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| CS5340 101 dB, 192 kHz, Multi-Bit Audio A/D Converter Features Advanced multi-bit Delta-Sigma architecture 24-bit conversion Supports all audio sample rates including 192 kHz 101 dB Dynamic Range at 5 V -94 dB THD+N High-pass filter to remove DC offsets Analog/digital core supplies from 3.3 V to 5 V Supports logic levels between 1.8 V and 5 V Low-latency digital filter Auto-mode selection Pin compatible with the CS5341 General Description The CS5340 is a complete analog-to-digital converter for digital audio systems. It performs sampling, analog-todigital conversion, and anti-alias filtering, generating 24-bit values for both left and right inputs in serial form at sample rates up to 200 kHz per channel. The CS5340 uses a 5th-order, multi-bit Delta-Sigma modulator followed by digital filtering and decimation, which removes the need for an external anti-alias filter. The CS5340 is ideal for audio systems requiring wide dynamic range, negligible distortion and low noise, such as set-top boxes, DVD-karaoke players, DVD recorders, A/V receivers, and automotive applications. ORDERING INFORMATION CS5340-CZZ, Lead Free -10 to 70 C 16-pin TSSOP CS5340-DZZ, Lead Free -40 to 85 C 16-pin TSSOP CDB5340 Evaluation Board VQ REFGND VL 1.8V - 5.0V SCLK LRCK SDOUT MCLK FILT+ Voltage Reference Serial Output Interface RST M0 M1 AINL S/H + - LP Filter Q Digital Decimation Filter High Pass Filter DAC AINR S/H DAC + LP Filter Q Digital Decimation Filter High Pass Filter VA 3.3V - 5.0V GND VD 3.3V - 5.0V Preliminary Product Information www.cirrus.com This document contains information for a new product. Cirrus Logic reserves the right to modify this product without notice. Copyright Cirrus Logic, Inc. 2004 (All Rights Reserved) (c) Aug `04 DS601PP2 1 CS5340 TABLE OF CONTENTS 1 CHARACTERISTICS AND SPECIFICATIONS ......................................................................... 4 SPECIFIED OPERATING CONDITIONS ................................................................................. 4 ABSOLUTE MAXIMUM RATINGS ........................................................................................... 4 ANALOG CHARACTERISTICS (CS5340-CZ/CZZ).................................................................. 5 ANALOG CHARACTERISTICS (CS5340-DZZ) ....................................................................... 7 DIGITAL FILTER CHARACTERISTICS (CS5340-CZ/CZZ/DZZ) ............................................. 9 DC ELECTRICAL CHARACTERISTICS................................................................................. 12 DIGITAL CHARACTERISTICS ............................................................................................... 12 THERMAL CHARACTERISTICS............................................................................................ 12 SWITCHING CHARACTERISTICS - SERIAL AUDIO PORT ................................................. 13 2 PIN DESCRIPTION ................................................................................................................. 15 3 TYPICAL CONNECTION DIAGRAM ....................................................................................... 16 4 APPLICATIONS ....................................................................................................................... 17 4.1 Single, Double, and Quad Speed Modes ......................................................................... 17 4.2 Operation as Either a Clock Master or Slave ................................................................... 17 4.2.1 Operation as a Clock Master ............................................................................... 18 4.2.2 Operation as a Clock Slave ................................................................................. 18 4.2.3 Master Clock ....................................................................................................... 19 4.3 Serial Audio Interface ....................................................................................................... 19 4.4 Power-up Sequence ........................................................................................................ 20 4.5 Analog Connections ......................................................................................................... 20 4.6 Grounding and Power Supply Decoupling ....................................................................... 20 4.7 Synchronization of Multiple Devices ................................................................................ 