LM4548 AC ’97 Rev 2 Codec with Sample Rate Conversion and National 3D Sound General Description Key Specifications The LM4548 is an audio codec for PC systems which is fully PC98 compliant and performs the analog intensive functions of the AC97 Rev2 architecture. Using 18-bit Sigma-Delta A/D’s and D/A’s, the LM4548 provides 90dB of Dynamic Range. The LM4548 was designed specifically to provide a high quality audio path and provide all analog functionality in a PC audio system. It features full duplex stereo A/D’s and D/A’s and an analog mixer with 4 stereo and 3 mono inputs, each of which has separate gain, attenuation and mute control. The LM4548 also provides the additional True Line-Level output and National’s 3D Sound stereo enhancement. The LM4548 supports variable sample rate conversion as defined in the AC97 Rev2 specification. The sample rate for the A/D and D/A can be programmed separately to convert any rate between 4kHz - 48kHz with a resolution of 1Hz. The AC97 architecture separates the analog and digital functions of the PC audio system allowing both for system design flexibility and increased performance. n Analog Mixer Dynamic Range 97dB (typ) n D/A Dynamic Range 89dB (typ) n A/D Dynamic Range 90dB (typ) Features n AC’97 Rev2 compliant n National’s 3D Sound circuitry n High quality Sample Rate Conversion (SRC) from 4kHz to 48kHz in 1Hz increments. n Multiple Codec Support n True Line Level Output with volume control in addition to standard Line Out n Advanced power management support n Digital 3V and 5V compliant Applications n Desktop PC Audio Systems n Portable PC Systems n Mobile PC Systems Block Diagram DS100987-1 FIGURE 1. LM4548 Block Diagram © 1999 National Semiconductor Corporation DS100987 www.national.com LM4548 AC ’97 Rev 2 Codec with Sample Rate Conversion and National 3D Sound February 1999 Absolute Maximum Ratings (Note 3) Soldering Information TQFP Package If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. Supply Voltage −40˚C to +150˚C Input Voltage −0.3V to VDD +0.3V ESD Susceptibility (Note 5) pins 27, 28 pin 3 Junction Temperature 74˚C/W Operating Ratings 750V ESD Susceptibility (Note 6) 220˚C θJA (typ) — VBH48A 2500V 1500V pin 3 215˚C Infrared (15 sec.) See AN-450 ″Surface Mounting and their Effects on Product Reliability″ for other methods of soldering surface mount devices. 6.0V Storage Temperature Vapor Phase (60 sec.) Temperature Range 200V 100V TMIN ≤ TA ≤ TMAX −40˚C ≤ TA ≤ 85˚C 150˚C Analog Supply Range 4.2V ≤ AVDD ≤ 5.5V 3.0V ≤ DVDD ≤ 5.5V Digital Supply Range Electrical Characteristics (Notes 1, 3) The following specifications apply for AVDD = 5V, DVDD = 5V, Fs = 48kHz, single codec configuration, unless otherwise noted. Limits apply for TA= 25˚C. The reference for 0dB is 1Vrms unless otherwise specified. Symbol Parameter Conditions Typical (Note 7) AVDD DVDD Units (Limits) LM4548 Analog Supply Range Digital Supply Range Limit (Note 8) 4.2 V (min) 5.5 V (max) 3.0 V (min) 5.5 V (max) DIDD Digital Quiescent Power Supply Current AIDD Analog Quiescent Power Supply Current IDSD Digital Shutdown Current 500 µA IASD Analog Shutdown Current 30 µA VREF Reference Voltage PSRR Power Supply Rejection Ratio DVDD = 5V 43 mA DVDD = 3.3V 20 mA 53 mA 2.23 V 40 dB Analog Loopthru Mode THD Dynamic Range (Note 2) CD Input to Line Output, -60dB Input THD+N, A-Weighted Total Harmonic Distortion VO = -3dB, f = 1kHz, RL = 10kΩ 97 90 dB (min) 0.01 0.02 % (max) Analog Input Section VIN Line Input Voltage 1 Vrms Mic Input with 20dB Gain 0.1 Vrms Mic Input with 0dB Gain 1 Vrms Xtalk Crosstalk ZIN Input Impedance(Note 2) CIN Input Capacitance CD Left to Right -95 40 dB 10 kΩ (min) 15 pF CD Left to Right 0.01 dB Step Size 0dB to 22.5dB 1.5 dB AS Step Size +12dB to -34.5dB 1.5 dB AM Mute Attenuation 86 dB 18 Bits Interchannel Gain Mismatch Record Gain Amplifier - A/D AS Mixer Section Analog to Digital Converters Resolution www.national.com 2 Electrical Characteristics (Notes 1, 3) (Continued) The following specifications apply for AVDD = 5V, DVDD = 5V, Fs = 48kHz, single codec configuration, unless otherwise noted. Limits apply for TA= 25˚C. The reference