MAX9268EVKIT+

19-5263; Rev 0; 5/10 MAX9268 Evaluation Kit Features The MAX9268 evaluation kit (EV kit) provides a proven design to evaluate the MAX9268 gigabit multimedia serial link (GMSL) with spread spectrum and full-duplex control channel. The EV kit also includes Windows XP®-, Windows Vista®-, and Windows® 7-compatible software that provides a simple graphical user interface (GUI) for exercising the features of the MAX9268. S Drives LVDS Video and The MAX9268 EV kit comes with a MAX9268GCM/V+ installed. S USB-PC Connection (Cable Included) For complete GMSL evaluation, order both the MAX9268 EV kit and its companion board, the MAX9249 EV kit or the MAX9259 EV kit. S Proven PCB Layout I2S Audio S On-Board I2S Audio DAC (MAX9850) S On-Board Class D Audio Power Amplifier (MAX9701) S Windows XP-, Windows Vista-, and Windows 7-Compatible Software S USB Powered S Fully Assembled and Tested Ordering Information PART TYPE MAX9268EVKIT+ EV Kit +Denotes lead(Pb)-free and RoHS compliant. Note: The MAX9268 EV kit should be ordered with its companion board, the MAX9249 EV kit or the MAX9259 EV kit. Component List DESIGNATION QTY DESCRIPTION DESIGNATION QTY C1–C7 7 0.01FF Q10%, 25V X7R ceramic capacitors (0402) Murata GRM155R71E103K C106, C107, C122, C123 4 22pF Q5%, 50V C0G ceramic capacitors (0603) TDK C1608C0G1H220J C108 1 0.1FF Q10%, 16V X7R ceramic capacitors (0603) Murata GRM188R71C104K 1FF Q10%, 16V X5R ceramic capacitor (0603) TDK C1608X5R1C105K C110 1 0.033FF Q10%, 25V X7R ceramic capacitor (0603) Murata GRM188R71E333K C111 0 Not installed, capacitor (0603) 2 0.22FF Q10%, 50V X7R ceramic capacitors (0805) Murata GRM21BR71H224K C200, C203–C209, C216, C217 10 1FF Q10%, 6.3V X5R ceramic capacitors (0402) Murata GRM155R60J105K C21 1 4.7FF Q20%, 25V X7R ceramic capacitor (1206) Murata GCM31CR71E475M C201 1 2.2FF Q20%, 6.3V X5R ceramic capacitor (0603) TDK C1608X5R0J225M C22, C24, C25, C26, C109 5 10FF Q20%, 16V X5R ceramic capacitors (1206) Murata GRM31CR61C106M C202 1 0.47FF Q20%, 16V X7R ceramic capacitor (0603) TDK C1608X7R1C474M C23 0 Not installed, capacitor (1206) C8–C14, C101–C105, C121, C131, C141, C151, C257, C258, C259, C291–C294 C19, C20 23 DESCRIPTION Windows is a registered trademark of Microsoft Corp. ________________________________________________________________ Maxim Integrated Products   1 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. Evaluates: MAX9268 General Description Evaluates: MAX9268 MAX9268 Evaluation Kit Component List (continued) DESIGNATION QTY C210, C211 2 220FF Q20%, 6.3V low-ESR tantalum capacitors (C case) AVX TPSC227M006R0070 C212, C213 0 Not installed, capacitors (C case) C214, C215 2 10FF Q20%, 6.3V X5R ceramic capacitors (0805) TDK C2012X5R0J106M C250 1 100pF Q5%, 50V C0G ceramic capacitor (0603) TDK C1608C0G1H101J C251–C254 C255 C256 DESCRIPTION QTY DESCRIPTION JU101–JU108, JU141–JU144, JU255, JU256, JU294 0 Not installed, 2-pin headers— shorted with PCB trace JU201 1 6-pin header (2 x 3) JU251 1 5-pin header L21, L22, L23, L101 4 Ferrite beads (0603) TDK MMZ1608R301A L251–L255 5 100ω, 3A ferrite beads (0603) TDK MPZ1608S101A 4 1FF Q10%, 6.3V X5R ceramic capacitors (0603) TDK C1608X5R0J105K LED1, LED3, LED4, LED120, LED151– LED158 12 Red LEDs (0805) 0 Not installed, capacitor (0805) LED2 1 Green LED (0805) 1 10FF Q10%, 6.3V X5R ceramic capacitor (0805) Murata GRM21BR60J106K Q1–Q5 5 n-channel MOSFETs (SOT23 Central Semi 2N7002 R1, R2 2 49.9kω Q1% resistors (0603) R3–R8 6 2.2kω Q5% resistors (0603) R11–R15, R123, R151–R158, R201, R202 16 1kω Q5% resistors (0603) R101, R102 2 27ω Q5% resistors (0603) R103 1 1.5kω Q5% resistor (0603) R104 