MAX9291COAXEVKIT#

Evaluates: MAX9291/MAX9293 MAX9291/MAX9293 Evaluation Kit General Description The MAX9291/MAX9293 evaluation kit (EV kit) provides a proven design to evaluate the MAX9291/MAX9293 HDMI input with high-bandwidth gigabit multimedia serial link (GMSL) output serializer with spread spectrum and full-duplex control channel with the use of a standard FAKRA coaxial cable. The EV kit also includes Windows Vista®- and Windows® 7-compatible software that provides a simple graphical user interface (GUI) for exercising features of the serializers. The EV kit comes with a MAX9291 or MAX9293 IC installed. For complete GMSL evaluation using a standard FAKRA coax cable, order the MAX9291/MAX9293 coax EV kit and a companion serializer board (MAX9276A/MAX9280A coax EV kit referenced in this document). For testing with STP cable, also order the MAXCOAX2STP-HSD adapter kit. Only one adapter kit is needed per link (connecting the serializer and deserializer boards). Items Included in the EV Kit Package DESCRIPTION QTY MAX9291 coax EV kit or MAX9293 coax EV kit boards 1 USB cable 1 MAX9291/MAX9293 EV Kit Files FILE DECRIPTION MAXSerDesEV-N_Vxxxx_ Install.EXE Installs the EV kit files on the PC MAXSerDesEV-N.EXE Graphical-user interface (GUI) program Quick Start Required Equipment ● MAX9291 or MAX9293 coax EV kit (USB cable included) ● HDMI Input GMSL Serial Output ● MAX9276A or MAX9280A coax EV kit ● Windows Vista- and Windows 7-Compatible Software ● 2m FAKRA cable assembly (included in the MAX9276A/MAX9280A coax EV kit) ● USB Powered ● HDMI data source ● Proven PCB Layout ● PC running Windows Vista or Windows 7, with a spare USB port (direct 500mA connection required; do not use a bus-powered hub) ● 5V DC, 500mA power supply Features ● USB-Controlled Interface (Cable Included) ● Fully Assembled and Tested Note: In the following sections, “serializer” refers to the MAX9291 or MAX9293 ICs and “deserializer” refers to the MAX9276A or MAX9280A ICs. Note: To evaluate the product with shielded twisted-pair (STP) cable, refer to the MAXCOAX2STP-HSD data sheet. Note: This document applies to both coax and STP EV kits. This document covers coax cables, but the information provided applies equally to STP cables. Windows, Windows Vista, and Windows 7 are registered trademarks and registered service marks of Microsoft Corporation. 19-7718; Rev 0; 7/15 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. Ordering Information appears at end of data sheet. Evaluates: MAX9291/MAX9293 MAX9291/MAX9293 Evaluation Kit Procedure The EV kit is fully assembled and tested. Follow the steps below to verify board operation: 1) 2) 3) 4) 5) 6) 7) 8) 9) 10) 11) 12) 13) Download and install the EV kit software, MAXSerDesEV-N.EXE. The application will try to download and install the USB driver for the Nuvoton microcontroller. If the USB driver installation is not successful, install the appropriate USB driver for your computer, which is available at www.ftdichip.com/ Drivers/VCP.htm. Verify that jumpers on the serializer board are in their default positions, as shown in Figure 12. Verify that jumpers on the deserializer board are in their default positions, as shown in Figure 13. Power up the serializer by connecting the USB cable between the PC’s USB port and connector J10 on the serializer board. Power up the deserializer by connecting the positive/ negative terminals of the power supply to the +5VIN/ GND terminals on the deserializer board. Connect the FAKRA cable from the OUT+ terminal on the serializer board to the IN+ terminal on the deserializer board. Turn on the power supply to power the deserializer board. Connect the HDMI source to the HDMI connector (J1) on the serializer EV kit board. Verify that LOCK LED on the deserializer EV kit board lights up, indicating that the link has been successfully established. Input data should be available on the H1 header on the deserializer board. If the LOCK LED is off, or ERR LED is on, go to the Troubleshooting section at the end of this document and fix the problem before continuing. Start the EV kit software by selecting Start | Programs | Maxim Integrated | MAXSerDesEV-N | MAXSerDesEV-N. In case a more recent firmware than the firmware currently in the microcontroller is available, a 14) 15) 16) 17) 18) 19) 20) 21) warning will be displayed at GUI startup (Figure 1), informing the user that a new version of the firmware is available. You can continue operating the EV kit with the current firmware, or update it. To update the firmware, follow the instructions in C:\Program Files\ Maxim Integrated\MAXSerDesEV-N\Firmware Update\Updating MAXSerDesEV-N firmware.pdf. A window will pop open (Figure 3) indicating that all control-channel-related jumpers along with other jumpers have been positioned correctly. If the GUI does not find a valid EV kit board (an operating evaluation board with a Nuvoton microcontroller), a window similar to Figure 2 will appear. Press OK to continue and start the GUI or press Cancel to terminate the application. Go to the Troubleshooting section at the end of this document and fix the problem before continuing. If an operating evaluation board is found, the Configuration Settings window appears (Figure 3), and the GUI automatically searches