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| CXD3057R CD Digital Signal Processor with Built-in RF Amplifier and Digital Servo + Digital High & Bass Boost Description The CXD3057R is a digital signal processor LSI for CD players. This LSI incorporates a RF amplifier and digital servo, high & bass boost, 1-bit DAC and analog low-pass filter. Features * All digital signal processing during playback is performed with a single chip * Highly integrated mounting possible due to a built-in RF amplifier RF Block * Supports 4x speed playback CD * RF system equalizer * Supports pickup built-in RF summing amplifier * Gain level switch * TE balance adjustment function Digital Signal Processor (DSP) Block * Supports CAV (Constant Angular Velocity) playback * Frame jitter free * 0.5x to 4x speed continuous playback possible * Allows relative rotational velocity readout * Supports variable pitch playback * The bit clock, which strobes the EFM signal, is generated by the digital PLL. * EFM data demodulation * Enhanced EFM frame sync signal protection * Refined super strategy-based powerful error correction C1: double correction, C2: quadruple correction Supported during 4x speed playback * Noise reduction during track jumps * Auto zero-cross mute * Subcode demodulation and subcode-Q data error detection * Digital spindle servo * 16-bit traverse counter * Asymmetry correction circuit * CPU interface on serial bus * Error correction monitor signal, etc. output from CPU interface * Servo auto sequencer * Fine search performs track jumps with high accuracy * Digital audio interface outputs * Digital level meter, peak meter * Bilingual compatible * VCO control mode * CD TEXT data demodulation Digital Servo (DSSP) Block * Microcomputer software-based flexible servo control * Offset cancel function for servo error signal * Auto gain control function for servo loop * E:F balance, focus bias adjustment functions * Surf jump function supporting micro two-axis * Tracking filter: 6 stages, Focus filter: 5 stages Digital Filter, DAC and Analog Low-pass Filter Blocks * Digital dynamic bass boost and high boost Bass Boost: 4th-order IIR 24dB/Oct +10dB/+14dB/+18dB/+22dB High Boost: Second-order IIR 12dB/Oct +4dB/+6dB/+8dB/+10dB * Independent turnover frequency selection possible Bass Boost: 125Hz/160Hz/200Hz High Boost: 5kHz/7kHz 120 pin LQFP (Plastic) * Digital dynamics (compressor) Volume increased by +5dB at low level * 8x oversampling digital filter (attenuation: 61dB, ripple within band: 0.0075dB) * Digital signal output possible after boost * Serial data format selectable from (output) 20 bits/18 bits/16 bits (rearward truncation, MSB first) * Digital attenuation: -, -60 to +6dB, 2048 steps (linear) * Soft mute * Digital de-emphasis Applications CD players Structure Silicon gate CMOS IC Absolute Maximum * Supply voltage 1 * Input voltage 1 * Output voltage 1 * Supply voltage 2 * * * * Ratings (Ta = 25C) VDD, XVDD VSS - 0.5 to +3.5 V VSS - 0.3 to VDD + 0.3 V VI1 VSS - 0.3 to VDD + 0.3 V VO1 IOVDD0 to 2, AVDD0 to 5 V IOVSS - 0.5 to +4.5 Input voltage 2 VI2 IOVSS - 0.3 to IOVDD + 0.3 V Output voltage 2 VO2 IOVSS - 0.3 to IOVDD + 0.3 V Storage temperature Tstg -55 to +150 C Supply voltage difference IOVSS, AVSS, XVSS - VSS -0.3 to +0.3 V XVDD - VDD -0.3 to +0.3 V IOVDD, AVDD, XVDD - VDD -0.3 to +0.3 V (IOVDD, AVDD, XVDD < 2.3V) V V C pF pF pF Recommended Operating Conditions * Supply voltage 1 VDD, XVDD 2.5 0.2 * Supply voltage 2 IOVDD0 to 2, AVDD0 to 5 3.3 0.3 * Operating temperature Topr -40 to +85 I/O Pin Capacitance * Input capacitance CI * Output capacitance CO * I/O capacitance CI/O Note) Measurement conditions 7 (Max.) 7 (Max.) 7 (Max.) VDD = VI = 0V fM = 1MHz 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. -1- E04250 CXD3057R Block Diagram WDCK WFCK SQSO EMPH SCOR SQCK SERVO Block MIRR DFCT FOK LOCK MDP SFDR SRDR TFDR TRDR FFDR FRDR PWM Generator SERVO Interface MIRR DFCT FOK CPU Interface Bass Boost Block LMUT RMUT LPF AOUT2 VREFR VREL AOUT1 EMPHI LRCKI PCMDI BCKI SYSM COUT SBSO XUGF C2PO SENS CLOK EXCK DATA SSTP ATSK SCLK XLAT GFS DAC LPF SERVO DSP CD Signal Processor Block Servo Auto Sequencer Digital CLV D/A Interface TE Error Corrector FE EFM Demodulator A B C D VC VC APC ATT EQ AMP SUM RFamp Block Asymmetry Corrector Digital PLL DC/DC Converter Sub Code Processor 32K RAM Digital OUT Clock Generator XTACN XTSL XTAI XTAO VCTL VPCO DOUT BCK Selector PCMD LRCK TEI FEI A/D Converter TEO E F FEO XRST TES1 TEST AVDD0 to 5 AVSS0 to 5 IOVDD0 to 2 IOVSS0 to 2 VDD VSS DDVROUT DDVRSEN PDSENS AC_SUM RFDCO RFACO EQ_IN RFACI XPCK -2- DDCR ASYO CLTV BIAS ASYI FIFO RFC FILI PCO PD LD CXD3057R Pin Configuration VREFR IOVDD0 AOUT2 AOUT1 VREFL IOVDD2 IOVSS2 AVDD1 EMPHI AVDD2 AVSS2 AVSS1 DOUT EMPH PCMDI LRCKI PCMD RMUT XTAO XVDD TEST TES1 VDD 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 LMUT 91 NC 92 XTSL 93 IOVSS0 94 XTACN 95 SQSO 96 SQCK 97 SBSO 98 EXCK 99 XRST 100 SYSM 101 DATA 102 VSS 103 XLAT 104 CLOK 105 VDD 106 SENS 107 SCLK 108 ATSK 109 WFCK 110 XUGF 111 XPCK 112 GFS 113 C2PO 114 SCOR 115 VDD 116 C4M 117 WDCK 118 COUT 119 NC 120 NC LRCK XVSS XTAI BCK VSS NC 60 BCKI 59 NC 58 DDCR 57 AVSS5 56 DDVRSEN 55 DDVROUT 54 AVDD5 53 PCO 52 FILI 51 FILO 50 CLTV 49 AVSS3 48 VCTL 47 VPCO 46 ASYO 45 ASYI 44 BIAS 43 AVDD3 42 RFACI 41 RFACO 40 AVSS4 39 RFC 38 NC 37 PD 36 LD 35 EQ_IN 34 AC_SUM 33 PDSENS 32 RFDCO 31 AVDD4 1 MIRR 2 DFCT 3 FOK 4 VSS 5 LOCK 6 MDP 7 SSTP 8 IOVSS1 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 SFDR SRDR TFDR TRDR FFDR FRDR TEI TEO FEI FEO NC VC IOVDD1 AVDD0 AVSS0 NC E A B C D F -3- CXD3057R Pin Description Power supply Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 A/D 3.3V -- 16 17 18 19 20 21 22 23 24 25 26 RFamp 3.3V 27 28 29 30 31 32 33 34 Symbol MIRR DFCT FOK VSS LOCK MDP SSTP IOVSS1 SFDR SRDR TFDR TRDR FFDR FRDR IOVDD1 AVDD0 AVSS0 NC E F TEI TEO FEI FEO VC A B C D NC AVDD4 RFDCO PDSENS I/O I/O I/O -- I/O I/O 1, 0 1, 0 1, 0 -- 1, 0 Mirror signal input/output. Defect signal input/output. Focus OK signal input/output. Internal digital GND. GFS is sampled at 460Hz; when GFS is high, this pin outputs a high signal. If GFS is low eight consecutive samples, this pin outputs low. Or this pin inputs when LKIN = "1". Disk innermost detection signal input. -- 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 -- -- -- -- E signal input. F signal input. Tracking error signal input to DSSP block. Tracking error signal output from RF amplifier block. Focus error signal input to DSSP block. Focus error signal output from RF amplifier block. Center voltage output from RF amplifier block. Center voltage input to DSSP block by command switch. A signal input. B signal input. C signal input. D signal input. -- -- Analog power supply. RFDC signal output. RFDC signal input to DSSP block by command switch. Reference voltage pin for PD. I/O digital GND. Sled drive output. Sled drive output. Tracking drive output. Tracking drive output. Focus drive output. Focus drive output. I/O digital power supply. Analog power supply. Analog GND. Description Digital I/O = 3.3V Internal = 2.5V O 1, Z, 0 Spindle motor servo control output. I -- O O O O O