Evaluation Board User Guide UG-477 One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com Evaluating the ADAU1772 Four ADC, Two DAC Low Power Codec with Audio Processor EVAL-ADAU1772Z PACKAGE CONTENTS GENERAL DESCRIPTION EVAL-ADAU1772Z evaluation board EVAL-ADUSB2EBZ (USBi) communications adapter USB cable with Mini-B plug Evaluation board/software quick start guide This user guide explains the design and setup of the EVALADAU1772Z evaluation board. This evaluation board provides full access to all analog and digital I/Os on the ADAU1772. The ADAU1772 core is controlled by Analog Devices, Inc., SigmaStudio™ software, which interfaces to the board via a USB connection. The EVAL-ADAU1772Z can be powered by a single AAA battery, by the USB bus, or by a single 3.8 V to 6 V supply; any of these are regulated to the voltages required on the board. The printed circuit board (PCB) is a 4-layer design, with a single ground plane and a single power plane on the inner layers. The board contains connectors for external microphones and speakers. The master clock can be provided externally or by the on-board 12.288 MHz passive crystal. DOCUMENTS NEEDED ADAU1772 data sheet AN-1006 Applications Note, Using the EVAL-ADUSB2EBZ 11023-001 11023-002 EVAL-ADAU1772Z EVALUATION BOARD TOP SIDE AND BOTTOM SIDE Figure 1. EVAL-ADAU1772Z Evaluation Board Top Side PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. Figure 2. EVAL-ADAU1772Z Evaluation Board Bottom Side Rev. A | Page 1 of 28 UG-477 Evaluation Board User Guide TABLE OF CONTENTS EVAL-ADAU1772Z Package Contents .......................................... 1 Using the Evaluation Board .......................................................... 10 Documents Needed .......................................................................... 1 Power............................................................................................ 10 General Description ......................................................................... 1 Inputs and Outputs .................................................................... 10 EVAL-ADAU1772Z Evaluation Board Top Side and Bottom Side ....................................................................................... 1 MP Pins........................................................................................ 12 Revision History ............................................................................... 2 Communications Header (J1) .................................................. 14 Evaluation Board Block Diagrams ................................................. 3 Self-Boot ...................................................................................... 14 Setting Up the Evaluation Board .................................................... 5 Power-Down ............................................................................... 14 Installing the SigmaStudio Software .......................................... 5 Hardware Description.................................................................... 15 Installing the USBi Drivers ......................................................... 5 Jumpers ........................................................................................ 15 Default Switch and Jumper Settings .......................................... 6 Integrated Circuits (IC) ............................................................. 15 Powering Up the Board ............................................................... 6 LED .............................................................................................. 15 Connecting the Audio Cables ..................................................... 6 Evaluation Board Schematics and Artwork ................................ 16 Setting Up Communications in SigmaStudio........................... 6 Ordering Information .................................................................... 25 Creating a Basic Signal Flow ....................................................... 7 Bill of Materials ........................................................................... 25 Serial Audio Interface ................................................................ 13 Downloading the Program to the DSP ...................................... 