for 0dB is 1Vrms unless otherwise specified. Symbol Parameter Conditions Units (Limits) LM4548 Typical (Note 7) Limit (Note 8) 86 Analog to Digital Converters Dynamic Range (Note 2) -60dB Input THD+N, A-Weighted 90 Frequency Response -1dB Bandwidth 20 Dynamic Range (Note 2) -60dB Input THD+N, A-Weighted 89 Total Harmonic Distortion VIN = -3dB, f=1kHz, RL = 10kΩ dB (min) kHz Digital to Analog Converters Resolution THD 18 Frequency Response dB (min) 0.01 % 20 - 21k Hz Group Delay (Note 2) DT Bits 85 2 mS (max) Out of Band Energy -40 dB Stop Band Rejection 70 dB Discrete Tones -96 dB 1.5 dB 86 dB True Line Level Output Volume Section AS Step Size AM Mute Attenuation 0dB to -46.5dB Digital I/O (Note 2) VIL Low level input voltage 0.30 x DVDD V (max) VHI High level input voltage 0.40 x DVDD V (min) VOH High level output voltage 0.50 x DVDD V (min) VOL Low level output voltage 0.20 x DVDD V (max) IL Input Leakage Current AC Link inputs IL Tri state Leakage Current High impedance AC Link outputs IDR Output drive current AC Link outputs ± 10 ± 10 µA µA 5 mA 12.288 MHz 81.4 nS Digital Timing Specifications (Note 2) FBC BIT_CLK frequency TBCP BIT_CLK period Variation of BIT_CLK period from 50% duty cycle ± 20 % (max) TCH BIT_CLK high FSYNC SYNC frequency TSP SYNC period 20.8 µS TSH SYNC high pulse width 1.3 µS TSL SYNC low pulse width 19.5 µS 48 kHz TSETUP Setup Time SDATA_IN, SDATA_OUT to falling edge of BIT_CLK THOLD Hold Time Hold time of SDATA_IN, SDATA_OUT from falling edge of BIT_CLK 5 nS (min) TRISE Rise Time BIT_CLK, SYNC, SDATA_IN or SDATA_OUT 6 nS (max) TFALL Fall Time BIT_CLK, SYNC, SDATA_IN or SDATA_OUT 6 nS (max) TRST_LOW RESET# active low pulse width For cold reset 1.0 µS (min) TRST2CLK RESET# inactive to BIT_CLK start up For cold reset 162.8 nS (min) 3 15 nS (min) www.national.com Electrical Characteristics (Notes 1, 3) (Continued) The following specifications apply for AVDD = 5V, DVDD = 5V, Fs = 48kHz, single codec configuration, unless otherwise noted. Limits apply for TA= 25˚C. The reference for 0dB is 1Vrms unless otherwise specified. Symbol Parameter Conditions Units (Limits) LM4548 Typical (Note 7) Limit (Note 8) Digital Timing Specifications (Note 2) TSH SYNC active high pulse width For warm reset TSYNC2CLK SYNC inactive to BIT_CLK start up For warm reset 1.3 µS TSU2RST Setup to trailing edge of RESET# For ATE Test Mode 15 nS (min) TRST2HZ Rising edge of RESET# to Hi-Z For ATE Test Mode 25 nS (max) 162.8 nS (min) Note 1: All voltages are measured with respect to the ground pin, unless otherwise specified. Note 2: These specifications are guaranteed by design and characterization; they are not production tested. Note 3: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is functional, but do not guarantee specific performance limits. Electrical Characteristics state DC and AC electrical specifications under particular test conditions which guarantee specific performance limits. This assumes that the device is within the Operating Ratings. Specifications are not guaranteed for parameters where no limit is given, however, the typical value is a good indication of device performance. Note 4: The maximum power dissipation must be derated at elevated temperatures and is dictated by TJMAX, θJA, and the ambient temperature TA. The maximum allowable power dissipation is PDMAX = (TJMAX–TA)/θJA or the number given in Absolute Maximum Ratings, whichever is lower. For the LM4548, TJMAX = 150˚C. The typical junction-to-ambient thermal resistance is 74˚C/W for package number VBH48A. Note 5: Human body model, 100 pF discharged through a 1.5 kΩ resistor. Note 6: Machine Model, 220 pF–240 pF discharged through all pins. Note 7: Typicals are measured at 25˚C and represent the parametric norm. Note 8: Limits are guaranteed to National’s AOQL (Average Outgoing Quality Level). www.national.com 4 Timing Diagrams Clocks DS100987-10 Data Setup and Hold DS100987-11 Digital Rise and Fall DS100987-12 Cold Reset DS100987-13 Warm Reset DS100987-14 5 www.national.com Typical Application DS100987-3 FIGURE 2. LM4548 Typical Application Circuit www.national.com 6 Connection Diagram DS100987-2 