the slave addresses and identifies the DUTs based on the Device IDs read from the DUTs internal registers. Once the Configuration Settings window is open, press the Identify Devices button at any time to reidentify devices connected in the setup and display corresponding jumpers to configure the serializer and deserializer. Only Link Type and Device Address selections on the Configuration Settings window affect the EV kit operation. Other items are for user reference only. Press the Connect button to open the Evaluation Kit window and DUTs’ register maps (Figure 4). All serializer and deserializer internal registers are read and displayed on the corresponding tabs. Press the Read All MAX9291 button in the Serializer group box to read all serializer registers. Click on the MAX9280/80A Des tab and then press the Read all MAX9280 button in the Deserializer group box to read all deserializer registers. Click on any of the other tabs to evaluate other functions of the serializer and deserializer. Figure 1. MAXSerDesEV-N EV Kit Software: Warning! (Update Firmware) www.maximintegrated.com Maxim Integrated │ 2 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 2. MAXSerDesEV-N EV Kit Software: Warning! (reporting EV Kit with Nuvoton Microcontroller is NOT Detected!) Table 1. Jumper Settings/Descriptions JUMPER* SIGNAL DEFAULT POSITION J1 HDMI — J2 (Note 1) LMN1_REM J3 RSVD44 J4 (Note 1) LMN1_LOC J5 SCL_PU J6 I-IOVDD J7 +12V J8 (Note 1) LMN0_LOC Short FUNCTION HDMI input connector OUT- line-fault function on remote device, deserializer (J4 must be open) Open** OUT- line-fault function is on local device, serializer (J4 must be short) Short** Reserved (keep shunt inserted at all times) Short** OUT- line-fault function on local device, serializer (J2 must be open) Open Short** Open Short** Open — Short** Open OUT- line-fault function on remote device, deserializer (J2 must be short) TX/SCL line pulled up to IOVDD TX/SCL line not pulled up (use external pullups) IOVDD voltage applied to U9 Insert amp meter to measure U1 IOVDD current AC adapter power input OUT+ line-fault function is on local device, serializer (J11 must be open) OUT+ line-fault function on remote device, deserializer (J11 must be short) J9 ICE-DEBUG — Connect Nu-Link-Pro dongle to program Nuvoton μC boot loader J10 J10 — Mini-USB connector J11 (Note 1) LMN0_REM J12 EXT_UC J13 DDCSCL J16 SDA_PU J17 J18 LMN_V J18 www.maximintegrated.com Short Open** — Short** Open Short** OUT+ line-fault function on remote device, deserializer (J8 must be open) OUT+ line-fault function is on local device, serializer (J8 must be short) 4-pin header to connect external μC terminals, I2C, or UART HDMI SCL pulled up HDMI SCL not pulled up RX/SDA line pulled up to IOVDD Open RX/SDA line not pulled up (use external pullups) Short Top of LFLT circuit pulled up to AVDD 1.8V Open** Insert amp meter to current measurement Short** POC circuit powered Open POC circuit not powered Maxim Integrated │ 3 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Table 1. Jumper Settings/Descriptions (continued) JUMPER* SIGNAL J19 DDCSDA J21 VDD_REF JU1 HS_DRS JU2 HS_AUTOS JU3 VDD DEFAULT POSITION Short** Open Short** Open JU5 (Note 2) HS_TX-SCL JU6 (Note 2) HS_RX-SDA JU7 XVDD JU8 PLLVDD JU9 RVDD JU18 (Note 2) (HS_I2CSEL) JU19 HS_ADD1 JU20 HS_ADD0 JU22 HS_CNTL1 HS_CNTL2 HS_SSEN JU25 HS_MS www.maximintegrated.com External μC digital signals level are applied on J12.1 GND** Select high data-rate mode Disable serialization GND** Disable serialization +5VIN IOVDD** GND Left (SCL)** Right (TX) Left (SDA)** Board powered from USB port Board powered from +5VIN terminals Board powered from AC adapter Set reverse channel to high-immunity mode Set reverse channel to legacy mode Communicate in I2C mode Communicate in UART mode Communicate in I2C mode Right RX) Communicate in UART mode INT** Use on-board 3.3V for XVDD EXT Use external 3.3V for XVDD INT** Use on-board 3.3V for PLLVDD EXT Use external 3.3V for PLLVDD INT** Use on-board 1.8V for RVDD EXT Use external 1.8V for RVDD I2C** Set communication to I2C mode UART Set communication to UART mode H ADD1 = high (see Table 2) L** ADD1 = low (see Table 2) H ADD0 = high (see Table 2) L** ADD0 = low (see Table 2) H Additional input data bit (fix input bit to high level) L Additional input data bit (fix input bit to low level) Apply user data bit to middle pin H Additional input data bit (fix input bit to high level) L Additional input data bit (fix input bit to low level) Open** JU24 Use internal 3.3V for external μC digital signals IOVDD Open** JU23 HDMI SDA not pulled up Select low data-rate mode REG HS_HIM HDMI SDA pulled up IOVDD USB+5V** JU4 FUNCTION H Apply user data bit to middle pin Spread spectrum set to ±0.5% L** Spread spectrum off H Select bypass mode L** Select base mode Maxim Integrated │ 4 Evaluates: MAX9291/MAX9293 MAX9291/MAX9293 Evaluation Kit Table 1. Jumper Settings/Descriptions (continued) JUMPER* SIGNAL JU26 HS_CDS JU27 HS_PWDN JU28 (Note 3) HS_BWS JU30 AVDD JU31 DVDD JU32 HVDD JU33 DEFAULT POSITION H Control-channel master µC is connected to the deserializer L** Control-channel master µC is connected to the serializer H** Serializer is powered down, disabled L Serializer is powered up, enabled H 32-bit mode L** IOVDD JU34 FUNCTION HS_CX_TP Does not apply Open High-bandwidth mode INT** Use on-board 1.8V for AVDD EXT Use external 1.8V for AVDD INT** Use on-board 1.8V for DVDD EXT Use external 1.8V for DVDD INT** Use on-board 3.3V for HVDD EXT Use external 3.3V for HVDD 4-1.8V Set IOVDD to 1.8V 2-3.3V** Set IOVDD to 3.3V 3-2.5V Set IOVDD to 2.5V H** Set CX/STP pin for coax cable L Set CX/STP pin for STP cable *Jumper selections in the Serializer/Deserializer group boxes on the Configuration Settings window are for reference only and do not affect software operation. **Default position. Notes: 1: Do not activate LFLT functions on both ends of the same channel. 