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| a FEATURES 5 V Stereo Audio System with 3.3 V Tolerant Digital Interface Supports up to 96 kHz Sample Rates 192 kHz Sample Rate Available on 1 DAC Supports 16-, 20-, 24-Bit Word Lengths Multibit - Modulators with Perfect Differential Linearity Restoration for Reduced Idle Tones and Noise Floor Data Directed Scrambling DACs--Least Sensitive to Jitter Single-Ended Outputs ADCs: -95 dB THD + N, 105 dB SNR and Dynamic Range DACs: -92 dB THD + N, 108 dB SNR and Dynamic Range On-Chip Volume Controls per Channel with 1024-Step Linear Scale DAC and ADC Software Controllable Clickless Mutes Digital De-emphasis Processing Supports 256 fS, 512 fS, and 768 fS Master Mode Clocks Power-Down Mode Plus Soft Power-Down Mode Flexible Serial Data Port with Right-Justified, LeftJustified, I2S Compatible, and DSP Serial Port Modes TDM Interface Mode Supports 8 In/8 Out Using a Single SHARC(R) SPORT 52-Lead MQFP Plastic Package 2 ADC, 8 DAC, 96 kHz, 24-Bit - Codec AD1837A APPLICATIONS DVD Video and Audio Players Home Theater Systems Automotive Audio Systems Audio/Visual Receivers Digital Audio Effects Processors GENERAL DESCRIPTION The AD1837A is a high performance single-chip codec featuring four stereo DACs and one stereo ADC. Each DAC comprises a high performance digital interpolation filter, a multibit modulator featuring Analog Devices' patented technology, and a continuous-time voltage out analog section. Each DAC has independent volume control and clickless mute functions. The ADC comprises two 24-bit conversion channels with multibit S-D modulators and decimation filters. The AD1837A also contains an on-chip reference with a nominal value of 2.25 V. The AD1837A contains a flexible serial interface that allows for glueless connection to a variety of DSP chips, AES/EBU receivers, and sample rate converters. The AD1837A can be configured in left-justified, right-justified, I2S, or DSP compatible serial modes. Control of the AD1837A is achieved by means of an SPI compatible serial port. While the AD1837A can be operated from a single 5 V supply, it also features a separate supply pin for its digital interface, which allows the device to be interfaced to other devices using 3.3 V power supplies. The AD1837A is available in a 52-lead MQFP package and is specified for the industrial temperature range of -40C to +85C. FUNCTIONAL BLOCK DIAGRAM DVDD DVDD ODVDD ALRCLK ABCLK ASDATA CCLK CLATCH CIN COUT MCLK PD/RST M/S AVDD AVDD DLRCLK DBCLK DSDATA1 DSDATA2 DSDATA3 DSDATA4 SERIAL DATA I/O PORT CONTROL PORT VOLUME VOLUME VOLUME VOLUME CLOCK OUTL1 DIGITAL FILTER DAC OUTR1 OUTL2 DIGITAL FILTER DAC OUTR2 OUTL3 DIGITAL FILTER DAC OUTR3 OUTL4 DIGITAL FILTER DAC OUTR4 ADCLP ADCLN ADC DIGITAL FILTER VOLUME VOLUME VOLUME ADCRP ADCRN ADC DIGITAL FILTER VOLUME AD1837A VREF FILTD FILTR REV. A DGND DGND AGND AGND AGND AGND Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781/329-4700 www.analog.com Fax: 781/326-8703 (c) 2004 Analog Devices, Inc. All rights reserved. AD1837A-SPECIFICATIONS TEST CONDITIONS Supply Voltages (AVDD, DVDD) Ambient Temperature Input Clock ADC Input Signal DAC Input Signal Input Sample Rate (fS) Measurement Bandwidth Word Width Load Capacitance Load Impedance 5.0 V 25C 12.288 MHz, (256 fS Mode) 1.0078125 kHz, -1 dBFS (Full Scale) 1.0078125 kHz, 0 dBFS (Full Scale) 48 kHz 20 Hz to 20 kHz 24 Bits 100 pF 47 kW Performance of all channels is identical (exclusive of the Interchannel Gain Mismatch and Interchannel Phase Deviation specifications). Parameter ANALOG-TO-DIGITAL CONVERTERS ADC Resolution Dynamic Range (20 Hz to 20 kHz, -60 dB Input) No Filter With A-Weighted (48 kHz and 96 kHz) Total Harmonic Distortion + Noise (THD + N) fS = 48 kHz fS = 96 kHz Interchannel Isolation Interchannel Gain Mismatch Analog Inputs Differential Input Range ( Full Scale) Common-Mode Input Voltage Input Impedance Input Capacitance VREF DC Accuracy Gain Error Gain Drift DIGITAL-TO-ANALOG CONVERTERS DAC Resolution Dynamic Range (20 Hz to 20 kHz, -60 dBFS Input) No Filter With A-Weighted Filter (48 kHz and 96 kHz) Total Harmonic Distortion + Noise (48 kHz and 96 kHz) Interchannel Isolation DC Accuracy Gain Error Interchannel Gain Mismatch Gain Drift Interchannel Phase Deviation Volume Control Step Size (1023 Linear Steps) Volume Control Range (Maximum Attenuation) Mute Attenuation De-emphasis Gain Error Full-Scale Output Voltage at Each Pin (Single-Ended) Output Resistance at Each Pin Common-Mode Output Voltage ADC DECIMATION FILTER, 48 kHz* Pass Band Pass-Band Ripple Stop Band Stop-Band Attenuation Group Delay Min Typ 24 103 105 -95 -95 100 0.025 -2.828 2.25 4 15 2.25 5 35 24 103 105 105 108 -92 100 4 0.025 200 0.1 0.098 60 -100 0.1 1.0 (2.8) 180 2.25 21.77 0.01 26.23 120 910 -88.5 -87.5 Max Unit Bits dB dB dB dB dB dB V V kW pF V % ppm/C Bits dB dB dB dB % dB ppm/C Degrees % dB dB dB V rms (V p-p) W V kHz dB kHz dB ms 100 +2.828 -2- REV. A AD1837A Parameter ADC DECIMATION FILTER, 96 kHz* Pass Band Pass-Band Ripple Stop Band Stop-Band Attenuation Group Delay DAC INTERPOLATION FILTER, 48 kHz* Pass Band Pass-Band Ripple Stop Band Stop-Band Attenuation Group Delay DAC INTERPOLATION FILTER, 96 kHz* Pass Band Pass-Band Ripple Stop Band Stop-Band Attenuation Group Delay DAC INTERPOLATION FILTER, 192 kHz* Pass Band Pass-Band Ripple Stop Band Stop-Band Attenuation Group Delay DIGITAL I/O Input Voltage High Input Voltage Low Output Voltage High Output Voltage Low Leakage Current POWER SUPPLIES Supply Voltage (AVDD and DVDD) Supply Voltage (ODVDD) Supply