1 470ω Q5% resistor (0603) H1 1 10-pin header (2 x 5) H20 1 8-pin header J1 1 High-speed automotive connector Rosenberger D4S20F-40MA5-Z J10 1 USB type-B, right-angle female receptacle J201–J204 4 Phono jacks J206 JU1–JU6, JU9, JU11, JU121, JU151, JU152, JU252, JU253, JU254, JU206, JU290–JU293, SW1 JU7, JU8 1 3.5mm stereo headphone jack JU10, JU21, JU22, JU23, JU153, JU154, JU191–JU194, JU202–JU205, JUCNTL0, JUCNTL1, JUCNTL2 DESIGNATION 20 2 17 3-pin headers 4-pin headers R111, R112 0 Not installed, resistors (0603) R121 1 1.1kω Q5% resistor (0603) R122 1 10kω Q5% resistor (0603) R191, R192 2 4.7kω Q5% resistors (0603) R251 1 49.9ω Q1% resistor (0603) RT100–RT104 0 Not installed, 100W Q5% resistors (0402) SW122, SW150–SW157 9 Momentary pushbutton switches (6mm) U1 1 Gigabit multimedia serial link, LVDS outputs (48 TQFP-EP*) Maxim MAX9268GCM/V+ 1 3.3V, 500mA LDO regulator (8 FMAXM-EP*) Maxim MAX1792EUA33+ (Top Mark: AAAC) 2-pin headers U2 2   _______________________________________________________________________________________ MAX9268 Evaluation Kit DESIGNATION QTY U10 1 UART-to-USB converter (32 TQFP) 0 Not installed, 93C46-type 3-wire EEPROM 16-bit architecture (8 SO) 1 Ultra-high-speed microcontroller (44 TQFP) Maxim DS89C450-ENL+ U13 1 Three-state quad buffer (14 SO) Fairchild 74AC125SC U14 1 Level translator (14 TSSOP) Maxim MAX3378EEUD+ 1 I2C I/O expander (24 QSOP) Maxim MAX7324AEG+ 1 U11 U12 U15 U19 U20 1 DESCRIPTION DESIGNATION QTY DESCRIPTION 1 1.3W filterless, stereo Class D audio power amplifier (24 TQFN-EP*) Maxim MAX9701ETG+ U29 0 Not installed, multiple-output clock generator with dual PLLs and OTP (20 TQFN-EP*) Maxim MAX9471ETP4X+ Y10 1 6MHz crystal (HCM49) Hong Kong X’tals SSL60000N1HK188F0-0 Y12 1 14.7456MHz crystal (HCM49) Hong Kong X’tals SSM14745N1HK188F0-0 Dual bidirectional level translator (8 SOT23) Maxim MAX3373EEKA+ (Top Mark: AAKS) — 1 USB high-speed A-to-B cable, 6ft — 1 Cable assembly (2m) MD Electronik PT1482 Stereo audio DAC with DirectDriveM headphone amplifier (28 TQFN-EP*) Maxim MAX9850ETI+ — 37 Shunts — 1 PCB: MAX9268 EVALUATION KIT+ U25 *EP = Exposed pad. Component Suppliers SUPPLIER PHONE WEBSITE AVX Corporation 843-946-0238 www.avxcorp.com Central Semiconductor Corp. 631-435-1110 www.centralsemi.com Fairchild Semiconductor 888-522-5372 www.fairchildsemi.com Hong Kong X’tals Ltd. 852-35112388 www.hongkongcrystal.com MD Elektronik GmbH 011-49-86-38-604-0 Murata Electronics North America, Inc. Rosenberger Hochfrequenztechnik GmbH TDK Corp. 770-436-1300 011-49-86 84-18-0 847-803-6100 www.md-elektronik-gmbh.de www.murata-northamerica.com www.rosenberger.de www.component.tdk.com Note: Indicate that you are using the MAX9268 when contacting these component suppliers. µMAX and DirectDrive are registered trademarks of Maxim Integrated Products, Inc. _______________________________________________________________________________________   3 Evaluates: MAX9268 Component List (continued) Evaluates: MAX9268 MAX9268 Evaluation Kit MAX9268 EV Kit Files FILE DESCRIPTION INSTALL.EXE Installs the EV kit files on your computer MAX9268.EXE Application program CDM20600.EXE Installs the USB device driver UNINSTALL.EXE Uninstalls the EV kit software USB_Driver_Help_200.PDF USB driver installation help file Quick Start Required Equipment • MAX9268 EV kit (USB cable included) • MAX9249 EV kit (USB cable included) • 2m Rosenberger cable assembly (included in the MAX9268 EV kit) • Data source (such as digital video) • Optional: I2S or S/PDIF audio source • Optional: Pair of 8I speakers • Optional: 3.5mm stereo headphones (16I or greater) • User-supplied PC with a