 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| TB1239BF Preliminary Bi-CMOS Integrated Circuit Silicon Monolithic TB1239BF Luminance, Chroma and Synchronizing Signals Processor IC for PAL/NTSC/SECAM COLOR TV TB1239BF integrates luminance, chroma and synchronizing signals processing circuits for PAL/NTSC/SECAM color TV system. TB1239BF incorporates high performance picture quality compensation circuits in luminance section, an automatic PAL/NTSC/SECAM discrimination and decode circuits in chroma section, and an automatic 50/60 Hz discrimination circuit in synchronizing section. Besides a crystal oscillator generates 4.43 MHz, 3.58 MHz and M/N-PAL clock signals internally for color demodulation. A horizontal PLL circuit is also built in this IC. Weight: 0.83 g (typ.) PAL/SECAM demodulation circuits which are adjustment-free circuits incorporates a 1 H DL circuit inside for operating the base band signal processing system. Also, TB1239BF makes it possible to set and to control various functions through the built-in I2C BUS line. Features Luminance Section * * * * * * * Built-in chroma trap filter Black stretch circuit DC restoration circuit Y delay line Sharpness control Sub-Contrast control (-/+2dB) Black set-up for PAL plus Chroma Section * * * * * * Built-in 1 H delay circuit (PAL/SECAM base band demodulation system) One crystal color demodulation circuit (4.43 MHz, 3.58 MHz, M/N-PAL) Automatic system discrimination system and forced system mode 1 H delay line also serves as comb filter in NTSC demodulation Built-in band-pass and take-off filter, SECAM bell filter Sub-Color control (-/+2dB) Synchronizing Section * * * * Built-in horizontal VCO resonator Adjustment-free horizontal and vertical oscillation by count-down circuit Automatic vertical frequency discrimination circuit Noise detection circuit 1 2002-02-12 TB1239BF Others * * * * * * * Y/C out level control 4-channels inputs switching 2-input circuit for RGB 2-input circuit for Y/Cb/Cr Y/Cb/Cr outputs Cb/Cr offset adjustment Built-in pre filters for A/D converter 2 2002-02-12 TB1239BF Block Diagram Y/C-VCC Y2-IN CB2-IN CR2-IN Y/C-GND R1-IN G1-IN X'tal FIL YS2/YM R2-IN G2-IN 38 37 36 35 34 33 B2-IN 32 31 30 29 28 27 26 25 Clamp Offset2 Matrix 24 YS1 Clamp Clamp VCXO Matrix FSC Tint C3-IN 39 APC 23 CR-OUT DL Cb/Cr 22 CB-OUT Set-up 21 Y-OUT 20 CLP-FIL Subcontrast 19 Y1-IN Black ADJ Y DL Secam ID EQ SW 17 CR1-IN V C/D + MASK V SEPA V INTEG Sync SEPA 16 SYNC-GND S Doubel Trap Chroma Trap Clamp 18 CB1-IN 15 YS3 I C Bus Control 2 CW Phase APC-FIL 40 SubColor Offset1 SW SW LPF 14 SCP SCL YVI-OUT SYNC-VCC SDA Half Tone Sharpness Amp SW CLP Y CVBS3/Y3-IN 41 Baseband SW 1 H DL ADDRESS 42 LPF C2-IN 43 SW (C-mute) DEEmphasis CVBS2/Y2-IN 44 P/N DEMO P/N ID Secam DEMO COMB SYS 45 BPF/ TOF BELL FSC-OUT 46 Chroma ID ACC Color System AFC-FIL 47 C CVBS/YC Select H C/D H VCO AFC Y C1-IN 48 1 COMB Y-IN DIGITAL-VDD COMB C-IN /FORCED-S DIGITAL-GND HS 2 3 4 5 6 7 8 9 10 11 12 13 SYNC-IN CVBS1/Y1-IN CVBS-OUT VS 3 B1-IN 2002-02-12 TB1239BF Terminal Descriptions Pin No. Pin Name (YC - VCC/SYNC - VCC/D - VDD = 5 V and Ta = 25C, unless otherwise specified) Function Interface Circuit Input/Output Signals 32 2.5 V 1 CVBS1/Y1-IN Input CVBS1/Y1 signal through a clamping capacitor. CVBS: 1 Vp-p Y: 1 Vp-p (with sync) 50 mA 50 mA DC: 1.8 V 1 250 W 28 12 1 kW 2 SYNC-IN Input signal to synchronize. 