21 4.8 Capacitor Size on the Reference Pin (FILT+) .................................................................. 21 5 PARAMETER DEFINITIONS ................................................................................................... 22 6 PACKAGE DIMENSIONS ....................................................................................................... 23 7 REVISION HISTORY ............................................................................................................... 24 Contacting Cirrus Logic Support For all product questions and inquiries contact a Cirrus Logic Sales Representative. To find one nearest you go to www.cirrus.com/ IMPORTANT NOTICE "Preliminary" product information describes products that are in production, but for which full characterization data is not yet available. Cirrus Logic, Inc. and its subsidiaries ("Cirrus") believe that the information contained in this document is accurate and reliable. However, the information is subject to change without notice and is provided "AS IS" without warranty of any kind (express or implied). Customers are advised to obtain the latest version of relevant information to verify, before placing orders, that information being relied on is current and complete. All products are sold subject to the terms and conditions of sale supplied at the time of order acknowledgment, including those pertaining to warranty, patent infringement, and limitation of liability. No responsibility is assumed by Cirrus for the use of this information, including use of this information as the basis for manufacture or sale of any items, or for infringement of patents or other rights of third parties. This document is the property of Cirrus and by furnishing this information, Cirrus grants no license, express or implied under any patents, mask work rights, copyrights, trademarks, trade secrets or other intellectual property rights. Cirrus owns the copyrights associated with the information contained herein and gives consent for copies to be made of the information only for use within your organization with respect to Cirrus integrated circuits or other products of Cirrus. This consent does not extend to other copying such as copying for general distribution, advertising or promotional purposes, or for creating any work for resale. CERTAIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OF DEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE ("CRITICAL APPLICATIONS"). CIRRUS PRODUCTS ARE NOT DESIGNED, AUTHORIZED OR WARRANTED FOR USE IN AIRCRAFT SYSTEMS, MILITARY APPLICATIONS, PRODUCTS SURGICALLY IMPLANTED INTO THE BODY, LIFE SUPPORT PRODUCTS OR OTHER CRITICAL APPLICATIONS (INCLUDING MEDICAL DEVICES, AIRCRAFT SYSTEMS OR COMPONENTS AND PERSONAL OR AUTOMOTIVE SAFETY OR SECURITY DEVICES). INCLUSION OF CIRRUS PRODUCTS IN SUCH APPLICATIONS IS UNDERSTOOD TO BE FULLY AT THE CUSTOMER'S RISK AND CIRRUS DISCLAIMS AND MAKES NO WARRANTY, EXPRESS, STATUTORY OR IMPLIED, INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR PARTICULAR PURPOSE, WITH REGARD TO ANY CIRRUS PRODUCT THAT IS USED IN SUCH A MANNER. IF THE CUSTOMER OR CUSTOMER'S CUSTOMER USES OR PERMITS THE USE OF CIRRUS PRODUCTS IN CRITICAL APPLICATIONS, CUSTOMER AGREES, BY SUCH USE, TO FULLY INDEMNIFY CIRRUS, ITS OFFICERS, DIRECTORS, EMPLOYEES, DISTRIBUTORS AND OTHER AGENTS FROM ANY AND ALL LIABILITY, INCLUDING ATTORNEYS' FEES AND COSTS, THAT MAY RESULT FROM OR ARISE IN CONNECTION WITH THESE USES. Cirrus Logic, Cirrus, and the Cirrus Logic logo designs are trademarks of Cirrus Logic, Inc. All other brand and product names in this document may be trademarks or service marks of their respective owners. 2 DS601PP2 CS5340 LIST OF FIGURES Figure 1. Single Speed Mode Stopband Rejection ....................................................................... 10 Figure 2. Single Speed Mode Stopband Rejection ....................................................................... 10 Figure 3. Single Speed Mode Transition Band (Detail)................................................................. 10 Figure 4. Single Speed Mode Passband Ripple ........................................................................... 10 Figure 5. Double Speed Mode Stopband Rejection...................................................................... 10 Figure 6. Double Speed Mode Stopband Rejection...................................................................... 10 Figure 7. Double Speed Mode Transition Band (Detail) ............................................................... 