spare USB port (direct 500mA connection required; do not use a hub) Note: In the following sections, software-related items are identified by bolding. Text in bold refers to items directly from the EV kit software. Text in bold and underlined refers to items from the Windows operating system. Procedure The MAX9268 EV kit is fully assembled and tested. Follow the steps below to verify board operation: 1) Visit www.maxim-ic.com/evkitsoftware to download the latest version of the EV kit software, 9268Rxx. ZIP. Save the EV kit software to a temporary folder and uncompress the ZIP file. 2) Install the EV kit software and USB driver on your computer by running the INSTALL.EXE program inside the temporary folder. The program files are copied to your PC and icons are created in the Windows Start | Programs menu. During software installation, some versions of Windows may show a warning message indicating that this software is from an unknown publisher. This is not an error condition and it is safe to proceed with installation. Administrator privileges are required to install the USB device driver on Windows. 3) Verify that all jumpers are in their default positions, as shown in Table 1. 4) Connect the Rosenberger cable from MAX9249 EV kit connector J1 to MAX9268 EV kit connector J1. 5) Connect the LVDS data source to header H1 of the MAX9249 EV kit. 6) Optional Audio Demo: Connect the S/PDIF audio source (e.g., DVD player digital output) to MAX9249 EV kit phono jack J21. Or, connect I2S audio source to header H1 and remove jumper JU210. Connect speakers to MAX9268 EV kit SPKR_L+/SPKR_L- and SPKR_R+/SPKR_R- oval pads, or plug headphones into J206 headphone jack. 7) Connect the USB cable from the PC to the EV kit board. A Windows message appears when connecting the EV kit board to the PC for the first time. Each version of Windows has a slightly different message. If you see a Windows message stating ready to use then proceed to the next step. Otherwise, open the USB_Driver_Help_200.PDF document in the Windows Start | Programs menu to verify the USB driver was installed successfully. 8) Verify that MAX9249 EV kit LED120 lights up, indicating that the microcontroller is powered and enabled. 9) Verify that MAX9268 EV kit LED120 lights up, indicating that the microcontroller is powered and enabled. 10) Verify that MAX9268 EV kit LED2 lights up, indicating that the link has been successfully established. If LED2 is off or LED1 is on, double-check that PCLK_IN signal is clocking data. 11) Optional Audio Demo: Press and release switch SW122 on both of the MAX9249 and MAX9268 EV kits to enable the S/PDIF-to-I2S and I2S-to-audio DAC demonstration circuitry. If I2S or S/PDIF audio was provided to the MAX9249 EV kit, audio should now be heard from the speakers or headphones previously connected to the MAX9268 EV kit. 4   _______________________________________________________________________________________ MAX9268 Evaluation Kit 13) Press the Connect button and the configuration window disappears. 14) The EV kit software main window appears, as shown in Figure 1. 15) Press the Read All button to read all registers on the MAX9249 and MAX9268. 16) I2C Slave Device Demo: Make sure MAX9268 EV kit headers JU151–JU154 are in the 1-2 position. 17) In the software’s MAX7324 tab (Figure 4), press the Search for MAX7324 button. Verify that the MAX7324 Device Address drop-down list shows 0xDA (JU151=1-2 JU152=1-2). 