2: JU5, JU6, and JU18 must be set consistently. 3: JU28 (set BWS to the same level on both sides of the serial link). Table 2. Device Address Selection PIN DEVICE ADDRESS (binary) DESERIALIZER DEVICE ADDRESS (hex) ADD1 ADD0 D7 D6 D5 D4 D3 D2 D1 D0 SERIALIZER DEVICE ADDRESS (hex) Low Low 1 0 0 X* 0 0 0 R/W 80 90 Low High 1 0 0 X* 0 1 0 R/W 84 94 Low Open 1 0 0 X* 1 0 0 R/W 88 98 High Low 1 1 0 X* 0 0 0 R/W C0 D0 High High 1 1 0 X* 0 1 0 R/W C4 D4 High Open 1 1 0 X* 1 0 0 R/W C8 D8 Open Low 0 1 0 X* 0 0 0 R/W 40 50 Open High 0 1 0 X* 0 1 0 R/W 44 54 Open Open 0 1 0 X* 1 0 0 R/W 48 58 *X = 0 for the serializer address; X = 1 for the deserializer address. www.maximintegrated.com Maxim Integrated │ 5 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Detailed Description of Software Controller Group Box To start the MAX9291/MAX9293 EV kit GUI, select: Start | Programs | Maxim Integrated | MAXSerDesEV-N | MAXSerDesEV-N. In the Controller group box, select Coax or STP from the Link Type drop-down list, I2C or UART from the Bus drop-down list, and whether the Serializer or Deserializer should connect to the USB controller. Upon changing any of these parameters, the selection in the jumper listing below changes automatically, prompting the user to make the corresponding changes to the jumper on the EV kit boards. Configuration Settings Window The Configuration Settings window is the first window that opens after program launch. It allows the user to specify serializer and deserializer evaluation board setup and modes of operation (Figure 3). Figure 3. MAXSerDesEV-N EV Kit Software: Configuration Settings Window (Shown with MAX9293 and MAX9280A EV Kits Connected) www.maximintegrated.com Maxim Integrated │ 6 MAX9291/MAX9293 Evaluation Kit Serializer Jumper Selection Block The Serializer Jumper Selection block lists jumpers on the evaluation board of the selected Device ID and displays the correct shunt positions based on the conditions selected in the Controller group box. Deserializer Jumper Selection block The Deserializer Jumper Selection block lists jumpers on the evaluation board of the selected Device ID and displays the correct shunt positions based on the conditions selected in the Controller group box. Identify Devices Button The Identify Devices button causes the GUI to scan the system and search for slave addresses on the bus. Upon successful communication, it reads the Device ID register from the device and displays the corresponding jumper lists on the Serializer Jumper Selection and Deserializer Jumper Selection blocks. It is also possible to manually select a device from the Device ID drop-down list and enter a slave address in the Device Address edit box. It is a good practice to utilize the Identify Devices button and verify communication with the DUTs before attempting to Connect. Figure 12 and Figure 13 show jumper settings on the MAX9291/MAX9293 and MAX9276A/ MAX9280A PCBs for coax or STP cable and UART or I2C communication with the USB controller connected to the serializer board. Refer to the respective serializer/deserializer IC data sheets for detailed configuration information. See Table 1 for PCB jumper settings/descriptions. The following sections provide a brief overview of functional buttons on the Configuration Settings window. Device Address Edit Box It is a good practice to utilize the Device Address edit box and verify communication with the DUTs before attempting to Connect. Connect Button The Connect button opens up the Evaluation Kit window. The GUI reads the serializer and deserializer registers and updates the register maps for both. Successful communication is indicated by green LED indicators. In case of a communication problem, the LED indicators turn red. Cancel - Do Not Connect Button The Cancel - Do Not Connect button opens the Evaluation Kit window without attempting to connect to the microcontroller. Although there will be no www.maximintegrated.com Evaluates: MAX9291/MAX9293 communication with the microcontroller, all functions and tabs corresponding to the selected Device IDs on the Evaluation Kit window become active once there. Evaluation Kit Window The Evaluation Kit window shown in Figure 4 provides access to all internal registers and functions of the DUTs by means of reading and writing registers through different tabs that allow the user to evaluate various functions of the serializer and deserializer. The Read All button updates the serializer and deserializer register maps by reading the DUT’s internal registers. The Serializer group box provides pushbuttons to update the serializer’s register