NAU8402WGTR

NAU8402 Stereo 24-bit DAC with 2Vrms Line Out emPowerAudio™ 1. GENERAL DESCRIPTION The NAU8402 is a high quality 24-bit stereo DAC with 2Vrms analog output capability. This device includes an integrated charge pump enabling true ground referenced outputs and full 5.6Vpp output levels, while operating from only a single 3.3V supply voltage. Additionally, the NAU8402 includes automatic pop/click elimination features and high immunity to power supply and other system noise. This enables fast and efficient system integration while minimizing external component costs. The NAU8402 is specified for operation from -40°C to +85°C. AEC-Q100 & TS16949 compliant device is available upon request . 2. FEATURES Stereo 24-bit DAC  Full 2Vrms output using only 3.3Vdc supply  True Ground Referenced analog outputs  Audio Performance o 98dB SNR A-weighted performance o -82dB THD+N o 68dB PSRR at 1kHz o 108dB channel separation at 1kHz  Up to 96 kHz audio sample rate  Automatic pop/click elimination and output muting for power-on and no-signal conditions Low Power, Low Voltage  Nominal Operating Voltage: 3.3V Additional features  Low external parts count  High system noise immunity  Package: 16-pin TSSOP (Green/ROHS)  Operating voltage: 3.3-3.6V  Operating temperature range: -40° to +85°C Applications  Game Consoles  DVD players  Set top boxes  Digital TVs Interfaces 2  I S slave supporting up to 96 kHz sample rate determined by clock frequency ratios.  Supports either 12.288MHz or 24.576MHz master clock frequency w/auto rate detection for sampling rate 24k, 48k and 96k Hz  Supports either 11.290MHz or 22.579MHz for sampling rate 44.1kHz CPCA CPCB CPOUT Line Drivers Charge Pump LDAC LLINEOUT RDAC RLINEOUT DAC Digital Filters LINEVDD LINEGND VDDA VREF VSSA VDDB /MUTEb Control Interface Digital Audio Interface 2 IS MCLK BCLK FS DACIN emPowerAudio™ Datasheet Revision 1.62 Page 1 of 22 March 28, 2013 NAU8402 3. PIN CONFIGURATION VSSA 1 16 LLINEOUT VDDA 2 15 RLINEOUT VREF 3 14 CPOUT MUTEb 4 13 CPCB FS 5 12 LINEGND DACIN 6 11 CPCA BCLK 7 10 LINEVDD MCLK 8 9 VDDB NAU8402 STEREO 24-BIT DAC TSSOP16 Figure 1: NAU8402 Pin-Out 4. PIN DESCRIPTION Pin Name Pin Functionality A/D Pin Type O VSSA 1 Analog Ground A VDDA 2 Analog Supply A I VREF 3 Decoupling internal analog mid supply reference A O /MUTE 4 Mute enabled, 1= Mute disabled voltage D I FS 5 Frame Sync D I DACIN 6 Digital Audio Data Input D I BCLK 7 Bit Clock D I MCLK 8 Master Clock D I VDDB 9 Digital IO Supply D I LINEVDD 10 Line Out Charge Pump Supply A I CPCA LINEGND 11 Charge Pump Capacitor Node A A O 12 Line Out Charge Pump Ground A I CPCB 13 Charge Pump Capacitor Node B A O CPOUT 14 Charge Pump Decoupling Output A O RLINEOUT 15 Right Channel Line Output A O LLINEOUT 16 Left Channel Line Output A O Table 1: Pin Description Notes 1. Unused analog input pins should be left as no-connection. 2. Any unused digital input pin must be tied high or low as appropriate. emPowerAudio™ Datasheet Revision 1.62 Page 2 of 22 March 28, 2013 NAU8402 5. Table of Contents 1. GENERAL DESCRIPTION .................................................................................................................................1 2. FEATURES .........................................................................................................................................................1 3. PIN CONFIGURATION .......................................................................................................................................2 4. PIN DESCRIPTION .............................................................................................................................................2 5. TABLE OF CONTENTS ......................................................................................................................................3 6. LIST OF FIGURES ..............................................................................................................................................4 7. LIST OF TABLES ...............................................................................................................................................4 8. ABSOLUTE MAXIMUM RATINGS .....................................................................................................................5 9. OPERATING CONDITIONS ................................................................................................................................ 