Current IANALOG Supply Current IANALOG, Power-Down Supply Current IDIGITAL Supply Current IDIGITAL, Power-Down Dissipation Operation, Both Supplies Operation, Analog Supply Operation, Digital Supply Power-Down, Both Supplies Power Supply Rejection Ratio 1 kHz, 300 mV p-p Signal at Analog Supply Pins 20 kHz, 300 mV p-p Signal at Analog Supply Pins *Guaranteed by design. Specifications subject to change without notice. Min Typ 43.54 0.01 52.46 120 460 Max Unit kHz dB kHz dB ms 28 55 0.06 340 21.77 kHz dB kHz dB ms kHz dB kHz dB ms kHz dB kHz dB ms V V V V mA V V mA mA mA mA mW mW mW mW dB dB 52 55 0.06 160 43.54 97 80 0.06 110 81.2 2.4 0.8 ODVDD - 0.4 0.4 10 4.5 3.0 5.0 84 55 64 1 740 420 320 280 -70 -75 5.5 DVDD 95 67 74 4.5 REV. A -3- AD1837A TIMING SPECIFICATIONS Parameter MASTER CLOCK AND RESET MCLK High tMH tML MCLK Low tPDR PD/RST Low SPI(R) PORT tCCH tCCL tCCP tCDS tCDH tCLS tCLH tCOE tCOD tCOTS CCLK High CCLK Low CCLK Period CDATA Setup CDATA Hold CLATCH Setup CLATCH Hold COUT Enable COUT Delay COUT Three-State Min 15 15 20 40 40 80 10 10 10 10 15 20 25 Max Unit ns ns ns ns ns ns ns ns ns ns ns ns ns Comments To CCLK Rising Edge From CCLK Rising Edge To CCLK Rising Edge From CCLK Rising Edge From CLATCH Falling Edge From CCLK Falling Edge From CLATCH Rising Edge DAC SERIAL PORT (48 kHz and 96 kHz) Normal Mode (Slave) DBCLK High tDBH DBCLK Low tDBL fDB DBCLK Frequency tDLS DLRCLK Setup DLRCLK Hold tDLH tDDS DSDATA Setup DSDATA Hold tDDH Packed 128/256 Modes (Slave) DBCLK High tDBH tDBL DBCLK Low DBCLK Frequency fDB tDLS DLRCLK Setup tDLH DLRCLK Hold DSDATA Setup tDDS tDDH DSDATA Hold ADC SERIAL PORT (48 kHz and 96 kHz) Normal Mode (Master) tABD ABCLK Delay ALRCLK Delay tALD ASDATA Delay tABDD Normal Mode (Slave) ABCLK High tABH ABCLK Low tABL fAB ABCLK Frequency tALS ALRCLK Setup ALRCLK Hold tALH tABDD ASDATA Delay Packed 128/256 Mode (Master) ABCLK Delay tPABD tPALD LRCLK Delay tPABDD ASDATA Delay 60 60 64 10 10 10 10 15 15 256 10 10 10 10 ns ns fS ns ns ns ns ns ns fS ns ns ns ns To DBCLK Rising Edge From DBCLK Rising Edge To DBCLK Rising Edge From DBCLK Rising Edge To DBCLK Rising Edge From DBCLK Rising Edge To DBCLK Rising Edge From DBCLK Rising Edge 25 5 10 60 60 64 5 15 ns ns ns ns ns From MCLK Rising Edge From ABCLK Falling Edge From ABCLK Falling Edge fS 15 40 5 10 ns ns ns ns ns ns To ABCLK Rising Edge From ABCLK Rising Edge From ABCLK Falling Edge From MCLK Rising Edge From ABCLK Falling Edge From ABCLK Falling Edge -4- REV. A AD1837A Parameter TDM256 MODE (Master, 48 kHz and 96 kHz) tTBD BCLK Delay tFSD FSTDM Delay ASDATA Delay tTABDD DSDATA1 Setup tTDDS tTDDH DSDATA1 Hold TDM256 MODE (Slave, 48 kHz and 96 kHz) BCLK Frequency fAB tTBCH BCLK High BCLK Low tTBCL FSTDM Setup tTFS tTFH FSTDM Hold ASDATA Delay tTBDD DSDATA1 Setup tTDDS tTDDH DSDATA1 Hold TDM512 MODE (Master, 48 kHz) tTBD BCLK Delay FSTDM Delay tFSD ASDATA Delay tTABDD tTDDS DSDATA1 Setup tTDDH DSDATA1 Hold TDM512 MODE (Slave, 48 kHz) fAB BCLK Frequency tTBCH BCLK High BCLK Low tTBCL tTFS FSTDM Setup FSTDM Hold tTFH ASDATA Delay tTBDD tTDDS DSDATA1 Setup tTDDH DSDATA1 Hold AUXILIARY INTERFACE (48 kHz and 96 kHz) tAXDS AAUXDATA Setup AAUXDATA Hold tAXDH AUXBCLK Frequency fABP Slave Mode AUXBCLK High tAXBH AUXBCLK Low tAXBL tAXLS AUXLRCLK Setup AUXLRCLK Hold tAXLH Master Mode AUXLRCLK Delay tAUXLRCLK tAUXBCLK AUXBCLK Delay Specifications subject to change without notice. tMCLK Min Max 40 5 10 Unit ns ns ns ns ns Comments From MCLK Rising Edge From BCLK Rising Edge From BCLK Rising Edge To BCLK Falling Edge From BCLK Falling Edge 15 15 256 17 17 10 10 15 15 40 5 10 15 15 512 17 17 10 10 15 15 10 10 64 15 15 10 10 15 20 fS fS 15 ns ns ns ns ns ns ns ns ns ns ns ns To BCLK Falling Edge From BCLK Falling Edge From BCLK Rising Edge To BCLK Falling Edge From BCLK Falling Edge From MCLK Rising Edge From BCLK Rising Edge From BCLK Rising Edge To BCLK Falling Edge From BCLK Falling Edge 15 ns ns ns ns ns ns ns ns ns To BCLK Falling Edge From BCLK Falling Edge From BCLK Rising Edge To BCLK Falling Edge From BCLK Falling Edge To AUXBCLK Rising Edge From AUXBCLK Rising Edge fS ns ns ns ns ns ns To AUXBCLK Rising Edge From AUXBCLK Rising Edge From AUXBCLK Falling Edge From MCLK Rising Edge tMH MCLK tML PD/RST tPDR Figure 1. MCLK and PD/RST Timing REV. A -5- AD1837A ABSOLUTE MAXIMUM RATINGS* (TA = 25C, unless otherwise noted.) TEMPERATURE RANGE AVDD, DVDD, ODVDD to AGND, DGND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3 V to +6 V AGND to DGND . . . . . . . . . . . . . . . . . . . . -0.3 V to +0.3 V Digital I/O Voltage to DGND . . . -0.3 V to ODVDD + 0.3 V Analog I/O Voltage to AGND . . . . . -0.3 V to AVDD + 0.3 V Operating Temperature Range Industrial (A Version) . . . . . . . . . . . . . . . -40C to +85C *Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those listed in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Parameter Specifications Guaranteed Functionality Guaranteed Storage Min -40 -65 Typ 25 Max +85 +150 Unit C C C ORDERING GUIDE Model AD1837AAS AD1837AAS-REEL AD1837AASZ* AD1837AASZ-REEL* EVAL-AD1837AEB *Z = Pb free part. Temperature Range -40 C to +85 C -40oC to +85oC -40oC to +85oC -40oC to +85oC o o Package Description 52-Lead MQFP 52-Lead MQFP 52-Lead MQFP 52-Lead MQFP Evaluation Board Package Option S-52-1 S-52-1 S-52-1 S-52-1 CAUTION ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily accumulate on the human body and test equipment and can discharge without detection. Although the AD1837A features proprietary ESD protection circuitry, permanent damage