map from the DUT using the Read All MAX9291 button, update from a previously saved file using the Load button, or save the existing register values into a file using the Save button. The Deserializer group box provides pushbuttons to update the deserializer’s register map from the DUT using the Read All MAX9276 button, update from a previously saved file using the Load button, or save the existing register values into a file using the Save button. The Wake Up button applies the register write sequence described in the IC data sheets to wake up the DUTs from sleep mode. The Open Configuration button Configuration Settings window. reopens the The following sections describe the tabs available on the Evaluation Kit window. MAX9291 Ser Tab The MAX9291 Ser tab (Figure 4) lists the serializer registers’ bitmaps. Read and Write buttons in each register group box allow access to each bit or group of bits that specify a function or condition, as defined in the serializer IC data sheet. The color of the small LED indicator next to the Read/Write buttons indicates the communication status. Green indicates successful communication and red indicates failed communication. MAX9276 Des Tab The MAX9276 Des tab (Figure 5) lists the deserializer registers’ bitmaps. Read and Write buttons in each register group box allow access to each bit or group of bits that specify a function or condition, as defined in the deserializer IC data sheet. The color of the small LED indicator next to the Read/Write buttons indicates the communication status. Green indicates successful communication and red indicates failed communication. Maxim Integrated │ 7 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Additional Features Tab Show PRBS Test Button The Additional Features tab (Figure 6) provides pushbuttons for specific functions that the connected devices can perform. By pressing the buttons, a window will pop up that allows the specific function to be utilized/executed. Functions that are not supported by the selected devices are grayed out. By pressing the Start button in the expanded window shown in Figure 9, the serializer and deserializer registers are programmed per defined sequence in the IC data sheets to perform a pseudorandom bit sequence (PRBS) error-rate test. Enter test duration (maximum 32,767s = 9.1hrs) in the Duration edit box and press Start to begin the test. At test completion,the number of bit errors will be read from the PRBSERR register and displayed in the PRBS Error Counter box. Access EDID Table Contents Button The Access EDID Table Contents button provides access to the EDID Table (Figure 7). Use this table to program/view/edit the EDID Table content. The EDID Table can be uploaded from a valid existing file and the content can also be saved to a file (in .csv format) for reference, or for use as a template. Access Lookup Table Button The Access Lookup Table button provides access to the Lookup Tables (LUT) of the deserializer (Figure 8). Use this window to program/view/edit the LUT settings of the red, green, and blue colors for color translation. LUT content edits can be performed on the entire 256 bytes of all three colors, on an individual color table, or individual pixels of any color table. The LUT’ contents can be saved to a file (in .csv format) for reference or for use as a template. LUT contents can be uploaded from a valid existing file. A sample LUT content is included in the EV kit software package. This window is functional only for DUTs that support color mapping. www.maximintegrated.com Log\Low Level Tab The Log\Low Level tab (Figure 10) logs all activities between GUI and DUTs. The Register Access group box includes Read and Write buttons to specify the slave and register addresses. Use the Send String to EVKIT button for communication with devices that are not register-based (such as the MAX7324). The SerDes Baud Rate drop-down list sets the communications baud rate. Note that the baud rate should be changed in small increments/decrements (one step change at a time is recommended). HDCP Tab The HDCP tab (Figure 11) displays the HDCP registers of both serializer and deserializer, listed side-by-side with Read and Write buttons for each register. Authenticate and Enable Encryption pushbuttons initiate the HDCP verification process. At the end of the operation, the color of the LED indicator next to the button indicates success or failure of the function. Note: This tab is only functional for DUTs that support the HDCP function. Maxim Integrated │ 8 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 4. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (MAX9293 Ser Tab (Serializer)) www.maximintegrated.com Maxim Integrated │ 9 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 5. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (MAX9280/80A Des Tab (Deserializer)) www.maximintegrated.com Maxim Integrated │ 10 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 6. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (Additional Features Tab) www.maximintegrated.com Maxim Integrated │ 11 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 7. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (EDID Table) www.maximintegrated.com Maxim Integrated │ 12 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 8. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (Lookup Tables) Figure 9. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (Additional Features Tab—Expanded for PRBS Test)) www.maximintegrated.com Maxim Integrated │ 13 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 10. MAXSerDesEV-N EV KIT Software: Evaluation Kit Window (Log\Low Level Tab) www.maximintegrated.com Maxim Integrated │ 14 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 11. MAXSerDesEV-N EV Kit Software: Evaluation Kit Window (HDCP Tab) Detailed Description of Firmware On-Board Controller The Nuvoton microcontroller (U12) runs a custom firmware that ensures reliable communication between the computer and DUTs. The firmware records 9-bit evenparity 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 DUTs is immediately relayed to the USB port. The microcontroller on the EV kit board provides the UART and I2C interface (through U6 and U10) that will communicate with both serializer and deserializer boards when they are powered on and properly configured. Detailed Description of Hardware The MAX9291/MAX9293 coax EV kit provides a proven design and layout for the MAX9291/MAX9293 GMSL serializers, designed for a standard HDMI connector input and FAKRA coaxial cable serialized output. On-board level translators and an easy-to-use USB-PC connection are included on the EV kit. The MAX9291/MAX9293 coax EV kit board consists of three principal functional blocks: 1) Power-supply block. 2) MAX9291/MAX9293 application circuit block. 3) Microcontrollers (U6-U10) block. www.maximintegrated.com Externally Applied Controller To use the EV kit with an externally applied controller, remove shunts from the JU5 header and connect the TX/SCL signal from the external controller to the middle pin of the JU5 header. Also remove the shunt from the JU6 header and connect the RX/SDA signal from the external controller to the middle pin of the JU6 header. Connect the logic level of the external controller (VDD) to the J12.1 pin (next to the SW122 switch), labeled VREF and connect the ground signal of the external controller to the GND pin on J12.3 labeled GND. Refer to the serializer and deserializer IC data sheets for details on read/write data formats. Maxim Integrated │ 15 MAX9291/MAX9293 Evaluation Kit Power Supplies On-board LDO regulators (U2, U3, and U4) generate all internal voltages (AVDD, DVDD, IOVDD), including voltage levels required for the Toshiba CSI-2-to-parallel bridge-chip board from a single power source applied to the board. There are three options to power the board: USB port (default), 12V AC adapter, or 5V power supply applied on the +5VIN terminals. Jumpers VDD and JU3 select between the three power sources. Evaluates: MAX9291/MAX9293 To test with AVDD, DVDD, IOVDD voltage levels different from what is generated on the board, move the corresponding shunt on headers AVDD18 (JU30), DVDD18 (JU31), RVDD18 (JU9), IOVDD (JU33), HVDD33 (JU32), PLLVDD33 (JU8), and XVDD (JU7) from pins 1-2 to pins 3-2 (next to the wire loop) and apply the external voltage to the corresponding wire-loop terminal. Figure 12. MAX9291/MAX9293 Coax EV Kit (Serializer Jumper Settings for Coax Link and I2C Communication) www.maximintegrated.com Maxim Integrated │ 16 MAX9291/MAX9293 Evaluation Kit Evaluates: MAX9291/MAX9293 Figure 13. MAX9276A/MAX9280A Coax EV Kit (Deserializer Jumper Settings for Coax Link and I2C Communication) www.maximintegrated.com Maxim Integrated │ 17 Evaluates: MAX9291/MAX9293 MAX9291/MAX9293 Evaluation Kit Troubleshooting ● Check and verify that the USB cable has properly been connected. ● USB port has locked up: Exit the application/GUI and remove the USB cable from the board and reinsert; re-launch the GUI. ● Nuvoton μC is not communicating: Exit the application/GUI and remove the USB cable from the board and reinsert; then relaunch the GUI. ● Deserializer board is faulty: Try a different board (if available). ● Serializer board is faulty: Try a different board (if available). ● HDMI source does not detect the EV kit board: Verify that source is powered on and source output is enabled and outputting a signal. Possible causes of board test failure: ● Coax cable not properly connected between OUT+ of the serializer and IN+ of the deserializer. ● PCLKIN not applied (e.g., the FG output is disabled): Verify signal at the pins on the board. ● PCLKIN, function generator output not correct: Verify signal at the pins on the board. ● Incorrect jumper setting on deserializer board: Reverify. ● Incorrect jumper setting on the Serializer board: Reverify. ● Bus selection on GUI is not consistent with jumpers’ position on the boards. Component Suppliers SUPPLIER PHONE WEBSITE Amphenol RF 800-627-7100 www.amphenolrf.com Hong Kong X’tals Ltd. 852-35112388 www.hongkongcrystal.com Murata Americas 770-436-1300 www.murataamericas.com ON Semiconductor 602-244-6600 www.onsemi.com Rosenberger Hochfrequenztechnik GmbH TDK Corp. 011-49-86 84-18-0 847-803-6100 www.rosenberger.de www.component.tdk.com Note: Indicate that you are using the MAX9291 or MAX9293 when contacting these component suppliers. Component List, Schematics, and PCB Layout Diagrams Ordering Information PART TYPE Clink on the links below for component list, schematics, and PCB layout diagrams: MAX9291COAXEVKIT# EV Kit MAX9293COAXEVKIT# EV Kit MAX9291/MAX9293 EV Kit BOM MAXCOAX2STP-HSD# Adapter Kit MAX9291/MAX9293 EV Kit Schematics MAX9291/MAX9293 EV Kit PCB Layout www.maximintegrated.com #Denotes RoHS compliant. Note: The MAX9291 and MAX9293 coax EV kits are normally ordered with a companion board: ● MAX9276A coax EV kit (MAX9276ACOAXEVKIT#), or ● MAX9280A coax EV kit (MAX9280ACOAXEVKIT#) Maxim Integrated │ 18 Evaluates: MAX9291/MAX9293 MAX9291/MAX9293 Evaluation Kit Revision History REVISION NUMBER REVISION DATE 0 7/15 DESCRIPTION Initial release PAGES CHANGED — For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated’s website at www.maximintegrated.com. Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses ar i i Maxi I t rat r r t ri t to c a t circ itr a ci catio it o t otic at a ti Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc. © 2015 Maxim Integrated Products, Inc. │ 19 MAX9291COAXEVKIT# : Rev B Component Description 3/30/2015 QTY Per CAP0603 TPSV108M006R0040,1000uF 0 1 CAP-CERAMIC-0.1UF-0603,0.1uF CAP-CERAMIC-0.22UF-0603,0.22uF CAP-CERAMIC-0.22UF-0805,0.22uF CAP-CERAMIC-1000PF-0603,0.001uF CAP-CERAMIC-10UF-0603,10uF CAP-CERAMIC-10UF-1206,10uF CAP-CERAMIC-22PF-0603,22pF CAP-CERAMIC-3.3UF-0402,3.3uF 23 1 2 14 7 4 6 7 CAP-CERAMIC-4.7UF-0603,4.7uF CAP-TACL105K006R,1uF CAP-TANT-10UF-1210,10uF CAP0402-0.1UF,0.1uF CONN-FAKRA-MALE CONN-HDMI-47151-0001 CONN-HDMI-47151-0001 CONN_USB-MINI-1734035-1 FERRITE-FILTER-CHIP-120-OHM-3A-0603 JUMPER4 IND-4242,330nH IND-POWER,6.8uH IND-POWER,100uH JUMPER2 JUMPER3 JUMPER3 JUMPER-4WAY LED-GREEN-0805,GREEN LED-RED-0805 N-Channel MOSFET, SOT-23-GDS NUC140_LQFP_100,NUC140VE3CN POWER_JACK-PJ-002AH MAX3378EEUD+ MAX9291GTN+ MAX9291GTN/V+ FT232BL LM317MP 20 1 1 14 2 1 2 1 12 2 1 1 1 13 22 0 2 1 5 3 3 1 1 1 1 1 1 1 MAXIMPAD RES0603,2K 9 3 RES-1K-0603,1K RES0603,1M RES0603,240 RES0603,31.6K RES0603,40.2K RES0603,47K RES0603,715 RES0603,909 18 1 1 1 1 3 1 1 MAX1792EUA33+ Remarks C12 C38 C1, C3, C5, C8, C10, C23, C25, C47, C59, C101-C104, C108, C110, C114, C117, C120-C121, C131-C132 C13 C61, C63 C24, C27, C30, C33, C37, C65, C72-C79 C4, C9, C18, C20-C21, C118, C133 C2, C7 ,C34, C109 C6, C11, C106-C107, C122-C123 C29, C32, C36, C42-C43, C53 C64 C16, C19, C40-C41, C44, C55-C58, C66-C71, C80-C82, C115-C116 C17 C96 C22, C26, C28, C31, C35, C45-C46, C48-C52, C54, C62 OUT+, OUTJ1 J3,J14 J10 FB1-FB11, FB13 J9 ,J12 L1 L2 L3 J2-J6, J8, J11, J13, J16-J19, J21 JU1-JU2, JU4-JU9, JU18-JU20, JU22-JU28, JU30-JU32, JU34 JU_USR1-JU_USR3 , JU3, JU33 LED_HPD LED_GOP, LED_INTOUT, LED_LFLT, LED_PWR, LED_UC Q1-3 U2-U4 U6 J7 U8 U9 U9 U10 U36 +5VIN, AVDD_EXT, DVDD_EXT, HVDD_EXT, IOVDD_EXT, PLLVDD_EXT, RVDD_EXT, XVDD_EXT, GND R9, R11, R30 R3, R10, R14, R18, R24, R31-R32, R36, R39, R41, R49, R54, R58, R62-R64, R69, R77 R8 R94 R1 R6 R20, R33-R34 R95 R29 Manufacturer Part Number TPSV108M006R0040 GRM188R71H104KA93D GRM188R71E224KA88D MURATA GRM21BR71H224K Murata GRM188R60J106M C3216X7R1C106M160AC C1608C0G1H220J080AA 587-2236-1-ND ECJ-1VB0J475K TACL105K006R Murata GRM32DC81E106KA12L PCC2146TR-ND PE44651Z 47151-0001 47151-0001 1734035-1 BLM18SG121TN1 Molex 22-28-4363 MCFT000154 LBC3225T6R8MR LQH6PPN101M43 Molex 22-28-4363 Molex 22-28-4363 Molex 22-28-4363 Molex 22-28-4363 SML-210MTT86 SML-210VTT86 BSN20-7 MAX1792EUA33 NUC140VE3CN PJ-002AH MAX3378EEUD+ MAX9291GTN+ MAX9291GTN/V+ FT232BL LM317KTTR 297 SV005 ANY CR0603-FX-1001ELF CR0603-JW-105GLFCT-ND CR0603-FX-2400ELF P31.6KHCT-ND P40.2KHCT-ND P47KGTR-ND CRCW0603715RFKEB P909HCT-ND RES-11K-OHM-1/10W-5%-0603-SMD,11K RES-1.5K-OHM-1/10W-5%-0603-SMD,1.5K RES-10K-OHM-1/10W-5%-0603-SMD,10K RES-24K9-0603,24K9 RES-24K9-0603,24K9 RES-27-OHM-0603,27 RES-0-OHM-0603,DNP RES-30K1-0603,30K1,1% RES-4.7K-OHM-1/10W-5%-0603-SMD,4K7 RES-41K2-0603,41k2 RES-470-OHM-0603,470 RES-49K9-0603,4.99K,1% RES0603/30K,30K,0.1% RES0603/45K3,45K3,0.1% RES0603/49K9,49K9,0.1% SMA_EDGE connector SW-EVQ-PAD09K 1 1 6 3 1 6 0 3 1 1 1 2 1 2 2 1 1 TESTPOINT-PC5010 (red) XOR XTAL-FQ1045A-6,6MHZ XTAL-HC-49US,12MHZ XTAL-HC-49US,27MHZ MAX9291/93 COAX PCB 10 4 1 1 1 1 R23 R103 R4, R12, R61, R66, R108, R112 R2, R85, R93 R59 R5, R22, R37-R38, R101-R102 R7 R13, R28, R35 R17 R16 R104 R21, R27 R25 R26, R40 R15 ,R19 J-CN SW122 TP_GPO, TP_HPD, TP_INTOUT, TP_J1CEC, TP_J1HPD, TP_LFLT, TP_RSVD32, TP_SCK, TP_SD, TP_WS U7, U22, U25-U26 Y1 Y2 Y3 PCB ANY ERJ-3GEYJ152V ERJ-3GEYJ103V CRCW060324K9FKEA CRCW060324K9FKEA ERJ-3GEYJ270V DNP ERJ-3EKF3012V ERJ-3GEYJ472V CRCW060341K2FKEA ERJ-3GEYJ471V ERJ-3EKF4991V TNPW060330K0BEEA ERJ-3EKF4532V TNPW060349K9BEEA 142-0701-801 EVQ-PAD09K 5000K-ND 74LVC1G86GW FQ1045A-6 300-8548-2-ND 300-8571-1-ND 6 5 4 3 2 1 REVISION RECORD LTR D VDD3.3 GND VDD_UC GND GND ECO NO: APPROVED: DATE: D VDD3.3 FB10 VDD C114 0.1uF C121 0.1uF C131 0.1uF C19 4.7uF C16 4.7uF FB11 HS_INTOUT C115 4.7uF C109 10uF J9-1 RESET_N J9-2 ICE_DAT J9-3 C108 0.1uF R104 470 C103 0.1uF C102 0.1uF C120 0.1uF C104 0.1uF GND 1 VDD_UC J9 ICE_CLK ICE_DAT C116 4.7uF J9-4 RESET_N 5 VDD_UC 3 HS_HSPD GND JU_USR2 2 4 7 R102 27 2 R103 1.5k VCCIO VCC DCD 5 27 XTIN Y1 6MHZ 21 20 4 C R12 10k 19 R17 4.7k C18 10uF SLEEP 28 VDD 22 RSTOUT RESET PWREN XTOUT TXDEN C107 22pF RI 10 15 16 18 UC_INTO VDD_UC 32 RESET_N VDD3.3 R112 10k