5 10. ELECTRICAL CHARACTERISTICS ..................................................................................................................6 10.1. ANALOG OUTPUT LEVELS .............................................................................................................................. 7 10.2. POWER CONSUMPTION ...................................................................................................................................7 11. FUNCTIONAL DESCRIPTION ............................................................................................................................ 8 11.1. DIGITAL SIGNAL PATH .............................................................................................................................. 8 11.2. DIGITAL AUDIO INTERFACE .....................................................................................................................9 11.3. POWER ON AND OFF RESET ...................................................................................................................9 11.4. DEVICE CLOCKING .................................................................................................................................. 10 12.5 MUTE / UN-MUTE SEQUENCE AND OPERATING MODES ................................................................... 11 12.6 POWER SUPPLY ...................................................................................................................................... 12 12.6.1 VREF.......................................................................................................................................................... 12 12.6.2 CHARGE PUMP ........................................................................................................................................ 13 12.6.3 POWER DOMAINS .................................................................................................................................... 13 12. AUDIO INTERFACE TIMING DIAGRAM .......................................................................................................... 14 12.1. AUDIO INTERFACE MODE ....................................................................................................................... 14 12.2. SYSTEM CLOCK (MCLK) TIMING DIAGRAM ........................................................................................... 15 13. FILTER CHARACTERISTICS ........................................................................................................................... 16 13.1. DIGITAL FILTER CHARACTERISTICS ........................................................................................................... 16 13.2. ANALOG FILTER CHARACTERISTICS .......................................................................................................... 17 14. TYPICAL APPLICATION .................................................................................................................................. 18 15. PACKAGE SPECIFICATION: TSSOP-16 ........................................................................................................ 19 16. ORDERING INFORMATION ............................................................................................................................. 20 17. VERSION HISTORY ......................................................................................................................................... 