2 1 Vp-p (with sync) DC: 1.7 V 1.5 V 16 100 W 32 8 kW 700 mA 3 CVBS-OUT CVBS or Y + C signal output pin. 3 50 W 2 Vp-p (with sync) DC: 0.6 V 28 12 Output pin of vertical synchronizing signal. 4 VS Minimun pull-up resister is 6.8 kW. 4 50 W 120 mA Hi Low 4.7 V < Hi < 5.2 V = = 0 V < Low < 0.8 V = = 16 4 2002-02-12 TB1239BF Pin No. Pin Name Function Interface Circuit Input/Output Signals 32 2.5 V 5 COMB Y-IN Input luminance signal from Comb filter through a clamping capacitor. 5 1 Vp-p (with sync) 250 W DC: 1.8 V 28 6 D-VDD Power supply pin for DDS/BUS/V-CD/H-CD sections. 3/4 DC 5 V 32 Input chroma signal from Comb filter through a clamping capacitor. When this pin is connected to VCC, color killer is OFF and SECAM ID is ON forcibly. (forced SECAM mode) Refer to FUNCTION DESCRIPTION. 7 /FORCED-S 40 kW COMB C-IN 7 250 W 0.3 Vp-p (burst) C Forced-S DC: 2.4 V 4.0 V < Forced-S < 5.0 V = = (Th: 3.5 V) 50 kW 20 kW 2.4 V 40 pF 3.5 V 28 8 D-GND GND pin for DDS/BUS/V-CD/H-CD sections. 3/4 125 W 12 Hi Low 3.8 V < Hi < 4.6 V = = 0 < Low < 1.0 V = = Output pin of horizontal synchronizing signal. 9 HS Minimun pull-down resister is 2.7 kW. 9 50 W 20 kW 16 Sand Castle Pulse output pin. 10 SCP The clamping pulse and the horizontal blanking pulse are outputted. 10 100 W 12 CP H-BLK Low 3.6 V < CP < 4.4 V = = 1.6 V < H-BLK < 2.4 V = = 0.0 V < Low < 0.8 V = = with pull-down resister (7.5 kW) 50 W 16 5 2002-02-12 TB1239BF Pin No. Pin Name Function Interface Circuit Input/Output Signals 11 Yvi-OUT 8 kW Output pin to synchronize inputs. Y signal from video-SW is outputted. 100 W 12 1 Vp-p (with sync) 11 50 W DC: 2.1 V 16 12 SYNC-VCC Power supply pin for liner SYNC/HVCO sections. 3/4 DC 5 V 6 100 kW 15 kW 13 SCL SCL pin for I CBUS. 13 3 kW 2 SCL SCL 8 2.7 V 6 100 kW 15 kW SDA SDA 8 32 1.0 V < RGB1 < 5.0 V = = (Th: 0.7 V) 6 kW 30 kW 28 3/4 2.7 V 14 SDA SDA pin for I CBUS. 14 50 W 3 kW 2 ACK YS3 15 (RGB1-in) Pin to switch main signals and RGB1 signals. If the voltage of this pin is HI and the RGB1-ENB data is "enable" via I2C BUS, RGB1-IN is selected. And its status is responded to the Read Bus data. 15 16 SYNC-GND GND pin for liner SYNC/HVCO sections. 6 2002-02-12 TB1239BF Pin No. Pin Name Function Interface Circuit Input/Output Signals 32 17 Cr1-IN 17, 18 240 W 18 Cb1-IN 240 W 240 W 2.5 V 28 Input Y1/Cb1/Cr1 signal through a clamping capacitor. (selected by I C BUS.) When Y/Cb/Cr1-IN is active, Y1 signal is synchronized. 1 kW 2 Y: 1 Vp-p (with sync) DC: 1.7 V 32 Cb/Cr: 0.7 Vp-p (100 color bar) DC: 2.5 V 1 kW 19 Y1-IN 19 5 kW 28 32 20 CLP-FIL Connect a filter for clamping Y signal. 20 10 kW 50 W 28 7 2002-02-12 TB1239BF Pin No. Pin Name Function Interface Circuit Input/Output Signals 100 W 21 Y-OUT Y/Cb/Cr output pins. 32 DC; Y: 1.3 V, Cb/Cr: 1.8 V 21, 22, 23 700 mA 50 W AC; Y: 0.7 Vp-p (0 dB, non-sync) 28 Cb/Cr: 0.7 Vp-p (0 dB) 22 Cb-OUT The output's amplitudes is variable from 0.5 to 1.6 Vp-p by I2C BUS. 23 Cr-OUT 32 YS1 24 (YCbCr2-in) Pin to switch main signals and YCbCr2 signals. 