Top View Order Number LM4548VH See NS Package Number VBH48A Pin Description Analog I/O Name Pin I/O PC_BEEP 12 I This is a mono input which gets summed into both the stereo line out and the true line level out after the National 3D Sound block. The PC_BEEP level can be adjusted from 0dB to −45dB in 3dB steps, or muted, via register 0Ah. PHONE 13 I This is a mono input which gets summed into both the stereo line out and the true line level out after the National 3D Sound block. The PHONE level can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 0Ch. AUX_L 14 I This line level input can be routed through the Input Mux and recorded by the left ADC. In addition, this analog input gets summed into the left output stream. The amount of AUX_L signal mixed in the left output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 16h. Functional Description 7 www.national.com Pin Description Analog I/O (Continued) (Continued) Name Pin I/O AUX_R 15 I This line level input can be routed through the Input Mux and recorded by the right ADC. In addition, this analog input gets summed into the right output stream. The amount of AUX_R signal mixed in the right output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 16h. VIDEO_L 16 I This line level input can be routed through the Input Mux and recorded by the left ADC. In addition, this analog input gets summed into the left output stream. The amount of VIDEO_L signal mixed in the left output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 14h. Functional Description VIDEO_R 17 I This line level input can be routed through the Input Mux and recorded by the right ADC. In addition, this analog input gets summed into the right output stream. The amount of VIDEO_R signal mixed in the right output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 14h. CD_L 18 I This line level input can be routed through the Input Mux and recorded by the left ADC. In addition, this analog input gets summed into the left output stream. The amount of CD_L signal mixed in the left output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 12h. CD_GND 19 I This input can be used to reject common mode signals on the CD_L and CD_R inputs. CD_GND is an AC ground point and not a DC ground point. This input must be AC-coupled to the source signal’s ground. CD_R 20 I This line level input can be routed through the Input Mux and recorded by the right ADC. In addition, this analog input gets summed into the right output stream. The amount of CD_R signal mixed in the right output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 12h. MIC1 21 I Either MIC1 or MIC2 can be selected via software and routed through the Input Mux for recording. The 20dB boost circuit is enabled/disabled via register 0Eh. Also, the amount of mic signal mixed in the output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 0Eh. I Either MIC1 or MIC2 can be selected via software and routed through the Input Mux for recording. The 20dB boost circuit is enabled/disabled via register 0Eh. Also, the amount of mic signal mixed in the output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 0Eh. MIC2 22 LINE_IN_L 23 I This line level input can be routed through the Input Mux and recorded by the left ADC. In addition, this analog input gets summed into the left output stream. The amount of LINE_IN_L signal mixed in the left output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 10h. LINE_IN_R 24 I This line level input can be routed through the Input Mux and recorded by the right ADC. In addition, this analog input gets summed into the right output stream. The amount of LINE_IN_R signal mixed in the right output stream can be adjusted from +12dB to −34.5dB in 1.5dB steps as well as muted via register 10h. LINE_OUT_L 35 O This is a post-mixed output for the left audio channel. The level of this output can be adjusted from 0dB to −45dB in 1.5dB steps as well as muted via register 02h. LINE_OUT_R 36 O This is a post-mixed output for the right audio channel. The level of this output can be adjusted from 0dB to −45dB in 1.5dB steps as well as muted via register 02h. MONO_OUT 