11 Figure 8. Double Speed Mode Passband Ripple .......................................................................... 11 Figure 9. Quad Speed Mode Stopband Rejection ........................................................................ 11 Figure 10. Quad Speed Mode Stopband Rejection ...................................................................... 11 Figure 11. Quad Speed Mode Transition Band (Detail) ................................................................ 11 Figure 12. Quad Speed Mode Passband Ripple........................................................................... 11 Figure 13. Master Mode, Left Justified SAI ................................................................................... 14 Figure 14. Slave Mode, Left Justified SAI ..................................................................................... 14 Figure 15. Master Mode, I2S SAI .................................................................................................. 14 Figure 16. Slave Mode, I2S SAI .................................................................................................... 14 Figure 17. Typical Connection Diagram........................................................................................ 16 Figure 18. CS5340 Master Mode Clocking ................................................................................... 18 Figure 19. Left-Justified Serial Audio Interface ............................................................................. 19 Figure 20. I2S Serial Audio Interface............................................................................................. 19 Figure 21. CS5340 Recommended Analog Input Buffer............................................................... 20 Figure 22. CS5340 THD+N versus Frequency ............................................................................. 21 LIST OF TABLES Table 1. Speed Modes and the Associated Output Sample Rates (Fs)........................................ 17 Table 2. CS5340 Mode Control..................................................................................................... 17 Table 3. Master Clock (MCLK) Ratios........................................................................................... 19 Table 4. Master Clock (MCLK) Frequencies for Standard Audio Sample Rates .......................... 19 Table 5. Revision History .............................................................................................................. 24 DS601PP2 3 CS5340 1 CHARACTERISTICS AND SPECIFICATIONS (All Min/Max characteristics and specifications are guaranteed over the Specified Operating Conditions. Typical performance characteristics and specifications are derived from measurements taken at typical supply voltages and TA = 25C.) SPECIFIED OPERATING CONDITIONS (GND = 0 V, all voltages with respect to 0 V.) Parameter Power Supplies Analog Digital Logic Commercial (-CZ/CZZ) (-DZZ) Symbol VA VD VL TAC TAC Min 3.1 3.1 1.7 -10 -40 Typ (Note 1) 3.3 3.3 Max 5.25 5.25 5.25 70 85 Unit V V V C C Ambient Operating Temperature Notes: 1. This part is specified at typical analog voltages of 3.3 V and 5.0 V. See Analog Characteristics (CS5340CZ/CZZ) and Analog Characteristics (CS5340-DZZ), below, for details. ABSOLUTE MAXIMUM RATINGS (GND = 0 V, All voltages with respect to ground.) (Note 4) Parameter DC Power Supplies: Analog Logic Digital (Note 2) (Note 3) (Note 3) Symbol VA VL VD Iin VIN VIND TA Tstg Min -0.3 -0.3 -0.3 GND-0.7 -0.7 -50 -65 Max +6.0 +6.0 +6.0 10 VA+0.7 VL+0.7 +95 +150 Units V V V mA V V C C Input Current Analog Input Voltage Digital Input Voltage Ambient Operating Temperature (Power Applied) Storage Temperature Notes: 2. Any pin except supplies. Transient currents of up to 100 mA on the analog input pins will not cause SRC latch-up. 3. The maximum over/under voltage is limited by the input current. 4. Operation beyond these limits may result in permanent damage to the device. Normal operation is not guaranteed at these extremes. 4 DS601PP2 CS5340 ANALOG CHARACTERISTICS (CS5340-CZ/CZZ) Test conditions (unless otherwise specified): Input test signal is a 1 kHz sine wave; measurement bandwidth is 10 Hz to 20 kHz. Parameter VA = 3.3 V Single Speed Mode Fs = 48 kHz Dynamic Range A-weighted unweighted Total Harmonic Distortion + Noise (Note 5) -1 dB -20 dB -60 dB Double Speed Mode Fs = 96 kHz Dynamic Range A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 5) -1 dB -20 dB -60 dB 40 kHz bandwidth -1 dB Quad Speed Mode Fs = 192 kHz Dynamic Range A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 5) -1 dB -20 dB -60 dB 40 kHz bandwidth -1 dB VA = 5.0 V Single Speed Mode Fs = 48 kHz Dynamic Range A-weighted unweighted Total Harmonic Distortion + Noise (Note 5) -1 dB -20 dB -60 dB Double Speed Mode Fs = 96 kHz Dynamic Range A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 5) -1 dB -20 dB -60 dB -1 dB Symbol Min Typ Max Unit 92 89 THD+N 92 89 THD+N 92 89 THD+N - 98 95 -91 -75 -35 98 95 92 -91 -75 -35 -85 98 95 92 -91 -75 -35 -85 -85 -85 -85 - dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB 95 92 THD+N 95 92 THD+N - 101 98 -94 -78 -38 101 98 95 -94 -78 -38 -91 -88 -88 - dB dB dB dB dB dB dB dB dB dB dB dB 40 kHz bandwidth DS601PP2 5 CS5340 Quad Speed Mode Dynamic Range Fs = 192 kHz A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 5) -1 dB -20 dB -60 dB 40 kHz bandwidth -1 dB Dynamic Performance for All Modes Interchannel Isolation DC Accuracy Interchannel Gain Mismatch Gain Error 95 92 THD+N 0.53*VA - 101 98 95 -94 -78 -38 -91 90 0.1 - -88 - dB dB dB dB dB dB dB dB dB % ppm/C Vpp k Gain Drift Analog Input Characteristics Full-scale Input Voltage Input Impedance Note: 5. Referred to the typical full-scale input voltage 100 0.56*VA 25 5 0.59*VA - 6 DS601PP2 CS5340 ANALOG CHARACTERISTICS (CS5340-DZZ) Test conditions (unless otherwise specified): Input test signal is a 1 kHz sine wave; measurement bandwidth is 10 Hz to 20 kHz. Parameter VA = 3.3 V Single Speed Mode Fs = 48 kHz Dynamic Range A-weighted unweighted Total Harmonic Distortion + Noise (Note 6) -1 dB -20 dB -60 dB Double Speed Mode Fs = 96 kHz Dynamic Range A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 6) -1 dB -20 dB -60 dB 40 kHz bandwidth -1 dB Quad Speed Mode Fs = 192 kHz Dynamic Range A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 6) -1 dB -20 dB -60 dB 40 kHz bandwidth -1 dB VA = 5.0 V Single Speed Mode Fs = 48 kHz Dynamic Range A-weighted unweighted Total Harmonic Distortion + Noise (Note 6) -1 dB -20 dB -60 dB Double Speed Mode Fs = 96 kHz Dynamic Range A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 6) -1 dB -20 dB -60 dB -1 dB Symbol Min Typ Max Unit 90 87 THD+N 90 87 THD+N 90 87 THD+N - 98 95 -91 -75 -35 98 95 92 -91 -75 -35 -85 98 95 92 -91 -75 -35 -85 -83 -83 -83 - dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB 93 90 THD+N 93 90 THD+N - 101 98 -94 -78 -38 101 98 95 -94 -78 -38 -91 -86 -86 - dB dB dB dB dB dB dB dB dB dB dB dB 40 kHz bandwidth DS601PP2 7 CS5340 Quad Speed Mode Dynamic Range Fs = 192 kHz A-weighted unweighted 40 kHz bandwidth unweighted Total Harmonic Distortion + Noise (Note 6) -1 dB -20 dB -60 dB 40 kHz bandwidth -1 dB Dynamic Performance for All Modes Interchannel Isolation DC Accuracy Interchannel Gain Mismatch Gain Error 93 90 THD+N 0.5*VA - 101 98 95 -94 -78 -38 -91 90 0.1 - -86 - dB dB dB dB dB dB dB dB dB % ppm/C Vpp k Gain Drift Analog Input Characteristics Full-scale Input Voltage Input Impedance Note: 6. Referred to the typical full-scale input voltage 100 0.56*VA 25 10 0.62*VA - 8 DS601PP2 CS5340 DIGITAL FILTER CHARACTERISTICS (CS5340-CZ/CZZ/DZZ) Parameter Single Speed Mode Passband Passband Ripple Stopband Stopband Attenuation Total Group Delay (Fs = Output Sample Rate) Double Speed Mode Passband Passband Ripple Stopband Stopband Attenuation Total Group Delay (Fs = Output Sample Rate) Quad Speed Mode Passband Passband Ripple Stopband Stopband Attenuation Total Group Delay (Fs = Output Sample Rate) High Pass Filter Characteristics Frequency Response Phase Deviation Passband Ripple Note: -3.0 dB -0.13 dB @ 20 Hz (Note 7) (Note 7) 1 20 10 0 Hz Hz Deg dB tgd Fs = 192 kHz (-0.1 dB) 0 96 60 5/Fs 50 0.025 kHz dB kHz dB s tgd Fs = 96 kHz (-0.1 dB) 0 53.8 69 9/Fs 47 0.025 kHz dB kHz dB s tgd Fs = 48 kHz (-0.1 dB) 0 27.3 70 12/Fs 23.5 0.035 kHz dB kHz dB s Symbol Min Typ Max Unit 7. Response shown is for Fs equal to 48 kHz. Filter characteristics scale with Fs. DS601PP2 9 CS5340 0 -10 -20 -30 0 -10 -20 -30 Amplitude (dB) -40 -50 -60 -70 -80 -90 -100 -110 -120 -130 -140 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 Amplitude (dB) -40 -50 -60 -70 -80 -90 -100 -110 -120 -130 -140 0.40 0.42 0.44 0.46 0.48 0.50 0.52 0.54 0.56 0.58 0.60 Frequency (norm alized to Fs) Frequency (norm alized to Fs) Figure 1. Single Speed Mode Stopband Rejection Figure 2. Single Speed Mode Stopband Rejection 0 -1 -2 0.10 0.08 0.06 Amplitude (dB) Amplitude (dB) -3 -4 -5 -6 -7 -8 -9 -10 0.45 0.46 0.47 0.48 0.49 0.5 0.51 0.52 0.53 0.54 0.55 0.04 0.02 0.00 -0.02 -0.04 -0.06 -0.08 -0.10 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.5 Frequency (norm alized to Fs) Frequency (norm alized to Fs) Figure 3. Single Speed Mode Transition Band (Detail) Figure 4. Single Speed Mode Passband Ripple 0 -10 -20 -30 0 -10 -20 -30 Amplitude (dB) -80 -90 -100 -110 -120 -130 -140 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 Amplitude (dB) -40 -50 -60 -70 -40 -50 -60 -70 -80 -90 -100 -110 -120 -130 -140 0.40 0.42 0.44 0.46 0.48 0.50 0.52 0.54 0.56 0.58 0.60 Frequency (norm alized to Fs) Frequency (norm alized to Fs) Figure 5. Double Speed Mode Stopband Rejection Figure 6. Double Speed Mode Stopband Rejection 10 DS601PP2 CS5340 0 -1 -2 0.10 0.08 0.06 Amplitude (dB) -3 -4 -5 -6 -7 -8 -9 -10 0.46 0.47 0.48 0.49 0.50 0.51 0.52 Amplitude (dB) 0.04 0.02 0.00 -0.02 -0.04 -0.06 -0.08 -0.10 0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35 0.40 0.45 0.50 Frequency (norm alized to Fs) Frequency (norm alized to Fs) Figure 7. Double Speed Mode Transition Band (Detail) Figure 8. Double Speed Mode Passband Ripple 0 -10 -20 -30 0 -10 -20 -30 Amplitude (dB) -80 -90 -100 -110 -120 -130 -140 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 Amplitude (dB) Frequency (norm alized to Fs) -40 -50 -60 -70 -40 -50 -60 -70 -80 -90 -100 -110 -120 -130 -140 0.20 0.25 0.30 0.35 0.40 0.45 0.50 0.55 0.60 0.65 0.70 0.75 0.80 0.85 Frequency (norm alized to Fs) Figure 9. Quad Speed Mode Stopband Rejection Figure 10. Quad Speed Mode Stopband Rejection 0 -1 -2 0.10 0.08 0.06 Amplitude (dB) -3 Amplitude (dB) 0.15 0.20 0.25 0.30 0.35 0.40 0.45 0.50 -4 -5 -6 -7 -8 -9 -10 0.10 0.04 0.02 0.00 -0.02 -0.04 -0.06 -0.08 Frequency (norm alized to Fs) -0.10 0.00 0.03 0.05 0.08 0.10 0.13 0.15 0.18 0.20 0.23 0.25 0.28 Frequency (norm alized to Fs) Figure 11. Quad Speed Mode Transition Band (Detail) Figure 12. Quad Speed Mode Passband Ripple DS601PP2 11 CS5340 DC ELECTRICAL CHARACTERISTICS (GND = 0 V, all voltages with respect to 0 V. MCLK=12.288 MHz; Master Mode) Parameter DC Power Supplies: Positive Analog Positive Digital Positive Logic VA = 5 V VA = 3.3 V VL,VD = 5 V VL,VD = 3.3 V VA = 5 V VL,VD=5 V VL, VD, VA = 5 V VL, VD, VA = 3.3 V (Power-Down Mode) (1 kHz) (Note 9) Symbol VA VD VL IA IA ID ID IA ID PSRR Min 3.1 3.1 1.7 Typ 21 18.2 15 9 1.5 0.4 180 90 9.5 65 VA/2 25 VA 18 0.01 Max 5.25 5.25 5.25 23.1 20 16.5 10 198 100 Unit V V V mA mA mA mA mA mA mW mW mW dB V Power Supply Current (Normal Operation) Power Supply Current (Power-Down Mode) (Note 8) Power Consumption (Normal Operation) Power Supply Rejection Ratio VQ Nominal Voltage Output Impedance k V Filt+ Nominal Voltage Output Impedance Maximum allowable DC current source/sink k mA Notes: 8. Power Down Mode is defined as RST = Low with all clocks and data lines held static. 9. Valid with the recommended capacitor values on FILT+ and VQ as shown in the Typical Connection Diagram. DIGITAL CHARACTERISTICS Parameter High-Level Input Voltage Low-Level Input Voltage High-Level Output Voltage at Io = 100 A Low-Level Output Voltage at Io =100 A Input Leakage Current (% of VL) (% of VL) (% of VL) (% of VL) Symbol VIH VIL VOH VOL Iin Min 70% 70% Typ Max 30% 15% 10 Units V V V V A THERMAL CHARACTERISTICS Parameter Allowable Junction Temperature Junction to Ambient Thermal Impedance Ambient Operating Temperature (Power Applied) (-CZ/-CZZ) (-DZZ) Symbol Min -10 -40 Typ 75 Max 135 +70 +85 Unit C C/W C C JA TA TA 12 DS601PP2 CS5340 SWITCHING CHARACTERISTICS - SERIAL AUDIO PORT Logic "1" = VL, CL = 20 pF) Parameter MCLK Specifications MCLK Period MCLK Pulse Width High MCLK Pulse Width Low Master Mode SCLK falling to LRCK SCLK falling to SDOUT valid SCLK Duty Cycle Slave Mode Single Speed* LRCK Duty Cycle SCLK Period SCLK Low SCLK falling to SDOUT valid SCLK falling to LRCK edge Double Speed* LRCK Duty Cycle SCLK Period SCLK Low SCLK falling to SDOUT valid SCLK falling to LRCK edge Quad Speed* LRCK Duty Cycle SCLK Period SCLK Low SCLK falling to SDOUT valid SCLK falling to LRCK edge tsclkw tsclkl tdss tslrd 40 78 40 -8 50 60 32 8 % ns ns ns ns tsclkw tsclkl tdss tslrd 40 145 55 -20 50 60 32 20 % ns ns ns ns tsclkw tsclkl tdss tslrd 40 145 55 -20 50 60 32 20 % ns ns ns ns tmslr tsdo -20 0 50 20 32 ns ns % tclkw tclkh tclkl 36 72 15 15 45 1953 ns ns ns ns Symbol Min Typ Max Unit (Logic "0" = GND = 0 V; * For a description of Speed Modes, please refer to Table 1 on page 17. DS601PP2 13 CS5340 t sclk l SCLK output t mslr LRCK output t sdo SDOUT MSB MSB-1 SCLK input t sl rd LRCK input t dss SDOUT MSB MSB-1 MSB-2 t sclkw Figure 13. Master Mode, Left Justified SAI Figure 14. Slave Mode, Left Justified SAI t sclk l SCLK output t mslr LRCK output t sdo SDOUT MSB SCLK input t sclkw LRCK input t dss SDOUT MSB MSB-1 Figure 15. Master Mode, I2S SAI Figure 16. Slave Mode, I2S SAI 14 DS601PP2 CS5340 2 PIN DESCRIPTION M0 MCLK VL SDOUT GND VD SCLK LRCK 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 M1 FILT+ REF_GND VA AINR VQ AINL RST Pin Name M0 M1 MCLK VL SDOUT GND VD SCLK LRCK RST AINL AINR VQ VA FILT+ # 1 16 2 3 4 5,14 6 7 8 9 10 12 11 13 15 Pin Description Mode Selection (Input) - Determines the operational mode of the device. Master Clock (Input) - Clock source for the delta-sigma modulator and digital filters. Logic Power (Input) - Positive power for the digital input/output. Serial Audio Data Output (Output) - Output for two's complement serial audio data. Ground (Input) - Ground reference. Must be connected to analog ground. Digital Power (Input) - Positive power supply for the digital section. Serial Clock (Input/Output) - Serial clock for the serial audio interface. Left Right Clock (Input/Output) - Determines which channel, Left or Right, is currently active on the serial audio data line. Reset (Input) - The device enters a low power mode when low. Analog Input (Input) - The full scale analog input level is specified in the Analog Characteristics specification table. Quiescent Voltage (Output) - Filter connection for the internal quiescent reference voltage. Analog Power (Input) - Positive power supply for the analog section. Positive Voltage Reference (Output) - Positive reference voltage for the internal sampling circuits. DS601PP2 15 CS5340 3 TYPICAL CONNECTION DIAGRAM 3.3V to 5V + 1 F 0.1 F ** 0.1 F 5.1 + 1 F 1.8V to 5V 3.3V to 5V + 1 F 0.1 F 0.1 F VD VL VA FILT+ 1 F *** + 0.1 F REFGND 0.1 F VQ RST M0 M1 VL or GND 10k SDOUT Power Down and Mode Settings + 1F CS5340 A/D CONVERTER * Audio Data Processor A INL Analog Input Buffer Figure 21 AI NR MCLK LRCK SCLK * Pull-up to VL for I2S Pull-down to GND for LJ *** Capacitor value affects low frequency distortion performance as described in Section 4.8 Timing Logic and Clock GND ** Resistor may only be used if VD is derived from VA. If used, do not drive any other logic from VD Figure 17. Typical Connection Diagram 16 DS601PP2 CS5340 4 APPLICATIONS 4.1 Single, Double, and Quad Speed Modes The CS5340 can support output sample rates from 2 kHz to 200 kHz. The proper speed mode can be determined by the desired output sample rate and the external MCLK/LRCK ratio, as shown in Table 1. Speed Mode Single Speed Mode Double Speed Mode Quad Speed Mode MCLK/LRCK Ratio 512x 256x 256x 128x 128x 64x* Output Sample Rate Range (kHz) 43 - 54 2 - 54 86 - 108 50 - 108 172 - 200 100 - 200 * Quad Speed Mode, 64x only available in Master Mode. Table 1. Speed Modes and the Associated Output Sample Rates (Fs) 4.2 Operation as Either a Clock Master or Slave The CS5340 supports operation as either a clock master or slave. As a clock master, the LRCK and SCLK pins are outputs with the left/right and serial clocks synchronously generated on-chip. As a clock slave, the LRCK and SCLK pins are inputs and require the left/right and serial clocks to be externally generated. The selection of clock master or slave is made via the Mode pins as shown in Table 2. M1 (Pin 16) 0 0 1 1 M0 (Pin 1) 0 1 0 1 MODE Clock Master, Single Speed Mode Clock Master, Double Speed Mode Clock Master, Quad Speed Mode Clock Slave, All Speed Modes Table 2. CS5340 Mode Control DS601PP2 17 CS5340 4.2.1 Operation as a Clock Master As a clock master, LRCK and SCLK operate as outputs. The left/right and serial clocks are internally derived from the master clock with the left/right clock equal to Fs and the serial clock equal to 64x Fs, as shown in Figure 18. / 256 / 128 / 64 /1 MCLK /2 1 /4 Auto-Select /2 /1 Figure 18. CS5340 Master Mode Clocking Single Speed Double Speed Quad Speed 00 01 10 LRCK Output (Equal to Fs) 0 M1 M0 Single Speed Double Speed Quad Speed 00 01 10 SCLK Output 4.2.2 Operation as a Clock Slave LRCK and SCLK operate as inputs in clock slave mode. It is recommended that the left/right clock be synchronously derived from the master clock and must be equal to Fs. It is also recommended that the serial clock be synchronously derived from the master clock and be equal to 64x Fs to maximize system performance. A unique feature of the CS5340 is the automatic selection of either Single, Double or Quad speed mode when operating as a clock slave. The auto-mode select feature negates the need to configure the Mode pins to correspond to the desired mode. The auto-mode selection feature supports all standard audio sample rates from 2 to 200 kHz. However, there are ranges of non-standard audio sample rates that are not supported when operating with a fast MCLK (512x, 256x, 128x for Single, Double, and Quad Speed Modes respectively). Please refer to Table 1 for supported sample rate ranges. 18 DS601PP2 CS5340 4.2.3 Master Clock The CS5340 requires a Master clock (MCLK) which runs the internal sampling circuits and digital filters. There is also an internal MCLK divider which is automatically activated based on the speed mode and frequency of the MCLK. Table 3 shows a listing of the external MCLK/LRCK ratios that are required. Table 4 lists some common audio output sample rates and the required MCLK frequency. Please note that not all of the listed sample rates are supported when operating with a fast MCLK (512x, 256x, 128x for Single, Double, and Quad Speed Modes respectively). Single Speed Mode MCLK/LRCK Ratio 256x, 512x * Quad Speed, 64x only available in Master Mode. Table 3. Master Clock (MCLK) Ratios Double Speed Mode 128x, 256x Quad Speed Mode 64x*,128x SAMPLE RATE (kHz) 32 44.1 48 64 88.2 96 192 MCLK (MHz) 8.192 11.2896 22.5792 12.288 24.576 8.192 11.2896 22.5792 12.288 24.576 12.288 24.576 Table 4. Master Clock (MCLK) Frequencies for Standard Audio Sample Rates 4.3 Serial Audio Interface The CS5340 supports both I2S and Left Justified serial audio formats. Upon start-up, the CS5340 will detect the logic level on SDOUT (pin 4). A 10 k pull-up to VL is needed to select I2S format, and a 10 k pull-down to GND is needed to select Left Justified format. Please see Figures 13 through 16 on page 14, for more information on the required timing for the two serial audio interface formats. LR C K L eft C h ann e l R igh t C h a nne l SCLK SDATA 2 3 22 9 8 7 6 5 4 3 2 1 0 23 22 9 8 7 6 5 4 3 2 1 0 23 2 2 Figure 19. Left-Justified Serial Audio Interface LRCK Le ft C h an n e l R ig h t C h a nn el S C LK SDA TA 23 22 9 8 7 6 5 4 3 2 1 0 23 22 9 8 7 6 5 4 3 2 1 0 23 2 2 Figure 20. I2S Serial Audio Interface DS601PP2 19 CS5340 4.4 Power-up Sequence Reliable power-up can be accomplished by keeping the device in reset until the power supplies, clocks and configuration pins are stable. It is also recommended that reset be enabled if the analog or digital supplies drop below the minimum specified operating voltages to prevent power glitch related issues. 4.5 Analog Connections The analog modulator samples the input at 6.144 MHz. The digital filter will reject signals within the stopband of the filter. However, there is no rejection for input signals which are multiples of the input sampling frequency (n x 6.144 MHz), where n=0,1,2,... Refer to Figure 21 which shows the suggested filter that will attenuate any noise energy at 6.144 MHz, in addition to providing the optimum source impedance for the modulators. The use of capacitors which have a large voltage coefficient (such as general purpose ceramics) must be avoided since these can degrade signal linearity. 634 V A 470 pF COG 100k + COG 2200 pF 91 C S5340 A INL 4.7 uF A INL 100k VA 100k 4.7 uF A INR 100k + 470 pF COG COG 2200 pF 634 91 CS 5340 A INR Figure 21. CS5340 Recommended Analog Input Buffer 4.6 Grounding and Power Supply Decoupling As with any high resolution converter, the CS5340 requires careful attention to power supply and grounding arrangements if its potential performance is to be realized. Figure 17 shows the recommended power arrangements, with VA and VL connected to clean supplies. VD, which powers the digital filter, may be run from the system logic supply or may be powered from the analog supply via a resistor. In this case, no additional devices should be powered from VD. Decoupling capacitors should be as near to the ADC as possible, with the low value ceramic capacitor being the nearest. All signals, especially clocks, should be kept away from the FILT+ and VQ pins in order to avoid unwanted coupling into the modulators. The FILT+ and VQ decoupling capacitors, particularly the 0.01 F, must be positioned to minimize the electrical path from FILT+ and REF_GND. The CDB5340 evaluation board demonstrates the optimum layout and power supply arrangements. To minimize digital noise, connect the ADC digital outputs only to CMOS inputs. 