24 10 kW 1.0 V < YCbCr2 < 5.0 V = = (Th: 0.7 V) 6.1 kW 30 kW 28 32 25 B1-IN 26 G1-IN Input RGB1 signal through a clamping capacitor. (selected by YS3 and I2C BUS.) 25, 26, 27 250 W 250 W 250 W 2.5 V 0.7 Vp-p DC: 2.5 V 27 R1-IN 28 28 Y/C-GND GND pin for Y/C/Text/Video-SW/ 1 H DL sections. 3/4 8 2002-02-12 TB1239BF Pin No. Pin Name Function Interface Circuit Input/Output Signals 32 29 Cr2-IN 29, 30 270 W 30 Cb2-IN 270 W 240 W DAC OFFSET Y: 1 Vp-p (with sync) 2.5 V Input Y2/Cb2/Cr2 signal through a clamping capacitor. (selected by YS1.) 28 DC: 1.7 V 32 Cb/Cr: 0.7 Vp-p (100 color bar) DC: 2.5 V 31 Y2-IN 31 240 W 240 W 240 W 1.7 V 28 32 Y/C-VCC Power supply pin for Y/C/Text/Video-SW/ 1HDL sections. 3/4 DC 5 V 33 B2-IN 32 34 G2-IN Input RGB2 signal through a clamping capacitor. (selected by YS2.) 33, 34, 35 250 W 250 W 250 W 2.5 V 0.7 Vp-p DC: 2.5 V 35 R2-IN 28 32 Pin to switch main signals and RGB2 inputs. Half-tone ON/OFF SW is also included. Half tone gain is selected by I2C BUS. YS2/YM 36 (RGB2-in) 4 kW 1.0 V < YM < 1.5 V = = 2.5 V < RGB2 < 5.0 V = = (Th1: 0.7 V, Th2: 2.0 V) 36 6 kW 30 kW 28 9 2002-02-12 TB1239BF Pin No. 37 FIL Pin Name Function Connect this terminal to Y/C VCC. Interface Circuit 3/4 Input/Output Signals 3/4 32 Pin to connect a 16.2 MHz crystal. 38 X'TAL Recommended crystal: NR-18 NT162020A, made by NIHON DENPA KOGYO CO, LTD. 500 W 38 500 W 1 kW 1 kW 16.2 MHz wave 28 32 39 C3-IN Input C3 signal through a clamping capacitor. 0.3 Vp-p (burst) 50 mA 40 kW 50 mA 39 250 W 1.6 V DC: 1.6 V 28 32 40 APC-FIL Connect APC filer. 40 200 W 110 kW 3.2 V 28 32 2.5 V 41 CVBS3/Y3-IN Input CVBS3/Y3 signal through a clamping capacitor. CVBS: 1 Vp-p Y: 1 Vp-p (with sync) 50 mA 50 mA DC: 1.8 V 41 250 W 28 10 2002-02-12 TB1239BF Pin No. Pin Name Function Interface Circuit Input/Output Signals 6 kW 100 kW 100 kW 42 ADDRESS Slave address setting pin. Select slave address. When this pin is open, 8A/8BH is selected. 42 W 88H R 89H 8AH 8EH 8BH 8FH 6 88/89H < 1.3 V = 3.9 V < 8E/8FH = (Th1: 1.5 V, Th2: 3.2 V) 100 kW 3 kW 8 32 43 C2-IN Input C2 signal through a clamping capacitor. 0.3 Vp-p (burst) 50 mA 40 kW 50 mA 43 250 W 1.6 V DC: 1.6 V 28 32 2.5 V CVBS: 1 Vp-p Y: 1 Vp-p (with sync) 50 mA 50 mA DC: 1.8 V 44 CVBS2/Y2-IN Input CVBS2/Y2 signal through a clamping capacitor. 44 250 W 28 The status of color system is responded to pin 45 and pin 46. It is the same as Read BUS status. 50 kW 32 Color System M-PAL 45 COMB SYS Pin 45 Pin 46 Low Low 45 5V High Low 0V 4.43PAL, SECAM, High Low B/W 3.58/4.43 Low High NTSC N-PAL High High 28 Refer to FUNCTION DESCRIPTION. 11 2002-02-12 TB1239BF Pin No. Pin Name Function Interface Circuit Input/Output Signals AC: 0.84 Vp-p 32 DC: as blow figure. Sub-carrier output pin. 46 Fsc-OUT 220 mA Refer to FUNCTION DESCRIPTION. 46 100 W (3.1 V) High Low (2.1 V) 28 12 47 AFC-FIL Connect AFC filter. 47 300 W 300 W 16 32 48 C1-IN Input C1 signal through a clamping capacitor. 