37 O This line level output is either the post-mixed output or the mic input. The level of this output can be adjusted from 0dB to −45dB in 1.5dB steps as well as muted via register 06h. LNLVL_OUT_L 39 O This is a post-mixed output for the left audio channel. The level of this output can be adjusted from 0dB to −45dB in 1.5dB steps as well as muted via register 04h. LNLVL_OUT_R 41 O This is a post-mixed output for the right audio channel. The level of this output can be adjusted from 0dB to −45dB in 1.5dB steps as well as muted via register 04h. www.national.com 8 Pin Description (Continued) Digital I/O and Clocking Name Pin I/O Functional Description XTL_IN 2 I 24.576 MHz crystal input. Use a fundamental-mode type crystal. When operating from a crystal, a 1MΩ resistor must be connected across pins 2 and 3. XTL_OUT 3 O 24.576 MHz crystal output. When operating from a crystal, a 1MΩ resistor must be connected across pins 2 and 3. SDATA_OUT 5 I This data stream contains both control data and DAC audio data. This input is sampled by the LM4548 on the falling edge of BIT_CLK. BIT_CLK 6 I/O OUTPUT when in Primary Codec Mode: This pin outputs a 12.288 MHz clock which is derived (internally divided by two) from the 24.576MHz crystal input (XTL_IN). INPUT when in Secondary Codec Mode (Multiple Codec configurations only): 12.288MHz clock is to be supplied from an external source, such as from the BIT_CLK of a Primary Codec. SDATA_IN 8 O This data stream contains both control data and ADC audio data. This output is clocked out by the LM4548 on the rising edge of BIT_CLK. SYNC 10 I 48kHz sync pulse which signifies the beginning of both the SDATA_IN and SDATA_OUT serial streams. SYNC must be synchronous to BIT_CLK. RESET# 11 I This active low signal causes a hardware reset which returns the control registers to their default conditions. I ID0 and ID1 set the codec address for multiple codec use where ID0 is the LSB. Connect these pins to DVdd or GND as required. If these pins are not connected (NC), they default to Master Codec setting (same as connecting both pins to GND). These pins are of the same polarity as their internal ID0, ID1 registers. If pin 45 is connected to GND, then ID0 will be set to ″0″ internally. Connection to DVdd corresponds to a ″1″ internally. I ID0 and ID1 set the codec address for multiple codec use where ID1 is the MSB. Connect these pins to DVdd or GND as required. If these pins are not connected (NC), they default to Master Codec setting (same as connecting both pins to GND). These pins are of the same polarity as their internal ID0, ID1 registers. If pin46 is connected to GND, then ID1 will be set to ″0″ internally. Connection to DVdd corresponds to a ″1″ internally. ID0 ID1 45 46 Power Supplies and References Name Pin I/O AVDD 25 I Analog supply. Functional Description AVSS 26 I Analog ground. DVDD 1,9 I Digital supply. DVSS 4,7 I Digital ground. VREF 27 O Nominal 2.2V reference output. Not intended to sink or source current. Bypassing of this pin should be done with short traces to maximize performance. VREFOUT 28 O Nominal 2.2V reference output. Can source up to 5mA of current and can be used to bias a microphone. AFILT1 29 O This pin is not used and should be left open (NC). However, a capacitor to ground on this pin is permitted - it will not affect performance. AFILT2 30 O This pin is not used and should be left open (NC). However, a capacitor to ground on this pin is permitted - it will not affect performance. O These pins are used to complete the National 3D Sound circuit. Connect a 0.022µF capacitor between pins 3DP and 3DN. The National 3D Sound can be turned on and off via bit D13 in control register 20h. This is a fixed-depth type stereo enhance circuit, thus writing to register 22h has no effect. If National 3D Sound is not needed, then these pins should be left as no connect (NC). 