may occur on devices subjected to high energy electrostatic discharges. Therefore, proper ESD precautions are recommended to avoid performance degradation or loss of functionality. -6- REV. A AD1837A PIN CONFIGURATION DSDATA4 DSDATA3 DSDATA2 DSDATA1 41 ASDATA ALRCLK ODVDD ABCLK DGND 52 51 50 49 48 47 46 45 44 43 42 40 DGND 39 DVDD 38 DBCLK 37 DLRCLK 36 M/S 35 AGND 34 OUTR4 33 NC 32 OUTL4 31 NC 30 AGND 29 AVDD 28 OUTR3 27 NC 26 DVDD CLATCH CIN PD/RST AGND NC OUTL1 NC OUTR1 1 2 3 4 5 6 7 8 9 AD1837A TOP VIEW (Not to Scale) AGND 10 AVDD 11 NC 12 OUTL2 13 14 15 16 17 18 19 20 21 22 23 24 25 FILTD FILTR MCLK COUT CCLK OUTR2 ADCLN ADCLP ADCRN NC = NO CONNECT PIN FUNCTION DESCRIPTIONS Pin Number 1, 39 2 3 4 5, 10, 16, 24, 30, 35 6, 12, 25, 31 7, 13, 26, 32 8, 14, 27, 33 9, 15, 28, 34 11, 19, 29 17 18 20 21 22 23 36 37 38 40, 52 41 to 44 45 46 47 48 49 50 51 REV. A Mnemonic DVDD CLATCH CIN PD/RST AGND NC OUTLx NC OUTRx AVDD FILTD FILTR ADCLN ADCLP ADCRN ADCRP M/S DLRCLK DBCLK DGND DSDATAx ABCLK ALRCLK MCLK ODVDD ASDATA COUT CCLK Input/ Output I I I Description Digital Power Supply. Connect to digital 5 V supply. Latch Input for Control Data. Serial Control Input. Power-Down/Reset. Analog Ground. Not Connected. DACx Left Channel Output. Not Connected. DACx Right Channel Output. Analog Power Supply. Connect to analog 5 V supply. Filter Capacitor Connection. Recommended 10 mF/100 nF. Reference Filter Capacitor Connection. Recommended 10 mF/100 nF. ADC Left Channel Negative Input. ADC Left Channel Positive Input. ADC Right Channel Negative Input. ADC Right Channel Positive Input. ADC Master/Slave Select. DAC LR Clock. DAC Bit Clock. Digital Ground. DACx Input Data (Left and Right Channels). ADC Bit Clock. ADC LR Clock. Master Clock Input. Digital Output Driver Power Supply. ADC Serial Data Output. Output for Control Data. Control Clock Input for Control Data. -7- O O I I I I I I/O I/O I I/O I/O I O O I ADCRP OUTL3 AGND AGND NC AVDD NC AD1837A -Typical Performance Characteristics 0 5 0 -5 -50 MAGNITUDE - dB MAGNITUDE - dB 0 5 10 15 -10 -15 -20 -100 -150 -25 -30 0 5 FREQUENCY - Normalized to fS 10 FREQUENCY - Hz 15 20 TPC 1. ADC Composite Filter Response TPC 4. ADC High-Pass Filter Response, fS = 96 kHz 0 5 0 -5 MAGNITUDE - dB -10 -15 -20 -25 -30 MAGNITUDE - dB -50 -100 -150 0 5 10 FREQUENCY - Hz 15 20 0 50 100 FREQUENCY - kHz 150 200 TPC 2. ADC High-Pass Filter Response, fS = 48 kHz TPC 5. DAC Composite Filter Response, fS = 48 kHz 0 0 MAGNITUDE - dB -50 MAGNITUDE - dB -50 -100 -100 -150 -150 0 0.5 1.0 1.5 2.0 0 50 100 FREQUENCY - kHz 150 200 FREQUENCY - Normalized to fS TPC 3. ADC Composite Filter Response (Pass-Band Section) TPC 6. DAC Composite Filter Response, fS = 96 kHz -8- REV. A AD1837A 0 0.2 -50 MAGNITUDE - dB MAGNITUDE - dB 0.1 0 -100 -0.1 -150 0 50 100 FREQUENCY - kHz 150 200 -0.2 0 10 20 30 FREQUENCY - kHz 40 50 TPC 7. DAC Composite Filter Response, fS = 192 kHz TPC 9. DAC Composite Filter Response, fS = 96 kHz (Pass-Band Section) 0.10 0.10 0.05 MAGNITUDE - dB 0.05 0 MAGNITUDE - dB 0 5 10 FREQUENCY - kHz 15 20 0 -0.05 -0.05 -0.10 -0.10 0 20 40 60 FREQUENCY - kHz 80 100 TPC 8. DAC Composite Filter Response, fS = 48 kHz (Pass-Band Section) TPC 10. DAC Composite Filter Response, fS = 192 kHz (Pass-Band Section) REV. A -9- AD1837A TERMINOLOGY Dynamic Range Gain Drift The ratio of a full-scale input signal to the integrated input noise in the pass band (20 Hz to 20 kHz), expressed in decibels (dB). Dynamic range is measured with a -60 dB input signal and is equal to (S/[THD + N]) + 60 dB. Note that spurious harmonics are below the noise with a -60 dB input, so the noise level establishes the dynamic range. The dynamic range is specified with and without an A-weight filter applied. Signal-to-(Total Harmonic Distortion + Noise) Change in response to a near full-scale input with a change in temperature, expressed as parts-per-million (ppm) per C. Crosstalk (EIAJ Method) Ratio of response on one channel with a grounded input to a full-scale 1 kHz sine wave input on the other channel, expressed in decibels. Power Supply Rejection [S/(THD + N)] The ratio of the root-mean-square (rms) value of the fundamental input signal to the rms sum of all other spectral components in the pass band, expressed in decibels (dB). Pass Band With no analog input, signal present at the output when a 300 mV p-p signal is applied to power supply pins, expressed in decibels of full scale. Group Delay The region of the frequency spectrum unaffected by the attenuation of the digital decimator's filter. Pass-Band Ripple Intuitively, the time interval required for an input pulse to appear at the converter's output, expressed in microseconds (ms). More precisely, the derivative of radian phase with respect to radian frequency at a given frequency. Group Delay Variation The peak-to-peak variation in amplitude response from equalamplitude input signal frequencies within the pass band, expressed in decibels. Stop Band The difference in group delays at different input frequencies. Specified as the difference between largest and the smallest group delays in the pass band, expressed in microseconds (ms). ACRONYMS The region of the frequency spectrum attenuated by the digital decimator's filter to the degree specified by stop-band attenuation. Gain Error ADC--Analog-to-Digital Converter. DAC--Digital-to-Analog Converter. DSP--Digital Signal Processor. IMCLK--Internal Master Clock Signal used to clock the ADC and DAC engines. MCLK--External Master Clock Signal applied to the AD1837A. With a near full-scale