0.3 Vp-p (burst) 50 mA 40 kW 50 mA 48 250 W 1.6 V DC: 1.6 V 28 12 2002-02-12 TB1239BF Write Mode Slave Address: 88H/8AH/8EH D5 TINT SUB-COLOR SHARPNESS EQ Y-OUT LEVEL C-OUT LEVEL C-TRAP SW Y-DL RGB SELECT Cr OFFSET1 Cr OFFSET2 V C/D MODE S R-Y ADJ S GP 0 0 TEST MODE 0 0 0 HS-PH S V-ID BELL f0 0 0 BELL/HPF SETUP-SW 0 RGB1 ENB 0 V-FREQ VIDEO SELECT FILTER SW BPF Q BPF f0 COLOR SYSTEM SHARPNESS f0 D4 D3 D2 D1 LSB D0 Preset 0010 1000 1000 0010 0010 0000 0010 0000 1000 1000 0000 1000 0000 1000 0000 0000 0000 1000 0000 0000 0000 0000 1000 0000 1000 1000 0000 1000 0000 0000 0000 0000 Sub Address MSB D7 D6 80 P/N ID P/N GW 81 SUB-CONTRAST 82 SHARPNESS GAIN 83 BS POINT 84 DC REST 85 LPF S-D TRAP 86 N-COMB 87 Cb OFFSET1 Cb OFFSET2 AFC GAIN S B-Y ADJ Cb/Cr-MUTE HALF TONE 88 89 8A MVM 8B 8C S-INHBT S ID 8D 0 0 8E 0 0 8F Read Mode Slave Address: 89H/8BH/8FH D5 D4 X'TAL V-SIG V15 (note1) D3 D2 N-DET (note1) D1 LSB D0 H-LOCK 0 Sub Address MSB D7 D6 00 C ID POR COLOR SYSTEM 01 V-FREQ V-STD Note1: Don't care 13 2002-02-12 TB1239BF Bus Control Function Write Mode Slave Address: 88H/8AH/8EH Item/Number of Bits TINT/ Function TINT adjustment for NTSC Variable Range 00H: -33 deg to 3F H: +33 deg (1LSB = 1.1 deg) P/N GW/ P/N ID/ SUB-COLOR/ SUB-CONTRAST/ SHARPNESS f0/ PAL/NTSC gate width PAL/NTSC sensitivity SW Sub-color control Sub-contrast control Sharpness center frequency changing 0: 2.0 ms, 1: 3.2 ms 0: Normal, 1: Low 0 H: -2 dB to F H: 2 dB 0 H: -2 dB to F H: 2 dB 00: 2.5 MHz, 01: 3.2 MHz 10: 4.0 MHz, 11: OFF SHARPNESS EQ/ Sharpness equalizer characteristic (evaluation with 2T-pulse) SHARPNESS GAIN/ Y-OUT LEVEL/ BS POINT/ Sharpness gain control Y output level control (pin 21) Black Stretch start point changing 00: 1: 1.2, 01: 1: 1 10: 1.2: 1, 11: 1.4: 1 0 H: -6 dB to F H: 6 dB 00 H: 0.5 to 3 F H: 1.6 Vp-p 00: OFF (by-pass), 01: 20 IRE 10: 30 IRE, 11: 40 IRE C-OUT LEVEL/ DC REST/ Cb/Cr output level control (pin 22/23) DC restoration ratio adjustment 00 H: 0.5 to 3 F H: 1.6 Vp-p 00: 100, 01: 95 10: 90, 11: 85 BPF f0/ BPF/TOF f0 adjustment 00: -400 kHz, 01: +0 kHz, 10: +400 kHz, 11: OFF (by-pass) BPF Q/ BPF/TOF Q adjustment 00: 1.0, 01: 1.5 10: 2.0, 11: 2.5 FILTER SW/ C-TRAP SW/ S-D TRAP/ LPF/ COLOR SYSTEM/ BPF/TOF switch Chroma trap switch SECAM double trap switch Y/Cb/Cr LPF switch Color system switching Europe automatic mode; 4.43PAL, 4.43NTSC, 3.58NTSC, SECAM South America automatic mode; 3.58NTSC, M-PAL, N-PAL Refer to FUNCTION DESCRIPTION. 0: BPF, 1: TOF 0: ON, 1: OFF 0: OFF, 1: ON 0: ON, 1: OFF (by-pass) 000: Europe automatic 001: South America automatic 010: 3.58 NTSC 011: 4.43 NTSC 100: 4.43 PAL 101: SECAM 110: M-PAL, 111: N-PAL Y-DL/ Y-DL time adjustment (1LSB = 40 ns) Refer to FUNCTION DESCRIPTION. N-COMB/ VIDEO SELECT/ 1 H addition switch, when NTCS. Selection of input video signals 0000: 120 to 1010: 520 ns 1011 to 1111: don't use 0: OFF, 1: ADD Refer to FUNCTION DESCRIPTION. RGB SELECT/ Selection of input sources. Refer to FUNCTION DESCRIPTION. HALF TONE/ Half tone gain switch 00: Main, 01: YCbCr1 10: RGB1, 11: don't use 0: -10 dB, 1: -6 dB -10 dB Main OFF 0000 320 ns BPF ON OFF ON Europe automatic 1.0 -400 kHz 1.05 Vp-p 100 0 dB 1.05 Vp-p OFF 1: 1.2 2.0 ms Normal 0 dB 0 dB 2.5 MHz Preset 0 deg 14 2002-02-12 TB1239BF