3DP, 3DN 33,34 9 www.national.com Typical Performance Characteristics ADC Noise Floor Analog Loopthru Noise Floor DAC Noise Floor DS100987-15 ADC Frequency Response DS100987-16 DAC Frequency Response True Line Level Out Noise Floor (Analog Loopthrough) DS100987-19 www.national.com DS100987-18 DS100987-20 10 DS100987-18 11 www.national.com PC_BEEP Volume Phone Volume 0Ah 0Ch POP X Record Select Record Gain Reserved General Purpose 3D Control (3D is fixed depth) 1Ah 1Ch 1Eh 20h 22h Vendor ID2 32h 5Ah 7Eh SR15 PCM ADC Rate Vendor Reserved 2Ch Vendor ID1 SR15 PCM Front DAC Rate 2Ah 7Ch X Extended Audio Status/Control Vendor Reserved ID1 Extended Audio ID 28h 7Ah X 26h 0 0 - - X Reserved Powerdown Ctrl/Stat 24h X Mute X Mute Mute Aux Volume PCM Out Vol Mute Mute 18h 14h Mute Mute Mute Mute X 16h CD Volume Video Volume 12h Mic Volume Reserved 08h Line In Volume Mute Master Volume Mono 06h 10h Mute True Line Level Out Volume 04h 0Eh Mute Master Volume 02h X Reset 00h D15 Name REG LM4548 Register Map 1 1 - - SR14 SR14 X ID0 PR6 X X X X X X X X X X X X X X X X X X 0 D14 0 0 - - SR13 SR13 X X PR5 X X 3D X X X X X X X X X X X X X X X 0 D13 0 0 - - SR12 SR12 X X PR4 X X X X X X GL4 GL4 GL4 GL4 GL4 X X X X X ML4 ML4 0 D12 0 1 - - SR11 SR11 X X PR3 X X X X GL3 X GL3 GL3 GL3 GL3 GL3 X X X X X ML3 ML3 1 D11 0 1 - - SR10 SR10 X X PR2 X X X X GL2 SL2 GL2 GL2 GL2 GL2 GL2 X X X X X ML2 ML2 1 D10 1 1 - - SR9 SR9 X X PR1 X X MIX X GL1 SL1 GL1 GL1 GL1 GL1 GL1 X X X X X ML1 ML1 0 D9 1 0 - - SR8 SR8 X 0 PR0 X X MS X GL0 SL0 GL0 GL0 GL0 GL0 GL0 X X X X X ML0 ML0 1 D8 0 0 - - SR7 SR7 X 0 X X X LPBK X X X X X X X X X X X X X X X 0 D7 0 1 - - SR6 SR6 X 0 X X X X X X X X X X X X 20dB X X X X X X 1 D6 0 0 - - SR5 SR5 X X X X X X X X X X X X X X X X X X X X X 0 D5 0 1 - - SR4 SR4 X X X X X X X X X GR4 GR4 GR4 GR4 GR4 GN4 GN4 PV3 X MM4 MR4 MR4 1 D4 0 0 - - SR3 SR3 X 0 REF X X X X GR3 X GR3 GR3 GR3 GR3 GR3 GN3 GN3 PV2 X MM3 MR3 MR3 0 D3 0 0 - - SR2 SR2 X X ANL X X X X GR2 SR2 GR2 GR2 GR2 GR2 GR2 GN2 GN2 PV1 X MM2 MR2 MR2 0 D2 0 1 - - SR1 SR1 X 0 DAC X X X X GR1 SR1 GR1 GR1 GR1 GR1 GR1 GN1 GN1 PV0 X MM1 MR1 MR1 0 D1 0 1 - - SR0 SR0 VRA 1 ADC X X X X GR0 SR0 GR0 GR0 GR0 GR0 GR0 GN0 GN0 X X MM0 MR0 MR0 0 D0 4300h 4E53h - - BB80h BB80h XXX0h X001h na 0000h 0000h 0000h 0000h 8000h 0000h 8808h 8808h 8808h 8808h 8808h 8008h 8008h 0000h 0000h 8000h 8000h 8008h 0d50h Default Application Information AC Link Serial Interface Protocol DS100987-4 FIGURE 3. AC 97 Bidirectional Audio Frame DS100987-6 FIGURE 4. AC Link Audio Output Frame AC Link Output Frame: SDATA_OUT (output from controller, input to LM4548) The audio output frame (output from AC ’97 Controller) contains control and PCM data targeted for the LM4548 control registers and stereo DAC. The Tag slot, slot 0, contains 16 bits that tell the AC Link interface circuitry on the LM4548 the validity of the following data slots. A new audio output frame is signaled with a low to high transition of SYNC. SYNC is synchronous to the rising edge of BIT_CLK. On the next rising edge of BIT_CLK, the AC ’97 Controller drives SDATA_OUT with the first bit of slot 0. The LM4548 samples SDATA_OUT on the falling edge of BIT_CLK. The AC ’97 Controller will continue outputting the SDATA_OUT stream on each successive rising edge of BIT_CLK. DS100987-5 FIGURE 5. Start of Audio Output Frame SDATA_OUT Slot 0: Tag Phase The first bit of slot 0 is designated the ″Valid Frame″ bit. If this bit is 1, it indicates that the current data frame contains at least one slot of valid data and the LM4548 will further sample the next four bits to determine which frames do in fact have valid data. Valid slots are signified by a 1 in their respective slot bit position. www.national.com Bit 12 Description Comment 15 Valid Frame 1 = This frame has valid data. 14 Control register address 1 = Control Address is valid. 13 Control register data 1 = Control Data is valid. 