input, the ratio of actual output to expected output, expressed as a percentage. Interchannel Gain Mismatch With identical near full-scale inputs, the ratio of outputs of the two stereo channels, expressed in decibels. -10- REV. A AD1837A FUNCTIONAL OVERVIEW ADCs Table I. Coding Scheme There are two ADC channels in the AD1837A, configured as a stereo pair. Each ADC has fully differential inputs. The ADC section can operate at a sample rate of up to 96 kHz. The ADCs include on-board digital decimation filters with 120 dB stop-band attenuation and linear phase response, operating at an oversampling ratio of 128 (for 48 kHz operation) or 64 (for 96 kHz operation). ADC peak level information for each ADC may be read from the ADC Peak 0 and ADC Peak 1 registers. The data is supplied as a 6-bit word with a maximum range of 0 dB to -63 dB and a resolution of 1 dB. The registers will hold peak information until read; after reading, the registers are reset so that new peak information can be acquired. Refer to the register description for details on the format. The two ADC channels have a common serial bit clock and a left-right framing clock. The clock signals are all synchronous with the sample rate. The ADC digital pins, ABCLK and ALRCLK, can be set to operate as inputs or outputs by connecting the M/S pin to ODVDD or DGND, respectively. When the pins are set as outputs, the AD1837A will generate the timing signals. When the pins are set as inputs, the timing must be generated by the external audio controller. DACs Code 0111 . . . . 11111 0000 . . . . 00000 1000 . . . . 00000 AD1837A CLOCKING SCHEME Level +FS 0 (Ref Level) -FS By default, the AD1837A requires an MCLK signal that is 256 times the required sample frequency up to a maximum of 12.288 MHz. The AD1837A uses a clock scaler to double the clock frequency for internal use. The default setting of the clock scaler is multiply by two. The clock scaler can also be set to multiply by 1 (bypass) or multiply by 2/3. The internal MCLK signal, IMCLK, should not exceed 24.576 MHz in order to ensure correct operation. The MCLK of the AD1837A should remain constant during normal operation of the DAC and ADC. If it is required to change the MCLK rate, the AD1837A should be reset. Additionally, if MCLK scaler needs to be modified so that the IMCLK does not exceed 24.576 MHz, this should be done during the internal reset phase of the AD1837A by programming the bits in the first 3072 MCLK periods following the reset. Selecting DAC Sampling Rate The AD1837A has eight DAC channels arranged as four independent stereo pairs, with eight single-ended analog outputs for improved noise and distortion performance. Each channel has its own independently programmable attenuator, adjustable in 1024 linear steps. Digital inputs are supplied through four serial data input pins (one for each stereo pair) and a common frame (DLRCLK) and bit (DBLCK) clock. Alternatively, one of the packed data modes may be used to access all eight channels on a single TDM data pin. A stereo replicate feature is included where the DAC data sent to the first DAC pair is also sent to the other DACs in the part. The AD1837A can accept DAC data at a sample rate of 192 kHz on DAC 1 only. The stereo replicate feature can then be used to copy the audio data to the other DACs. Each of the output pins sits at a dc level of VREF and swings 1.4 V for a 0 dB digital input signal. A single op amp thirdorder external low-pass filter is recommended to remove high frequency noise present on the output pins. Note that the use of op amps with low slew rate or low bandwidth may cause high frequency noise and tones to fold down into the audio band; care should be exercised in selecting these components. The FILTD pin should be connected to an external grounded capacitor. This pin is used to reduce the noise of the internal DAC bias circuitry, thereby reducing the DAC output noise. In some cases, this capacitor may be eliminated with little affect on performance. DAC and ADC Coding The AD1837A DAC engine has a programmable interpolator that allows the user to select different interpolation rates based on the required sample rate and MCLK value available. Table II shows the settings required for sample rates based on a fixed MCLK of 12.288 MHz. Table II. DAC Sample Rate Settings Sample Rate 48 kHz 96 kHz 192 kHz Interpolator Rate 8x 4x 2x DAC Control 1 Register 000000xxxxxxxx00 000000xxxxxxxx01 000000xxxxxxxx10 Selecting an ADC Sample Rate The AD1837A ADC engine has a programmable decimator that allows the user to select the sample rate based on the MCLK value. By default, the output sample rate is IMCLK/ 512. To achieve a sample rate of IMCLK/256, the sample rate bit in the ADC Control 1 register should be set as shown in Table III. Table III. ADC Sample Rate Settings Sample Rate IMCLK/512 IMCLK/256 ADC Control 1 Register 1100000xx0xxxxxx (48 kHz) 1100000xx1xxxxxx (96 kHz) The DAC and ADC output data stream is in a twos complement encoded format. The word width can be selected from 16 bit, 20 bit, or 24 bit. The coding scheme is detailed in Table I. To maintain the highest performance possible, it is recommended that the clock jitter of the master clock signal be limited to less than 300 ps rms, measured using the edge-to-edge technique. Even at these levels, extra noise or tones may appear in the REV. A -11- AD1837A DAC ENGINE 48kHz/96kHz/192kHz INTERPOLATION FILTER S-D MODULATOR ANALOG OUTPUT DAC INPUT DAC CLOCK SCALING 1 MCLK 12.288MHz 2/3 2 IMCLK = 24.576MHz ADC ENGINE 