Item/Number of Bits Cb/Cr-MUTE/ Cb/Cr OFFSET1// Cb/Cr OFFSET2// V-FREQ/ Function Cb/Cr output mute switch Cb/Cr offset adjustment (main route) Cb/Cr offset adjustment (YCbCr2 input) V count down frequency switch. Automatic mode 1; 50/60 Hz automatic distinction. At no-signal, the last statement is kept. Right after power-on, 50 Hz mode is run. Automatic mode 2; 50/60 Hz automatic distinction. And 50 Hz mode is run at no-signal. Refer to FUNCTION DESCRIPTION. V C/D MODE/ V count down judge switch. Refer to FUNCTION DESCRIPTION. AFC GAIN/ AFC sensitivity switch 00: Normal, 01: Teletext, 10: Fast, 11: Normal 00: +6 dB, 01: 0 dB, 10: -6 dB, 11: -17 dB MVM/ S R-Y ADJ/ S B-Y ADJ/ BELL/HPF/ Macrovision Mask + AFC Mask SECAM R-Y black adjustment SECAM B-Y black adjustment SECAM bell/HPF switching. Or the high frequency side on SECAM bell filter is boosted. Refer to FUNCTION DESCRIPTION. BELL f0/ S V-ID SW/ S GP/ BELL f0 adjustment SECAM V-ID switch SECAM gate position adjustment (its width is same) SECAM sensitivity switch SECAM inhibition switch Enable YS3 to switch to RGB1-IN. Refer to FUNCTION DESCRIPTION. SETUP-SW/ HS-PH/ Y black level set-up HS Output phase switch 0: Normal, 1: Set-up 0: H-Sync (4.7 ms), 1: GP (3.2 ms) TEST MODE/ Factory test mode. Set all zero. 3/4 00H Normal H-Sync 0: Normal, 1: +15 kHz 0: OFF, 1: ON 00: Normal, 01: 0.4 ms delay, 10: Normal, 11: 0.4 ms forward 0: Normal, 1: Low 0: Normal, 1: Inhibited 0: Disable, 1: Enable Normal Normal Disable Normal OFF Normal 0: Narrow, 1: Always masked 0 H: -10 to F H: 8.8 mV 0 H: -10 to F H: 8.8 mV 00: Bell, 01: Boost 1, 10: Boost 2, 11: HPF +6 dB (data: 00) Narrow 0 mV 0 mV Bell Normal Variable Range 0: OFF, 1: ON 0 H: -12 to F H: +10.5 mV 0 H: -12 to F H: +10.5 mV 000: Automatic mode 1, 001: 50 Hz, 010: 60 Hz, 011: Automatic mode 2, 100: Forced 312.5 H (AFC free-run), 101: Forced 262.5 H (AFC free-run), 110: Forced 313 H (AFC free-run), 111: Forced 263 H (AFC free-run) Preset OFF 0 mV 0 mV Automatic mode 1 S ID/ S-INHBT/ RGB1 ENB/ 15 2002-02-12 TB1239BF Read Mode Slave Address: 89H/8BH/8FH Item/Number of Bits H-LOCK/ N-DET/ H.Lock detection Noise judgment Function Variable Range 0: Un-lock, 1: Lock 00: SN > 30 dB, 01: 3/4, 10: 30 dB > SN > 20 dB, 11: 20 dB > SN X'TAL/ Crystal mode judgment 00: 4.433619 MHz (PAL) 01: 3.579545 MHz (NTSC) 10: 3.575611 MHz (M-PAL) 11: 3.582056 MHz (N-PAL) COLOR SYSTEM/ Color system judgment 00: B/W, 01: PAL 10: NTSC, 11: SECAM POR/ V15/ Power On Reset Status of pin 15 voltage Refer to FUNCTION DESCRIPTION. V-SIG/ C ID/ Internal V.pulse detection for V.lock Input signal condition (detection of burst signal on C-IN pins) Refer to FUNCTION DESCRIPTION. V-STD/ Decision on the standard of the vertical frequency. When no-signal, 1: STD is responded. V-FREQ/ Vertical frequency judgment. Right after power-on, 0: 50 Hz is responded. At no-signal, the last statement is kept. 0: 50 Hz, 1: 60 Hz 0: Non-STD, 1: STD 0: Existing, 1: Not existing 0: Not detected (CVBS), 1: Detected (Y/C) 0: Normal, 1: Resistor preset 0: Low, 1: High 16 2002-02-12 TB1239BF Function Description Video Select, Auto-SW (1) "AUTO-SW" = (1) Manual