9 REVISION HISTORY 6/13—Rev. 0 to Rev. A Added Figure 11; Renumbered Sequentially ................................ 6 11/12—Revision 0: Initial Version Rev. A | Page 2 of 28 Evaluation Board User Guide UG-477 EVALUATION BOARD BLOCK DIAGRAMS I2C/SPI COMMUNICATIONS HEADER POWER SUPPLY REGULATION POWER/ BYPASS SWITCH SELF-BOOT EEPROM MP PINS ANALOG MIC INPUTS ADAU1772 STEREO LINE INPUT DIFFERENTIAL STEREO OUTPUT DIGITAL MIC INPUTS SINGLE-ENDED STEREO OUTPUT SERIAL AUDIO CONNECTOR OSC 11023-003 MASTER CLOCK XTAL OSCILLATOR Figure 3. Functional Block Diagram COMMUNICATIONS HEADER SELF-BOOT EEPROM SERIAL AUDIO CONNECTOR PDM DIGITAL MIC INPUTS ANALOG MIC INPUTS POWER SUPPLY MP PINS CLOCK XTAL ADAU1772 DIFF STEREO OUTPUT STEREO LINE INPUT SINGLEENDED STEREO OUTPUT 11023-004 POWER/BYPASS SWITCH Figure 4. Board Layout Block Diagram Rev. A | Page 3 of 28 Evaluation Board User Guide 11023-005 UG-477 Figure 5. Default Jumper and Switch Settings (A Solid Black Rectangle Indicates a Switch or Jumper Position) Rev. A | Page 4 of 28 Evaluation Board User Guide UG-477 SETTING UP THE EVALUATION BOARD INSTALLING THE SigmaStudio SOFTWARE Users can download the latest version of SigmaStudio by completing the following steps: 2. 3. 4. 5. Go to www.analog.com/sigmastudiodownload and fill in the Email: and Software Key: boxes. You will get a software key with the evaluation board, or you can contact Analog Devices at [email protected] to request a software key. Chose which version of SigmaStudio you would like to use and click SUBMIT. Download the installer file, open the file, and extract the files to your PC. Install the Microsoft .NET Framework if you do not already have it installed. Install SigmaStudio by double-clicking Setup.exe and following the prompts. 11023-008 1. Figure 8. Windows Found New Hardware Wizard—Search and Installation Options INSTALLING THE USBi DRIVERS For Windows XP 11023-006 SigmaStudio must be installed to use the USBi. When SigmaStudio has been properly installed, connect the USBi to an available USB port with the included USB cable. At this point, Windows® XP recognizes the device (see Figure 6) and prompts the user to install drivers. When the warning about Windows Logo testing appears, click Continue Anyway (see Figure 9). Figure 6. Found New Hardware Notification 11023-009 Select the Install from a list or specific location (Advanced) option and click Next > (see Figure 7). Figure 9. Windows Logo Testing Warning The USBi drivers should now be installed successfully. Leave the USBi connected to the PC. For Windows 7 and Vista Figure 7. Found New Hardware Wizard—Installation Click Search for the best driver in these locations, select Include this location in the search, and click Browse to find the SigmaStudio 3.7.x\USB drivers directory (see Figure 8). Rev. A | Page 5 of 28 11023-010 11023-007 Connect the USBi to an available USB port with the included USB cable. At this point, Windows® 7 recognizes the device and installs the drivers (see Figure 10). Figure 10. USBi Driver Installed Correctly UG-477 Evaluation Board User Guide DEFAULT SWITCH AND JUMPER SETTINGS To use the USBi in conjunction with SigmaStudio, select it in the Communication Channels subsection of the toolbox on the left side of the Hardware Configuration tab, and add it to the project space by clicking and dragging it to the right (see Figure 12). 11023-011 The J8, J10, J12, and J17 jumpers must be connected, and the J3 jumper must be set to the USB/EXT power setting. The MP pin jumpers (J9) can be connected as desired to use the MP push-buttons or switches. The microphone bias jumpers, J11 and J14, can be inserted if microphone bias is needed on Input 0 and Input 1. Switch S7 selects whether the board is to be powered up or if audio is to be bypassed from input to output with the board powered down. For normal operation, slide the switch to the left. S1 selects whether the ADAU1772 is powered from 3.3 V or 1.8 V; the default is 3.3 V. If powering the board via the USBi, ensure that the switch on the bottom of the USBi board is set to the correct voltage (1.8 V or 3.3 V). S2 controls self-boot operation. By default, S2 is slid to the right to disable self-boot operation. Figure 12. Adding the USBi Communication Channel If SigmaStudio cannot detect the USBi on the USB port of the PC, the background of the USB label