EECS TXLED 1 EESK 2 VDD_UC R38 27 DTR DSR JU_USR3 3 UC_TX0 UC_RX0 USBDP C106 22pF 1 VDD RXLED EEDATA 31 29 9 17 12 11 14 C20 10uF B 1 UC_RX1 UC_TX1 UC_SCL UC_SDA 3 VDD_UC 3 C21 10uF UC_PA5 D+ UC_TX0 23 J21 J12 3 JU6 2 1 2 LED_UC RED B R37 27 SHIELD 1 SW122 R22 27 RTS UC_RX0 24 FT232BL 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 R5 27 USBDM CTS R4 10k R39 1k D- 8 JU_USR1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 VDD_UC SHIELD RXD 25 PWBCTL VDD_UC 2 TXD GND C123 22pF NUC140VE3CN 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 C101 0.1uF 13 3V3OUT U10 UC_HS_INTOUT Y2 12MHz TM1/SPI1_CS1/PB_9 TM0/SPI0_CS1/PB_10 TM3/PB_11 PE_5 PE_6 SPI0_SC0__/PC_0 SPI0_CLK__/PC_1 SPI0_DI_0__/PC_2 SPI0_DO_0/PC_3 SPI0_DI_1__/PC_4 SPI0_DO_1/PC_5 PD_15 PD_14 CAN0_TX/PD_7 CAN0_RX/PD_6 CTS0/PB_3 RTS0/PB_2 TX0__/PB_1 RX0__/PB_0 USB_D+ USB_DUSB_LDO33_OUT USB_LDO_IN_5V PE_7 PE_8 2 6 R101 27 AGND C122 22pF ADC5/PA_5 ADC6/PA_6 ADC7/SPI2_CS1/PA_7 VREF AVDD SPI2_CS0/PD_0 SPI2_CLK/PD_1 SPI2_DI_0/PD_2 SPI2_DO_0/PD_3 SPI2_DI_1/PD_4 SPI2_DO_1/PD_5 CPN0/PC_7 CPP0/PC_6 CPN1/PC_15 CPP1/PC_14 INT0/PB_15 XT_OUT XT_IN RESET# VSS1 VDD1 PS2DAT PS2CLK PVSS TM0/PB_8 6 1 TEST C 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 VBUS 1 PE_15 PE_14 PE_13 INT1/SPI3_CS1/PB_14 CPO_1/PB_13 CPO_0/PB_12 X32_O X32_I I2C1_SCL/PA_11 I2C1_SDA/PA_10 I2C0_SCL/PA_9 I2C0_SDA/PA_8 SPI3_CS0/PD_8 SPI3_CLK/PD_9 SPI3_DI_0/PD_10 SPI3_DO_0/PD_11 SPI3_DI_1/PD_12 SPI3_DO_1/PD_13 RX1/PB_4 TX1/PB_5 RTS1/PB_6 CTS1/PB_7 LDO_OUT VDD VSS UC_PA5 VDD_UC ADC4/PA_4 ADC3/PA_3 ADC2/PA_2 ADC1/PA_1 ADC0/PA_0 AVSS VSS VDD ICE_CLK ICE_DAT PWM0/PA_12 PWM1/PA_13 PWM2/PA_14 PWM3/PA_15 SPI1_CS0/PC_8 SPI1_CLK/PC_9 SPI1_DI_0/PC_10 SPI1_DO_0/PC_11 SPI1_DI_1/PC_12 SPI1_DO_1/PC_13 PE_0 PE_1 PE_2 PE_3 PE_4 U6 VDD_UC C110 0.1uF 26 VCC USB+5V CONN_USB-MINI-1734035-1 3 AVCC 2 30 J10 GND J14 ICE_CLK J12-1 VDD_REF J12-2 EXT_RX_SDA J12-3 J12-4 EXT_TX_SCL 3 JU5 2 1 Offboard connector - External Processor IOVDD C1 0.1uF R66 10k R61 10k 1 2 HS_RX-SDA A VDD_REF U8 MAX3378EEUD 3 HS_TX-SCL HS_INTOUT 4 5 6 7 VL I/OVL1 VCC I/OVCC1 I/OVL2 I/OVCC2 I/OVL3 I/OVCC3 I/OVL4 I/OVCC4 N.C. N.C. GND THREE-STATE 14 13 EXT_RX_SDA 12 A C47 0.1uF EXT_TX_SCL TITLE: 11 UC_HS_INTOUT MAX9291/93 EVKIT 10 9 8 R108 10k IOVDD PCB PART NUMBER: REV: B DRAWN: DATED: 02/18/2015 1 of 4 6 5 4 3 2 1 REVISION RECORD LTR ECO NO: APPROVED: DATE: C12 OPEN 1 HS_AVDD1.8 J17 2 R11 2k R9 2k R30 2k VDD J18 2 R40 45.3k D R26 45.3k HS_LMN0 HS_PLLVDD3.3 D L3 100uH 1 1 J8 C64 3.3uF C62 0.1uF C54 0.1uF C73 0.001uF C31 0.1uF C32 3.3uF C74 0.001uF C33 0.001uF 2 2 J4 R27 4.99k C61 0.22uF L2 6.8uH L1 330nH HS_LMN1 HS_HVDD3.3 1 R21 4.99k C63 0.22uF 50V OUT+ HS_OUT+ C13 0.22uF + C17 1uF + C38 1000uF OUT- HS_XVDD3.3 HS_RVDD1.8 HS_OUT50V U9 1 1 R19 49.9k J11 2 2 J2 VDD3.3 R29 909 HS_HPD LED_HPD GREEN C GND 1 JU34 TP_HPD B 1 A 2 4 Y HS_HPD R24 1k 2 1 HS_I2CSEL JU4 TP_SCK IOVDD R28 30.1k 1% 1 JU2 HS_SCK HS_HIM 1 JU24 J16 2 1 1 IOVDD R41 1k HS_RX-SDA 1 J3 2 HS_CX_TP HS_HIM HS_AUTOS HS_MS HS_CDS HS_PWDN HS_BWS HS_ADD1 HS_ADD0 4 5 6 7 8 9 10 11 35 OUT36 OUT+ RXCRXC+ RX0RX0+ RX1RX1+ RX2RX2+ RX/SDA TX/SCL RSVD SSEN LMN1 LMN0 LFLT GPO DRS 1 HSPD 2 HPD 13 I2CSEL 18 X2 17 X1/OSC 20 21 22 23 24 25 26 27 56 55 52 51 50 49 48 47 46 44 57 SD SCK WS DDCSDA DDCSCL CNTL1 CNTL2 INTOUT 30 31 32 33 34 38 39 40 41 2 TP_RSVD32 HS_SSEN HS_LMN1 HS_LMN0 HS_LFLT HS_GPO HS_DRS RVDD CX/TP HIM AUTOS MS CDS PWDN BWS ADD1 ADD0 RSVD XVDD C30 0.001uF C51 0.1uF C52 0.1uF C26 0.1uF C27 0.001uF C65 0.001uF C C72 0.001uF HS_PLLVDD3.3 3 HVDD 12 HVDD PLLVDD C28 0.1uF HS_AVDD1.8 C53 3.3uF HS_HVDD3.3 HS_RVDD1.8 15 HS_XVDD3.3 14 HS_DVDD1.8 16 HS_AVDD1.8 42 AVDD 37 AVDD 54 AVDD 19 DVDD 29 DVDD 53 DVDD 45 DVDD C43 3.3uF C48 0.1uF C49 0.1uF C50 0.1uF C24 0.001uF C22 0.1uF C77 0.001uF C78 0.001uF C79 0.001uF HS_DVDD1.8 2 J6 IOVDD 1 28 IOVDD 43 IOVDD EP C42 3.3uF HS_AUTOS HS_RX-SDA HS_TX-SCL C29 3.3uF C37 0.001uF C35 0.1uF C36 3.3uF HS_OUTHS_OUT+ R31 1k 3 IOVDD C45 0.1uF C46 0.1uF C75 0.001uF C76 0.001uF Decoupling: 0.1 and 0.001uF per power pin Smaller capacitor closest to pin U9 could be any of the ff: R58 1k HS_SD R13 30.1k 1% MAX9291GTN+ 2 HS_SSEN MAX9291GTN/V+ IOVDD 3 B MAX9293GTN+ HS_TX-SCL 1 JU25 MAX9293GTN/V+ R62 1k 2 HS_MS 3 VDD3.3 IOVDD IOVDD LED_LFLT RED 1 2 IOVDD HS_WS TP_SD JU22 R32 1k 3 IOVDD J5 HS_CX_TP IOVDD TP_WS 2 2 HS_SD HS_SCK HS_WS HS_DDCSDA HS_DDCSCL HS_CNTL1 HS_CNTL2 HS_INTOUT 3 3 B R77 1k 3 IOVDD 1 JU18 HS_X2 HS_X1_OSC U7 VCC 5 R3 1k HS_HSPD HS_I2CSEL IOVDD IOVDD RXCRXC+ RX0RX0+ RX1RX1+ RX2RX2+ MAX9293GTN R15 49.9k 0.1% R18 1k R54 1k 2 U25 VCC 5 4 Y HS_CNTL1 3 TP_LFLT B 1 A 2 IOVDD HS_LFLT 1 JU26 3 GND R63 1k 2 HS_CDS 3 Socket requires keepout of 1CM for temp forcer VDD3.3 IOVDD IOVDD 1 JU23 LED_GOP RED R10 1k R49 1k 2 U22 VCC 5 4 Y HS_CNTL2 3 A B 1 A 2 GND 3 IOVDD IOVDD TP_GPO HS_GPO 1 JU27 R64 1k 2 1 HS_PWDN 3 JU19 3 2 HS_ADD1 A IOVDD VDD3.3 IOVDD LED_INTOUT RED R36 1k 1 JU1 U26 VCC 5 4 Y B 1 A 2 GND 3 TP_INTOUT 2 R25 30k HS_DRS 1 JU28 3 MAX9291/93 EVKIT R69 1k 2 TITLE: IOVDD IOVDD 1 HS_BWS JU20 3 2 HS_ADD0 PCB PART NUMBER: REV: HS_INTOUT B 3 DRAWN: DATED: 02/18/2015 2 of 4 6 5 4 3 2 1 REVISION RECORD LTR ECO NO: APPROVED: DATE: D D VDD3.3 J1 R7 0 J-CN IOVDD G R35 30.1k RX2+ RX2- Q3 1 3 HS_HPD D C S 5 RX0+ RX0TP_J1CEC BSN20-7 7 9 11 13 15 