18) Press the LED151-LED158 ON button. Verify that MAX9268 EV kit LED151–LED158 turn on. 19) Press the LEDs Alternating button. Verify that MAX9268 EV kit LED151, LED153, LED156, and LED158 turn off. 20) GPIO Demo: In the software’s MAX9268 tab (Figure 3), scroll down to Register 0x06. Uncheck the GPIO1OUT checkbox and press the Write button. Verify that MAX9268 EV kit LED4 turns off. 21) Uncheck the GPIO0OUT checkbox and press the Write button. Verify that MAX9268 EV kit LED3 turns off. 22) Check the GPIO1OUT checkbox and press the Write button. Verify that MAX9268 EV kit LED4 turns on. 23) Check the GPIO0OUT checkbox and press the Write button. Verify that MAX9268 EV kit LED3 turns on. 24) INT Demo: Toggle MAX9268 EV kit switch SW2 up. Verify that MAX9249 EV kit LED1 turns on, indicating that MAX9268 INT input is asserted. 25) In the software’s MAX9268 tab, scroll to Register 0x06 and press the Read button. Verify that the INT checkbox is checked, indicating that MAX9268 INT input is asserted. 26) Toggle MAX9268 EV kit switch SW2 down. Verify that MAX9249 EV kit LED1 turns off, indicating that MAX9268 INT input is not asserted. 27) In the software’s MAX9268 tab, scroll to Register 0x06 and press the Read button. Verify that the INT checkbox is not checked, indicating that MAX9268 INT input is not asserted. Detailed Description of Software The main window of the evaluation software (Figure 1) shows a block diagram representing the MAX9249/ MAX9268 system. The left column shows MAX9249 input data sources, and the right column shows MAX9268 output data sinks. The Change Configuration button (Figure 1) brings up the Configuration window (Figure 7), allowing the software GUI to select into which side of the link the USB cable should be plugged. Controlling from the MAX9268 side requires changing some jumper settings as described in this window. If the MAX9249 and MAX9268 device addresses have been previously changed from their factory power-on-reset values, the new addresses must be specified in the Configuration window to allow register access. The Baud Rate drop-down list sets the communications baud rate. The USB link uses the same baud rate as the MAX9249/MAX9268. Note that the baud rate should only be changed one step at a time. The Read All button reads all the MAX9249 and MAX9268 device registers. Reset to Default Values restores recommended factory settings, and Write All writes all MAX9249/MAX9268 device registers with the values shown in the GUI. The MAX9249 tab sheet (Figure 2) provides direct access to all registers of the MAX9249, and the MAX9268 tab sheet (Figure 3) provides direct access to all registers of the MAX9268. Each register has its own Read and Write button. The small circle next to the Read button turns yellow to indicate an attempt to read or write, red to indicate a failed read or write, and green to indicate a successful read or write operation. The MAX7324 tab sheet (Figure 4) controls the I2C I/O expander on the remote side of the link. When the USB is plugged into the MAX9249 EV kit, the MAX7324 tab sheet controls the MAX7324 (U15) on the MAX9268 EV kit. Note that the MAX7324 actually has two device addresses; for simplicity, the software GUI only displays the device address associated with MAX7324 outputs. For details, refer to the MAX7324 IC data sheet. The PRBS Test tab sheet (Figure 5) uses the MAX9268 registers to perform a pseudorandom bit sequence (PRBS) error-rate test. Select the test duration (maximum 32,767sec = 9.1hrs) and press the Start button. The software GUI configures the MAX9268 to begin the PRBS test, counts down the specified delay time, and then reports the final value of the MAX9268 PRBSERR register. _______________________________________________________________________________________   5 Evaluates: MAX9268 12) Start