O -- -- -- -- I I I O I O I/O I I I I -- -- I/O I AC_SUM O Analog RFAC summing amplifier output. -4- CXD3057R Power supply Pin No. 35 36 37 Symbol EQ_IN LD PD NC RFC AVSS4 RFACO RFACI AVDD3 BIAS ASYI ASYO VPCO VCTL AVSS3 CLTV FILO FILI PCO AVDD5 DDVROUT DDVRSEN AVSS5 DDCR NC BCKI PCMDI LRCKl LRCK VSS PCMD BCK VDD EMPH EMPHI I O I -- I -- O I -- I I O I -- I I -- O I -- I -- I I I O -- O O -- O I I/O Equalizer circuit input. APC amplifier output. APC amplifier input. -- Description RFamp 3.3V 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 Equalizer cut-off frequency adjustment pin. -- Analog GND. RFAC signal output. RFAC signal input or EFM signal input. -- Analog power supply. Asymmetry circuit constant current input. Asymmetry comparator voltage input. 1, 0 EFM full-swing output. (Low = VSS, High = VDD) Wide-band EFM PLL VCO2 control voltage input. -- Analog GND. Multiplier VCO1 control voltage input. Master PLL filter input. -- Analog power supply. DC/DC converter output. Leave open when not using. DC/DC converter output voltage monitor pin. Connect to analog power supply when not using. -- -- D/A interface bit clock input. D/A interface serial data input. (2's COMP, MSB first) D/A interface LR clock input. 1, 0 -- 1, 0 1, 0 -- 1, 0 D/A interface LR clock output. f = Fs Internal digital GND. D/A interface serial data output. (2's COMP, MSB first) D/A interface bit clock output. Internal digital power supply. High when the playback disc has emphasis, low it has not. High when de-emphasis is ON, low when input OFF. -5- Analog GND. Test pin. Normally GND. ASYM 3.3V O 1, Z, 0 Wide-band EFM PLL charge pump output. O Analog Master PLL (slave = digital PLL) filter output. O 1, Z, 0 Master PLL charge pump output. DC/DC 3.3V 56 57 58 -- 59 60 61 62 Digital I/O = 3.3V Internal = 2.5V 63 64 65 66 67 68 69 CXD3057R Power supply Pin No. 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 Symbol IOVDD2 DOUT TEST TES1 IOVss2 NC XVSS XTAO XTAI XVDD AVDD1 AOUT1 VREFL AVSS1 AVSS2 VREFR AOUT2 AVDD2 NC IOVDD0 RMUT LMUT NC XTSL IOVSS0 XTACN SQSO SQCK SBSO EXCK -- O I I -- -- -- O I -- -- O O -- -- O O -- -- -- O O -- I -- I O I O I I I I -- I I/O -- 1, 0 I/O digital power supply. Digital Out output. Test pin. Normally GND. Test pin. Normally GND. -- -- -- Master clock GND. I/O digital GND. Description Digital I/O = 3.3V Internal = 2.5V -- X'tal 2.5V Crystal oscillation circuit output. Crystal oscillation circuit input. -- -- Master clock power supply. Analog power supply. Lch analog output. Lch reference voltage. -- -- Analog GND. Analog GND. Rch reference voltage. Rch analog output. -- -- -- 1, 0 1, 0 -- Crystal selection input. Low when the crystal is 16.9344MHz; high when the crystal is 33.8688MHz. -- I/O digital GND. Oscillation circuit control. Self-oscillation when high, oscillation stop when low. 1, 0 Subcode Q 80-bit and PCM peak and level data output. CD TEXT data output. SQSO readout clock input. 1, 0 Subcode P to W serial output. SBSO readout clock input. System reset. Reset when low. Mute input. Muted when high. Serial data input from CPU. -- Internal digital GND. Latch input from CPU. The serial data is latched at the falling edge. -6- I/O digital power supply. Rch "0" detection flag. Lch "0" detection flag. Analog power supply. Lch 3.3V Rch 3.3V -- Digital I/O = 3.3V Internal = 2.5V 95 96 97 98 99 100 XRST 101 SYSM 102 DATA 103 VSS 104 XLAT CXD3057R Power supply Pin No. Symbol I -- O I I/O O O O O O O -- O O I/O -- I/O Description Serial data transfer clock input from CPU. 105 CLOK 106 VDD 107 SENS 108 SCLK 109 ATSK 110 