TDA1180P Pin 10 - Vertical sync output The vertical sync pulse, obtained by internal integration of the synchronizing signal, is available at this pin. The output impedance is typically 10k and the lowest amplitude without load is 11V. Pin 11 - Coincidence detector From the oscillator waveform a gate pulse 7 s wide is taken whose phase position is centered on the horizontal synchronism. The gate pulse not only controls a logic block which permits the sync to reach the oscillator-sync phase comparator only for as long as its duration, but also allows the latching and de-latching conditions of the oscillator to be established.This function is obtained by a coincidence detector which compares the phase of the gate pulses with that of the sync. When the two signals are not accurately aligned in time it means that the oscillator is not synchronized. In this case the detector acts on the logic block to eliminate its filtering effect and on the time constant switching block to establish a high impedance on Pin 12 (small time constant of low-pass filter). This latter block also acts on the oscillator-sync phase detector to increase its sensitivity and with it the loop gain of the synchronizing system. In this conditions the phase lock has low noise immunity (wide equivalent noise bandwidth) and rapid pull-in time which allows fairly short synchronization times. Once locking has taken place the coincidence detector enables the logic block, causes a low impedance on Pin 12 and reduces the sensitivity of the phase comparator. In these conditions the phase lock has high noise immunity ( narrow equivalent noise bandwidth) due to the complete elimination of interference which occurs during the scanning period and the greater inertia with which the oscillator can change its frequency. To optimize the behaviour of the IC if a video recorder is used, the state of the detector can be forced by connecting Pin 11 to earth or to + VS. The characteristics of the phase lock thus correspond to the lack of synchronization. Pin 12 - Time constant switch, (see Pin 11) Pin 13 - Control current output The oscillator is synchronized by comparing the phase of its waveform with that of the sync pulses in the oscillator-sync phase comparator and sending its output current I13 (proportional to the phase difference between the two signals) to Pin 15 of the oscillator after it has been filtered properly with an external low-pass circuit. The time constant of the filter can be switched between two values according to the impedance presented by Pin 12. The voltage limiter at the output of the phase comparator limits the voltage excursion on Pin 13 and therefore the frequency range in which the oscillator remains held-in. The output resistance of Pin 13 is: q low when V13 > 4.3 or V13 < 1.6V q high when 1.6V < V13 < 4.3V To prevent the vertical sync from reaching the oscillator-sync phase comparator along with the horizontal sync,a signal which inhibits the phase detector during the vertical interval is taken from the vertical output stage; inhibition remain even if the video signal is not present. The free running frequenc of the oscillator is determined by the values of the capacitor and of the resistor connected to Pins 14 and 15 respectively. To generate the line frequency output pulses, two theresholds are fixed along the fall ramp of the triangular waveform of the oscillator. Pin14 - Oscillator (see Pin 13) Pin 15 - Oscillator control current input (see Pin 13) Pin 16 - Ground 9/12 TDA1180P Figure 5 : Application Circuit for Large Screen Black & White and Colour TV Sandcastle Output Vert. Sync. Output +V S R8 47k R3 2.2M C1 470nF 9 R1 2.2k C8 220nF 6 5 R13 220k Flyback Input (100V) Phase P1 220k +V S +32V 220 C10 1 10F BU406D 2 120 10 7 4 TDA1180P Video Signal Input R2 2.7k 8 C3 220nF C2 100pF R4 1.5M +V S C4 100nF 11 12 R7 R6 3.6k R5 820k C5 680nF 1.2k C6 4.7F C7 10nF 13 R9 100k R10 10k R11 82k C9 4.3nF 15 14 16 3 560 R14 6.8nF BC440 Q1 R12 +V S 22k P2 22k Frequency Figure 6 : P.C. Board and Component Layout for the Circuit in Figure 6 (1:1 scale) P1 VIDEO SIGNAL INPUT SANDCASTLE OUTPUT R2 FLYBACK INPUT (100V) VS C1 R4 C3 C10 C8 R1 R8 C2 R13 TDA1180P VERTICAL SYNC. OUTPUT R14 OUTPUT PULSE R3 R6 R5 Q1 C7 C4 C6 R9 R7 C9 R12 R10 R11 P2 10/12 1180P-09.EPS C5 1180P-08.EPS TDA1180P Figure 7 : Application Circuit for Small Screen b.w. TV +10.8V 15 Sandcastle Output Vert. Sync. Output +V S R8 47k R3 2.2M C1 470nF 9 R1 2.2k 2 C8 220nF 6 5 4 1 15nF Flyback Input (100V) 10F +V S BU407D 100F 68 10 7 TDA1180P Video Signal Input R2 2.7k 8 C3 220nF C2 100pF R4 1.5M +V S C4 100nF 11 12 R7 R6 3.6k R5 820k C5 680nF 1.2k C6 4.7F C7 10nF 13 R9 100k R10 10k R11 82k C9 4.3nF 1180P-10.EPS 100F 4 1 82 4.7F 9 R1 2.2k 2 BU806 or BU807 33 3 3 15 14 16 R12 +V S 22k P2 22k Frequency Figure 8 : Application Circuit for Darlington Output Stage Sandcastle Output Vert. Sync. Output +V S R8 47k R3 2.2M C1 470nF C8 220nF 6 5 Flyback Input (100V) +V S 10 7 TDA1180P Video Signal Input R2 2.7k 8 C3 220nF C2 100pF R4 1.5M +V S C4 100nF 11 12 R7 R6 3.6k R5 820k C5 680nF 1.2k C6 4.7F C7 10nF 13 R9 100k R10 10k R11 82k C9 4.3nF 15 14 16 +V S 22k 22k Frequency 11/12 1180P-11.EPS R12 P2 TDA1180P PACKAGE MECHANICAL DATA 16 PINS - PLASTIC DIP a1 I b1 E Z b B e3 e D 16 9 F L 1 8 Dimensions a1 B b b1 D E e e3 F i L Z Min. 0.51 0.77 Millimeters Typ. Max. 1.65 Min. 0.020 0.030 Inches Typ. Max. 0.065 0.5 0.25 20 8.5 2.54 17.78 7.1 5.1 3.3 1.27 0.020 0.010 0.787 0.335 0.100 0.700 0.280 0.201 0.130 0.050 DIP16.TBL Information furnished is believed to be accurate and reliable. However, SGS-THOMSON Microelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No licence is granted by implication or otherwise under any patent or patent rights of SGS-THOMSON Microelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. SGS-THOMSON Microelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of SGS-THOMSON Microelectronics. (c) 1994 SGS-THOMSON Microelectronics - All Rights Reserved Purchase of I2C Components of SGS-THOMSON Microelectronics, conveys a license under the Philips I2C Patent. Rights to use these components in a I2C system, is granted provided that the system conforms to the I2C Standard Specifications as defined by Philips. SGS-THOMSON Microelectronics GROUP OF COMPANIES Australia - Brazil - China - France - Germany - Hong Kong - Italy - Japan - Korea - Malaysia - Malta - Morocco The Netherlands - Singapore - Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A. 12/12 PM-DIP16.EPS |
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