the MAX9249 EV kit software by opening its icon in the Windows Start | Programs menu. The EV kit software configuration window appears, as shown in Figure 7. Evaluates: MAX9268 MAX9268 Evaluation Kit The Interface History and Low Level Access tab sheet (Figure 6) shows the recent low-level communications activity between the software GUI and the MAX9249/MAX9268. The Register Access group box provides arbitrary device read/write control, supporting additional user-supplied devices besides the onboard MAX9249, MAX9268, and MAX7324. The Device Address, Register, and Data drop-down lists specify the device address and the register within the device, as well as one optional byte of data to be written. Pressing the Write Register button writes one byte of data to the specified device register. Read Register reads the specified device register and reports the results into the Interface History window. Devices that are not registerbased (such as the MAX7324) are supported by Send Data (no register) and Receive Data (no register). User-supplied devices requiring other interface protocols must use Raw TX byte codes to communicate. Note that in bypass mode, raw data is passed to the user-supplied slave device directly without modification. Detailed Description of Hardware The MAX9268 EV kit provides a proven layout for the MAX9268. On-board level translators, I2S stereo audio DAC, Class D audio power amplifier, and easy-to-use USB-PC connection are included on the EV kit. The MAX9268 EV kit board layout is divided into four principal sections. From header H1 to connector J1 are the support components specific to the MAX9268. On-board LDO regulator U2 powers the AVDD, DVDD, and IOVDD supplies from VIN. Jumper JU9 optionally connects VIN to the link cable, powering the remote EV kit board. Below header H1, the board layout has three sections: microcontroller (U10–U14), I2C slave device (U15), and audio (U20–U25). The microcontroller and I2C slave device sections are identical to the MAX9249 and MAX9268 EV kits. The audio section of the MAX9249 and MAX9259 EV kits contain S/PDIF-to-I2S audio converter circuits (U20– U25), which an be disabled by JU210 for applications already having I2S audio. The audio section of the MAX9268 EV kit contains an I2Sto-audio DAC circuit (U20) and a Class D stereo power amplifier (U25). The audio DAC circuits are similar to the MAX9850 EV kit, and the power amplifier circuit is similar to the MAX9701 EV kit. User-Supplied Interface To use the MAX9268 EV kit with a user-supplied interface, first cut the PCB traces at jumpers JU141 and JU142. Next, apply your own TX/SCL signal at the U1 side of JU141 and RX/SDA at the U1 side of JU142. Refer to the MAX9249, MAX9259/MAX9260, and MAX9268 IC data sheets for details about UART protocol for base mode, write data format, read data format, selecting base mode or bypass mode, and selecting UART or I2C slave device. User-Supplied Power Supply The MAX9249 and MAX9268 EV kits are powered completely from the USB port by default. The 5V USB bus power is supplied to the remote EV kit over the link cable by default. Jumper JU10 powers the link cable (VBUS) from the 5V USB supply, and jumper JU9 connects the link cable VBUS to the VIN power supply. To provide external power to each EV kit’s VIN, and still power both microcontrollers from USB, remove the shunt from JU9, but leave the shunt at JU10 installed. The link cable carries the USB 5V bus power to the remote EV kit board, but external user-supplied VIN supplies are required to power the MAX9249 and the MAX9268. To provide different power supplies to DVDD, AVDD, and IOVDD, remove the shunts from jumpers JU21, JU22, and JU23, and apply external user-supplied power at the DVDD, AVDD, and IOVDD oval pads. The I2S audio link demonstration requires both MAX9249 EV kit and MAX9268 EV kit microcontrollers (U12) to be powered; otherwise, the on-board S/PDIF-to-I2S converter or the I2S audio DAC does not initialize. Detailed Description of Firmware The DS89C450 microcontroller (U12) runs custom firmware, which ensures that no breaks occur within register read/write commands. The firmware records 9-bit even-parity data received from the USB interface while RTS is set, and plays back the 9-bit data with 1.5 stop bits timing when RTS is cleared. Data received from the MAX9268 is relayed to USB immediately. The audio chips are initialized by an I2C command sequence sent by the firmware when the microcontroller is reset. The same firmware runs on both the MAX9249 and MAX9268 EV kit boards, so this initialization sequence covers both the S/PDIF-to-I2S converter and the MAX9850 I2S stereo audio DAC. Pressing switch SW122 resets the microcontroller, resending the audio I2C initialization commands. 6   _______________________________________________________________________________________ MAX9268 Evaluation Kit Firmware command “?” prints the firmware version banner message and brief command list. Firmware command “B” changes the baud rate by changing the internal TH1 baud-rate divisor. Refer to firmware help command “?” for details. Pressing switch SW122 resets the USB baud rate to 921,600 baud. The software GUI automatically sends the baud-rate change command. Firmware command “T” supports waking up the MAX9249 from the MAX9268 side of the link. Command “T” performs a dummy read, followed by a delay on the order of 1ms to 8ms, and finally writes a register value. For example, send “T810558800483” to read from device address 0x81 register 0x05, delay 4ms, then write to device address 0x80 register 0x04 data 0x83. This is the MAX9249 wake-up sequence for the default device addresses. The software GUI automatically sends this command when the Wake Up MAX9249 button is pressed. Table 1. MAX9268 EV Kit Jumper Descriptions JUMPER JU1 SIGNAL CDS SHUNT POSITION 1-2 2-3* CDS = low; optional peripheral attached to the MAX9268 Open SW1 MS JU2 BWS JU3 EQS JU4 DRS JU5 SSEN JU6 JU7 JU8 JU9 PWDN ADD1 ADD0 Bus power 1-2 (toggle switch up) 2-3* (toggle switch down) Bus power Reserved MS = high; full-duplex bypass mode; device registers not accessible MS = low; half-duplex base mode; required when writing to device registers or when using external I2C peripheral 1-2* BWS = high 2-3 BWS = low 1-2* EQS = high 2-3 EQS = low 1-2* DRS = high 2-3 DRS = low 1-2* SSEN = high 2-3 SSEN = low 1-2* PWDN = high 2-3 1-2 PWDN = low ADD1 = IOVDD (see Table 2) 1-3 ADD1 = Open (see Table 2) 1-4* ADD1 = GND (see Table 2) 1-2 ADD0 = IOVDD (see Table 2) 1-3 ADD0 = Open (see Table 2) 1-4* ADD0 = GND (see Table 2) 1-2* J1 pin 4 connects to VIN 2-3 J1 pin 4 connects to GND Open JU10 DESCRIPTION CDS = high; ECU attached to MAX9268; connects the USB to the MAX9268 EV kit 1-2* Open J1 pin 4 unconnected J1 pin 1 connects to USB+5V USB power is not connected to link cable power _______________________________________________________________________________________   7 Evaluates: MAX9268 The firmware also supports a small set of commands, available when RTS is clear. Since all register read/ write requests are sent with RTS set, there is no conflict between register data and firmware commands. These firmware commands are issued automatically by the MAX9249 EV kit software GUI. The following information is