12 Left Playback PCM Data 1 = Left PCM Data is valid. Application Information (Continued) Bit Description Comment 11 Right Playback PCM Data 1 = Right PCM Data is valid. Description Description Comment 19:4 Control Register Write Data Set bits to ″0″ if read operation 3:0 Reserved Set to ″0″ SDATA_OUT Slot 3: PCM Playback Left Channel SDATA_OUT Slot 1: Control Address Slot 1 is used both to write to the LM4548 registers as well as read back a register’s current value. The MSB of Slot 1 (bit 19) signifies whether the current control operation is a read or a write. Bits 18 through 12 are used to specify the register address of the read or write operation. The least significant twelve bits are reserved and should be stuffed with zeros by the AC’97 controller. Bits Bits Slot 3 is a 20 bit field used to transmit data intended for the left DAC on the LM4548. Any unused bits should be padded with zeros. The LM4548 DAC’s have 18 bit resolution and thus will use the first 18 bits of the 20 bit PCM stream. Bits Description Comment 19:0 PCM Audio Data for Left DAC Set unused bits to ″0″ Comment 19 Read/Write 0 = Read, 1 = Write 18:12 Control Register Identifies the Control Register 11:0 Reserved Set to ″0″ SDATA_OUT Slot 4: PCM Playback Right Channel Slot 4 is a 20 bit field used to transmit data intended for the right DAC on the LM4548. Any unused bits should be padded with zeros. The LM4548 DAC’s have 18 bit resolution and thus will use the first 18 bits of the 20 bit PCM stream. SDATA_OUT Slot 2: Control Data Slot 2 is used to transmit 16 bit control data to the LM4548 in the event that the current operation is a write operation. The least significant four bits should be stuffed with zeros by the AC ’97 controller. If the current operation is a register read, the entire slot, bits 19 through 0 should be stuffed with zeros. Bits Description Comment 19:0 PCM Audio Data for Right DAC Set unused bits to ″0″ SDATA_OUT Slots 5-12: Reserved Set these SDATA_OUT slots to ″0″ as they are not currently implemented and are reserved for future use. DS100987-8 FIGURE 6. AC Link Audio Input Frame SDATA_IN Slot 0: Codec Status Bits AC Link Input Frame: SDATA_IN (input to controller, output from LM4548) The first bit of SDATA_IN Slot 0 (bit 15) indicates when the Codec is ready. The digital controller must probe further to see which other subsections are ready. The audio input frame (input to the AC ’97 Digital Controller) contains status and PCM data from the LM4548 control registers and stereo ADC. The Tag slot, slot 0, contains 16 bits that tell the AC ’97 Digital Controller whether the LM4548 is ready and the validity of data from certain device subsections. A new audio input frame is signaled with a low to high transition of SYNC. SYNC is synchronous to the rising edge of BIT_CLK. On the next rising edge of BIT_CLK, the LM4548 drives SDATA_IN with the first bit of slot 0. The Digital Controller samples SDATA_IN on the falling edge of BIT_CLK. The LM4548 will continue outputting the SDATA_IN stream on each successive rising edge of BIT_CLK. The LM4548 outputs data MSB first, in a MSB justified format. All reserved bits and slots are stuffed with ″0″ ’s by the LM4548. 13 www.national.com Application Information (Continued) Bits Description Comment 9:2 Other Slot Request bits Unused 1,0 Reserved Stuff with ″0″ SDATA_IN Slot 2: Status Data The slot returns the control register data. The data returned was initiated by a read request in the previous SDATA_OUT frame, slot 1. Bits Description 19:4 Control Register Read Data 3:0 Reserved Comment Stuffed with ″0″ ’s DS100987-7 FIGURE 7. Start of Audio Input Frame Bit Description Comment 15 Codec Ready Bit 0=Not Ready, 1=Ready 14 Slot 1 data valid Status Address is valid 13 Slot 2 data valid Status Data is valid 12 Slot 3 data valid 11 Slot 4 data valid SDATA_IN Slot 3: PCM Record Left Channel This slot contains the left ADC sample data. The signal to be digitized is selected via register 1Ah and subsequently routed through the Input Mux for recording by the left ADC. This is a 20-bit slot, where the digitized 18-bit PCM data is output from the codec MSB first and the last remaining 2 bits will zeros. Bits Description Comment Left Audio PCM Data is valid 19:2 PCM Record Left Channel data 18 bit audio sample from left ADC Right Audio PCM Data is valid 1:0 Reserved Stuffed with ″0″’s SDATA_IN Slot 4: PCM Record Right Channel This slot contains the right ADC sample data. The signal digitized is selected via register 1Ah and subsequently routed through the Input Mux for recording by the right ADC. This is a 20-bit slot, where the digitized 18-bit