WFCK 111 XUGF 112 XPCK Digital I/O = 3.3V 113 GFS Internal = 2.5V 114 C2PO 115 SCOR 116 VDD 117 C4M 118 WDCK 119 COUT 120 NC -- 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 1, 0 -- 1, 0 1, 0 1, 0 -- Internal digital power supply. SENS output to CPU. SENS serial data readout clock input. Anti-shock input/output. WFCK output. XUGF output. Output MNT0, RFCK, SOUT by command switch. XPCK output. Output MNT1, SOCK by command switch. GFS output. Output MNT2, XROF, XOLT by command switch. C2PO output. Output MNT3, GTOP by command switch. High output when the subcode sync, S0 or S1, is detected. Internal digital power supply. 4.2336MHz output. 1/4 frequency-division output of the V16M in CAV-W mode and variable pitch mode. Word clock output. f = 2Fs. GRSCOR output by command switch. Track number count signal input/output. Notes) * PCMD is a MSB first, two's complement output. * GTOP is used to monitor the frame sync protection status. (High: sync protection window released.) * XUGF is the frame sync obtained from the EFM signal, and is negative pulse. It is the signal before sync protection. * XPCK is the inverse of the EFM PLL clock. The PLL is designed so that the falling edge and the EFM signal transition point coincide. * The GFS signal goes high when the frame sync and the insertion protection timing match. * RFCK is derived from the crystal accuracy, and has a cycle of 136s. * C2PO represents the data error status. * XROF is generated when the 32K RAM exceeds the 28 frame jitter margin. * C4M is a 4.2336MHz output that changes in CAV-W mode and variable pitch mode. * FSTO is the 2/3 frequency-division output of the XTAI pin. * SOUT is the serial data output inside the servo block. * SOCK is the serial data readout clock output inside the servo block. * XOLT is the serial data latch output inside the servo block. -7- CXD3057R Monitor Pin Output Combinations Command bit SRO1 0 0 0 0 1 MTSL1 0 0 1 1 0 MTSL0 0 1 0 1 0 XUGF MNT0 RFCK C4M SOUT Output data XPCK MNT1 XPCK GSTO SOCK GFS MNT2 XROF GFS XOLT C2PO MNT3 GTOP C2PO C2PO Reset Timing when Power on Power on with XRST pin low. Set XRST pin high after holding it low 100ns or more to cancel reset. -8- CXD3057R RF Block Pin Equivalent Circuit Pin No. Symbol I/O Equivalent circuit Description 19 E I 19 VC Tracking error amplifier input. 20 F I 20 VC 21 TEI I 21 Tracking error signal input to DSSP block. 22 TEO O 1pF 22 Tracking error amplifier output. 23 FEI I 23 Focus error signal input to DSSP block. 1pF 24 FEO O 24 Focus error amplifier output. 25 VC I/O 25 (AVDD4 - AVSS4)/2 voltage output. -9- CXD3057R Pin No. Symbol I/O Equivalent circuit Description 26 A I 15k 26 27 B I 27 30k RF summing amplifier and focus error amplifier input. 28 C I 28 30k 29 29 D I 30 31 NC AVDD4 -- -- 10k -- -- -- Analog power supply. 32 RFDCO I/O 0.5pF 100 32 RFDC amplifier output. 33 PDSENS I 10k 33 59k APC amplifier reference voltage (GND signal) input. 34 AC_SUM O 34 RFAC summing amplifier output. - 10 - CXD3057R Pin No. Symbol I/O Equivalent circuit Description 35 4k 35 EQ_IN I 4k Equalizer circuit input. 4k 4k VC 36 LD O 57k 10k 500 36 APC amplifier output. 37 PD I 1k 37 APC amplifier input. 38 NC -- -- 39 -- 39 RFC I Equalizer cut-off frequency adjustment. 40 AVSS4 -- -- Analog GND. 41 RFACO O VC 25 41 RFAC amplifier output. - 11 - CXD3057R Electrical Characteristics 1. DC Characteristics (VDD = XVDD = 2.5 0.2V, IOVDD0 to 2 = AVDD0 to 5 = 3.3 0.