20 DS601PP2 CS5340 4.7 Synchronization of Multiple Devices In systems where multiple ADCs are required, care must be taken to achieve simultaneous sampling. To ensure synchronous sampling, the MCLK and LRCK must be the same for all of the CS5340's in the system. If only one master clock source is needed, one solution is to place one CS5340 in Master mode, and slave all of the other CS5340's to the one master. If multiple master clock sources are needed, a possible solution would be to supply all clocks from the same external source and time the CS5340 reset with the inactive (falling) edge of MCLK. This will ensure that all converters begin sampling on the same clock edge. 4.8 Capacitor Size on the Reference Pin (FILT+) The CS5340 requires an external capacitance on the internal reference voltage pin, FILT+. The size of this decoupling capacitor will affect the low frequency distortion performance as shown in Figure 22, with larger capacitor values used to optimize low frequency distortion performance. 1 uF 2.2 uF 3.3 uF 4.7 uF 5.6 uF 6.8 uF 10 uF 22 uF 47 uF 100 uF Figure 22. CS5340 THD+N versus Frequency DS601PP2 21 CS5340 5 PARAMETER DEFINITIONS The ratio of the rms value of the signal to the rms sum of all other spectral components over the specified bandwidth. Dynamic Range is a signal-to-noise ratio measurement over the specified bandwidth made with a -60 dBFS signal. 60 dB is added to resulting measurement to refer the measurement to full-scale. This technique ensures that the distortion components are below the noise level and do not affect the measurement. This measurement technique has been accepted by the Audio Engineering Society, AES17-1991, and the Electronic Industries Association of Japan, EIAJ CP-307. Expressed in decibels. Total Harmonic Distortion + Noise The ratio of the rms value of the signal to the rms sum of all other spectral components over the specified bandwidth (typically 10 Hz to 20 kHz), including distortion components. Expressed in decibels. Measured at -1 and -20 dBFS as suggested in AES17-1991 Annex A. Frequency Response A measure of the amplitude response variation from 10 Hz to 20 kHz relative to the amplitude response at 1 kHz. Units in decibels. Interchannel Isolation A measure of crosstalk between the left and right channels. Measured for each channel at the converter's output with no signal to the input under test and a full-scale signal applied to the other channel. Units in decibels. Interchannel Gain Mismatch The gain difference between left and right channels. Units in decibels. Gain Error The deviation from the nominal full-scale analog input for a full-scale digital output. Gain Drift The change in gain value with temperature. Units in ppm/C. Offset Error The deviation of the mid-scale transition (111...111 to 000...000) from the ideal. Units in mV. Dynamic Range 22 DS601PP2 CS5340 6 PACKAGE DIMENSIONS 16L TSSOP (4.4 mm BODY) PACKAGE DRAWING N D E11 A2 A1 L E A e b2 SIDE VIEW 123 END VIEW SEATING PLANE TOP VIEW DIM A A1 A2 b D E E1 e L MIN -0.002 0.03346 0.00748 0.193 0.248 0.169 -0.020 0 INCHES NOM -0.004 0.0354 0.0096 0.1969 0.2519 0.1732 0.026 BSC 0.024 4 MAX 0.043 0.006 0.037 0.012 0.201 0.256 0.177 -0.028 8 MIN -0.05 0.85 0.19 4.90 6.30 4.30 -0.50 0 MILLIMETERS NOM --0.90 0.245 5.00 6.40 4.40 0.065 BSC 0.60 4 NOTE MAX 1.10 0.15 0.95 0.30 5.10 6.50 4.50 -0.70 8 2,3 1 1 JEDEC #: MO-153 Controlling Dimension is Millimeters Notes: 1. "D" and "E1" are reference datums and do not included mold flash or protrusions, but do include mold mismatch and are measured at the parting line, mold flash or protrusions shall not exceed 0.20 mm per side. 2. Dimension "b" does not include dambar protrusion/intrusion. Allowable dambar protrusion shall be 0.13 mm total in excess of "b" dimension at maximum material condition. Dambar intrusion shall not reduce dimension "b" by more than 0.07 mm at least material condition. 3. These dimensions apply to the flat section of the lead between 0.10 and 0.25 mm from lead tips. DS601PP2 23 CS5340 7 REVISION HISTORY Release A1 A2 PP1 Date February 2003 July 2003 June 2004 -Initial Advance Release. -Modified serial port timing specs. -Added Applications section on speed mode detect. -Change 2700 pF capacitors to 2200 pF in analog input buffer diagram. -Update Output Sample Rate Range table on page 17. -Add new Applications section about capacitor on FILT+ pin. -Corrected Max MCLK period under "Switching Characteristics" on page 13. -Add CS5340-CZZ as an available part number. -Replace available part number CS5340-DZ with CS5340-DZZ. -Initial Preliminary Product Release. Table 5. Revision History Changes 24 DS601PP2 |
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