Select In video SW section, input signal is selected by the BUS as Figure 1 and Table 1. Mainly, CVBS-OUT (pin 3) is used for the comb filter input, and Yvi-OUT (pin 11) is used for synchronization (pin 2). Besides, on chroma line from video SW to main route, the peak detection is done during the burst period. The result is responded to the Read BUS data, C ID. VIDEO-SW SECTION CVBS1/Y1-IN CVBS2/Y2-IN CVBS3/Y3-IN A SW1 B C Y MIX C A B SW4 0 dB 0 dB SW3 A B 6 dB SW5 A B A B SW6 Yvi-OUT (to SYNC-IN) Main Y (to Y section) Main C (to C section) CVBS-OUT (to comb filter) C1-IN C2-IN C3-IN A SW2 B C Chroma ID (from comb filter) COMB Y-IN (from comb filter) COMB C-IN Figure 1 Table 1 Bus Data 0000 0001 0010 0100 0101 0110 1000 1001 1010 others Signal Route at Video SW Section Selected Input and Pin 3/11 Output from Video SW Section SW Mode 1 A B C A B C A B C A B C 2 3 A A A B B B A A A 4 A A A B B B 5 A A A A A A B B B 6 A A A A A A B B B To Y/C Section Main Y CVBS1 CVBS2 CVBS3 Y1 Y2 Y3 COMB Y COMB Y COMB Y Main C CVBS1 CVBS2 CVBS3 C1 C2 C3 COMB C COMB C COMB C Output from V-SW CVBS-Out CVBS1 CVBS2 CVBS3 Y1 + C1 Y2 + C2 Y3 + C3 CVBS1 CVBS2 CVBS3 Yvi-Out CVBS1 CVBS2 CVBS3 Y1 Y2 Y3 COMB Y COMB Y COMB Y 3/43/43/43/43/43/4 Don't use. 17 2002-02-12 TB1239BF External Input SWs External inputs are selected by the BUS data and fast SWs. Final outputs from pin 21/22/23 are shown in Table 2. RGB1-IN interface complies with SCART connector. Therefore it is active, when RGB1-IN is enable by the BUS data and when YS3 (pin 15) is also high. The status of YS3 (pin 15) is responded to the Read BUS data, V15. Table 2 RGB Select RGB1 ENB 0 00 1 Outputs from Pin 21/22/23 YS3 (RGB1) L H L H L RGB1 Main (from V-SW) YS1 (YCbCR2) YS2 (RGB2) Output 0 H 01 L 1 H L 0 H 10 L 1 H 11 2 H L H H RGB2 YCbCr2 RGB1 L L RGB1 YCbCr1 Note2: RGB SELECT/RGB1 ENB: I C BUS data, YS1/2/3: Fast SW Color System Distinguishable color systems are selected by the write BUS data, COLOR SYSTEM. The demodulated color system is responded to the read BUS data, COLOR SYSTEM and X'TAL. (refer to BUS CONTROL FUNCTION) The system data is also responded to Comb SYS (pin 45) and fsc-OUT (pin 46) as Table 3. If distinguishable color system signal is not received, the system data is responded with B/W. Besides, if pin 7 is connected to VCC (more than 3.5 V), Forced SECAM mode is active. In this mode, SECAM system is identified forcibly. It has priority over the BUS selection. Table 3 DC Level of Pin 45 and 46 on Each Color System Color System M-PAL 4.43PAL, SECAM, B/W 3.58/4.43NTSC N-PAL Pin 45 Low High Low High Pin 46 Low Low High High 18 2002-02-12 TB1239BF Secam Bell Filter SECAM bell filter characteristics can be changed by the BUS data, BELL/HPF. The group delay near chroma band is corrected by changing filter characteristic. As a result, S/N looks better. Besides, center frequency f0 of bell is changed by BELL f0. Indirectly, it is changed by BPF (TOF) f0. Boost 1 Normal bell Boost 2 Normal bell (a) Boost Mode HPF (b) HPF Mode Figure 2 SECAM Bell Filter Characteristics 19 2002-02-12 TB1239BF Vertical Count-Down In Automatic of V C/D MODE, the vertical