provided for reference only. Evaluates: MAX9268 MAX9268 Evaluation Kit Table 1. MAX9268 EV Kit Jumper Descriptions (continued) JUMPER JU11 JU21 JU22 SIGNAL INT AVDD DVDD SHUNT POSITION DESCRIPTION 1-2 INT = high 2-3 INT = low 1-2* AVDD power from 3.3V LDO U2, powered by VIN Open AVDD must be provided from an external source 1-2* DVDD power from 3.3V LDO U2, powered by VIN Open DVDD must be provided from an external source 1-2* IOVDD power from 3.3V LDO U2, powered by VIN Open IOVDD must be provided from an external source JU23 IOVDD JU121 Reserved Not installed* Reserved for factory diagnostic tests JU141 TX/SCL Not installed* Connects U1–U12 through level translator U14 JU142 RX/SDA Not installed* Connects U1–U12 through level translator U14 JU143 LFLT Not installed* Connects U1 to the USB through level translator U14 JU144 INT Not installed* Connects U1 to the USB through level translator U14 JU151 U15 AD2 1-2* Selects U15 I2C device address 2-3 Selects U15 I2C device address Open JU152 U15 AD0 1-2* Selects U15 I2C device address 2-3 Selects U15 I2C device address Open JU153 JU154 U15 SDA U15 SCL JU191 AUDIO_SCL JU192 AUDIO_SCL JU193 AUDIO_SDA JU194 AUDIO_SDA JU201 U20 ADD HPS Reserved for factory diagnostic tests 1-2* Connects U15 MAX7324 to the I2C bus; MS must be low (SW1) and CDS must be low (JU1 = 2-3 on both boards) Open Disconnects U15 MAX7324 from the I2C bus; MS can be high (SW1) 1-2* Connects U15 MAX7324 to the I2C bus; MS must be low (SW1) and CDS must be low (JU1 = 2-3 on both boards) Open Disconnects U15 MAX7324 from the I2C bus; MS can be high (SW1) 1-2* Open 1-2* Open 1-2* Open 1-2* Open U12 sends I2C initialization commands to audio chip U20 Disconnects the audio I2C bus pullup resistor U12 sends the I2C initialization commands to audio chip U20 Disconnects the audio I2C bus U12 sends the I2C initialization commands to audio chip U20 Disconnects the audio I2C bus pullup resistor U12 sends the I2C initialization commands to audio chip U20 Disconnects the audio I2C bus 1-2* U20 ADD = GND Selects U20 device address 0010 000x (0x20) (on audio I2C bus) 3-4 U20 ADD = IOVDD Selects U20 device address 0010 001x (0x22) (on audio I2C bus) 5-6 U20 ADD = AUDIO_SDA Selects U20 device address 0010 011x (0x26) (on audio I2C bus) Open JU202 Reserved for factory diagnostic tests 1-2* Open Reserved U20 MAX9850 headphone sense controlled by the insertion of headphones U20 MAX9850 headphone sense switch forced open 8   _______________________________________________________________________________________ MAX9268 Evaluation Kit JUMPER JU203 SIGNAL SHUNT POSITION I2S SD JU204 I2S SCK JU205 I2S WS JU206 Disconnects the I2S signals Open U1 I2S audio drives U20 MAX9850 audio DAC 1-2* Disconnects the I2S signals Open U1 I2S audio drives U20 MAX9850 audio DAC 1-2* Disconnects the I2S signals Open MCLK JU251 DESCRIPTION U1 I2S audio drives U20 MAX9850 audio DAC 1-2* U25 SYNC 1-2* U20 MCLK = PLL_OUT_MCLK from 4x PLL U29 2-3 U20 MCLK = CNTL2/MCLK from U1 1-2* U25 operates in spread-spectrum mode with fOSC = 1200kHz Q60kHz 1-3 U25 operates in fixed-frequency mode with fOSC = 1400kHz 1-4 U25 operates in fixed-frequency mode with fOSC = external TTL-compatible clock frequency 1-5 U25 operates in fixed-frequency mode with fOSC = 1100kHz Open JU252 U25 SHDN Reserved 1-2* U25 SHDN = high, enables speaker driver 2-3 U25 SHDN = low, disables speaker driver Reserved Open JU253 U25 GAIN2 1-2* JU253 and JU254 set the gain of U25 2-3 JU253 and JU254 set the gain of U25 Open JU254 U25 GAIN1 Reserved 1-2* JU253 and JU254 set the gain of U25 2-3 JU253 and JU254 set the gain of U25 Open JU255 Not installed* U25 