will be red (see Figure 13). This can happen when the USBi is not connected or when the drivers are incorrectly installed. POWERING UP THE BOARD To power up the evaluation board, connect the ribbon cable of the USBi to J1 (CONTROL PORT) of the EVAL-ADAU1772Z. CONNECTING THE AUDIO CABLES 11023-012 Connect a stereo audio source to J22 (AIN2/3). Connect headphones or powered speakers to J23 (STEREO OUTPUT). The labels for J22 and J23 are only visible on the bottom of the board. Figure 13. USBi Not Detected by SigmaStudio 11023-013 If SigmaStudio detects the USBi on the USB port of the PC, the background of the USB label changes to orange (see Figure 14). Figure 14. USBi Detected by SigmaStudio 11023-111 11023-014 To add an ADAU1772 to the project, select it from the Processors (ICs / DSPs) list and drag it to the project space (see Figure 15). Figure 15. Adding an ADAU1772 Figure 11. Stereo Out (J23), Left, and Stereo In (J22), Right SETTING UP COMMUNICATIONS IN SigmaStudio Start SigmaStudio by double-clicking the shortcut on the desktop. Click File…New Project or press Ctrl+N to create a new project. The default view of the new project is called the Hardware Configuration tab. To use the USB interface to communicate with the target integrated circuit (IC), connect it by clicking and dragging a wire between the blue pin of the USBi and the green pin of the IC (see Figure 16). The corresponding drop-down box of the USBi automatically fills with the default mode and channel for that IC. Rev. A | Page 6 of 28 UG-477 11023-015 Evaluation Board User Guide Figure 16. Connecting the USB Interface to an ADAU1772 IC CREATING A BASIC SIGNAL FLOW 11023-019 11023-016 To access the Schematic tab, where a signal processing flow can be created, click the Schematic tab at the top of the screen (see Figure 17). Because Input 2 and Input 3 are being used as a stereo pair, deselect the 0 and 1 and select the 2 and 3 (see Figure 20). Figure 17. Schematic Tab Figure 20. Input 2 and Input 3 Selected Navigate to the IO > Audio Output folder and select the Output cell (see Figure 21). 11023-020 11023-017 The left side of the schematic view includes the Toolbox, which contains all of the algorithms that can run in the SigmaDSP. Select the Input cell from within the IO > Audio Input folder (see Figure 18). Figure 18. Input Cell Selection Figure 21. Output Cell Selection Click and drag an output cell to the schematic. Do this again to create two outputs (see Figure 22). Make sure the output cells are assigned to OUT0 and OUT1, respectively. 11023-018 Click and drag the Input cell into the blank schematic space to the right of the Toolbox (see Figure 19). Figure 19. Input Cell Rev. A | Page 7 of 28 UG-477 Evaluation Board User Guide 11023-021 the Push Button Vol section is located. Locate the drop-down menu for Converters Controlled by PushButton Volume: and change its value to All ADCs (see Figure 26). Figure 22. Output Cells 11023-022 11023-025 Connect the cells together by left-clicking a blue output dot and dragging to the green output dot of the next cell, connecting the Input 2 to OUT0 and Input 3 to OUT1 (see Figure 23). Figure 23. Connected Signal Flow The basic signal flow is now complete with the stereo I/O. Add Volume Control Figure 26. (Output/Serial Port Tab) Navigate to the Pin/Pad Control tab. In the Pin Modes section, change the value of DAC_SDATA/MP0 to Push-button volume down and the value of ADC_SDATA0/PDMOUT/MP1 to Push-button volume up (see Figure 27). 11023-026 11023-023 To add volume control via the VOL− and VOL+ buttons, add jumpers to S5 and S6 on J9 (see Figure 24). Figure 24. Jumpers for Volume Pushbuttons Figure 27. Pin/Pad Control tab The schematic is ready to be compiled and downloaded to the evaluation board. 