synchronization is controlled by internal PLL. In Fast mode, it is synchronized with the inputted synchronizing signal and the pull-in time is short. Furthermore the time is shorter in Very fast mode by the expanded pull-in range. Pull-in range of vertical count-down is determined by the BUS data, V C/D MODE and V-FREQ as Table 4. Table 4 V C/D Mode V C/D FREQ 000 001 010 011 100 101 110 111 Automatic 1 50 Hz 60 Hz Automatic 2 312.5 H 262.5 H 313 H 263 H V C/D Pull-In Range Normal 00, 11 224-353 H 274-353 H 224-297 H 224-353 H Teletext 01 224-353 H 274-353 H 224-297 H 224-353 H Fast 10 32-353 H 32-353 H 32-297 H 32-353 H Forced 312.5 H mode&AFC free-run Forced 262.5 H mode&AFC free-run Forced 313 H mode&AFC free-run Forced 263 H mode&AFC free-run Note 3: 00, 11; Normal Normal vertical input mode. It is good performance of vertical phase keeping for standard TV signal sync. This mode is recommended in the state of stability. And this mode can detect teletext or VCR skew sync. This mode is less performance of vertical phase keeping for standard TV signal sync against "Normal". However, pull-in speed is faster few vertical periods than "Normal". Therefore this mode is recommended for tesetext sync. On the other hand, this mode can detect standard TV signal sync in the state of stability but it is less performance of vertical phase keeping in week signal as about -3 dB against "Normal". This mode is same performance of vertical phase keeping for standard TV signal sync of "Teletext". But it is faster pull-in speed faster than "Teletext" because pull-in ranges wider than "Teletext". (refer to Table 5) Therefore, this mode is better to use when channel changing, but is not recommended to use in the state of stability or in week signal due to too wide pull-in range and incorrect actions of vertical keeping appearing. Note 4: 01; Teletext Note 5: 10; Fast Y-DL Adjustment Table 5 shows Y output delays against Y input on condition with BPF = f0, Q = 2.0, Y-DL = Min and LPF = ON. Y-out signal can be delayed by the BUS data, Y-DL. The adjustment time of one step is 40 ns. Table 5 Y Ddelays According to the Color System Color System PAL NTSC SECAM Y Delay (ns) 420 460 645 20 2002-02-12 TB1239BF Pulses Timming Horizontal Period (typical output phase of horizontal pulses) Y Input Delay time (see page 15) Y Output HS Output (HS - PH = 0) 0.4 ms HS Output (HS - PH = 1) 2.9 ms 3.7 ms SCP Output (P/N GW = 0) 2.7 ms 1.9 ms SCP Output (P/N GW = 1) 3.2 ms 3.2 ms 2.0 ms 4.7 ms 60 Hz: 10.0 ms 50 Hz: 11.3 ms 21 2002-02-12 TB1239BF Vertical Period (typical output phase of vertical pulse) 60 Hz ODD Input 0.75 H VS Output 8H SCP Output 15 H 60 Hz EVEN Input 0.75 H VS Output 8H SCP Output 15 H 50 Hz ODD Input 0.75 H VS Output 8H SCP Output 20 H 50 Hz EVEN Input 0.75 H VS Output 8H SCP Output 20 H 22 2002-02-12 TB1239BF Maximum Ratings (Ta = 25C) Characteristics Supply voltage Signal voltage at each input pin Power consumption Power consumption reduction ratio Operating temperature Storage temperature Symbol VCC/DDmax einmax PD (Note6) 1/qja Topr Tstg Rating 5.5 5 1644 13.16 -25 to 65 -55 to 150 Unit V Vp-p mW mW/C C C Note 6: Put on the circuit board. Refer to the figure below. 