48kHz/96kHz OPTIONAL HPF DECIMATOR/ FILTER S-D MODULATOR ANALOG INPUT ADC OUTPUT Figure 2. Modulator Clocking Scheme tCLS CLATCH tCCP tCCH tCCL tCLH tCOTS CCLK tCDS tCDH CIN D15 D14 D9 D8 D0 COUT tCOE D9 D8 D0 tCOD Figure 3. Format of SPI Timing DAC outputs if the jitter spectrum contains large spectral peaks. It is highly recommended that the master clock be generated by an independent crystal oscillator. In addition, it is especially important that the clock signal not be passed through an FPGA or other large digital chip before being applied to the AD1837A. In most cases, this will induce clock jitter due to the fact that the clock signal is sharing common power and ground connections with other unrelated digital output signals. Power-Down and RESET means of two ferrite beads in series with the bypass capacitor of each supply. It is important that the analog supply be as clean as possible. The internal voltage reference is brought out on the FILTR pin and should be bypassed as close as possible to the chip, with a parallel combination of 10 mF and 100 nF. The reference voltage may be used to bias external op amps to the common-mode voltage of the analog input and output signal pins. The current drawn from the VREF pin should be limited to less than 50 mA. Serial Control Port PD/RST powers down the chip and sets the control registers to their default settings. After PD/RST is de-asserted, an initialization routine runs inside the AD1837A to clear all memories to zero. This initialization lasts for approximately 20 LRCLK intervals. During this time, it is recommended that no SPI writes occur. Power Supply and Voltage Reference The AD1837A is designed for 5 V supplies. Separate power supply pins are provided for the analog and digital sections. These pins should be bypassed with 100 nF ceramic chip capacitors, as close to the pins as possible, to minimize noise pickup. A bulk aluminum electrolytic capacitor of at least 22 mF should also be provided on the same PC board as the codec. For critical applications, improved performance will be obtained with separate supplies for the analog and digital sections. If this is not possible, it is recommended that the analog and digital supplies be isolated by The AD1837A has an SPI compatible control port to permit programming the internal control registers for the ADCs and DACs and for reading the ADC signal levels from the internal peak detectors. The SPI control port is a 4-wire serial control port. The format is similar to the Motorola SPI format except the input data-word is 16 bits wide. The maximum serial bit clock frequency is 12.5 MHz and may be completely asynchronous to the sample rate of the ADCs and DACs. Figure 3 shows the format of the SPI signal. Serial Data Ports--Data Format The ADC serial data output mode defaults to the popular I2S format, where the data is delayed by one BCLK interval from the edge of the LRCLK. By changing Bits 6 to 8 in ADC REV. A -12- AD1837A Control Register 2, the serial mode can be changed to rightjustified (RJ), left-justified DSP (DSP), or left-justified (LJ). In the RJ mode, it is necessary to set Bits 4 and 5 to define the width of the data-word. The DAC serial data input mode defaults to I2S. By changing Bits 5, 6, and 7 in DAC Control Register 1, the mode can be changed to RJ, DSP, LJ, Packed Mode 1, or Packed Mode 2. The word width defaults to 24 bits but can be changed by reprogramming Bits 3 and 4 in DAC Control Register 1. Packed Modes Auxiliary (TDM) Mode A special auxiliary mode is provided to allow three external stereo ADCs to be interfaced to the AD1837A to provide 8-in/8-out operation. In addition, this mode supports glueless interface to a single SHARC(R) DSP serial port, allowing a SHARC DSP to access all eight channels of analog I/O. In this special mode, many pins are redefined; see Table IV for a list of redefined pins. The auxiliary and the TDM interfaces are independently configurable to operate as masters or slaves. When the auxiliary interface is set as a master, by programming the Auxiliary Mode bit in ADC Control Register 2, AUXLRCLK and AUXBCLK are generated by the AD1837A. When the auxiliary interface is set as a slave, AUXLRCLK and AUXBCLK need to be generated by an external ADC, as shown in Figure 13. The TDM interface can be set to operate as a master or slave by connecting the M/S pin to DGND or ODVDD, respectively. In master mode, the FSTDM and BCLK signals are outputs generated by the AD1837A. In slave mode, FSTDM and BCLK are inputs and should be generated by the SHARC. Both 48 kHz and 96 kHz operations are available (based on a 12.288 MHz or 24.576 MHz MCLK) in this mode. The AD1837A packed mode allows a DSP or other controller to write to all DACs and read all ADCs using one input data pin and one output data pin. Packed Mode 256 refers to the number of BCLKs in each frame. The LRCLK is low while data from a left channel DAC or ADC is on the data pin and high while data from a right channel DAC or ADC is on the data pin. DAC data is applied on the DSDATA1 pin, and ADC data is available on the ASDATA pin. Figures 7 to 10 show the timing for the packed mode. Packed mode is available for 48 kHz and 96 kHz. LRCLK BCLK SDATA MSB LEFT CHANNEL RIGHT CHANNEL LSB MSB LSB LEFT-JUSTIFIED MODE--16 BITS TO 24 BITS PER CHANNEL LRCLK BCLK SDATA MSB LEFT CHANNEL RIGHT CHANNEL LSB MSB LSB I2S MODE--16 BITS TO 24 BITS PER CHANNEL LRCLK BCLK SDATA MSB LEFT CHANNEL RIGHT CHANNEL LSB MSB LSB RIGHT-JUSTIFIED MODE--SELECT NUMBER OF BITS PER CHANNEL LRCLK BCLK SDATA MSB LSB MSB LSB DSP MODE-- 16 BITS TO 24 BITS PER CHANNEL 1/fS NOTES 1. DSP MODE DOES NOT IDENTIFY CHANNEL. 