20 emPowerAudio™ Datasheet Revision 1.62 Page 3 of 22 March 28, 2013 NAU8402 6. List of Figures Figure 1: NAU8402 Pin-Out ..........................................................................................................................................2 Figure 2: NAU8402 Digital Signal Path .........................................................................................................................8 Figure 3: NAU8402 Digital Interface Timing Diagram ...................................................................................................9 Figure 4: Power on and off Reset sequence .................................................................................................................9 Figure 5: Mute / Un-mute Sequence ........................................................................................................................... 11 Figure 6: VREF Connections ...................................................................................................................................... 12 Figure 7: Power Domains ............................................................................................................................................ 13 Figure 8: Audio Interface Mode Timing Diagram ......................................................................................................... 14 Figure 9: MCLK Timing Diagram ................................................................................................................................. 15 Figure 10: DAC Filter Frequency Response ............................................................................................................... 16 Figure 11: DAC Filter Ripple ....................................................................................................................................... 16 Figure 12: HPF Frequency Response ......................................................................................................................... 17 Figure 13: Application Diagram ................................................................................................................................... 18 7. List of Tables Table 1: Pin Description ................................................................................................................................................2 Table 2: MCLK And Sample Rate Frequencies........................................................................................................... 10 Table 3: Line Driver Power Up Delay .......................................................................................................................... 10 Table 4: Audio Interface Timing Parameters ............................................................................................................... 14 Table 5: MCLK Timing Parameter ............................................................................................................................... 15 Table 6: Digital Filter Characteristics............................................................................................................................ 16 Table 7: Analog Filter Characteristics .......................................................................................................................... 17 emPowerAudio™ Datasheet Revision 1.62 Page 4 of 22 March 28, 2013 NAU8402 8. ABSOLUTE MAXIMUM RATINGS DESCRIPTION SYMBOL CONDITION MIN MAX Units VDDB, LineVDD , VDDA supply voltages VDD VDDVSS -0.3 4.5 V Digital Input Voltage range DVIN DVIN  VSS VSS – 0.3 VDDB + 0.30 V Analog Input Voltage AVIN AVIN  VSSA VSSA – 0.3 VDDA + 0.30 V Temperature range TA -40 +150 C Storage Temperature Tst -65 +150 C CAUTION: Do not operate at or near the maximum ratings listed for extended period of time. Exposure to such conditions may adversely influence product reliability and result in failures not covered by warranty. These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures. 9. OPERATING CONDITIONS Symbol Min Value Typical Value Max Value Units Supply voltages LineVDD, VDDA 3.0 3.3 3.6 V Supply voltage VDDB 1.7 3.3 3.6 V Condition Ground Operating Temperature LINEGND, VSSA TA 0 -40 V +85 emPowerAudio™ Datasheet Revision 1.62 Page 5 of 22 March 28, 2013 C NAU8402 10. ELECTRICAL CHARACTERISTICS o VDDA = VDDB = LINEVDD = 3.3V, MCLK – 256fs, TA = +25 C, 1kHz signal, fs = 48kHz, 24-bit audio data unless otherwise stated. PARAMETER SYM TEST CONDITIONS MIN TYP MAX UNIT 2 2.1 2.2 Vrms A-weighted - 98 - dB Un-weighted - 96 - dB 24-bit A-weighted - 98 - dB 24-bit Un-weighted - 96 - dB 16-bit A-Weighted - 94 - dB 16-bit Un-Weighted - 92 - dB 24-bit 0dB A-Weighted - -82 - dB 24-bit -20dB A-Weighted - -96 - dB 16-bit 0dB A-Weighted - -82 - dB 16-bit -20dB A-Weighted - -93 - dB 100Hz - 73 - dB 1kHz - 68 - dB 20kHz - 58 - dB 1kHZ - 108 - dB 20Hz to 20kHz - 96 System Absolute Phase - 0 - Degrees Channel Level Matching - 0 - dB Output Offset - 0 ±8 mV Full Scale Output Voltage Signal to Noise Ratio (2) Dynamic Range(2) Total Harmonic Distortion + Noise Level(1) Power Supply Rejection Ratio (2) Channel Separation(2) SNR DNR THD+N PSRR dB Notes: 1) 2) THD+N is measured as rms value of the noise plus the harmonic distortion components relative to the full scale output level. Performance tests are conducted using a 20Khz low pass filter and A weighted filter where specified. The 20Khz low pass filter removes inaudible out of band noise. emPowerAudio™ Datasheet Revision 1.62 Page 6 of 22 March 28, 2013 NAU8402 10.1. ANALOG OUTPUT LEVELS o VDDA = VDDB = LINEVDD = 3.3V, MCLK – 256fs, TA = +25 C, 1kHz signal, fs = 48kHz, 24-bit audio data unless otherwise stated. PARAMETER SYM TEST CONDITIONS MIN TYP MAX UNIT 2.1 2.2 Vrms 47 kΩ 100 pF Output Level Vout 0dBFs 2.0 Load Resistance Rload 0dBFs 5 Load Capacitance Cload On R/LLINEOUT - 0 10.2. POWER CONSUMPTION o VDDA = VDDB = LINEVDD = 3.3V, MCLK – 256fs, TA = +25 C, 1kHz signal, fs = 48kHz, 24-bit audio data unless otherwise stated. CONDITIONS IVDDA (mA) IVDDB (mA) ILINEVDD (mA) ITOTAL (mA) /MUTE = 0, No clocks* 0.3 0.10 0 0.4 /MUTE = 0 1.66 1 1.22 3.88 /MUTE = 1 3.92 2.27 1.38 7.57 emPowerAudio™ Datasheet Revision 1.62 Page 7 of 22 March 28, 2013 NAU8402 11. FUNCTIONAL DESCRIPTION The NAU8402 is a high quality 24-bit stereo DAC with 2Vrms analog output capability. This device includes an integrated charge pump enabling true ground referenced outputs and full 5.6Vpp output levels, while operating from only a single 3.3V supply voltage. Additionally, the NAU8402 includes automatic pop/click elimination features and high immunity to power supply and other system noise. 11.1. DIGITAL SIGNAL PATH DAC Digital Filters Digital Audio Interface Digital Gain High Pass Filter Digital Filters DAC Figure 2: NAU8402 Digital Signal Path The DAC digital block uses 24-bit signal processing to generate analog audio from a 16-bit digital sample stream input. The DAC coding scheme is in two’s complement format and the full-scale output level is proportional to VDDA. With a 3.3V supply voltage, the full-scale output level is 2.1VRMS. This DAC block consists of a digital gain stage, a high pass filter, and a digital interpolation filter and sigma-delta modulator. The digital gain stage is used in coordination with the mute function to ramp the volume up and down when going into and out of the mute state as described below. -5 The high pass filter is a simple first order DC blocking filter, with a 3dB cut-off frequency of FS x 7.7x10 . Filter operation and settings are always the same for both left and right channels. emPowerAudio™ Datasheet Revision 1.62 Page 8 of 22 March 28, 2013 NAU8402 11.2. DIGITAL AUDIO INTERFACE LEFT CHANNEL FS RIGHT CHANNEL BCLK DACIN 1 2 3 N-2 N-1 N MSB LSB 1 2 3 N-2 N-1 N MSB LSB Figure 3: NAU8402 Digital Interface Timing Diagram Channel selection is governed by the Frame Sync (FS). When FS is low, the data transfer is for Left channel. When FS is high, the data transfer is for Right channel. DACIN MSB starts from the 2nd BCLK after FS transition. The I2S data interface supports up to 24-bits of data using 32 BCLK cycles per channel (64 per frame sync). In the 32-bit I2S data format the DAC will truncate the 8 LSBs and only use 24 bits. In the 16-bit I2S data format, 16 LSBs must be padded with zeros. 11.3. POWER ON AND OFF RESET 1.7 V – 3.6 V VDDB VPOR2 VPOR3 VPOR1 0V 1.7 V - 3.6 V POR 0V Figure 4: Power on and off Reset sequence The NAU8402 includes a power on and off reset circuit on chip. The circuit resets the internal logic control at VDDB power up. The NAU8402 does not have an external reset pin. The reset function is automatically generated internally when power supplies are too low for reliable operation. The internal reset is generated any time that VDDB is lower than is required for reliable maintenance of internal logic conditions. The reset threshold voltage for VDDB is approximately 0.5Vdc. Note that this is a much lower voltage than required for normal operation of the chip. The values are mentioned here as general guidance as to overall system design. If the VDDB supply is coming up, an internal reset condition is asserted once the VDDB supply reaches an internal threshold of VPOR1. During this time, all registers and controls are set to the hardware determined initial conditions. Externally applied clocks during this time will be ignored, and any expected actions will be invalid. emPowerAudio™ Datasheet Revision 1.62 Page 9 of 22 March 28, 2013 NAU8402 As VDDB, increases above the VPOR1 threshold, an internal reset pulse is generated which extends the reset condition for an additional time. The duration of this extended reset, time is approximately 50 microseconds to 100 microseconds, but may vary with the supply ramp rate. The reset condition remains asserted during this time. Once VDDB reaches a second threshold VPOR2, the internal reset will be de-asserted. If VDDB at any time becomes lower than its respective threshold voltage, a new reset condition will result. The reset condition will continue until VDDB is higher than the VPOR2 threshold. When VDDB reaches VPOR3 threshold during the power off ramp of VDDB, the internal reset will be asserted again. 11.4. DEVICE CLOCKING The NAU8402 requires the MCLK/FS ratio to be 256±3 or 512±3 MCLK cycles per FS. The NAU8402 has an automatic clock detection circuitry that validates the MCLK/FS ratio. The following table describes appropriate clock relationships. FS (kHz) BCLK (kHz) MCLK (MHz) MCLK/FS RATIO 24 44.1 44.1 48 48 96 1536 2822.4 2822.4 3072 3072 6144 12.288 11.290 22.579 12.288 24.576 24.576 512 256 512 256 512 256 Table 2: MCLK And Sample Rate Frequencies When the circuit detects a valid MCLK/FS ratio, the DAC clock starts running at f MCLK/4. However, the charge pump clock starts running at fMCLK/128 (96 KHz for 12.288 MHz master clock) immediately after MCLK is detected After a valid MCLK/FS ratio has been detected the line driver will powers up after a delay determined by the sampling rate according to the following table. FS (kHz) Line Driver Power Up Time (ms) 24 44.1 48 96 682 371 341 170 Table 3: Line Driver Power Up Delay All clocks run continuously after start up as long as MCLK remains present. FS and BCLK signals are internally synchronized to MCLK for clock detection and do not require external synchronization. emPowerAudio™ Datasheet Revision 1.62 Page 10 of 22 March 28, 2013 NAU8402 12.5 MUTE / UN-MUTE SEQUENCE AND OPERATING MODES All VDD’s 0V Remove power Apply power Stop MCLK Reset state Start MCLK Init Start FS & BCLK Mute complete Mute State Mute complete Valid MCLK/FS Ratio & /MUTE=1 & BCLK present Mute process Invalid MCLK/FS Ratio | BCLK absent & /MUTE=1 Instant Mute Process Valid MCLK/FS Ratio & /MUTE=0 & BCLK present Unmute process Unmute complete Normal mode: Outputs enabled MCLK=0 & FS=0 & /MUTE=0 & BCLK=0 Instant Mute State Figure 5: Mute / Un-mute Sequence The NAU8402 power-up sequence is as follows:  Apply power  Start MCLK, FS & BCLK  The device initializes in the mute state upon application of clocks. The device begins the un-mute process once all three un-mute conditions are met: o Valid MCLK/FS ratio of 256±3 or 512±3 MCLK cycles per FS has been detected. o BCLK is present. o /MUTE is high.  In the un-mute process, the line driver performs a soft un-mute. This will take 341ms for the initial un-mute after power up (see Table 3) and 2000 samples (42 ms for 48kHz FS) for any consecutive un-mute with the clocks running. Once the line driver has been un-muted, the digital volume ramps up from full digital mute to -127.5dB and then to full scale in 256 samples. .  After the un-mute process completes, the device enters normal mode with analog outputs enabled and remains there until any of the un-mute conditions are no longer true. emPowerAudio™ Datasheet Revision 1.62 Page 11 of 22 March 28, 2013 NAU8402 The NAU8402 has three mute sequences:  The device enters the Mute process when /MUTE is high and BCLK is absent or the MCLK/FS ratio is invalid. In the Mute process, the digital volume ramps from full scale to -127.5dB, and then to full digital mute, in 1K samples at 0.125 dB per step. Once the digital volume reaches 0, the line driver performs a soft mute in 2K samples. Note that the MCLK needs to keep running in order to keep the charge pump running during the mute process.  The device enters the Instant Mute Process when /MUTE is low and BCLK, FS & MCLK are valid. In the Instant Mute Process, the line driver output is muted instantly, while the digital volume ramps from full scale to -127.5dB, and then to full digital mute, in 1K samples at 0.125 dB per step. For minimal pops it is advised to send 8000 consecutive zero samples to the digital DAC input prior to entering the Instant Mute Process;  The device enters the Instant Mute State when all clocks are absent and /MUTE is low. Supply power may be removed after reaching the Instant Mute State. For minimal pops it is advised to send 8000 consecutive zero samples to the digital DAC input prior to entering the Instant Mute Process; Once the device is in the Mute State, the user may stop MCLK to enter the low power reset state. MCLK should not be stopped prior to full completion of the mute sequence. During the Mute State, the charge pump will continue to operate as long as the master clock is present. 12.6 POWER SUPPLY 12.6.1 VREF 3.3V VDDA 700k Ohm VREF PreCharge 700k Ohm 2.2uF VSSA Figure 6: VREF Connections The NAU8402 includes a mid-supply reference circuit. It is decoupled to VSSA through the VREF pin by means of a bypass capacitor. The VREF voltage is used as the DAC reference. Therefore, the bypass capacitor needs to be large in order to achieve good power supply rejection at low frequencies. Typically, a 2.2uF capacitor can be used to obtain good power supply rejection. However, a larger values can also be chosen. A larger value will increase the rise time of VREF and therefore it will delay the valid line output signal. Due to the high impedance nature of the VREF pin, it is important to use a low leakage decoupling capacitor. A pre-charge circuit pre-charges the capacitor close to VDDA/2 at power up in order to reduce the rise time for fast line out availability. emPowerAudio™ Datasheet Revision 1.62 Page 12 of 22 March 28, 2013 NAU8402 12.6.2 CHARGE PUMP The NAU8402 contains a charge pump to generate a negative supply for the ground referenced stereo line out DAC. The charge pump operates from the LINEVDD supply, which perform the following tasks.  Firstly, it connects the 220 nF CPC capacitor between CPCA & CPCB to the LINEVDD supply voltage.  Secondly, it discharges the CPC capacitor charge onto the CPOUT pin, which is decoupled through another 4.7uF capacitor. For optimal performance, connect the charge pump capacitors close to the pins. Increasing the CPOUT decoupling capacitor will help to reduce the supply ripple, but will increase the charge pump settling time. The charge pump starts running at fMCLK/128 (96 kHz for 12.288 MHz master clock) once MCLK has been applied. During the mute condition, the charge pump will continue to operate as long as the master clock is present. 12.6.3 POWER DOMAINS Figure 7: Power Domains The NAU8402 has two ground pins and three power supply pins. The VSSA ground pin is used to supply the low noise analog circuits, such as the DAC, the references and the line out drivers. The LINEGND pin supplies the switching circuits, such as the Charge pump, the digital inputs and the logic. The VDDA supply pin and supplies the DACs, references and line out drivers. VDDA needs to be connected to a low noise 3.3V +/- 10% supply voltage. The VREF reference is generated from VDDA and VSSA and is typically (VDDA+VSSA)/2. The LINEVDD supply pin supplies the Charge pump. LINEVDD needs to be connected to a 3.3V +/- 10% supply voltage. The charge pump provides the negative supply CPOUT for the line out drivers and is typically –LINEVDD. The VDDB supply pin supplies the digital input buffers and the logic LDO. VDDB needs to be connected to a 1.7V to 3.6V supply voltage. The logic LDO will turn on as soon as power is applied to VDDB and it will supply the internal POR and logic supply. emPowerAudio™ Datasheet Revision 1.62 Page 13 of 22 March 28, 2013 NAU8402 12. AUDIO INTERFACE TIMING DIAGRAM 12.1. AUDIO INTERFACE MODE TBCK TRISE TFALL BCLK TFSH TBCKH TFSH TBCKL TFSS TFSS FS TDIS TDIH DACIN Figure 8: Audio Interface Mode Timing Diagram SYMBOL DESCRIPTION MIN TYP MAX UNIT TBCK BSCK Cycle Time 50 --- --- ns TBCKH BSCK High Pulse Width 20 --- --- ns TBCKL BSCK Low Pulse Width 20 --- --- ns TFSS FS to BLCK Rising Setup Time 20 --- --- ns TFSH BCLK Rising Edge to FA Hold Time 20 --- --- ns TRISE Rise Time for All Audio Interface Signals --- --- 10 ns TFALL Fall Time for All Audio Interface Signals --- --- 10 ns TDIS DACIN to BLCK Rising Edge Setup Time 15 --- --- ns TDIH BCLK Rising Edge to DACIN Hold Time 15 --- --- ns Table 4: Audio Interface Timing Parameters emPowerAudio™ Datasheet Revision 1.62 Page 14 of 22 March 28, 2013 NAU8402 12.2. SYSTEM CLOCK (MCLK) TIMING DIAGRAM T MCLK MCLK T MCLKH T MCLKL Figure 9: MCLK Timing Diagram PARAMETER MCLK Cycle Time SYMBOL TMCLK TEST CONDITIONS MIN 40 TYP MAX UNIT ns MCLK High Pulse Width TMCLKH 16 --- --- ns MCLK Low Pulse Width TMCLKL 16 --- --- ns Table 5: MCLK Timing Parameter emPowerAudio™ Datasheet Revision 1.62 Page 15 of 22 March 28, 2013 NAU8402 13. FILTER CHARACTERISTICS 13.1. DIGITAL FILTER CHARACTERISTICS PARAMETER CONDITIONS MIN TYP MAX UNITS High Pass Filter 7.7x10 -5 fs -0.5dB 2.2x10 -4 fs -0.1dB 4.5x10 -4 fs -3dB High Pass Filter Corner Frequency DAC Filter +/- 0.035dB Passband 0 0.465 -6dB 0.5 Passband Ripple fs +/-0.035 Stopband Stopband Attenuation fs f > 0.546*fs dB 0.546 fs -55 dB Group Delay 28 1/fs Table 6: Digital Filter Characteristics TERMINOLOGY 1. Stop Band Attenuation (dB) – the degree to which the frequency spectrum is attenuated (outside audio band) 2. Pass-band Ripple – any variation of the frequency response in the pass-band region Figure 10: DAC Filter Frequency Response Figure 11: DAC Filter Ripple emPowerAudio™ Datasheet Revision 1.62 Page 16 of 22 March 28, 2013 NAU8402 0 -2 d B r -4 -6 10 20 30 Hz Figure 12: HPF Frequency Response 13.2. ANALOG FILTER CHARACTERISTICS PARAMETER ADC Filter Passband CONDITIONS -6dB MIN TYP MAX 0.20322 UNITS fmclk Table 7: Analog Filter Characteristics emPowerAudio™ Datasheet Revision 1.62 Page 17 of 22 March 28, 2013 NAU8402 14. TYPICAL APPLICATION 3.3V L AUDIO OUT VSSA VDDA VREF C6 2.2uF 1 2 3 NAU8402 STEREO 24-BIT DAC TSSOP16 16 LLINEOUT 15 RLINEOUT 14 CPOUT 13 CPCB R1 500 ohm VSS R AUDIO OUT R2 500 ohm C4 4.7uF MUTEb 4 FS 5 DACIN 6 11 CPCA BCLK 7 10 LINEVDD MCLK 8 9 12 C1 2700pF LINEGND C2 2700pF VSS VSS C3 220nF VDDB C5 4.7uF VSS Figure 13: Application Diagram Note 1: The NAU8402 L/R LINEOUT levels are (2.1 x 3.3/VDDA) Vrms. Using, the application circuit above, the 0dBFs level at the L & R AUDIO