PCM data is output from the codec MSB first and the last remaining 2 bits will zeros. SDATA_IN Slot 1: Status Address / Slot Request Bits This slot echoes the control register which a read was requested on. The address echoed was initiated by a read request in the previous SDATA_OUT frame, slot 1. Bits 11 and 10 are slot request bits that support Sample Rate Conversion (SRC) functionality. If bit 11 is set to 0, then the controller should respond with a valid PCM left sample in slot 3 of the next frame. If bit 10 is set to 0, then the controller should respond with a valid PCM right sample in slot 4 of the next frame. If bits 11 or 10 are set to 1, the controller should not send data in the next frame. Bits 9 through 2 are unused. Bits 1 and 0 are reserved and should be set to 0. Bits Description Comment 19 Reserved Stuffed with ″0″ 18:12 Control Register Index Echo of Control Register for which data is being returned. 11 Slot 3 Request bit (PCM left) 0 = Controller should send valid slot 3 data in the next frame, 1 = Controller should not send slot 3 data in the next frame 10 Slot 4 Request bit (PCM right) 0 = Controller should send valid slot 4 data in the next frame, 1 = Controller should not send slot 4 data in the next frame www.national.com Bits Description Comment 19:2 PCM Record Right Channel data 18 bit audio sample from right ADC 1:0 Reserved Stuffed with ″0″’s SDATA_IN Slots 5-12: Reserved These SDATA_IN slots are set to ″0″ as they are reserved for future use. AC Link Low Power Mode DS100987-9 FIGURE 8. AC Link Powerdown Timing 14 Application Information (Continued) SL2:SL0 Register Descriptions Reset Register (00h) Writing any value to this register causes a register reset which changes all of the registers back to their default values. If a read is performed on this register, the LM4548 will return a value of 0D50h indicating that National 3D Sound is implemented, 18bit data is supported for both the ADC’s and DAC’s, and the volume control for True Line Level Out is supported. Master Volume Registers (02h, 04h, 06h) These registers allow the output levels from LINE_OUT, LNLVL_OUT and MONO_OUT to be attenuated or muted. There are 6-bits of volume control, plus one mute bit. It is a 5-bit volume range, where each step is nominally 1.5dB and each output can be individually muted by either setting the most significant bit (Mx5), and/or the mute bit (D15) to ″1.″ Mute Mx5:Mx0 0 00 0000 0 Function 0dB attenuation 01 1111 46.5dB attenuation 0 1X XXXX 46.5dB attenuation 1 XX XXXX mute PC Beep Register (0Ah) This register controls the level of the PC_BEEP input. The PC_BEEP can be both attenuated and muted via register 0Ah. Step size is nominally 3dB. The signal present after the attenuation and mute block is summed into both the left and right channels. PV3:0 Function 0 0000 0dB attenuation 0 1111 45dB attenuation 1 XXXX mute Mic 1 CD In (L) 2 Video In (L) 3 Aux In (L) 4 Line In (L) 5 Stereo Mix (L) 6 Mono Mix (L) 7 Phone SR2:SR0 Right Record Source 0 Mic 1 CD In (R) 2 Video In (R) 3 Aux In (R) 4 Line In (R) 5 Stereo Mix (R) 6 Mono Mix (R) 7 Phone Record (Input) Gain Register (1Ch) This registers controls the Record (Input) Gain level for the stereo input selected via the Record Select Control Register (1Ah). The gain can be programmed from 0dB to +22.5dB in 1.5dB steps. The level for the left and right channel can be individually controlled. The input can also be muted by setting the MSB to 1. Default: 8000h Mute Left Record Source 0 Mute Gx3:Gx0 Function 0 1111 22.5dB gain 0 0000 0dB gain 1 XXXX mute Default: 8000h General Purpose Register (20h) This register controls many miscellaneous functions implemented on the LM4548. The miscellaneous functions include POP which allows the PCM to bypass the National 3D Sound circuitry, 3D which enables or disables the National 3D Sound circuitry, MIX which selects the MONO_OUT source, MS which selects the microphone mux source and LPBK which connects the output of the stereo ADC to input of the stereo DAC. LPBK provides for a digital loopthru path when enabled. Default: 0000h Mixer Input Volume Registers (Index 0Ch - 18h) These