2. LRCLK NORMALLY OPERATES AT fS EXCEPT FOR DSP MODE, WHICH IS 2 fS. 3. BCLK FREQUENCY IS NORMALLY 64 LRCLK BUT MAY BE OPERATED IN BURST MODE. Figure 4. Stereo Serial Modes REV. A -13- AD1837A ABCLK tABL tALS ALRCLK tABDD tALH ASDATA LEFT-JUSTIFIED MODE MSB MSB-1 ASDATA I2S COMPATIBLE MODE MSB ASDATA RIGHT-JUSTIFIED MODE MSB LSB Figure 5. ADC Serial Mode Timing tDBH DBCLK tDBL tDLS DLRCLK tDLH DSDATA LEFT-JUSTIFIED MODE tDDS MSB MSB-1 tDDH tDDS MSB DSDATA I2S COMPATIBLE MODE tDDH tDDS MSB DSDATA RIGHT-JUSTIFIED MODE tDDS LSB tDDH tDDH Figure 6. DAC Serial Mode Timing -14- REV. A AD1837A LRCLK 128 BCLKs BCLK 16 BCLKs ADC DATA SLOT 1 LEFT SLOT 2 SLOT 3 SLOT 4 SLOT 5 RIGHT SLOT 6 SLOT 7 SLOT 8 MSB MSB - 1 MSB - 2 Figure 7a. ADC Packed Mode 128 LRCLK 256 BCLKs BCLK 32 BCLKs ADC DATA SLOT 1 LEFT SLOT 2 SLOT 3 SLOT 4 SLOT 5 RIGHT SLOT 6 SLOT 7 SLOT 8 MSB MSB - 1 MSB - 2 Figure 7b. ADC Packed Mode 256 LRCLK 128 BCLKs BCLK 16 BCLKs DAC DATA SLOT 1 LEFT 1 SLOT 2 LEFT 2 SLOT 3 LEFT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7 SLOT 8 LEFT 4 RIGHT 1 RIGHT 2 RIGHT 3 RIGHT 4 MSB MSB - 1 MSB - 2 Figure 8a. DAC Packed Mode 128 LRCLK 256 BCLKs BCLK 32 BCLKs DAC DATA SLOT 1 LEFT 1 SLOT 2 LEFT 2 SLOT 3 LEFT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7 SLOT 8 LEFT 4 RIGHT 1 RIGHT 2 RIGHT 3 RIGHT 4 MSB MSB - 1 MSB - 2 Figure 8b. DAC Packed Mode 256 REV. A -15- AD1837A tABH ABCLK DBCLK tDBH tABL tALS ALRCLK DLRCLK tDBL tDLS tALH ASDATA tDLH tABDD DSDATA tDDS MSB MSB - 1 MSB MSB - 1 tDDH Figure 9. ADC Packed Mode Timing Figure 10. DAC Packed Mode Timing -16- REV. A AD1837A Table IV. Pin Function Changes in Auxiliary Mode Pin Name ASDATA (O) DSDATA1 (I) DSDATA2 (I)/AAUXDATA1 (I) DSDATA3 (I)/AAUXDATA2 (I) DSDATA4 (I)/AAUXDATA3 (I) ALRCLK (O) ABCLK (O) DLRCLK (I)/AUXLRCLK (I/O) I2S Mode I2S Data Out, Internal ADC I2S Data In, Internal DAC1 I2S Data In, Internal DAC2 I2S Data In, Internal DAC3 I2S Data In, Internal DAC4 LRCLK for ADC BCLK for ADC LRCLK In/Out Internal DACs Auxiliary Mode TDM Data Out to SHARC. TDM Data In from SHARC. AUX-I2S Data In 1 (from External ADC). AUX-I2S Data In 2 (from External ADC). AUX-I2S Data In 3 (from External ADC). TDM Frame Sync Out to SHARC (FSTDM). TDM BCLK Out to SHARC. AUX LRCLK In/Out. Driven by external LRCLK from ADC in slave mode. In master mode, driven by MCLK/512. AUX BCLK In/Out. Driven by external BCLK from ADC in slave mode. In master mode, driven by MCLK/8. DBCLK (I)/AUXBCLK (I/O) BCLK In/Out Internal DACs FSTDM BCLK TDM MSB TDM MSB TDM 8TH CH TDM INTERFACE ASDATA1 TDM (OUT) 1ST CH ASDATA INTERNAL ADC L1 AUX_ADC L2 AUX_ADC L3 AUX_ADC L4 INTERNAL ADC R1 AUX_ADC R2 AUX_ADC R3 AUX_ADC R4 32 MSB TDM MSB TDM 8TH CH DSDATA1 TDM (IN) 1ST CH DSDATA1 INTERNAL DAC L1 INTERNAL DAC L2 INTERNAL DAC L3 INTERNAL DAC L4 INTERNAL DAC R1 INTERNAL DAC R2 INTERNAL DAC R3 INTERNAL DAC R4 32 AUX LRCLK I2S (FROM AUX ADC NO. 1) AUX BCLK I2S (FROM AUX ADC NO. 1) AAUXDATA1 (IN) (FROM AUX ADC NO. 1) AAUXDATA2 (IN) (FROM AUX ADC NO. 2) LEFT RIGHT AUX - I2S INTERFACE I2S - MSB LEFT I2S - MSB RIGHT I2S - MSB LEFT I2S - MSB RIGHT AAUXDATA3 (IN) (FROM AUX ADC NO. 3) I2S - MSB LEFT I2S - MSB RIGHT AUX BCLK FREQUENCY IS 64 FRAME RATE; TDM BCLK FREQUENCY IS 256 FRAME RATE. Figure 11. Auxiliary Mode Timing REV. A -17- AD1837A 30MHz TFS (NC) RxDATA RxCLK LRCLK ADC NO. 1 SLAVE BCLK DATA MCLK LRCLK ADC NO. 2 SLAVE BCLK DATA MCLK DBCLK/AUXBCLK DLRCLK/AUXLRCLK LRCLK ADC NO. 3 SLAVE BCLK DATA MCLK DSDATA2/AAUXDATA1 DSDATA3/AAUXDATA2 DSDATA4/AAUXDATA3 MCLK ASDATA FSTDM BCLK DSDATA1 AD1837A MASTER Figure 12. Auxiliary Mode Connection (Master Mode) to SHARC 30MHz FSYNC-TDM (RFS) TxDATA 12.288MHz FSYNC-TDM (RFS) SHARC SHARC IS ALWAYS RUNNING IN SLAVE MODE (INTERRUPT DRIVEN). TxCLK SHARC SHARC IS ALWAYS RUNNING IN SLAVE MODE (INTERRUPT DRIVEN). TFS (NC) RxDATA RxCLK LRCLK ADC NO. 1 MASTER BCLK DATA MCLK LRCLK ADC NO. 2 SLAVE BCLK DATA MCLK DBCLK/AUXBCLK LRCLK ADC NO. 3 SLAVE BCLK DATA MCLK DLRCLK/AUXLRCLK DSDATA2/AAUXDATA1 DSDATA3/AAUXDATA2 DSDATA4/AAUXDATA3 MCLK ASDATA FSTDM BCLK DSDATA1 AD1837A SLAVE Figure 13. Auxiliary Mode Connection (Slave Mode) to SHARC -18- TxDATA 12.288MHz TxCLK REV. A AD1837A CONTROL/STATUS REGISTERS DAC Volume Control The AD1837A has 15 control registers, 13 of which are used to set the operating mode of the part. The other two registers, ADC Peak 0 and ADC Peak 1, are read-only and should not be programmed. Each of the registers is 10 bits wide with the exception of the ADC peak reading registers which are six bits wide. Writing to a control register requires a 16-bit data frame to be transmitted. Bits 15 to 12 are the address bits of the required register. Bit 11 is a read/write bit. Bit 10 is reserved and should always be programmed to 0. Bits 9 to 0 contain the 10-bit value that is to be written to the register or, in the case of a read operation, the 10-bit register contents. Figure 3 shows the format of the SPI read and write operation. DAC CONTROL REGISTERS Each DAC in the AD1837A has its own independent volume control. The volume of each DAC can be adjusted in 1024 linear steps by programming the appropriate register. The default value for this register is 1023, which provides no attenuation, i.e., full volume. ADC CONTROL REGISTERS The AD1837A register map has five registers that are used to control the functionality and read the status of the ADCs. The function of the bits in each of these registers is discussed in the