1644 PD 1052 (mW) Power consumption 13.16 mW/C 0 0 25 65 150 Ambient temperature Ta (C) Figure 3 Supply Voltage Characteristics Supply voltage Power Consumption Reduction Against Ambient Temperature Description Pin 6, 12, 32 Min 4.75 Typ. 5.0 Max 5.25 Unit V Electrical Characteristics Current Consumption Pin No. 6 12 32 Pin Name D VDD SYNC VCC Y/C VCC (YC - VCC/SYNC - VCC/D - VDD = 5 V and Ta = 25C, unless otherwise specified) Symbol IDD ICC1 ICC2 Min 4 9 75 Typ. 7 13.5 100 Max 15 20 130 Unit mA 23 2002-02-12 Application Circuit CVBS2/Y2-in CVBS3/Y3-in CVBS1/Y1-in C1-in C2-in C3-in 5V 0.01 mF 47 mF 10 mF 10 mF 10 mF 10 mF 10 mF 10 mF 75 W 6.8 kW 1.5 kW 75 W 10 kW 1.8 kW 75 W 6.8 kW 1.5 kW 75 W 10 kW 1.8 kW 75 W 6.8 kW 1.5 kW 75 W 10 kW 1.8 kW 16 kW 10 kW 16 kW 10 kW 16 kW 10 kW 0.1 mF 0.1 mF 0.01 mF 0.022 mF 0.01 mF Fsc-out 0.47 mF 27 kW 10 kW 0.01 mF 2.2 mF 3.9 kW Comb SYS Comb Y-in 10 mF 75 W 6.8 kW 1.5 kW 0.1 mF 1 16 kW 0.1 mF 2 3 SYNC-IN CVBS-out Comb C-in 10 mF 75 W 10 kW 10 kW 47 mF 6 0.01 mF 0.01 mF 7 1.8 kW 6.8 kW 4 VS VS 0.1 mF 5 8CH A 8AH 42 ADDRESS Add SW B 88H 0.01 mF 43 C2-IN CVBS1/Y1-IN CVBS-OUT COMB Y-IN 48 C1-IN 39 C3-IN 47 AFC-FIL 40 APC-FIL 46 FSC-OUT 45 COMB SYS 44 CVBS2/Y2-IN 41 CVBS3/Y3-IN 16.2 MHz 10 pF 38 37 36 0.1 mF 75 W 0.1 mF 75 W 0.1 mF 75 W 35 34 YS2/YM R2-in G2-in X'tal FIL YS2/YM R2-IN G2-IN 24 2002-02-12 33 DIGITAL-VDD B2-IN B2-in COMB C-IN /FORCED-S Y/C-VCC 0.01 mF 47 mF 0.1 mF 75 W 0.1 mF Cb2-in 75 W 0.1 mF Cr2-in 75 W Y2-in 32 TB1239BF 31 8 2.7 kW 9 DIGITAL-GND Y2-IN 30 HS CB2-IN HS 7.5 kW SCP 11 47 mF 0.01 mF 12 13 SCL 100 W 0.1 mF 14 SDA 100 W 25 SDA B1-IN 28 YVI-OUT Y/C-GND 10 29 SCP CR2-IN 0.1 mF 75 W 0.1 mF 75 W G1-in R1-in 27 SYNC-VCC R1-IN 26 SCL G1-IN 75 W B1-in SYNC-GND 16 CR-OUT 23 CB-OUT 22 CLP-FIL 20 CR1-IN 17 CB1-IN 18 Y-OUT 21 Y1-IN 19 YS1 24 YS3 15 YS3 0.1 mF 75 W Cr1-in 75 W Cb1-in 0.1 mF 75 W Y1-in 0.1 mF 4.7 mF YS1 Y-out Cr-out Cb-out TB1239BF TB1239BF Package Dimensions Weight: 0.83 g (typ.) 25 2002-02-12 TB1239BF RESTRICTIONS ON PRODUCT USE 000707EBA * TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property. In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the "Handling Guide for Semiconductor Devices," or "TOSHIBA Semiconductor Reliability Handbook" etc.. * The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.). These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury ("Unintended Usage"). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc.. Unintended Usage of TOSHIBA products listed in this document shall be made at the customer's own risk. * The products described in this document are subject to the foreign exchange and foreign trade laws. * The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA CORPORATION for any infringements of intellectual property or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any intellectual property or other rights of TOSHIBA CORPORATION or others. * The information contained herein is subject to change without notice. 26 2002-02-12 |
Price & Availability of TB1239BF
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |