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| CXA2094Q US Audio Multiplexing Decoder Description The CXA2094Q is an IC designed as a decoder for the Zenith TV Multi-channel System and also corresponds with I2C BUS. Functions include stereo demodulation, SAP (Separate Audio Program) demodulation, dbx noise reduction. Various kinds of filters are built in while adjustment and mode control are all executed through I2C BUS. Features * Adjustment free of VCO and filter. * Audio multiplexing decoder and dbx noise reduction decoder are all included in a single chip. Almost any sort of signal processing is possible through this IC. * All adjustments are possible through I2C BUS to allow for automatic adjustment. * Various built-in filter circuits greatly reduce external parts. * There are two systems for external inputs. * There is an additional SAP output. Standard I/O Level * Input level COMPIN (Pin 12) 48 pin QFP (Plastic) Absolute Maximum Ratings (Ta = 25C) * Supply voltage VCC 11 * Operating temperature Topr -20 to +75 * Storage temperature Tstg -65 to +150 * Allowable power dissipation PD 0.6 Range of Operating Supply Voltage 9 0.5 V C C W V 100mVrms 245mVrms (Selected by INSW) AUX1-L/R (Pins 42 and 41) 490mVrms AUX2-L/R (Pins 45 and 44) 490mVrms * Output level TVOUT-L/R (Pins 47 and 46) 490mVrms Pin Configuration (Top View) VEWGT VETC SAPIN SAPOUT VCATC VCAIN VEOUT Applications TV, VCR and other decoding systems for US audio multiplexing TV broadcasting Structure Bipolar silicon monolithic IC A license of the dbx-TV noise reduction system is required for the use of this device. NC NC NC 36 35 34 33 32 31 30 29 28 27 26 25 VCAWGT 37 SOUT 38 ESAPIN 39 TVOUT-S 40 AUX1-R 41 AUX1-L 42 NC 43 AUX2-R 44 AUX2-L 45 TVOUT-R 46 TVOUT-L 47 SDA 48 1 2 3 4 5 6 7 8 9 10 11 12 24 NOISETC 23 STIN 22 SUBOUT 21 NC 20 VCC 19 NC NC VE 18 SAPTC 17 GND 16 NC 15 IREF 14 VGR 13 NC PCINT1 PCINT2 MANIN DGND SCL NC Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. MAINOUT COMPIN NC PLINT NC NC -1- E97725A86 Block Diagram PCINT1 MAINOUT PCINT2 PLINT SUBOUT MAININ 8 11 4 9 22 3 41 42 LFLT 1/2 MATRIX TVSW FLT LPF VCA VCO 1/4 FEXT1 STLPF AUX1-L AUX1-R 45 AUX2-L 44 FEXT2 47 TVOUT-L 46 TVOUT-R AUX2-R "STEREO" DeEm LPF NRSW/FOMO/SAPC (+6dB) WIDEBAND TVSW/EXT/M1 COMPIN 12 VCA LPF ATT/INSW LOGIC STIND 40 TVOUT-S 39 ESAPIN VCC 20 SCL VGR IREF SDA STIN VE SAPIN VETC DGND VCAIN SAPOUT VEWGT VEOUT VCAWGT VCATC -2- LPF DeEm "NOISE" "SAP" HPF RMSDET VE SPECTRAL LPF LPF AMP (+4dB) SW "PONRES" 1 25 48 27 23 28 32 33 34 35 GND 17 LPF VCA 38 SOUT BPF SAPVCO NOISETC 24 NOISE DET SAPTC 18 SAPIND RMSDET IREF I2C BUS I/F 14 15 2 37 36 CXA2094Q CXA2094Q Pin Description Pin No. Symbol Pin voltage Equivalent circuit VCC 7.5k 35 2.1V 4k (Ta = 25C, VCC = 9V) Description 1 SCL -- 10.5k x4 3k Serial clock input pin. VIH > 3.0V VIL < 1.5V 1 2 DGND -- 2 Digital block GND. VCC 10k VCC 3 MAININ 4.0V 147 3 53k 4V VCC 15k x4 VCC 147 4 Input the (L + R) signal from MAINOUT (Pin 4). 4 MAINOUT 4.0V (L + R) signal output pin. 200 1k 5 6 7 NC NC NC -- -- -- 5 -- -- -- 6 7 -3- CXA2094Q Pin No. Symbol Pin voltage Equivalent circuit VCC 147 8 Description 8 PCINT1 4.0V 30k 22k VCC 147 9 10k 2k x2 4k 10k Stereo block PLL loop filter integrating pin. 9 PCINT2 4.0V 10 NC -- 10 VCC 20k 20k -- 147 11 PLINT 5.1V 20k 20k 11 Pilot cancel circuit loop filter integrating pin. (Connect a 1F capacitor between this pin and GND.) 26 20k 50 10k VCC 24k 24k 14k 147 12 12 COMPIN 4.0V 34k 4V 24k Audio multiplexing signal input pin. 13 NC -- 13 -- -4- CXA2094Q Pin No. Symbol Pin voltage Equivalent circuit Description 3k 147 14 VGR 1.3V 11k 9.7k 19.4k x4 VCC 11k 11k Band gap reference output pin. (Connect a 10F capacitor between this pin and GND.) 14 2.06k VCC 40k 40k 30k 30k 15k x2 30k VCC 15 IREF 1.3V 30p 1.8k 15 147 6.3k Set the filter and VCO reference current. The reference current is adjusted with the BUS DATA based on the current which flows to this pin. (Connect a 62k (1%) resistor between this pin and GND.) 16k 16 17 NC GND -- -- VCC 8k 16 -- Analog block GND. 17 10k 3k 1k VCC 4k 50 18 18 SAPTC 4.5V Set the time constant for the SAP carrier detection circuit. (Connect a 4.7F capacitor between this pin and GND.) 19 20 21 NC VCC NC -- -- -- 19 -- Supply voltage pin. -- 20 21 -5- CXA2094Q Pin No. Symbol Pin voltage Equivalent circuit Vcc 2k 2k 10P 4k Description 580 22 SUBOUT 4.0V 2k 2k 22 14.4k 580 147 (L-R) signal output pin. 2k 4k 1k VCC 23 STIN 4.0V 23k 23k Input the (L-R) signal from SUBOUT (Pin 22). 11.7k 147 23 147 27 18k 4V 20k 4V 18k 27 SAPIN 4.0V Input the (SAP) signal from SAPOUT (Pin 25). Vcc 8k 3.3k 10k 1k 2k 4k 4V 3k Vcc 3k 24 NOISETC 3.0V x2 Set the time constant for the noise detection circuit. (Connect a 4.7F capacitor between this pin and GND.) 200k 24 Vcc 5P 580 25 SAPOUT 4.0V 580 10k 25 147 SAP FM detector output pin. 24k 10 4k 50 -6- CXA2094Q Pin No. 26 Symbol NC Pin voltage -- Equivalent circuit 26 VCC 7.5k Description -- 28 VE 4.0V 147 28 Variable de-emphasis integrating pin. (Connect a 2700pF capacitor and a 3.3k resistor in series between this pin and GND.) 29 30 31 NC NC NC -- -- -- 29 -- -- -- Vcc 30 31 580 2.9V 4V 36k 32 VEWGT 4.0V 32 147 580 Weight the variable de-emphasis control effective value detection circuit. (Connect a 0.047F capacitor and a 3k resistor in series between this pin and GND.) 8k 30k 8 4k 50 Vcc 33 VETC 1.7V x4 x4 33 4k 50 20k 7.5 Determine the restoration time constant of the variable de-emphasis control effective value detection circuit. (The specified restoration time constant can be obtained by connecting a 3.3F capacitor between this pin and GND.) -7- CXA2094Q Pin No. Symbol Pin voltage Equivalent circuit Vcc 5P 580 Description 34 VEOUT 4.0V 34 580 10k Variable de-emphasis output pin. (Connect a 4.7F non-polar capacitor between Pins 34 and 35.) VCC 47k 20k 47k 35 VCAIN 4.0V VCC 35 VCA input pin. Input the variable de-emphasis output signal from Pin 34 via a coupling capacitor. VCC x4 36 x4 36 VCATC 1.7V 50 4k 7.5 20k Determine the restoration time constant of the VCA control effective value detection circuit. (The specified restoration time constant can be obtained by connecting a 10F capacitor between this pin and GND.) VCC 40k 40k 3p 580 37 VCAWGT 4.0V 37 2.9V 36k 580 147 Weight the VCA control effective value detection circuit. (Connect a 1F capacitor and a 3.9k resistor in series between this pin and GND.) 50 4k 8 30k 8k -8- CXA2094Q Pin No. Symbol Pin voltage VCC Equivalent circuit Description VCC 15k x4 38 SOUT 4.0V 38 Additional SAP output pin. 200 1k VCC 10k 147 39 39 ESAPIN 4.0V 47k 4V Input the signal from SOUT (Pin 38). 41 AUX1-R 4.0V 10k VCC Right channel external input 1 pin. Left channel external input 1 pin. Right channel external input 2 pin. Left channel external input 2 pin. 42 AUX1-L 4.0V 41 27.5k 42 44 47k 4V 45 44 AUX2-R 4.0V 45 AUX2-L 4.0V VCC 40 TVOUT-S 4.0V 3k Optional output pin. From this pin monaural or additional SAP is output. TVOUT right channel output pin. 46 TVOUT-R 4.0V 580 40 46 47 580 47 TVOUT-L 4.0V TVOUT left channel output pin. 43 NC -- 43 -- -9- CXA2094Q Pin No. Symbol Pin voltage Equivalent circuit VCC 7.5k 35 2.1V x2 4k x5 Description 48 SDA -- 7.5k 4.5k 3k Serial data I/O pin. VIH > 3.0V VIL < 1.5V 48 - 10 - Electrical Characteristics COMPIN input level (100% modulation level) INSW = 0 = 245mVrms = 100mVrms = 490mVrms = 200mVrms = 49mVrms = 147mVrms = 60mVrms (Ta = 25C, VCC = 9V) Input pin Min. 22 46/47 20 log ('5k'/ '1k') 46/47 46/47 15kLPF 15kLPF 20 log ('100%'/ '0%') 15kLPF 46/47 46/47 46/47 22 20 log ('12k'/ '1k') 15kLPF 15kLPF 20 log ('100%'/ '0%') SUB (L-R) 1kHz, 100% mod., NR ON, SAP Carrier (5fH) INSW = 1 Main (L + R) (Pre-Emphasis : OFF) SUB (L - R) (dbx-TV : OFF) = 20mVrms Pilot SAP Carrier fH = 15.734kHz Mode Input signal No signal Mono 1kHz 100% mod. Pre-em. ON Mono 5kHz 30% mod. Pre-em. ON Mono 12kHz 30% mod. 20 log Pre-em. ON ('12k'/ '1k') Mono 1kHz 100% mod. Pre-em. ON Mono 1kHz 200% mod. Pre-em. OFF Mono 1kHz, Pre-em. ON SUB (L-R) 1kHz, 100% mod., NR OFF SUB (L-R) 12kHz, 30% mod., NR OFF SUB (L-R) 1kHz, 100% mod., NR OFF SUB (L-R) 1kHz, 200% mod., NR OFF SUB (L-R) 1kHz, NR OFF No. -- MONO MONO MONO MONO MONO MONO ST ST ST ST ST SAP 12 12 12 12 12 12 12 12 12 12 12 12 440 -1.2 -3.0 - - 61 150 22 22 22 15kLPF 1kBPF 22 20 log ('NRSW = 0'/ 'NRSW = 1') 47 -3.0 - - 56 60 Item Signal Measurement conditions Filter 32 490 0 Output pin Typ. Max. 42 540 1.0 Unit mA mVrms dB 1 Current consumption Icc 2 Main output level Vmain 3 Main de-emphasis frequency characteristic FCdeem - 11 - 4 Main LPF frequency characteristic FCmain -1.0 0.1 0.15 69 190 -0.5 0.1 0.2 64 70 1.0 0.5 0.5 - 230 1.0 1.0 2.0 - - dB % % dB mVrms dB % % dB dB 5 Main distortion THDm 6 Main overload distortion THDmmax 7 Main S/N SNmain 8 Sub output level Vsub 9 Sub LPF frequency characteristic FCsub 10 Sub distortion THDsub 11 Sub overload distortion THDsmax 12 Sub S/N SNsub CXA2094Q 13 ST SAP Crosstalk CTst No. Mode Input pin 12 0dB = 49mVrms -9.0 -6.0 -3.0 10.0 230 2.5 6.0 55 46 60 -12.0 2.0 46/47 46/47 15kLPF 15kLPF 15kLPF 0dB = 490mVrms 0dB = 490mVrms EXT INT 1kBPF 1kBPF 46/47 46/47 46/47 46/47 46/47 23 23 23 23 -0.5 - - - 1kBPF 46/47 - -90 -75 dB 70 -9.0 4.0 35 35 35 35 0 -75 -90 -85 - - -6.5 6.0 - - - - 0.5 -60 -80 -70 6.0 190 0 2.5 2.0 150 -3.0 - 20 log (`on level'/ 'off level') 25 20 log ('10k'/ '1k') 25 15kLPF 25 25 47 20 log ('100%'/ '0%') 15kLPF 1kBPF BUS RETURN dB dB mVrms dB % dB dB dB dB dB dB dB dB dB dB dB dB PILOT (fH) 0dB 0dB = 49mVrms fH BPF 22 - -42 -30 dB ST Item Symbol Input signal Filter Typ. Max. Unit Measurement conditions Output pin Min. 14 Sub pilot leak PCsub 15 ST 12 Change PILOT (fH) Level Stereo ON level THst 16 SAP 12 12 12 12 SAP 1kHz, NR OFF SAP 1kHz 100% mod. 20 log ('NRSW NR ON, Pilot (fH) = 1'/ 'NRSW = 0') 0dB = 147mVrms 20 log (`on level'/'off level') 15kLPF 12 SAP 1kHz 100% mod. NR OFF SAP 10kHz 30% mod. NR OFF SAP SAP SAP ST SAP 1kHz 100% mod. NR OFF Stereo ON/OFF hysteresis HYst 17 SAP output level Vsap 18 SAP LPF frequency characteristic FCsap 19 SAP distortion THDsap 20 SAP S/N SNsap 21 SAP ST Cross talk CTsap 22 SAP 12 Change SAP Carrier (5fH) Level ST-L 300Hz 30% mod. NR ON ST-R 300Hz 30% mod. NR ON ST-L 3kHz 30% mod. NR ON SAP ON level THsap - 12 - ST 12 12 12 12 41/42 44/45 41/42 44/45 12 12 41/42 44/45 Sine wave 1kHz, 490mVrms ST ST ST EXT INT EXT INT EXT ST-R 3kHz 30% mod. NR ON Sine wave 1kHz, 490mVrms MONO 1kHz 100% mod. 0dB = 490mVrms Pre-em. ON INT EXT MONO 1kHz 100% mod. 20 log (M1 = Pre-em. ON "0"/M1 = "1") Sine wave 1kHz, 20 log (M1 = 490mVrms "0"/M1 = "1") 23 SAP ON/OFF hysteresis HYsap BUS RETURN 24 ST separation 1 L R STLsep1 25 ST separation 1 R L STRsep1 26 ST separation 2 L R STLsep2 27 ST separation 2 R L STRsep2 28 TVOUT output level Vtv 29 CTtv1 TVOUT cross talk 30 CTtv2 31 CXA2094Q 32 TVOUT muted amount MUtv1 MUtv2 No. Input signal Item Input pin Symbol Mode Measurement conditions Filter Min. Typ. Max. Unit Output pin 33 No signal TVOUT DC offset 25 OStv INT EXT -- 46/47 -25 0 Mute (M1 = 0)/ DC difference when there is no signal mV 15kLPF 46/47 - 0.01 - 0.5 % 34 75 88 - TVOUT distortion THDtv EXT 41/42 44/45 Sine wave 1kHz, 490mVrms Sine wave 1kHz, 490mVrms 15kLPF 46/47 Sine wave 1kHz, 2Vrms 15kLPF 46/47 0.1 20 log ('490mVrms'/ 'No signal') 41/42 44/45 41/42 44/45 35 TVOUT S/N SNtv EXT dB 36 EXT TVOUT overload distortion THDtvmax 1.0 % - 13 - CXA2094Q Electrical Characteristics Measurement Circuit BUFF FILTERS 15kHz LPF fH BPF 1kHz BPF MEASURES S5 S4 S3 S2 S1 TANTALUM 36 34 29 33 30 25 26 35 TANTALUM C9 10 C12 3.3 C16 2700p 27 28 C17 4.7 C18 4.7 R4 3k C13 0.047 32 31 R7 3.3k NC VE VETC VCAIN SAPIN VCATC VEOUT 37 VCAWGT NOISETC C23 4.7 C24 4.7 39 ESAPIN SUBOUT 22 STIN 23 24 38 SOUT C1 4.7 VEWGT SAPOUT NC 21 VCC 20 C22 100 R1 3.9k C2 1 40 TVOUT-S C4 4.7 41 AUX1-R C3 4.7 42 AUX1-L NC 19 V4 AC NC NC NC VCC V6 9V GND SIGNAL GENERATOR SIGNAL GENERATOR MAININ NC PCINT2 DGND NC PCINT1 SCL MAINOUT NC NC PLINT R2 220 1 2 3 R3 220 I2C BUS DATA C11 4.7 DGND 4 5 6 7 R6 1MEG C14 5600p 8 9 10 C18 1 11 C19 4.7 COMPIN - 14 - 43 NC C8 4.7 44 AUX2-R C7 4.7 45 AUX2-L 46 TVOUT-R C5 4.7 47 TVOUT-L 48 SDA 12 R5 C15 100k 0.012 GND V3 AC SIGNAL GENERATOR SAPTC 18 C21 4.7 GND 17 GND NC 16 R8 62k IREF 15 METAL 1% VGR 14 C20 10 NC 13 V2 AC V1 AC C6 SIGNAL GENERATOR 4.7 CXA2094Q V5 SIGNAL AC GENERATOR CXA2094Q Adjustment Method (Input signal level is the case when standard input signal is 245mVrms) 1. ATT adjustment 1) TEST BIT is set to "TEST1 = 0" and "TEST-DA = 0". 2) Input a 100Hz, 245mVrms sine wave signal to COMPIN and monitor the TVOUT-L output level. Then, adjust the "ATT" data for ATT adjustment so that the TVOUT-L output goes to the standard value (490mVrms). 3) Adjustment range: 30% Adjustment bits: 4 bits 2. Separation adjustment 1) TEST BIT is set to "TEST1 = 0" and "TEST-DA = 0". 2) Set the unit to stereo mode and input the left channel only signal (modulation factor 30%, frequency 300Hz NR-ON) to COMPIN. At this time, adjust the "WIDEBAND" adjustment data to reduce TVOUT-R output to the minimum. 3) Next, set the frequency only of the input signal to 3kHz and adjust the "SPECTRAL" adjustment data to reduce TVOUT-R output to the minimum. 4) The adjustments in 2 and 3 above are performed to optimize the separation. 5) "WIDEBAND" "SPECTRAL" Adjustment range: 30% Adjustment range: 15% Adjustment bits: 6 bits Adjustment bits: 6 bits Adjust this through Tuner and IF when this IC is mounted on the set. - 15 - CXA2094Q Description of Operation The US audio multiplexing system possesses the base band spectrum shown in Fig. 1. PEAK DEV kHz 50 AM-DSB-SC 50 25 25 L-R dbx-TV NR PILOT 15 SAP dbx-TV NR FM 10kHz 50 - 10kHz 2fH 3fH 4fH 5fH TELEMETRY FM 3kHz 3 6fH 6.5fH f L+R 5 50 - 15kHz fH fH = 15.734kHz Fig. 1. Base band spectrum I2C BUS DECODER MODE CONTROL (MAIN OUT) (MAIN IN) PLL (VCO 8fH) STEREO LPF MVCA 2fHL0 fHL90 fHL0 PILOT DET (COMPIN) MAIN LPF DE.EM PILOT CANCEL SUB LPF L-R (DSB) DET 12 4 L+R WIDEBAND SUBVCA 4.7 3 (SUBOUT) (ST IN) MATRIX (Lch) NR SW to TVSW 22 L-R 4.7 23 SAP BPF SAP(FM) DET INJ. LOCK A SAP LPF (SAP OUT) (SAP IN) dbx-TV BLOCK B (Rch) (TVOUT-S) 25 4.7 NOISE DET 2 27 40 I 2C BUS DECODER LPF (SOUT) (ESAPIN) MODE CONTROL SAP DET I C BUS DECODER MODE CONTROL 38 4.7 39 Fig. 2. Overall block diagram (See Fig. 3 for the dbx-TV block) (ST IN) FIXED VARIABLE DEEMPHASIS DEEMPHASIS 23 (SAP IN) NR SW A (VE OUT) (VCA IN) B VCA to MATRIX 34 4.7 HPF LPF LPF RMS DET RMS DET 35 27 Fig 3. dbx-TV block - 16 - CXA2094Q (AUX2-L) (AUX2-R) 45 44 (AUX1-L) (TVOUT-L) 42 41 (AUX1-R) (Lch) (Rch) TVSW 47 46 (TVOUT-R) from MATRIX Fig. 4. Switch block (1) L + R (MAIN) After the audio multiplexing signal input from COMPIN (Pin 12) passes through MVCA, the SAP signal and telemetry signal are suppressed by STEREO LPF. Next, the pilot signals are canceled. Finally, the L - R signal and SAP signal are removed by MAIN LPF, and frequency characteristics are flattened (de-emphasized) and input to the matrix. (2) L - R (SUB) The L - R signal follows the same course as L + R before the pilot signal is canceled. L - R has no carrier signal, as it is a suppressed-carrier double-sideband amplitude modulated signal (DSB-AM modulated). For this reason, the pilot signal is used to regenerate the carrier signal (quasi-sine wave) to be used for the demodulation of the L - R signal. In the last stage, the residual high frequency components are removed by SUB LPF and the L - R signal is input to the dbx-TV block via the NRSW circuit after passing through SUBVCA. (3) SAP SAP is an FM signal using 5fH as a carrier as shown in the Fig. 1. First, the SAP signal only is extracted using SAP BPF. Then, this is subjected to FM detection. Finally, residual high frequency components are removed and frequency characteristics flattened using SAP LPF, and the SAP signal is input to the dbx-TV block via the NRSW circuit. When there is no SAP signal, the Pin 25 output is soft muted. (4) Mode discrimination Stereo discrimination is performed by detecting the pilot signal amplitude. SAP discrimination is performed by detecting the 5fH carrier amplitude. NOISE discrimination is performed by detecting the noise near 25kHz after FM detection of SAP signal. (5) dbx-TV block Either the L - R signal or SAP signal input respectively from ST IN (Pin 23) or SAP IN (Pin 27) is selected by the mode control and input to the dbx-TV block. The input signal then passes through the fixed de-emphasis circuit and is applied to the variable deemphasis circuit. The signal output from the variable de-emphasis circuit passes through an external capacitor and is applied to VCA (voltage control amplifier). Finally, the VCA output is converted from a current to a voltage using an operational amplifier and then input to the matrix. - 17 - CXA2094Q The variable de-emphasis circuit transmittance and VCA gain are respectively controlled by Each of effective value detection circuits. Each of the effective value detection circuits passes the input signal through a predetermined filter for weighting before the effective value of the weighted signal is detected to provide the control signal. (6) Matrix, TVSW The signals (L + R, L - R, SAP) input to "MATRIX" become the outputs for the ST-L, ST-R, MONO and SAP signals according to the mode control and whether there is ST / SAP discrimination. "TVSW" switches the "MATRIX" output signal, external input signal (input to AUX1-L, R (Pins 42 and 41)), external input signal (input to AUX2-L, R (Pins 45 and 44)) and external forced MONO. (7) Others "MVCA" is a VCA which adjusts the input signal level to the standard level of this IC. "Bias" supplies the reference voltage and reference current to the other blocks. The current flowing to the resistor connecting IREF (Pin 15) with GND become the reference current. - 18 - CXA2094Q Register Specifications Slave address SLAVE RECEIVER SLAVE TRANSMITTER 84H (1000 0100) Register table SUB ADDRESS MSB LSB BIT7 TVSW INSW EXT SMD BIT6 BIT5 TEST-DA 0000 0001 0010 0011 0100 DATA BIT4 TEST1 SPECTRAL (6) WIDEBAND (6) NRSW ATTSW FOMO FST SAPC FEXT1 M1 FEXT2 : Don't Care BIT3 BIT2 BIT1 BIT0 85H (1000 0101) ATT (4) Status Registers STA1 BIT7 STA2 BIT6 STA3 BIT5 SAP STA4 BIT4 NOISE STA5 BIT3 -- STA6 BIT2 -- STA7 BIT1 -- STA8 BIT0 -- POWER STEREO ON RESET - 19 - CXA2094Q Description of Registers Control registers Register ATT SPECTRAL WIDEBAND TEST-DA TEST1 FST NRSW FOMO TVSW FEXT1 FEXT2 EXT M1 SMD ATTSW INSW SAPC Number of bits 4 6 6 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Classification1 A A A T T T U U U U U U U U S S S Standard setting 9 1F 1F 0 0 0 -- -- 0 0 0 0 1 0 -- -- -- Input level adjustment Adjustment of stereo separation (3kHz) Adjustment of stereo separation (300Hz) Turn to DAC test mode and VCO adjustment mode by means of TEST-DA = 1. Turn to test mode by means of TEST = 1. (Adjustment of FILTER) Turn to forced stereo by means of FST = 1. Selection of the output signal (Stereo mode, SAP mode) Turn to forced MONO by means of FOMO = 1. (Left channel only is MONO during SAP output.) Selection of TV mode or external input mode for TVOUT output External input 1 forced MONO (1: forced MONO ON) External input 2 forced MONO (1: forced MONO ON) Selection of external input 1 mode or external input 2 mode for TVOUT output. (TVSW = 1) Selection of TVOUT mute ON/OFF (0: mute ON, 1: mute OFF) Selection of L + R or additional SAP Turn the input stage MVCA off when ATTSW = 1. Selection of standard input level Selection of SAP mode or L + R mode according to the presence of SAP broadcasting Contents 1 Classification U: User control A: Adjustment S: Proper to set T: Test Status registers Register PONRES STEREO SAP NOISE Number of bits 1 1 1 1 POWER ON RESET detection; Stereo discrimination of the COMPIN input signal; SAP discrimination of the COMPIN input signal; Noise level discrimination of the SAP signal; Contents 1: RESET 1: Stereo 1: SAP 1: Noise - 20 - CXA2094Q Description of Control Registers ATT (4): Adjust the signal level input to COMPIN (Pin 12) to the standard input level. Variable range of the input signal: standard input level -5.0dB to +3.0dB 0 = Level min. F = Level max. SPECTRAL (6): Perform high frequency (fs = 3kHz) separation adjustment. 0 = Level max. 3F = Level min. WIDEBAND (6): Perform low frequency (fs = 300Hz) separation adjustment. 0 = Level min. 3F = Level max. TEST-DA (1): Set DAC output test mode. 0 = Normal mode 1 = DAC output test mode In addition, the following output are present at Pin 47. TVOUT-L (Pin 47): DA control DC level TEST1 (1): Monitor SAP BPF and NR BPF output. 0 = Normal mode 1 = SAP BPF and NR BPF output In addition, the following outputs are present at Pins 47 and 46. TVOUT-L (Pin 47): SAP BPF OUT TVOUT-R (Pin 46): NR BPF OUT Select forced STEREO mode 0 = Normal mode 1 = Forced stereo mode Select stereo mode or SAP mode 0 = Stereo mode 1 = SAP mode FST (1): NRSW (1): - 21 - CXA2094Q FOMO (1): Select forced MONO mode 0 = Normal mode 1 = Forced MONO mode Turn external input [1] to forced MONO. 0 = Normal mode 1 = External input [1] is forced MONO. Input the same signal to both AUX1-L and AUX1-R. Turn external input [2] to forced MONO 0 = Normal mode 1 = External input [2] is forced MONO Input the same signal to both AUX2-L and AUX2-R. Select TV mode or external input mode for TVOUT output. 0 = TV mode 1 = External input mode Select external input [1] mode or external input [2] mode for TVOUT output. (TVSW = 1) 0 = External input [1] mode 1 = External input [2] mode Mute the TVOUT-L and TVOUT-R output. 0 = Mute ON 1 = Mute OFF Select L + R or additional SAP signal 0 = L + R output is selected 1 = additional SAP output is selected FEXT1 (1): FEXT2 (1): TVSW (1): EXT (1): M1 (1): SMD (1): ATTSW (1): Select BYPASS SW of MVCA 0 = Normal mode 1 = MVCA is passed INSW (1): Select standard input level of COMPIN (Pin 12) 0 = 245mVrms 1 = 100mVrms Select the SAP signal output mode When there is no SAP signal, the conditions for selecting SAP output are selected by SAPC. 0 = L + R output is selected 1 = SAP output is selected SAPC (1): - 22 - CXA2094Q Description of Mode Control Priority ranking: M1 > TVSW/EXT > (NRSW & FOMO & SAPC) Mode control SAPC = 0 "Select dbx input and TV decoder output" Conditions: FOMO = 0 NRSW = 0 (MONO or ST output) * During ST input: left channel: L, right channel: R * During other input: left channel: L + R, right channel: L + R NRSW = 1 (SAP output) * When there is "SAP" during SAP discrimination - left channel: SAP, right channel: SAP * When there is "No SAP", output is the same as when NRSW = 0. SAPC = 1 "Select dbx input and TV decoder output" Conditions: FOMO = 0 NRSW = 0 (MONO or ST output) As on the left NRSW NRSW = 1 (SAP output) * Regardless of the presence of SAP discrimination, dbx input: "SAP" left channel: SAP, right channel: SAP However, when there is no SAP, SAPOUT output is soft muted (-7dB) "Forced MONO" FOMO FOMO = 1 * During SAP output: left channel: L + R, right channel: SAP * During ST or MONO output: left channel: L + R, right channel: L + R Change the selection conditions for "MONO or ST output" and "SAP output". SAPC = 0: Switch to SAP output when there is SAP discrimination. Do not switch to SAP output when there is no SAP discrimination. SAPC = 1: Switch to SAP output regardless of whether there is SAP discrimination. "MUTE" M1 = 0: TVOUT-L, R, S output is muted. "TV mode/external input mode selection" TVSW = 0: Set TVOUT-L, R output to TV mode. TVSW = 1: Set TVOUT-L, R output to external input mode. EXT = 0: Set TVOUT-L, R output to external input [1] mode. (TVSW = 1) EXT = 1: Set TVOUT-L, R output to external input [2] mode. (TVSW = 1) SAPC M1 TVSW/EXT - 23 - CXA2094Q Decoder Output and Mode Control Table 1 (SAPC = 1) Input signal mode ST 0 0 MONO 1 0 0 0 0 1 1 1 STEREO 1 1 1 1 1 1 0 0 MONO & SAP 0 0 0 0 1 1 STEREO & SAP 1 1 1 1 Mode detection SAP 0 0 0 0 0 1 1 0 0 1 1 1 1 1 1 1 1 1 1 1 1 NOISE 0 0 0 1 1 1 1 1 0 0 1 1 0 0 1 1 0 0 1 1 Mode control NRSW 0 1 1 0 1 1 0 0 0 0 1 1 1 1 0 0 1 1 1 1 0 0 1 1 1 1 FOMO 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 SAPC 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 dbx input MUTE SAP SAP MUTE (SAP) (SAP) L-R MUTE L-R MUTE SAP SAP (SAP) (SAP) MUTE MUTE SAP SAP (SAP) (SAP) L-R MUTE SAP SAP (SAP) (SAP) Output Lch L+R SAP L+R L+R (SAP) L+R L L+R L L+R SAP L+R (SAP) L+R L+R L+R SAP L+R (SAP) L+R L L+R SAP L+R (SAP) L+R Rch L+R SAP SAP L+R (SAP) (SAP) R L+R R L+R SAP SAP (SAP) (SAP) L+R L+R SAP SAP (SAP) (SAP) R L+R SAP SAP (SAP) (SAP) Note (SAP) : The SAPOUT output signal is soft muted (approximately -7dB). The signal is soft muted when NOISE = 1. : Don't care. 1 SAP or NOISE discrimination may be made during MONO or STEREO input when the noise is inputted in the weak electric field. Then microcomputer reads "NOISE" status from IC and decides whether SAP is outputted. "NOISE" status rises earlier than "SAP" status when the amount of noise is increased to COMPIN. - 24 - CXA2094Q Decoder Output and Mode Control Table 2 (SAPC = 0) Mode detection Input signal mode ST 0 0 MONO 1 0 0 0 1 1 1 STEREO 1 1 1 1 1 1 0 0 0 MONO & SAP 0 0 0 0 0 1 1 1 STEREO & SAP 1 1 1 1 1 SAP 0 1 1 1 1 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 NOISE 1 1 1 1 1 1 1 1 0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 NRSW 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 FOMO 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 SAPC 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Mode control dbx input MUTE MUTE MUTE (SAP) (SAP) L-R MUTE L-R MUTE L-R MUTE (SAP) (SAP) MUTE MUTE SAP SAP MUTE MUTE (SAP) (SAP) L-R MUTE SAP SAP L-R MUTE (SAP) (SAP) Output Lch L+R L+R L+R (SAP) L+R L L+R L L+R L L+R (SAP) L+R L+R L+R SAP L+R L+R L+R (SAP) L+R L L+R SAP L+R L L+R (SAP) L+R Rch L+R L+R L+R (SAP) (SAP) R L+R R L+R R L+R (SAP) (SAP) L+R L+R SAP SAP L+R L+R (SAP) (SAP) R L+R SAP SAP R L+R (SAP) (SAP) Note (SAP) : The SAPOUT output signal is soft muted (approximately -7dB). The signal is soft muted when NOISE = 1. : Don't care. 1 SAP or NOISE discrimination may be made during MONO or STEREO input when the noise is inputted in the weak electric field. Then microcomputer reads "NOISE" status from IC and decides whether SAP is outputted. "NOISE" status rises earlier than "SAP" status when the amount of noise is increased to COMPIN. - 25 - CXA2094Q Mode Control Table 3 M1 1 2 3 4 5 6 0 1 1 1 1 1 TVSW -- 0 1 1 1 1 EXT -- -- 0 0 1 1 FEXT1 -- -- 0 1 -- -- FEXT2 -- -- -- -- 0 1 TVOUT-L MUTE TV (L) AUX1-L AUX1-L AUX2-L AUX2-L TVOUT-R MUTE TV (R) AUX1-R AUX1-L AUX2-R AUX2-L TV (L) / TV (R) are selected in MATRIX TV (L): MONO, ST-L, SAP, (SAPBPFout, D/Aout) TV (R): MONO, ST-R, SAP, (NRBPFout, STVCO freerun (4fH)) I2C BUS block items (SDA, SCL) No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 High level input voltage Low level input voltage High level input current Low level input current Item Symbol VIH VIL IIH IIL Min. 3.0 0 -- -- 0 3 -- 0 4.7 4.0 4.7 4.0 4.7 0 250 -- -- 4.7 Typ. -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- Max. 5.0 1.5 10 10 0.4 -- 10 100 -- -- -- -- -- -- -- 1 300 -- ns s ns s s Unit V A V mA pF kHz Low level output voltage SDA (Pin 48) during 3mA inflow VOL Maximum inflow current Input capacitance Maximum clock frequency Minimum waiting time for data change Minimum waiting time for start of data transfer Low level clock pulse width High level clock pulse width Minimum waiting time for start preparation Minimum data hold time Minimum data preparation time Rise time Fall time Minimum waiting time for stop preparation IOL CI fSCL tBUF tHD: STA tLOW tHIGH tSU: STA tHD: DAT tSU: DAT tR tF tSU: STO I2C BUS load conditions: Pull-up resistor 4k (Connect to +5V) Load capacity 200pF (Connect to GND) - 26 - CXA2094Q I2C BUS Control Signal SDA tBUF SCL P S tHD: STA tLOW tHIGH tSU: STA tSU: DAT Sr tSU: STO P tR tF tHD: STA tHD: DAT I2C BUS Signal There are two I2C signals, SDA (Serial DATA) and SCL (Serial CLOCK) signals. SDA is a bidirectional signal. * Accordingly there are 3 values outputs, H, L and HIZ. H L HIZ L * I2C transfer begins with Start Condition and ends with Stop Condition. Start Condition S Stop Condition P SDA SCL - 27 - CXA2094Q * I2C data Write (Write from I2C controller to the IC) L during Write MSB SDA HIZ MSB LSB HIZ SCL S 1 2 3 4 5 6 7 8 9 1 8 9 Address MSB LSB HIZ HIZ ACK Sub Address ACK 1 8 9 1 8 9 DATA (n) ACK DATA (n + 1) ACK DATA (n + 2) HIZ HIZ 8 9 1 8 9 P Data can be transferred in 8-bit units to be set as required. Sub address is incremented automatically. DATA ACK DATA ACK * I2C data Read (Read from the IC to I2C controller) H during Read HIZ SDA SCL S 1 6 7 8 9 1 7 8 9 P Address ACK DATA ACK * Read timing MSB IC output SDA LSB SCL 9 1 2 3 4 5 6 7 8 9 Read timing ACK DATA ACK Data Read is performed during SCL rise. - 28 - CXA2094Q Input level vs. Distortion characteristics 1 (MONO) Input signal: MONO (Pre-emphasis on), 1kHz 0dB = 100% modulation level VCC = 9V, 30kHz using LPF Measurement point: TVOUT-L/R Input level vs. Distortion characteristics 2 (Stereo) Input signal: Stereo L = -R (dbx-TVNR ON), 1kHz 0dB = 100% modulation level VCC = 9V, 30kHz using LPF, ST mode Measurement point: TVOUT-L/R 1.0 10 Distortion [%] Distortion [%] 0.1 1.0 Standard level (100%) -10 0 Input level [dB] -10 0 Input level [dB] 10 Standard level (100%) 10 Input level vs. Distortion characteristics 3 (SAP) Input signal: SAP (dbx-TVNR ON) 1kHz, 0dB = 100% modulation level VCC = 9V, 30kHz using LPF, SAP mode Measurement point: TVOUT-L/R 10 Distortion [%] 1.0 Standard level (100%) -10 0 Input level [dB] 10 - 29 - CXA2094Q Stereo LPF frequency characteristics 10 Main LPF and Sub LPF frequency characteristics 30 5 Gain (FC main and FC sub) [dB] 20 10 0 -10 -20 -30 -40 -50 Gain [dB] 0 -5 -10 0 20 40 60 80 100 1 2 5 7 10 20 50 70 100 Frequency [kHz] Frequency [kHz] SAP frequency characteristics and group delay 100 20 5fH 10 Gain 90 80 500 Additional SAP frequency characteristics Output level [mVrms] Gain [dB] 60 0 50 40 -10 Group delay 3.8fH 20 40 60 80 30 20 -20 6.2fH 100 10 0 120 Group delay [s] 70 100% modulation 30% modulation 100 10% modulation 1% modulation 10 0.1 1.0 Frequency [kHz] 10 Frequency [kHz] - 30 - CXA2094Q Package Outline Unit: mm 48PIN QFP (PLASTIC) 15.3 0.4 + 0.4 12.0 - 0.1 + 0.1 0.15 - 0.05 36 25 0.15 37 24 48 13 + 0.2 0.1 - 0.1 1 + 0.15 0.3 - 0.1 12 0.8 0.12 M + 0.35 2.2 - 0.15 PACKAGE STRUCTURE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE QFP-48P-L04 QFP048-P-1212-B LEAD TREATMENT LEAD MATERIAL PACKAGE WEIGHT EPOXY RESIN SOLDER / PALLADIUM PLATING COPPER / 42 ALLOY 0.7g NOTE : PALLADIUM PLATING This product uses S-PdPPF (Sony Spec.-Palladium Pre-Plated Lead Frame). - 31 - 0.9 0.2 13.5 |
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