following sections. ADC Peak Level The AD1837A register map has 10 registers that control the functionality of the DAC section of the part. The function of the bits in these registers is discussed in the following sections. Sample Rate These bits control the sample rate of the DACs. Based on a 24.576 MHz IMCLK, sample rates of 48 kHz, 96 kHz, and 192 kHz are available. The MCLK scaling bits in ADC Control 3 should be programmed appropriately, based on the master clock frequency. Power-Down/Reset These two registers store the peak ADC result from each channel when the ADC peak readback function is enabled. The peak result is stored as a 6-bit number from 0 dB to -63 dB in 1 dB steps. The value contained in the register is reset once it has been read, allowing for continuous level adjustment as required. Note that the ADC peak level registers use the 6 MSB in the register to store the results. Sample Rate This bit controls the power-down status of the DAC section. By default, normal mode is selected, but by setting this bit, the digital section of the DAC stage can be put into a low power mode, thus reducing the digital current. The analog output section of the DAC stage is not powered down. DAC Data-Word Width This bit controls the sample rate of the ADCs. Based on a 24.576 MHz IMCLK, sample rates of 48 kHz and 96 kHz are available. The MCLK scaling bits in ADC Control Register 3 should be programmed appropriately based on the master clock frequency. ADC Power-Down This bit controls the power-down status of the ADC section and operates in a similar manner to the DAC power-down. High-Pass Filter These two bits set the word width of the DAC data. Compact disc (CD) compatibility may require 16 bits, but many modern digital audio formats require 24-bit sample resolution. DAC Data Format The ADC signal path has a digital high-pass filter. Enabling this filter removes the effect of any dc offset in the analog input signal from the digital output codes. ADC Data-Word Width The AD1837A serial data interface can be configured to be compatible with a choice of popular interface formats including I2S, LJ, RJ, or DSP modes. Details of these interface modes are given in the Serial Data Port section of this data sheet. De-emphasis These two bits set the word width of the ADC data. ADC Data Format The AD1837A serial data interface can be configured to be compatible with a choice of popular interface formats, including I2S, LJ, RJ, or DSP modes. Master/Slave Auxiliary Mode The AD1837A provides built-in de-emphasis filtering for the three standard sample rates of 32.0 kHz, 44.1 kHz, and 48 kHz. Mute DAC Each of the eight DACs in the AD1837A has its own independent mute control. Setting the appropriate bit mutes the DAC output. The AD1837A uses a clickless mute function that attenuates the output to approximately -100 dB over a number of cycles. Stereo Replicate When the AD1837A is operating in the auxiliary mode, the auxiliary ADC control pins, AUXBCLK and AUXLRCLK, that connect to the external ADCs, can be set to operate as a master or slave. If the pins are set in slave mode, one of the external ADCs should provide the LRCLK and BCLK signals. ADC Peak Readback Setting this bit copies the digital data sent to the stereo pair DAC1 to the three other stereo DACs in the system. This allows all four stereo DACs to be driven by one digital data stream. Note that in this mode, DAC data sent to the other DACs is ignored. Setting this bit enables ADC peak reading. See the ADCs section for more information. REV. A -19- AD1837A Table V. Control Register Map Register Address 0000 0001 0010 0011 0100 0101 0110 0111 1000 1001 1010 1011 1100 1101 1110 1111 Register Name Description DACCTRL1 DACCTRL2 DACVOL1 DACVOL2 DACVOL3 DACVOL4 DACVOL5 DACVOL6 DACVOL7 DACVOL8 ADCPeak0 ADCPeak1 ADCCTRL1 ADCCTRL2 ADCCTRL3 Reserved DAC Control 1 DAC Control 2 DAC Volume--Left 1 DAC Volume--Right 1 DAC Volume--Left 2 DAC Volume--Right 2 DAC Volume--Left 3 DAC Volume--Right 3 DAC Volume--Left 4 DAC Volume--Right 4 ADC Left Peak ADC Right Peak ADC Control 1 ADC Control 2 ADC Control 3 Reserved Type R/W R/W R/W R/W R/W R/W R/W R/W R/W R/W R R R/W R/W R/W R/W Width 10 10 10 10 10 10 10 10 10 10 6 6 10 10 10 10 Reset Setting (Hex) 000 000 3FF 3FF 3FF 3FF 3FF 3FF 3FF 3FF 000 000 000 000 000 Reserved Table VI. DAC Control 1 Function Address R/W W RES De-emphasis DAC Data Format DAC DataWord Width Power-Down Reset Sample Rate 15, 14, 13, 12 11 0000 0 10 0 9, 8 00 = None 01 = 44.1 kHz 10 = 32.0 kHz 11 = 48.0 kHz 7, 6, 5 000 = I S 001 = RJ 010 = DSP 011 = LJ 100 = Packed 256 101 = Packed 128 110 = Reserved 111 = Reserved 2 4, 3 00 = 24 Bits 01 = 20 Bits 10 = 16 Bits 11 = Reserved 2 0 = Normal 1 = Power-Down 1, 0 00 = 48 kHz 01 = 96 kHz 10 = 192 kHz 11 = 48 kHz Table VII. DAC Control 2 Function MUTE DAC OUTR4 OUTL4 OUTR3 OUTL3 OUTR2 OUTL2 OUTR1 OUTL1 Address R/W RES RES W Stereo Replicate 15, 14, 13, 12 0001 11 0 10 0 9 0 8 7 6 5 4 3 2 1 0 0 = Off 0 = On 0 = On 0 = On 0 = On 0 = On 0 = On 0 = On 0 = On 1 = Replicate 1 = Mute 1 = Mute 1 = Mute 1 = Mute 1 = Mute 1 = Mute 1 = Mute 1 = Mute -20- REV. A AD1837A Table VIII. DAC Volume Control Table IX. ADC Peak Function Address 15, 14, 13, 12 0010 = DACL1 0011 = DACR1 0100 = DACL2 0101 = DACR2 0110 = DACL3 0111 = DACR3 1000 = DACL4 1001 = DACR4 R/W 11 0 RES 10 0 DAC Volume 9, 8, 7, 6, 5, 4, 3, 2, 1, 0 0000000000 = Mute 0000000001 = 1/1023 0000000010 = 2/1023 1111111110 = 1022/1023 1111111111 = 1023/1023 Address 15, 14, 13, 12 Function R/W RES Six Data Bits 11 10 0 9, 8, 7, 