registers set the input volume levels including mute. Each volume control is 5 bit which provides from a range of +12dB gain to 34.5dB attenuation in 1.5dB steps. For stereo ports, the left and right levels can be independently set. Muting a given port is accomplished by setting the MSB to 1. Setting the MSB to 1 for stereo ports mutes both the left and right channel. Register 0Eh has an additional 20dB boost for a microphone level input. This is enabled by setting bit 6 of register 0Eh to 1. BIT Function POP PCM out path and mute, 0 = pre 3D, 1 = post 3D Mute Gx4:Gx0 Function 3D National 3D Sound on / off 1 = on 0 00000 +12dB gain MIX Mono output select 0 = Mix, 1 = Mic 0 01000 0dB gain MS Mic select 0 = Mic1 1 = Mic2 0 11111 34.5dB attenuation LPBK ADC/DAC loopback 1 XXXXX mute Powerdown Control / Status Register (26h) This read/write register is used to monitor subsystem readiness and also to program the LM4548 powerdown states. The lower half of this register is read only with a ″1″, indicating the subsection is ready. Writing to the lower 8 bits will have no effect. Default: 8008h (mono regs.), 8808h (stereo regs.) Record Select Register (1Ah) This register independently controls the source for the right and left channel which will be recorded by the stereo ADC. The default value is 0000h which corresponds to Mic in. 15 www.national.com Application Information (Continued) When the AC Link ″Codec Ready″ indicator bit (SDATA_IN slot 0, bit 15) is a ″1″, it indicates that the AC Link and AC ’97 registers are in a fully operational state. The AC ’97 Controller must further probe the Powerdown Control / Status Register to determine exactly which subsections are ready. BIT Function REF Vref’s up to nominal level ANL Analog mixers ready DAC DAC section ready to accept data ADC ADC section ready to transmit data SR15:SR0 Sample Rate (Hz) 2B11h 11025 3E80h 16000 5622h 22050 AC44h 44100 BB80h 48000 Reserved Registers Do not write to these registers as they are reserved. Supported powerdown modes. BIT Function PRO PCM in ADC’s and Input Mux powerdown PR1 PCM out DAC’s powerdown PR2 Analog Mixer powerdown (VREF still on) PR3 Analog Mixer powerdown (VREF off) PR4 Digital Interface (AC Link) powerdown (external clk off) PR5 Internal Clk disable PR6 not used Extended Audio ID Register (28h) This read only register identifies which AC97 Extended Audio features are supported. The LM4548 provides for VRA (Variable Rate Audio) and Multiple Codec support. VRA is indicated by a ″1″ in the LSB of register 28h. The two MSB’s, ID1 and ID0, show the current codec configuration as connected via external pins 45 and 46. Pin46 (ID1) Pin45 (ID0) Reg 28h ID1 Reg 28h ID0 NC (not connected) NC (not connected) 0 0 GND GND 0 0 Primary GND DVdd 0 1 Secondary 1 DVdd GND 1 0 Secondary 2 DVdd DVdd 1 1 Secondary 3 Extended Audio Status/Control Register (2Ah) This read/write register provides status and control of the Variable Sample Rate function. Setting the LSB of this register to ″1″ enables Variable Rate Audio (VRA) mode and allows DAC and ADC sample rates to be programmed via registers 2Ch and 32h. BIT Function VRA 0 = VRA off (48kHz fixed), 1 = VRA on Sample Rate Control Registers (2Ch, 32h) These read/write registers are used to set the sample rate for the left and right channels of the DAC (2Ch) and the ADC (32h). When Variable Rate Audio is enabled via bit-0 of Register 2Ah, the sample rates can be programmed, in 1Hz increments, to be any value from 4kHz to 48kHz. Below is a list of the most common sample rates and their corresponding register values. www.national.com SR15:SR0 Sample Rate (Hz) 1F40h 8000 16 Codec Mode Primary 17 LM4548 AC ’97 Rev 2 Codec with Sample Rate Conversion and National 3D Sound Physical Dimensions inches (millimeters) unless otherwise noted 48-Lead , TQFP, 7 X 7 X 1.4mm, JEDEC (M) Order Number LM4548VH NS Package Number VBH48A LIFE SUPPORT POLICY NATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF NATIONAL SEMICONDUCTOR CORPORATION. As used herein: 2. A critical component is any component of a life support 1. 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