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = -40 to +85C) Item High level input voltage Low level input voltage High level input voltage Input voltage (2) Low level input voltage Hysteresis Input voltage (3) Output voltage (1) Input voltage VIH (1) VIL (1) VIH (2) VIL (2) Vt+ - Vt- VIN (3) Analog input IOH = -2.4mA IOL = 4mA IOH = -1.2mA IOL = 2mA IOH = -2.4, -4.8, -7.2, -9.6mA IOL = 4, 8, 12, 16mA IOH = -0.28mA IOL = 0.36mA VIN = VSS or VDD VIN = VDD VIN = VSS or VDD -10 40 -10 100 VDD - 0.4 V 0.4 10 240 10 A A A 1, 2, 9 3 8 VDD - 0.4 V 0.4 VDD - 0.4 V 0.4 VSS VDD - 0.4 V 0.4 Schmitt input 0.5 VDD V 4, 12 0.7VDD 0.2VDD V 2 Conditions Min. 0.7VDD V 0.2VDD Typ. Max. Unit Applicable pins 1, 3, 9 Input voltage (1) High level VOH (1) output voltage Low level VOL (1) output voltage High level VOH (2) output voltage Low level VOL (2) output voltage High level VOH (3) output voltage Low level VOL (3) output voltage High level VOH (4) output voltage Low level VOL (4) output voltage II IIH IOZ 5, 8, 9 Output voltage (2) 6 Output voltage (3) 7 Output voltage (4) 11 Input leak current Input leak current (with pull-down resistor) Tri-state output leak current (when high impedance) - 12 - CXD3057R Applicable pins 1 PCMDI, EMPHI, TEST, TES1, XTSL, XTACN, SYSM, DATA 2 BCKI, LRCKI, SQCK, EXCK, XRST, XLAT, CLOK, SCLK 3 SSTP 4 E, F, TEI, FEI, A, B, C, D, PDSENS, EQ_IN, PD, RFC, RFACI, BIAS, ASYI, VCTL, CLTV, FILI, DDVRSEN, DDCR 5 SFDR, SRDR, TFDR, TRDR, FFDR, FRDR, LRCK, PCMD, BCK, EMPH, RMUT, LMUT, SQSO, SBSO, WFCK, XUGF, XPCK, GFS, C2PO, SCOR, C4M, WDCK 6 ASYO 7 DOUT 8 MDP, VPCO, PCO, SENS 9 MIRR, DFCT, FOK, LOCK, ATSK, COUT 10 TEO, FEO, AC_SUM, LD, RFACO, DDVROUT, AOUT1, VREFL, VREFR, AOUT2 11 FILO 12 VC, RFDCO - 13 - CXD3057R 2. AC Characteristics (1) XTAI pin (a) When using self-oscillation (VDD = XVDD = 2.5 0.2V, IOVDD0 to 2 = AVDD0 to 5 = 3.3 0.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = -40 to +85C) Item Oscillation frequency Symbol fMAX Conditions XTSL = L, $AEXX1 CKSL (1, 0) = 00 XTSL = H, $AEXX1 CKSL (1, 0) = 00 XTSL = H, $AEXX1 CKSL (1, 0) = 01 or 10 or 11 Min. 16.8 33.5 67.1 Typ. 16.9344 33.8688 67.7376 Max. 17.1 34.2 68.4 MHz Unit (b) When inputting pulses to XTAI pin (VDD = XVDD = 2.5 0.2V, IOVDD0 to 2 = AVDD0 to 5 = 3.3 0.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = -40 to +85C) Item High level pulse width Low level pulse width Pulse cycle Input high level Input low level Rise time, fall time Symbol tWHX tWLX tCX VIHX VILX tR, tF 0 Min. 6.6 6.6 14.6 1.7 0.7 10 Typ. Max. 32.7 32.7 59.5 Unit ns ns ns V V ns tCX tWHX tWLX VIHX VIHX x 0.9 XTAI VDD/2 VIHX x 0.1 VILX tR tF Note) When the pulse is input to the XTAI pin, be sure to input it via the capacitor. - 14 - CXD3057R (2) CLOK, DATA, XLAT, SQCK and EXCK pins (VDD = XVDD = 2.5 0.2V, IOVDD0 to 2 = AVDD0 to 5 = 3.3 0.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = -40 to +85C) Item Clock frequency Clock pulse width Setup time Hold time Delay time Latch pulse width Command transfer interval EXCK frequency EXCK pulse width SQCK frequency SQCK pulse width COUT frequency (during input) COUT pulse width (during input) Symbol fCK tWCK tSU tH tD tWL tWCT fT tWT fT tWT fT fWT 7.5 750 750 0.65 120000 65 31.3 30 30 300 750 750 0.65 30000 Min. Typ. Max. 16 30000 Unit MHz ns ns ns ns ns ns MHz ns MHz ns kHz s Only when $44 and $45 are executed. 1/fCK tWCK CLOK tWCK DATA tWCT XLAT EXCK SQCK COUT tWT 1/fT tWT tSU tH tD tWL - 15 - CXD3057R (3) SCLK pin XLAT tDLS tSPW SCLK 1/fSCLK Serial Read Out Data (SENS) ... MSB ... LSB (VDD = XVDD = 2.5 0.2V, IOVDD0 to 2 = AVDD0 to 5 = 3.3 0.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = -40 to +85C) Item SCLK frequency SCLK pulse width Delay time Symbol fSCLK tSPW tDLS 31.3 15 Min. Typ. Max. 16 Unit MHz ns s (4) COUT, MIRR and DFCT pins Operating frequency (VDD = XVDD = 2.5 0.2V, IOVDD0 to 2 = AVDD0 to 5 = 3.3 0.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = -40 to +85C) Item COUT maximum operation frequency MIRR maximum operation frequency DFCT maximum operation frequency 1 When using a high-speed traverse TZC 2 B Symbol fCOUT fMIRR fDFCTH Min. 40 40 5 Typ. Max. Unit kHz kHz kHz Conditions 1 2 3 A When the RF signal continuously satisfies the following conditions during the traverse. * A = 0.11VDD to 0.23VDD * B 25% A+B 3 During complete RF signal omission. When settings related to DFCT signal generation are Typ. - 16 - CXD3057R 1-bit DAC and LPF Block Analog Characteristics (VDD = XVDD = 2.5V, IOVDD0 to 2 = AVDD0 to 5 = 3.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = +25C) Item Total harmonic distortion Signal-to-noise ratio Symbol THD S/N Conditions 1kHz sine wave, 0dB data, 20kHz LPF 1kHz sine wave, 0dB data, AMUT OFF (Using A-weighting filter 20kHz LPF) 90 Min. Typ. Max. Unit % dB 0.006 0.014 95 Fs = 44.1kHz in all cases. The total harmonic distortion and signal-to-noise ratio measurement circuits are shown below. 100 AOUT1 (2) 22F Audio Analyzer 2200pF 100k VREFL (R) 1F LPF external circuit diagram Rch DATA TEST DISC RF CXD3059AR Lch A Audio Analyzer B Block diagram of analog characteristics measurement (VDD = XVDD = 2.5V, IOVDD0 to 2 = AVDD0 to 5 = 3.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = +25C) Item Output voltage Load resistance VREF pin capacitance Symbol VOUT RL CVREF Min. 920 10 1 Typ. 928 Max. Applicable pins 1 mVrms 1 k F 2 Unit Measurement is conducted for the above circuit diagrams with the sine wave output of 1kHz and 0dB. Applicable pins 1 AOUT1, AOUT2 2 VREFL, VREFR - 17 - RF Block Electrical Characteristics (VDD = XVDD = 2.5V, IOVDD0 to 2 = AVDD0 to 5 = 3.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = +25C) Bias conditions Measurement item Symbol SW conditions Connect to VC except measurement pins. 2.5V 3.3V Sending command AC input AC input DC input amplitude frequency voltage DC input current VDD AVDD Measurement conditions Measurement pins Min. Typ. Max. Unit Input impedance (A, B, C and D) Input impedance (E and F) Input impedance (PD) RF block current consumption (on operation) RA,B,C,D Pin current A, B, C, D 10 15 20 k RE,F Pin current E, F 21 30 39 k RPD Pin current PD 10 M IAVD $3AF100 2.5V 3.3V Pin current AVDD4 40 70 mA VC APC - 18 - RF block current consumption (on standby) Output voltage ISTB $ADF7CC00 Pin current AVDD4 1 mA VVC 3mA 2.5V 3.3V Pin voltage VC 0.5AVDD - 0.1 100 AVDD - 0.2 1.89 0.5AVDD 0.5AVDD + 0.1 200 V Input voltage Output voltage (on standby) VPD 0 PD input voltage which LD, PD LD pin voltage is 1.41V Pin voltage LD 150 mV VLDstb $AD000800 VPD + 12mV VPD - 12mV 0 0 V VPDT Input voltage range VPDB Maximum output current Output impedance 0 2.5V 3.3V 0 Pin voltage LD 2.14 2.39 V Pin voltage LD 0.43 0.68 0.93 V ILD 1mA Pin voltage LD 0.34 0.64 0.94 V CXD3057R RLD VPD 1mA Pin voltage LD 1.66 1.91 2.16 V Bias conditions Measurement item Symbol SW conditions Sending command AC input AC input DC input amplitude frequency voltage DC input current VDD AVDD Measurement conditions Pin voltage, A+B+C+D Pin voltage Measurement pins Min. Typ. Max. Unit Input voltage range Output voltage range VIR-ACSUM RFDC 0.5AVDD - 0.1 0.47AVDD 0.5AVDD - 0.23 0.9AVDD + 0.1 0.65AVDD 0.5AVDD + 0.23 V VOR-ACSUM RFDC V Input conversion VOF-ACSUM DC offset voltage ACSUM Input conversion VDF-ACSUM DC offset temperature drift Offset voltage VOFFSUM $3AA000 Pin voltage RFDC V $3AA01C 2.5V 3V Pin voltage RFDC 0.7 -4 6 V/ C 1.1 1 V dB 0.9 0 Frequency FSUM1 characteristics 1 Frequency FSUM2 characteristics 2 Distortion rate Input voltage range Output voltage range DSUM VIR-RFDC $3AA004 61mVp-p 0.2/6MHz VC + VAC1/2 20 log (V6M/V0.2M) RFDC $3AA018 104mVp-p 600mVp-p 3MHz VC + VAC1/2 (V6M/V3M) x 100 Pin voltage, A+B+C+D Pin voltage RFDC RFDC -4 0 1 3 dB % V RFDC - 19 - 0.3AVDD - 0.1 0.25AVDD 0.3AVDD - 0.23 0.7AVDD + 0.1 0.75AVDD 0.3AVDD + 0.23 VOR-RFDC RFDC V Input conversion VOF-RFDC DC offset voltage Input conversion VDF-RFDC DC offset temperature drift Frequency FRFDC1 characteristics 1 Frequency FRFDC2 characteristics 2 Distortion rate DRFDC $3AA000 Pin voltage RFDC V $3AA01C 2.5V 3V 6 V/ C $3AA004 61mVp-p 0.2/6MHz VC + VAC1/2 20 log (V6M/V0.2M) RFDC -4 0 1 dB $3AA018 104mVp-p 1.5Vp-p 100kHz RFDC -4 0 0.1 1 dB CXD3057R % Bias conditions Measurement item Symbol SW conditions Sending command AC input AC input DC input amplitude frequency voltage DC input current VDD AVDD Measurement conditions VC reference about (B + D) and (A + C) Pin voltage Measurement pins Min. Typ. Max. Unit Input voltage range Output voltage range VIR-FE FE 0.375 AVDD 0.5 0.5AVDD - 0.03 0.625 AVDD AVDD - 0.5 0.5AVDD + 0.03 V VOR-FE FE V Input conversion VOF-FE DC offset voltage Input conversion VDF-FE DC offset temperature drift Offset voltage VOFFFE $3AA104 30mVp-p 10/ 100kHz $3AA118 52mVp-p 600mVp-p 50kHz Pin voltage FE V FE 2.5V 3V Pin voltage FE -0.06 -1 20 log (V100k/V10k) FE -1 (V50k/V100k) x 100 VC reference about (B + D) and (A + C) Pin voltage FE TE 0.4AVDD 2.8 V/ C 0.06 1 V dB 0 0 Frequency FFE1 characteristics 1 Frequency FFE2 characteristics 2 Distortion rate Input voltage range Output voltage range DFE VIR-TE 0 1 3 0.6AVDD AVDD - 0.5 0.5AVDD + 0.03 dB % V TE - 20 - VOR-TE TE 0.5 0.5AVDD - 0.03 V Input conversion VOF-TE DC offset voltage Input conversion VDF-TE DC offset temperature drift Offset voltage VOFFTE $3AA204 28mVp-p 10/ 100kHz $3AA218 $3AA200 45mVp-p 480mVp-p 50kHz 2.5V 3V Pin voltage TE V 2.5 V/ C 0.075 1 V dB Pin voltage TE -0.075 -1 0 0 Frequency FTE1 characteristics 1 Frequency FTE2 characteristics 2 Distortion rate DTE 20 log (V100k/V10k) TE -1 0 1 3 dB % CXD3057R (V50k/V100k) x 100 TE Bias conditions Measurement item Symbol SW conditions Sending command AC input AC input DC input amplitude frequency voltage DC input current VDD AVDD Measurement conditions Distortion rate 3% or less, no DC bias Pin voltage Measurement pins Min. Typ. Max. Unit Input voltage range Output voltage range VIR-EQ RFACO 250 AVDD - 0.5 0.25 mVp-p VOR-EQ RFACO 0.5 V Input conversion VOF-EQ DC offset voltage Input conversion VDF-EQ DC offset temperature drift Offset voltage VOFFEQ $3AA204 28mVp-p 10/ 100kHz $3AA218 $3AA200 45mVp-p 1.2Vp-p 360kHz Pin voltage RFACO -0.25 V EQ 2.5V 3V Ta = -40 to +85C 0.1 V Pin voltage RFACO -0.5 -1 0 0 0.5 1 V dB Frequency FEQ1 characteristics 1 Frequency FEQ2 characteristics 2 Distortion rate DEQ 20 log (V100k/V10k) RFACO -1 0 1 3 dB % - 21 - (V720k/V360k) x 100 RFACO CXD3057R CXD3057R Notes on Operation for RFC Pin * Set each impedance of the heavy line shown bellow 0.1 or less. * Make each wiring length of L1 to L4, L1 20mm, L2 20mm and L3 + L4 40mm. * Use the bypass condenser C with capacitance led by resistance (regulator output impedance and wiring resistance to C) or more seeing the figure bellow. 5 Regulator GND OUT 4 3 2 1 C L1 15k 0.1F L2 0 0 20 40 C [F] 60 80 100 R AVS 0.1F L3 L4 AVSS4 RFC AVDD4 - 22 - R [] Impedance R tolerance for bypass condenser C CXD3057R DC-DC Converter Characteristics (VDD = XVDD = 2.5 0.2V, IOVDD0 to 2 = AVDD0 to 5 = 3.3 0.3V, VSS = XVSS = IOVSS = AVSS = 0V, Topr = -40 to +85C) Item Output voltage Output current Symbol VO Iope Conditions -- -- Min. 2.3 -- Typ. 2.5 -- Max. 2.7 100 Unit V mA AVDD5 DDVROUT DDVRSEN C2 AVSS5 C1 Power supply for DC-DC VOUT GND for DC-DC DDCR DC-DC converter application circuit sample Refer to Application Notes on operation. - 23 - CXD3057R CPU Interface Timing 31.3ns CLOK 30s DATA D0 D1 D18 D19 D20 D21 D22 D23 750ns or more XLAT Registers Valid Spindle Output n . 236 (ns) n = 0 to 31 Acceleration MDP 132kHz 7.6s Deceleration Z Acceleration MDP 264kHz 3.8s Deceleration Z Servo Output MCK (5.6448MHz) SLD 64tMCK SFDR SRDR AtMCK AtMCK 64tMCK 64tMCK Output value - A Output value 0 Output value + A FCS/TRK 32tMCK FFDR/ TFDR FRDR/ TRDR 32tMCK 32tMCK 32tMCK 32tMCK 32tMCK BtMCK BtMCK BtMCK BtMCK - 24 - CXD3057R DA Interface CDDSP output selected (1x speed playback LRCK = 44.1kHz, BCK = 2.1168MHz) x LRCK 1 BCK WDCK PCMD R0 Lch MSB (15) L14 L13 L12 L11 L10 L9 L8 L7 L6 L5 L4 L3 L2 L1 L0 Rch MSB 2 3 4 5 6 7 8 9 10 11 12 24 DAC output selected (1x speed playback LRCK = 44.1kHz, BCK = 2.8224MHz) x $A5EA OBIT1 = 1, OBIT0 = 1 LRCK 1 BCK WDCK PCMD R0 Lch MSB (15) L14 L13 L12 L11 L10 L9 L8 L7 L6 L5 L4 L3 L2 L1 L0 Rch MSB 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 32 $A5EA OBIT1 = 1, OBIT0 = 0 PCMD R0 Lch MSB (17) L16 L15 L14 L13 L12 L11 L10 L9 L8 L7 L6 L5 L4 L3 L2 L1 L0 Rch MSB $A5EA OBIT1 = 0, OBIT0 = 0 PCMD R0 Lch MSB (19) L18 L17 L16 L15 L14 L13 L12 L11 L10 L9 L8 L7 L6 L5 L4 L3 L2 L1 L0 Rch MSB DAC block input timing (LRCK = 44.1kHz, BCK = 2.1168MHz) LRCKI 1 BCKI PCMDI R0 Lch MSB (15) L14 L13 L12 L11 L10 L9 L8 L7 L6 L5 L4 L3 L2 L1 L0 Rch MSB 2 3 4 5 6 7 8 9 10 11 12 24 - 25 - CXD3057R Application Circuit Rch Lch EMPH RMUT DOUT BCK PCMD LRCK 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 XVDD RMUT IOVDD0 AVDD2 AVSS2 AVSS1 AVDD1 IOVSS2 IOVDD2 XVSS VDD NC NC BCK VSS XTAO PCMD DOUT EMPH LRCK XTAI TES1 TEST AOUT2 VREFL VREFR AOUT1 LMUT 91 LMUT 92 NC 93 XTSL LRCKI PCMDI EMPHI BCKI 60 NC 59 DDCR 58 AVSS5 57 DDVRSEN 56 DDVROUT 55 AVDD5 54 PCO 53 FILI 52 FILO 51 CLTV 50 AVSS3 49 VCTL 48 VPCO 47 ASYO 46 CXD3059AR ASYI 45 BIAS 44 AVDD3 43 RFACI 42 RFACO 41 AVSS4 40 RFC 39 NC 38 PD 37 LD 36 EQ_IN 35 AC_SUM 34 PDSENS 33 RFDCO 32 RFDCO PD LD A.GND D C Driver circuit DDVROUT 94 IOVSS0 95 XTACN 96 SQSO 97 SQCK SQSO SQCK XRST SYSM DATA XLAT CLOK SENS SCLK SCOR FOK SBSO 98 SBSO 99 EXCK 100 XRST 101 SYSM 102 DATA 103 VSS 104 XLAT 105 CLOK 106 VDD 107 SENS 108 SCLK 109 ATSK WFCK XUGF XPCK GFS C2PO 110 WFCK 111 XUGF 112 XPCK 113 GFS 114 C2PO 115 SCOR 116 VDD C4M WDCK COUT 117 C4M 118 WDCK 119 COUT IOVSS1 IOVDD1 AVDD0 SRDR TRDR LOCK DFCT SSTP MIRR MDP FRDR SFDR TFDR FFDR TEO FOK VSS FEO 120 NC AVSS0 AVDD4 31 TEI FEI NC 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 NC VC C D E A B F LOCK DFCT MIRR B A VC F E FD TD Driver circuit SLED SPDL Limit switch Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same. - 26 - CXD3057R Package Outline Unit: mm 120PIN LQFP (PLASTIC) 18.0 0.2 16.0 0.1 90 61 1.7 MAX 1.4 0.1 S 0.1 S 91 60 B A 120 31 1 30 0.5 0.1 0.05 b 0.1 M S 0.6 0.15 0.25 (17.0) b = 0.20 0.03 0 to 10 DETAIL A DETAIL B 0.125 0.03 (0.5) PACKAGE STRUCTURE PACKAGE MATERIAL EPOXY RESIN PALLADIUM PLATING COPPER ALLOY 0.8g SONY CODE EIAJ CODE JEDEC CODE LQFP-120P-L01 LQFP120-P-1616 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS - 27 - Sony Corporation |
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