11023-024 Navigate to the Hardware Configuration tab. In the bottom left corner, the IC 1 – ADAU1772 Register Control tab is seen (see Figure 25). Figure 25. ADAU1772 Register Control Tab Click it and find the Output/Serial Port tab in the top right corner. In the bottom left corner of the Output/Serial Port tab, Rev. A | Page 8 of 28 Evaluation Board User Guide UG-477 DOWNLOADING THE PROGRAM TO THE DSP 11023-027 To compile and download the code to the DSP, click the Link-Compile-Download button once in the main toolbar of SigmaStudio (see Figure 28). Alternately, press the F7 key. Figure 28. Link-Compile-Download Button 11023-028 If the project does not compile correctly, an error displays (see Figure 29). If this occurs, go back and check your work for mistakes. Figure 29. Compile Error The signal flow should now be running on the evaluation board, and the audio should pass from the input to the output. The volume can be changed in real-time by using the buttons on the board. Rev. A | Page 9 of 28 UG-477 Evaluation Board User Guide USING THE EVALUATION BOARD POWER Analog Microphone Inputs Power can be supplied to the EVAL-ADAU1772Z in one of three ways. When Jumper J3 is in the USB/EXT position, power can be supplied by connecting the EVAL-ADUSB2EBZ (USBi) board connected to J1 (see Figure 30) or by connecting a tip positive 3.8 V dc to 6 V dc power supply on J2. For microphone signals, the ADAU1772 analog inputs can be configured as single-ended inputs with optional programmable gain amplifier (PGA) mode. Microphone Bias 11023-029 To add MBIAS0 to AIN0, connect a jumper to the J11 header. Similarly, MBIAS1 or MBIAS0 can be added to AIN1 by connecting a jumper to the J14 header (see Figure 32). Figure 30. Header J1, Control Port 11023-031 To supply power via a 1.5 V battery, J3 must be set to the BATT position, and the battery must be connected to J5. The on-board regulator generates the 3.3 V dc or 1.8 V dc supply, determined by S1, for the on-board circuitry. LED D1 lights up when power is supplied to the board. To connect power to the ADAU1772, connect the J8, J10, J12, and J17 jumpers (see Figure 31). Figure 32. Microphone Bias Headers 11023-030 Enable the microphone bias circuitry in the PGA/ADC tab of SigmaStudio to use it. The appropriate gain settings can also be chosen here (see Figure 33). Figure 31. Power Jumpers The EVAL-ADAU1772Z has multiple audio input and output options, including digital and analog. There are four single-ended analog inputs that are configurable as microphone or line inputs, dual stereo digital microphone inputs, and two differential outputs that can also be used in a single-ended configuration. Rev. A | Page 10 of 28 11023-032 INPUTS AND OUTPUTS Figure 33. Microphone Bias Enable and Gain Evaluation Board User Guide UG-477 Stereo Line Input The stereo input jack, J22, accepts a standard stereo TRS 1/8-inch mini-plug (tip = left, ring = right) with two channels of audio. Digital Microphones PDM digital microphones can be connected to standard 0.100” headers (J6 and J7). For example, the Analog Devices ADMP521 digital microphone on the ADMP521Z evaluation board plugs directly into the header. 11023-035 To use the digital microphone headers on the EVAL-ADAU1772Z, ensure that the proper settings have been made in SigmaStudio. Navigate to the Pin/Pad Control tab in the Hardware Configuration/ADAU1772 Register Control section. Change the value of the CLKOUT/ADC_SDATA1/MP6 drop-down menu to Clock Output (see Figure 34). Figure 36. Decimator Source The digital microphones can now be routed via the appropriate inputs on the Audio Input cell. Headphone Output 11023-033 The headphone output, J23, connects to any standard 1/8-inch mini-plug stereo headphones. By setting the HP_EN_L and HP_EN_R bits in the headphone line output select register (Address 0x0043), the output pins can be driven either by a line output driver or by a headphone driver. Headphones can be driven either single ended or differentially, and there are bits to disable the LN and RN pins if single ended. Figure 34. MP6, Clock Output Line Outputs To set the value of BCLK, go to the PLL & Clock Control tab and change the value of the Output Clock Frequency dropdown menu to the desired division on MCLK (see Figure 35). The analog output pins, J19 and J21, can be used to drive differential loads. In their default settings, these pins can drive line loads of 10 Ω or greater. To use an external speaker, wires can be soldered to the unpopulated header pads, J13 and J16 (see Figure 37). To: Self-boot XTAL CLOCKOUT 11023-034 To: Main Blocks Figure 35. Clock Output Enabled/Divided 11023-036 Now, set the input of the ADAU1772 to be the digital microphones instead of the ADCs by toggling the appropriate Decimator Source settings. Navigate to the PGA/ADC tab to find and set the following switches (see Figure 36). Figure 37. Unpopulated J13 and J16 Headers Rev. A | Page 11 of 28 UG-477 Evaluation Board User Guide PDM Modulator Output MP PINS The ADAU1772 has a 2-channel PDM modulator. The PDM output and clock source are both located on the MP pins. To use this functionality, set ADC_SDATA0/PDMOUT/MP1 to PDM Modulator Output and CLKOUT/ADC_SDATA1/MP6 to Clock Output. This can be done in the Pin/Pad Control tab (see Figure 38). The MP pin jumpers, Header J9, provide access to the MP pins (MP0, MP1, MP2, MP3, and MP6) of the ADAU1772, as well as facilitate the use of the push-buttons on the EVAL-ADAU1772Z board. See Figure 53 for the pinout of the header. These jumpers are used to enable the use of the volume control, mute, and other capabilities of the ADAU1772. 11023-037 To use the full functionality of the MP pins on the ADAU1772, change the selections in the drop-down menus under the Pin/Pad Control tab in the Hardware Configuration/ADAU1772 Register Control section of SigmaStudio (see Figure 40). Figure 38 PDM Modulator Output and Clock Output 11023-039 The CLOCK OUT is located on the J4 header, Pin 12. The PDM OUTPUT is located on the J4 header, Pin 10 (see Figure 39). Figure 40. MP Pins Drop-Down Menus The MP pins, MP4 and MP5, are connected to the digital microphone headers, J6 and J7. PDM OUTPUT 11023-038 CLOCK OUT Figure 39. PDM Output and Clock Output Pins Rev. A | Page 12 of 28 Evaluation Board User Guide UG-477 SERIAL AUDIO INTERFACE 11023-040 Serial audio signals in I2S, left justified, right justified, or TDM format are available via the Serial Audio Interface Header J4. This header also includes master clock input and output connection pins. To use MCLK on the J4 header, first install a resistor across the R2 pads. The R2 resistor is not populated from the factory. To use an external MCLK, remove the R3 resistor from the board to eliminate contention from the XTAL oscillator on the MCLK line (see Figure 41). Once connected, use SigmaStudio to set the registers for the desired operation. In the Output/Serial Port tab, under the Serial Port Control section, the settings can be manipulated to create the specific data stream desired. These settings include Serial Port FS (sample rate), Serial Port Mode, Serial Port Format, LRCLK/BCLK Mode (slave or master), BCLK DataChange Edge, Bit Width in TDM mode BCLK Cycles per Channel, Data IO on LSB/MSB, Unused TDM Outputs, LRCLK Mode (as pulse or 50% duty cycle), and LRCLK Polarity (see Figure 43). Figure 41. R2 and R3 TDM/I2S Stream 11023-042 To use the serial audio outputs, connect the LRCLK, BCLK, and SDATA lines to the appropriate MP pins on the evaluation board. The connections can be located on the J4 header. The silk screen above the header helps identify where to connect the clocks and data (see Figure 42). Figure 43. Serial Port Control 11023-041 11023-043 If using TDM mode, ensure that the appropriate TDM output channels have been enabled in the TDM Output Channel section (see Figure 44). Figure 42. Serial Audio Port Rev. A | Page 13 of 28 Figure 44. TDM Output Channel UG-477 Evaluation Board User Guide To Link-Compile-Download the project (see Figure 28), rightclick on ADAU1772 and select Write Latest Compilation to E2PROM (see Figure 48). 11023-047 Use the Signal Routing tab to route the core outputs, ADCs, or serial inputs to the either of the two available serial output lines. Ensure that Output ASRC is switched to Enabled (see Figure 45). Figure 48. Write to E2Prom 11023-044 Once the project has been written to the E2PROM, move the self-boot switch, S2, to the ON position (see Figure 49). This ensures that the ADAU1772 boots from the E2PROM when it powers up. Figure 45. Signal Routing COMMUNICATIONS HEADER (J1) J1 connects to the EVAL-ADUSB2EBZ USBi. More information about the USBi can be found in Application Note AN-1006. The IC defaults to I2C mode; however, it can be put into SPI control mode by pulling the CLATCH pin low three times. SELF-BOOT 11023-048 To use the ADAU1772 self-boot function, go to the Hardware Configuration tab and add an E2Prom IC to the USBi interface from the Tree Toolbox (see Figure 46). 11023-045 Figure 49. Self-Boot Switch On POWER-DOWN Figure 46. E2Prom The power-down header, J15 (/PD) on the silkscreen of the board provides access to the power-down pin on the ADAU1772. Put a jumper on the header to power down all analog and digital circuits. Before enabling /PD ensure to mute the outputs to avoid any pops or clicks when the IC is powered down. 11023-046 Before writing to the E2PROM, ensure that it has been erased by clearing it from SigmaStudio. To do this, right-click on E2Prom, select the Read/Write window, and click Clear E2Pro to clear the memory (see Figure 47). Figure 47. Clear E2pro Rev. A | Page 14 of 28 Evaluation Board User Guide UG-477 HARDWARE DESCRIPTION JUMPERS Table 1. Connector and Jack Descriptions Reference J1 J2 J3 Functional Name Control port 5 V dc input Power select J4 J5 J6, J7 J8 J9 J10 J11, J14 J12 J13 J15 J16 J17 Serial audio Battery 1.5 V Digital microphone inputs IOVDD 1772_IOVDD MP pin jumpers IOVDD VDD Microphone bias DVDD regulator (REG) Out R Power down Out L VDD AVDD Description It facilitates communication between the evaluation board and USBi board. It provides external power to the board. It accepts 3.8 V dc to 6 V dc input. Jumper used to select power source for the evaluation board. Selectable between USB/external and battery. It accepts serial audio signals in I2S, left justified, right justified, or TDM format. Jumper used to power the board via a 1.5 V battery. Headers that allow digital microphones to be connected to the evaluation board. Jumper supplies power to the IOVDD supply of the ADAU1772 from the power supply section Jumpers used to connect push-buttons on the board to MP Pins on the ADAU1772. Jumper connects IOVDD on the ADAU1772 to VDD (3.3 V board supply) on the evaluation board. Jumpers used to add a microphone bias to the analog microphone inputs, AIN0 and AIN1. Jumper connects DVDD on the ADAU1772 to its internal regulator. Jumper provides access to the mono differential output right. Jumper used to power down the ADAU1772 analog and digital circuits. Jumper provides access to the mono differential output left. It connects AVDD on the ADAU1772 to VDD (3.3 V board supply) on the evaluation board. INTEGRATED CIRCUITS (IC) Table 2. IC Descriptions Reference U1 U2 U3 U4 Functional Name ADAU1772 SigmaDSP Microchip M24C32-F serial EEPROM ADP1713AUJZ low dropout (LDO) regulator ADP1607 boost regulator Description Digital audio signal processor Self-boot memory Linear regulator that generates 1.5 V from an off-board power supply Boost regulator that generates 1.8 V or 3.3 V for the board supply from a 1.5 V input LED Table 3. LED Description Reference D1 Functional Name VDD power LED Description It illuminates when the evaluation board is powered up. Rev. A | Page 15 of 28 2 .2 u F C3 7 J2 2 Stereo Analog Inputs 2&3 J2 0 Analog Input 1 M ICBIAS 1 M ICBIAS 0 J1 8 Analog Input 0 2 .2 u F C4 0 M ICBIAS 0 C3 4 10 u F C1 8 10 u F C1 6 C1 C8 R5 0 2 k0 0 47 .0 u F 47 .0 u F 2 .2 u F R4 8 0 R0 0 2 k0 0 R4 5 J1 1 AIN 3 P AIN 2 P J1 4 A B R4 4 2 k0 0 0 R0 0 RIGH T_ IN R5 4 0 R0 0 R4 1 49 k9 R5 5 R5 2 49 k9 49 k9 0 R0 0 L E FT_ IN R5 3 49 k9 R4 7 R4 2 C3 8 OPE N C4 6 OPE N C4 3 OPE N 47 .0 u F C1 0 C3 3 OPE N 10 u F C1 9 10 u F C1 7 C2 47 .0 u F IOVDD R1 0 J1 5 AIN 3 P APPLY SHUNT FOR /PD 1 .0 u F C3 9 1 k0 0 AIN 2 P M ICBIAS 0 M ICBIAS 1 DM IC_2_ 3 DM IC_0_ 1 C4 1 10 u F 10 u F C1 3 0 .10 u F 0 .10 u F 0 .10 u F RE G J1 2 DVDD DM IC2_3 /M P5 DM IC0_1 /M P4 12 27 17 18 15 16 13 14 8 9 CM PD AIN 3 RE F AIN3 AIN 2 RE F AIN2 AIN 1 RE F AIN1 AIN 0 RE F AIN0 6 M ICBIAS 0 7 M ICBIAS 1 36 37 C9 C7 C3 6 28 REG_OUT DGND 30 4 3 2 1 10 25 26 21 22 1 SDA/COU T 2 SCL /CC L K 3 ADD R1 /CDATA 4 ADD R0 /CL ATC H 5 SE L FBOO T H POU TRN /L OU TRN H POU TRP/L OU TRP H POU TL N /L OU TL N H POU TL P/L OU TL P C1 2 C1 4 C1 1 C4 2 C6 C3 5 0 .10 u F 0 .10 u F 0 .10 u F 10 u F 0 .10 u F 10 u F TP5 U2 SDA SCL WP VCC SCL /CC L K SDA/COU T 5 IOVDD 39 38 6 7 8 0 .10 u F XTAL I/M CL KIN XTAL O 31 L RCL K/M P3 32 BCL K/M P2 33 DAC_ SDATA/M P0 34 ADC_ SDATA0 /PD M OU T/M P1 35 ADC_ SDATA1 /CL KOU T/M P6 M 24 C32 -F GND A2 A1 A0 C2 5 J1 7 AV DD 19 IOVDD VDD 1772 _IOVDD ADAU 1772 QFN U1 DVDD 29 DVDD AGND 11 24 AV DD 40 IOVDD AGND 20 R7 R5 33 R2 33 R2 R6 R4 R8 33 R2 33 R2 33 R2 SDA/COU T SCL /CC L K ADD R1 /CDATA ADD R0 /CL ATC H R2 OPE N C3 22 pF E XT_ M CL K 22 pF C5 Y1 12 .288 M Hz R3 100 R ADC_ SDATA1 /CL KOU T/M P6 L RCL K/M P3 BCL K/M P2 DAC_ SDATA/M P0 ADC_ SDATA0 /PD M OU T/M P1 R2 4 10 k0 IOVDD SPD T S2 Selfboot OFF ON 0 R0 0 0 R0 0 0 R0 0 0 R0 0 R1 1 R9 + AV DD AGND 23 EP 41 R5 7 49 k9 C45 470 uF C44 470 uF + Rev. A | Page 16 of 28 R1 2 R1 3 OPE N OPE N C4 RIGH T_ IN L E FT_ IN R4 9 OPE N S7 11 8 5 2 R4 3 OPE N R4 6 OPE N J1 3 BRD_ RE SE T J2 1 J2 3 J1 9 STEREO OUTPUT Mono Differential Output Right 4 PD T_ SL IDE _ BB M 10 12 7 9 6 4 3 1 R5 1 OPE N J1 6 Mono Differential Output Left R5 6 49 k9 C1 5 11023-049 J8 UG-477 Evaluation Board User Guide EVALUATION BOARD SCHEMATICS AND ARTWORK Figure 50. EVAL-ADAU1772Z Evaluation Board Schematic—Digital and Analog I/O, Master Clock Generation Evaluation Board User Guide UG-477 PDM Digital Microphone Inputs DM IC1 DM IC0 IOVDD 10k0 11 9 7 5 3 1 R32 POLARIZINGPLUG 12 10 8 6 4 2 DMIC_0_1 R33 R30 10k0 POLARIZINGPLUG M1 ADC_SDATA1/CLKOUT/MP6 100R M2 J6 SOCKET_12WAY_UNSHROUD DM IC3 DM IC2 IOVDD R35 10k0 POLARIZINGPLUG 11 9 7 5 3 1 12 10 8 6 4 2 DMIC_2_3 R34 R31 10k0 M3 ADC_SDATA1/CLKOUT/MP6 100R POLARIZINGPLUG M4 J7 11023-050 SOCKET_12WAY_UNSHROUD Figure 51. EVAL-ADAU1772Z Evaluation Board Schematic—PDM Digital Microphone Interface Serial Audio Interface HEADER_12WAY_UNSHROUD R29 2 4 6 8 10 12 LRCLK/MP3 BCLK/MP2 DAC_SDATA/MP0 ADC_SDATA0/PDMOUT/MP1 ADC_SDATA1/CLKOUT/MP6 49R9 1 3 5 7 9 11 11023-051 EXT_MCLK J4 Figure 52. EVAL-ADAU1772Z Evaluation Board Schematic—Serial Audio Interface IOVDD R40 10k0 R39 10k0 R38 10k0 R37 10k0 R36 10k0 C32 0.10uF S4 DSP Bypass S6 J9 HEADER_10WAY_UNSHROUD 1 3 5 7 9 VOL+ 2 4 6 8 10 S5 VOL1 2 MP PIN JUMPERS S3 4 3 SPST_2SEC_SMD A:Mute B:Bank Switch 11023-052 ADC_SDATA1/CLKOUT/MP6 ADC_SDATA0/PDMOUT/MP1 DAC_SDATA/MP0 BCLK/MP2 LRCLK/MP3 Figure 53. EVAL-ADAU1772Z Evaluation Board Schematic—MP Pin Jumpers Rev. A | Page 17 of 28 UG-477 Evaluation Board User Guide U SB _5 V U3 1 2 BATT SW VIN U4 R2 5 7 10 k0 C2 3 10 n F VOU T EN G ND BYP GND 2 1 RAPC722 X EP EN 3 IOVDD FB TP3 5 J1 0 6 3 R2 8 VDD SEL 162 k C2 4 S1 R2 6 C3 0 137 k J5 C2 6 10 u F C2 9 0 .10 u F C2 7 SPD T C2 8 0 .10 u F TP2 R1 3V3 TP6 TP1 C4 7 0 .10 u F C3 1 10 u F D1 0 .10 u F R2 7 TP7 C2 0 0 .10 u F 100 R 1V8 BRD_ RE SE T 10 u F VDD TP4 USB/EXT 4 ADP 1607 ACPZ -R7 4 2 5 B J2 3 OU T J3 E XT_5 V IN A 1 2 .2 u H PWR SEL ADP 1713 AU JZ-1 .5 -R7 C2 1 0 .10 u F Battery Input 1.5 V Maximum Plane Decoupling Figure 54. EVAL-ADAU1772Z Evaluation Board Schematic—Power Supply Control Port Interface IOVDD IOVDD USB_5V R21 R22 ADDR0/CLATCH OPEN SCL/CCLK SDA/COUT R17 OPEN 1 3 5 7 9 R16 OPEN IOVDD C22 0.10uF R15 2k67 R14 2k67 OPEN J1 2 4 6 8 10 HEADER_10WAY_POL R20 BRD_RESET OPEN R19 ADDR1/CDATA OPEN R18 10k0 11023-054 R23 10k0 Figure 55. EVAL-ADAU1772Z Evaluation Board Schematic—Control Port Interface Rev. A | Page 18 of 28 C4 8 0 .10 u F Gree n D iffu sed 374 k 11023-053 L1 D2 D3 UG-477 11023-055 Evaluation Board User Guide Figure 56. EVAL-ADAU1772Z Evaluation Board Layout—Top Assembly Rev. A | Page 19 of 28 Evaluation Board User Guide 11023-056 UG-477 Figure 57. EVAL-ADAU1772Z Evaluation Board Layout—Top Copper Rev. A | Page 20 of 28 UG-477 11023-057 Evaluation Board User Guide Figure 58. EVAL-ADAU1772Z Evaluation Board Layout—Power Plane Rev. A | Page 21 of 28 Evaluation Board User Guide 11023-058 UG-477 Figure 59. EVAL-ADAU1772Z Evaluation Board Layout—Ground Plane Rev. A | Page 22 of 28 UG-477 11023-059 Evaluation Board User Guide Figure 60. EVAL-ADAU1772Z Evaluation Board Layout—Bottom Copper Rev. A | Page 23 of 28 Evaluation Board User Guide 11023-060 UG-477 Figure 61. EVAL-ADAU1772Z Evaluation Board Layout—Bottom Assembly Rev. A | Page 24 of 28 Evaluation Board User Guide UG-477 ORDERING INFORMATION BILL OF MATERIALS Table 4. Qty. 17 1 1 1 3 1 2 3 2 5 1 2 4 6 1 1 1 1 1 1 1 1 Designator C6 to C7, C9, C11 to C14, C20 to C22, C25, C28 to C30, C32, C47 to C48 R9, R11 to R13, R42, R48, R53 to R54 C24 C39 R30, R31 R3 R1 R18, R23 to R25, R32 to R40 C23 C16 to C19, C26 to C27, C31, C35 to C36, C41 to C42 R26 R28 R10 C34, C37, C40 L1 C3, C5 R44 to R45, R50 R14 to R15 R4 to R8 R27 C44 to C45 C1 to C2, C8, C10 R41, R47, R52, R55 to R57 R29 S7 Y1 U1 U4 U3 J1 J9 1 J4 12-way unshrouded jumper 6 J8, J10 to J12, J15, J17 2 J3, J14 2-pin header, unshrouded jumper, 0.10"; use shunt Tyco 881545-2 3-position SIP header 1 1 2 6 10 D1 U2 D2 to D3 J18 to J23 R16 to R17, R19 to R22, R43, R46, R49, R51 R2 