INL- JU256 Reserved U25 input INL is ground referenced Open Reserved Not installed* U25 INR- U25 input INR is ground referenced Open Reserved *Default position. Table 2. Address-Select Jumpers (JU7, JU8) JU7 SHUNT POSITION 1-2 1-3 1-4* ADD1 JU8 SHUNT POSITION ADD0 MAX9268 ADDRESS 1-2 IOVDD 0xD4 1-3 Open 0xD8 1-4 GND 0xD0 IOVDD Open GND 1-2 IOVDD 0x54 1-3 Open 0x58 1-4 GND 0x50 1-2 IOVDD 0x94 1-3 Open 0x98 1-4* GND 0x90 *Device address is determined when power is applied. _______________________________________________________________________________________   9 Evaluates: MAX9268 Table 1. MAX9268 EV Kit Jumper Descriptions (continued) Evaluates: MAX9268 MAX9268 Evaluation Kit Figure 1. MAX9249/MAX9268 EV Kit Software Main Window (Block Diagram Tab) 10   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 Figure 2. MAX9249/MAX9268 EV Kit Software Main Window (MAX9249 Tab) ______________________________________________________________________________________   11 Evaluates: MAX9268 MAX9268 Evaluation Kit Figure 3. MAX9249/MAX9268 EV Kit Software Main Window (MAX9268 Tab) 12   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 Figure 4. MAX9249/MAX9268 EV Kit Software Main Window (MAX7324 Tab) ______________________________________________________________________________________   13 Evaluates: MAX9268 MAX9268 Evaluation Kit Figure 5. MAX9249/MAX9268 EV Kit Software Main Window (PRBS Test Tab) 14   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 Figure 6. MAX9249/MAX9268 EV Kit Software Main Window (Interface History and Low Level Access Tab) ______________________________________________________________________________________   15 Evaluates: MAX9268 MAX9268 Evaluation Kit Figure 7. MAX9249/MAX9268 EV Kit Software Configuration Window 16   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 Figure 8a. MAX9268 EV Kit Schematic (Sheet 1 of 3) ______________________________________________________________________________________   17 Evaluates: MAX9268 MAX9268 Evaluation Kit Figure 8b. MAX9268 EV Kit Schematic (Sheet 2 of 3) 18   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 Figure 8c. MAX9268 EV Kit Schematic (Sheet 3 of 3) ______________________________________________________________________________________   19 Evaluates: MAX9268 MAX9268 Evaluation Kit 1.0” Figure 9. MAX9268 EV Kit Component Placement Guide—Component Side 20   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 1.0” Figure 10. MAX9268 EV Kit PCB Layout—Component Side ______________________________________________________________________________________   21 Evaluates: MAX9268 MAX9268 Evaluation Kit 1.0” Figure 11. MAX9268 EV Kit PCB Layout—Ground Layer 2 22   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 1.0” Figure 12. MAX9268 EV Kit PCB Layout—Power Layer 3 ______________________________________________________________________________________   23 Evaluates: MAX9268 MAX9268 Evaluation Kit 1.0” Figure 13. MAX9268 EV Kit PCB Layout—Solder Side 24   ������������������������������������������������������������������������������������� MAX9268 Evaluation Kit Evaluates: MAX9268 1.0” Figure 14. MAX9268 EV Kit Component Placement Guide—Solder Side ______________________________________________________________________________________   25 Evaluates: MAX9268 MAX9268 Evaluation Kit Revision History REVISION NUMBER REVISION DATE 0 5/10 DESCRIPTION Initial release PAGES CHANGED — Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 26 ©  2010 Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 Maxim Integrated Products Maxim is a registered trademark of Maxim Integrated Products, Inc.