OUT terminals will be 2 Vrms, when a 10-kΏ load is applied. In order to estimate the output level variation, one should consider the VDDA supply voltage accuracy, the accuracy of the load and 500-Ώ resistance and the NAU8402 output level variation. Note 2: The 500-Ώ series resistor will effectively reduce the impact of glitches that may be present on line out connectors. In addition, the 500-Ώ 2700pF RC combination reduces the DAC out of band noise. The -3dB cut-off is at 118 kHz. Note 3: For optimum performance, separate the left and right lineout traces and RC network by a VSS trace on the PCB. emPowerAudio™ Datasheet Revision 1.62 Page 18 of 22 March 28, 2013 NAU8402 15. PACKAGE SPECIFICATION: TSSOP-16 emPowerAudio™ Datasheet Revision 1.62 Page 19 of 22 March 28, 2013 NAU8402 16. ORDERING INFORMATION Nuvoton Part Number Description NAU8402_ _ Package Material: G = Pb-free Package / Green Package Type: W = 16-Pin TSSOP Package 17. VERSION HISTORY VERSION DATE PAGE th 0.5 October 12 , DESCRIPTION Initial Revision 2010 0.8 1.1 th November 17 , 19 Added ordering part numbers for T&R and tray 2010 7 Added foot note for off sate power consumption 19 Changed ordering number to conform to the Audio Product part th December 10 , numbering system 2010 1.2 February, 2011 23, 24 16 Various 1.3 April, 2011 7 7, 8 June , 2011 Updated TFSS description Updated format and descriptions Updated THD+N Level typical Corrected Output Level min and max and Output offset typical 8 Updated Power Consumption Table 11 Corrected DAC Clock Output Level min and max 11, 14 1.4 Revised Mute / Un-mute sequences and diagram Clarified that Charge Pump clock starts with MCLK 17 Updated Digital Filter Characteristics 18 Added Analog Filter Characteristics 19 Updated Applications Diagram. CPOUT Capacitor changed. 21 Corrected ordering information 1 7, 8 8 19 Updated Block diagram and features list updated Corrected typical SNR, THD, and PSRR numbers, Updated Power Consumption Table Added note 3. Ground traces recommendation. emPowerAudio™ Datasheet Revision 1.62 Page 20 of 22 March 28, 2013 NAU8402 1.5 12 Updated the un-mute description. ‘In the un-mute process, the line driver performs a soft un-mute in 2K samples (42 ms for 48kHz FS). Once the line driver has been unmuted, the digital volume ramps up from full digital mute to -127.5dB and then to full scale in 256 samples.’ hanged to ‘In the un-mute process, the line driver performs a soft un-mute. This will take 341ms for the initial un-mute after power up (see Table 3) and 2000 samples (42 ms for 48kHz FS) for any consecutive un-mute with the clocks running. Once the line driver has been un-muted, the digital volume ramps up from full digital mute to -127.5dB and then to full scale in 256 samples .’ Remove the word “Preliminary” from footer 1.6 August, 2012 each 1.6.1 March 28, 2013 1 Added SR 44.1kHz supported in section 2 FEATURES 11 Added SR 44.1kHz in section 11.4 DEVICE CLOCKING 1 Updated AECQ100 description 1.6.2 Jan 9,2015 emPowerAudio™ Datasheet Revision 1.62 Page 21 of 22 March 28, 2013 NAU8402 Important Notice Nuvoton Products are neither intended nor warranted for usage in systems or equipment, any malfunction or failure of which may cause loss of human life, bodily injury or severe property damage. Such applications are deemed, “Insecure Usage”. Insecure usage includes, but is not limited to: equipment for surgical implementation, atomic energy control instruments, airplane or spaceship instruments, the control or operation of dynamic, brake or safety systems designed for vehicular use, traffic signal instruments, all types of safety devices, and other applications intended to support or sustain life. All Insecure Usage shall be made at customer’s risk, and in the event that third parties lay claims to Nuvoton as a result of customer’s Insecure Usage, customer shall indemnify the damages and liabilities thus incurred by Nuvoton. emPowerAudio™ Datasheet Revision 1.62 Page 22 of 22 March 28, 2013