C4, C15, C33, C38, C43, C46 8 1 1 2 1 1 13 1 11 1 6 Description 0.10 µF multilayer ceramic, 16 V, X7R (0402) Part Number ECJ-0EX1C104K Manufacturer Panasonic EC 0 Ω chip resistor, 5%, 63 mW, thick film, 0402 ERJ-2GE0R00X Panasonic EC 1.0 µF multilayer ceramic, 16 V, X7R (0603) 1.0 µF multilayer ceramic, 16 V, X7R (0603) 100 Ω chip resistor, 1%, 63 mW, thick film, 0402 100 Ω chip resistor, 1%, 100 mW, thick film, 0603 100 Ω chip resistor, 1%, 125 mW, thick film, 0805 10 kΩ chip resistor, 1%, 63 mW, thick film, 0402 10 nF multilayer ceramic, 25 V, NP0 (0603) 10 µF multilayer ceramic, 10 V, X7R (0805 ) GRM188R71C105KA12D EMK107BJ105KA-TR MCR01MZPF1000 ERJ-3EKF1000V ERJ-6ENF1000V MCR01MZPF1002 C1608C0G1E103J GRM21BR71A106KE51L Murata ENA Taiyo Yuden Rohm Panasonic EC Panasonic EC Rohm TDK Corporation Murata ENA 137 kΩ chip resistor, 1%, 63 mW, thick film, 0402 162 kΩ chip resistor, 1%, 63 mW, thick film, 0402 1.00 kΩ chip resistor, 1%, 63 mW, thick film, 0402 2.2 µF multilayer ceramic, 10 V, X7R (0603) 2.2 µH inductor 22 pF multilayer ceramic, 50 V, NP0 (0402) 2.00 kΩ chip resistor, 1%, 63 mW, thick film, 0402 2.67 kΩ chip resistor, 1%, 63 mW, thick film, 0402 33.2 Ω chip resistor, 1%, 63 mW, thick film, 0402 374 kΩ chip resistor, 1%, 63 mW, thick film, 0402 470 µF SMD tantalum capacitor, SMD D, 6.3 V 47.0 µF ceramic capacitor, 6.3 V, X7R, 1210 49.9 kΩ chip resistor, 1%, 63 mW, thick film, 0402 49.9 kΩ chip resistor, 1%, 63 mW, thick film, 0402 4PDT slide switch vertical break-before-make 12.288 MHz crystal, SMT, 18 pF Four ADC, two DAC ANC Codec Synchronous boost dc-to-dc converter Fixed low dropout voltage regulator 10-way shroud polarized header, 2 × 5 10-way unshrouded jumper, 2 × 6 Green diffused, 10 millicandela, 565 nm, 1206, 32K, I2C CMOS serial EEPROM Schottky, 30 V, 0.5 A, SOD123 diode Stereo mini jack Do not stuff ERJ-2RKF1373X ERJ-2RKF1623X ERJ-2RKF1001X GRM188R71A225KE15D LQH32PN2R2NN0L GRM1555C1H220JZ01D ERJ-2RKF2001X CRCW04022K67FKED RMCF0402FT33R2 ERJ-2RKF3743X TR3D477M6R3C0200 GCM32ER70J476KE19L CRCW040249K9FKED MCR01MZPF49R9 ASE4204 ABM3B-12.288MHZ-10-1-U-T ADAU1772 ADP1607ACPZ-R7 ADP1713AUJZ-1.5-R7 N2510-6002RB PBC05DAAN or cut PBC36DAAN PBC06DAAN or cut PBC36DAAN PBC02SAAN; or cut PBC36SAAN PBC03SAAN; or cut PBC36SAAN SML-LX1206GW-TR M24C32-F MBR0530T1G SJ-3523-SMT Open Panasonic ECG Panasonic ECG Panasonic EC Murata ENA Murata Electronics Murata ENC Panasonic EC Vishay/Dale Stackpole Panasonic ECG Vishay/Sprague Murata Vishay/Dale Rohm Tyco Electronics Abracon Corporation Analog Devices Analog Devices Analog Devices 3M Sullins Connector Solutions Sullins Connector Solutions Sullins Connector Solutions Sullins Connector Solutions Lumex Opto STMicroelectronics On Semiconductor CUI, Inc. Do not stuff Do not stuff Do not stuff Open Open Do not stuff Do not stuff Rev. A | Page 25 of 28 UG-477 Qty. 1 2 2 1 3 7 Designator J2 J6 to J7 S1 to S2 S3 S4 to S6 TP1 to TP7 Evaluation Board User Guide Description Mini power jack, 0.08", R/A, TH 12-way socket unshrouded, 2 × 6 SPDT slide switch PC mount 2 section SPST SMD switch raised act Tact switch long stroke (normally open) Mini test point, white, 0.1", OD Rev. A | Page 26 of 28 Part Number RAPC722X PPPC062LFBN-RC EG1271 219-2LPST B3M-6009 5002 Manufacturer Switchcraft 3M E-Switch CTS Corporation Omron Electronics Keystone Electronics Evaluation Board User Guide UG-477 NOTES Rev. A | Page 27 of 28 UG-477 Evaluation Board User Guide NOTES I2C refers to a communications protocol originally developed by Philips Semiconductors (now NXP Semiconductors). ESD Caution ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality. Legal Terms and Conditions By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer, assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer, their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board. Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice to Customer. Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT. ADI SPECIFICALLY DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER’S POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT. Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW. This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed. ©2012–2013 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG11023-0-6/13(A) Rev. A | Page 28 of 28