6, 5, 4 000000 = 0 dBFS 000001 = -1 dBFS 000010 = -2 dBFS Four Fixed Bits 3, 2, 1, 0 0000 These four bits are always zero. 1010 = Left ADC 1 1011 = Right ADC 111111 = -63 dBFS Table X. ADC Control 1 Function Address R/W RES Reserved Filter ADC Power-Down Sample Rate Reserved 15, 14, 13, 12 1100 11 0 10 0 9 0 8 0 = All Pass 1 = High-Pass 7 0 = Normal 1 = Power-Down 6 0 = 48 kHz 1 = 96 kHz 5, 4, 3, 2, 1, 0 0, 0, 0, 0, 0, 0 0, 0, 0, 0, 0, 0 Table XI. ADC Control 2 Function Address R/W RES RES Master/Slave Aux Mode ADC Data Format ADC DataWord Width Reserved ADC MUTE Right Left 15, 14, 13, 12 1101 11 0 10 0 9 0 = Slave 1 = Master 8, 7, 6 000 = I S 001 = RJ 010 = DSP 011 = LJ 100 = Packed 256 101 = Packed 128 110 = Auxiliary 256 111 = Auxiliary 512 2 5, 4 00 = 24 Bits 01 = 20 Bits 10 = 16 Bits 11 = Reserved 3, 2 0, 0 1 0 = On 1 = Mute 0 0 = On 1 = Mute Table XII. ADC Control 3 Function R/W RES IMCLK Reserved Clocking Scaling ADC Peak Readback DAC Test Mode ADC Test Mode Address RES 15, 14, 13, 12 1110 11 0 10 0 9, 8 0, 0 7, 6 00 = MCLK 01 = MCLK 10 = MCLK 11 = MCLK 2 2/3 2 5 4, 3, 2 1, 0 0 = Disabled Peak Readback 000 = Normal Mode 00 = Normal Mode 1 = Enabled Peak Readback All others reserved All others reserved REV. A -21- AD1837A CASCADE MODE Dual AD1837A Cascade The AD1837A can be cascaded to an additional AD1837A, which, in addition to six external stereo ADCs, can be used to create a 32-channel audio system with 16 inputs and 16 outputs. The cascade is designed to connect to a SHARC DSP and operates in a time division multiplexing (TDM) format. Figure 14 shows the connection diagram for cascade operation. The digital interface for both parts must be set to operate in Auxiliary 512 mode by programming ADC Control Register 2. AD1837A No. 1 is set as a master device by connecting the M/S pin to DGND and AD1837A No.2 is set as a slave device by connecting the M/S to ODVDD. Both devices should be run from the same MCLK and PD/RST signals to ensure that they are synchronized. With Device 1 set as a master, it will generate the frame-sync and bit clock signals. These signals are sent to the SHARC and Device 2 ensuring that both know when to send and receive data. The cascade can be thought of as two 256-bit shift registers, one for each device. At the beginning of a sample interval, the shift registers contain the ADC results from the previous sample interval. The first shift register (Device 1) clocks data into the SHARC and also clocks in data from the second shift register (Device 2). While this is happening, the SHARC is sending DAC data to the second shift register. By the end of the sample interval, all 512 bits of ADC data in the shift registers will have been clocked into the SHARC and been replaced by DAC data, which is subsequently written to the DACs. Figure 15 shows the timing diagram for the cascade operation. AUX ADC (SLAVE) LRCLK DOUT BCLK AUX ADC (SLAVE) LRCLK DOUT BCLK AUX ADC (SLAVE) LRCLK DOUT BCLK AUX ADC (SLAVE) LRCLK DOUT BCLK AUX ADC (SLAVE) LRCLK DOUT BCLK AUX ADC (SLAVE) LRCLK DOUT BCLK AUXLRCLK AUXDATA1 AUXDATA2 AUXDATA3 AD1837A NO. 1 (MASTER) AUXLRCLK AUXDATA1 AUXDATA2 AUXDATA3 AUXBCLK AUXBCLK AD1837A NO. 2 (SLAVE) SHARC (SLAVE) DRx RFSx RCLKx TFSx TCLKx DTx ASDATA ALRCLK ABCLK DSDATA ASDATA ALRCLK ABCLK DSDATA Figure 14. AD1837A Cascade 256 ABCLKs TFSx/ RFSx AD1837A NO. 1 DACs DTx L1 L2 L3 L4 R1 R2 R3 R4 L1 L2 AD1837A NO. 2 DACs L3 L4 R1 R2 R3 R4 256 ABCLKs AD1837A NO. 1 ADCs DRx L1 L2 L3 L4 R1 R2 R3 R4 L1 L2 AD1837A NO. 2 ADCs L3 L4 R1 R2 R3 R4 ABCLK DTx DRx MSB MSB MSB - 1 MSB - 1 LSB LSB 32 ABCLKs DON'T CARE Figure 15. AD1837A Cascade Timing -22- REV. A AD1837A AUDIO INPUT 600Z 47 F 5.76k + 100pF NPO 5.76k 120pF NPO 11k 237 OP275 ADCxN 1nF NPO 100pF NPO 1nF NPO VBIAS (2.25V) 3.01k 11k 270pF NPO 68pF NPO VREF OP275 604 560pF NPO OUTx 5.62k 5.62k 1.5k 150pF NPO AUDIO OUTPUT 2.2nF NPO 5.76k 5.76k 750k OP275 237 ADCxP VREF Figure 16. Typical ADC Input Filter Circuit Figure 17. Typical DAC Output Filter Circuit REV. A -23- AD1837A OUTLINE DIMENSIONS 52-Lead Metric Quad Flat Package [MQFP] (S-52-1) Dimensions shown in millimeters 13.45 13.20 SQ 12.95 39 27 26 1.03 0.88 0.73 2.45 MAX SEATING PLANE 40 2.20 2.00 1.80 0.25 MAX 10 6 2 7.80 REF 0.23 0.11 VIEW A 7 0 0.13 MIN COPLANARITY PIN 1 52 1 TOP VIEW (PINS DOWN) 10.20 10.00 SQ 9.80 14 13 0.65 BSC 0.40 0.22 COMPLIANT TO JEDEC STANDARDS MS-022-AC. Revision History Location 1/04--Data Sheet changed from REV. 0 to REV. A. Page Changes to ORDERING GUIDE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Deleted Clock Signals section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Added AD1835A CLOCKING SCHEME section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Added Table II and Table III and renumbered following tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Changes to Auxiliary (TDM Mode) section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Changes to Figure 5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Changes to Figure 6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Added Figures 7a and 8a . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Renumbered Figure 7 and Figure 8 to Figure 7b and Figure 8b . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Changes to Figure 9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Changes to Table VIII . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Updated OUTLINE DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 -24- REV. A C02733-0-1/04(A) |
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