TP_J1HPD 17 19 IOVDD IOVDD IOVDD R33 47k DATA_2+ DATA_2DATA_1_S DATA_0+ DATA_0CLOCK_S CEC DDC_CLK GND HPD Overlap pads R7 Y3. DATA_2_S DATA_1+ DATA_1DATA_0_S CLOCK+ CLOCKNC DDC_DATA +5V 2 Remove Y3 when driving with external osc 4 RX1+ 6 RX1- 10 RXC+ 12 RXC- HS_X1_OSC R8 1M Y3 27MHz 14 16 C11 22pF HS_X2 18 R1 31.6k HS_HSPD R20 47k R34 47k C C6 22pF 8 1 J19 HS_DDCSCL B Q2 S HS_DDCSDA G BSN20-7 Q1 D S B D G 2 J13 2 1 R6 40.2k BSN20-7 A A TITLE: MAX9291/93 EVKIT PCB PART NUMBER: REV: B DRAWN: DATED: 02/18/2015 3 of 4 6 5 4 3 2 1 REVISION RECORD LTR ECO NO: APPROVED: DATE: VDD USB+5V JU3 4 VDD +5.Volt to +40Volt INPUT D J7 LED_PWR RED 1 3 IN 2 OUT +5 Volt ADJ 2 C133 10uF C96 10uF C117 0.1uF C118 10uF R94 240 1 R14 1k +5VIN 3 REG U36 LM317MP +5VIN 2 1 D C59 0.1uF C132 0.1uF GND R95 715 U4 MAX1792 VDD FB8 1 C23 0.1uF C C25 0.1uF 2 4 VDD3.3 6 VDD3.3 IN OUT IN OUT SHDN RST SET GND 8 7 C 3 C34 10uF 5 C58 4.7uF 1 EP JU7 1 JU8 3 HS_HVDD3.3 1 FB2 2 FB5 2 JU32 3 C41 4.7uF C40 4.7uF XVDD_EXT R2 24.9k HS_PLLVDD3.3 FB1 2 9 R16 41.2k HS_XVDD3.3 3 C44 4.7uF PLLVDD_EXT C55 4.7uF C71 4.7uF HVDD_EXT C80 4.7uF VDD2.5 VDD1.8 4 JU33 IOVDD_EXT VDD B U2 MAX1792EUA33 FB7 C3 0.1uF 1 C5 0.1uF C4 10uF 2 4 VDD1.8 6 OUT IN OUT RST SET GND 1 2 C9 10uF C10 0.1uF 4 VDD2.5 C81 4.7uF C82 4.7uF HS_AVDD1.8 1 3 C2 10uF JU30 2 HS_RVDD1.8 1 FB13 JU9 3 5 2 1 JU31 3 C67 4.7uF C68 4.7uF RVDD_EXT HS_DVDD1.8 FB4 C56 4.7uF C57 4.7uF 2 FB9 3 DVDD_EXT C69 4.7uF C70 4.7uF VDD2.5 IN OUT IN OUT SHDN RST SET GND 8 A 7 TITLE: 3 C7 10uF C66 4.7uF MAX9291/93 EVKIT 5 EP 6 R59 24.9k 7 R93 24.9k PCB PART NUMBER: 9 A C8 0.1uF FB3 1 B AVDD_EXT U3 MAX1792 VDD FB6 IOVDD 9 R85 24.9k 2 8 EP R23 11k 5 VDD3.3 VDD1.8 IN SHDN 3 REV: B DRAWN: DATED: 02/18/2015 4 of 4 J7 X3 U36 1.0" U36 R39 R39 LED_UC LED_UC Y2 C122 C122 C123 C123 SW122x3 Y2 SW122 R4C20 R4 C20C20 R4 C20x1 REV-B 02/15 RM R35 J1 J1 J-CN J-CN U9x35 U9x34 J19 Q1 R34 R34 U26x3 U26x2 U26x1 U26x4 U26x5 TP_INTOUTx1 U9x29 U9x30 U9x31 U9x32 U9x33 R36x1 R36x2 LED_INTOUTx2 LED_INTOUTx1 TP_RSVD32x1 J11x2 J11x1 JU19x3 JU19x2 JU19x1 R15x2 R21x2 R19x1 C63 R58x2 R58x1 JU24x1 JU24x2 JU24x3 R49x2 R54x2 R40x1 R40x2 R40 R25x1 R25x2 JU1x3 JU1x2 JU1x1 R26 R26x1 R26x2 J17x1 J17x2 JU24 SSEN JU23x1 JU23x2 JU23x3 R49x1 R54x1 JU22x1 JU22x2 JU22x3 J2x2 J2x1 J4x2 J4x1 R21x1 R19x2 C63x1 C63x2 R27x1 R27x2 R15x1 C61x2 C61x1 C61 J8x2 J8x1 X10x1 JU20x3 JU20x2 JU20x1 U22x5 C2 L2x1 L2x2 R11x1 R11x2 C38 R20 C38x2 C38x1 R30x1 R30x2 R10x1 R10x2 TP_GPOx1 U22x1 U22x2 U22x3 U22x4 U25x4 R18x1 R18x2 LED_LFLTx2 LED_LFLTx1 L1x1 L1x2 C12x1 C12x2 OUT+x2 TP_LFLTx1 U25x1 U25x2 U25x3 U25x5 IOVD _EXTx21 JU33x3 JU33x2 JU33x1 JU33x4 JU33x5 LED_GOPx2 LED_GOPx1 R9x1 R9x2 C17x2 C17x1 C12 + C17 C17 J13 Q2 Q2xG U9x38 U9x37 U9x36 TP_INTOUT Q2xS U9x58 U9x63 U9x68 U9x72 J6x2 J6x1 R69x1 R69x2 JU28x3 JU28x2 JU28x1 R23x2 R23x1 C2x1 C2x2 R85x1 R85x2 U2x9 U2x5 U2x6 U2x7 U2x8 C4 C5 C3 OUT+x3 OUT-x3 OUT-x2 OUT-x1 OUT+x1 OUT+x5 OUT-x5 OUT+x4 C13 C13 C13x1 C13x2 L3x1 L3x2 OUT-x4 J18x2 X4x1 J18x1 J18 Q2xD TP_WS TP_SCK TP_SD X1 R20 C11 U9x59 U9x64 U9x69 U9x73 J3x2 J3x1 R41x1 R41x2 R41 R64x1 R64x2 JU27x3 JU27x2 JU27x1 C12 R30 R30 J13x1 J13x2 C11 J18 1 R33 R33 R33x2 R33x1 R20x1 R20x2 MAX9291/MAX9293 EVKIT MAX9291 MAX9293 X1x1 TP_SDx1 TP_SCKx1 TP_WSx1 C11x2 C11x1 R8x2 R8x1 C6 R7x1 R7x2 U9x60 U9x65 U9x74 U9x40 U9x39 R63x1 R63x2 JU26x3 JU26x2 JU26x1 TP_RSVD32 Q1xG Y3x1 C6x2 C6x1 U9x61 U9x66 U9x70 U9x75 U9x15 U9x16 U9x17 U9x18 U9x19 U9x20 U9x21 U9x2 U9x23 U9x24 U9x25 U9x26 U9x27 U9x28 U9x62 U9x67 U9x71 U9x76 U9x77 U9x57 U9x78 JU30x1 JU30x2 JU30x3 C66 R9 Q1xS Y3 Y3x2 U9x14 U9x13 U9x12 U9x11 U9x10 U9x9 U9x8 U9x7 U9x6 U9x5 U9x79 U9x42 U9x80 U9x41 U9x4 U9x81 U9x2 U9x56 U9x5 U9x54 U9x53 U9x52 U9x51 U9x50 U9x49 U9x48 U9x47 U9x46 U9x45 U9x4 U9x43 JU25x3 JU25x2 JU25x1 U9x1 U9x3 JU31x1 JU31x2 JU31x3 C66x2 C66x1 R85 L3 Q1xD J19x1 J19x2 R108C47x2 C47x1 R59x2 R59x1 C7x1 C7x2 C7 R59 U2x4 U2x3 U2x2 U2x1 C5x1 C5x2 C4x1 C4x2 FB7x2 FB7x1 C3x1 C3x2 L3 X5 X5x1 R34x2 R34x1 R108x2 R108x1 U8x8 U8x9 U8x10 U8x1 U8x12 U8x13 U8x14 R62x1 R31x1 R7 C6 J-CNx10 J1x20 J1x1 R13x2 R28x2 R62x2 R31x2 R32x1 JU2x3 JU2x2 JU2x1 R32x2 JU4x3 JU4x2 JU4x1 JU9x1 JU9x2 JU9x3 U3x9 U3x5 U3x6 U3x7 U3x8 C9 C10 L2 J-CNx9 J1x3 J1x2 C8 XVD _EXTx12 PL VD _EXTx12 HVD _EXTx12 RVD _EXTx21 DV D_EXTx21 AVD _EXTx21 U9 R9 J-CNx3 J-CNx5 J1x6 J1x5 J1x4 R13x1 U8x7 U8x6 U8x5 U8x4 U8x3 U8x2 U8x1 J5x2 R28x1 R66x2 R61x2 C1x2 R66x1 R61x1 C1x1 R77x1 R77x2 JU34x3 JU34x2 JU34x1 J16x2 JU18x3 JU18x2 JU18x1 J5x1 R24x1 R24x2 C21 U8 R108 X7 J16x1 C21x2 C21x1 JU32x1 JU32x2 JU32x3 C10x1 C10x2 C9x1 C9x2 U3x4 U3x3 U3x2 U3x1 R26 J-CNx1 J1x8 J1x7 R6x1 R6x2 R1x2 R1x1 U6x28 U6x27 U6x26 JU8x1 JU8x2 JU8x3 X2x1 C58x2 C58x1 J8 J4 J11 C61 C63 J2 J17 J-CNx7 LED_HPDx1 LED_HPDx2 R29 LED_HPD U6x31 U6x30 U6x29 JU7x1 JU7x2 JU7x3 C106x2 C106x1 R16 R93 C34x1 C34x2 C34 R93x1 R93x2 C58 R2x2 R2x1 R16x2 R16x1 U4x9 R2U4x5 U4x6 U4x7 U4x8 U4x4 U4x3 U4x2 U4x1 FB6x2 FB6x1 R40 J1x9 J1x10 J1x11 J1x12 J1x13 J1x14 J1x15 J1x16 J1x17 J1x18 J1x19 J1x21 C8x1 C8x2 LMN_V R11 R11 L1 OUT- OUT- J-CNx8 R29x2 R29x1 U6x34 U6x33 U6x32 J21x1 J21x2 Y1x2 C107x1 C107x2 R41 TP_J1HPDx1 TP_J1CECx1 TP_HPDx1 Q3xG R37x2 R38x2 R22x2 LED_HPD TP_HPD R1 R6 R29 TP_J1CEC Q3 TP_J1HPD Q3 Q3xD U6x37 U6x36 U6x35 J12x4 J12x3 J12x2 J12x1 C120x1 Y1x1 C25 X10 L1 J-CNx6 J-CNx2 R35 OUT+ OUT+ J1x22 R3x2 U6x39 U6x38 C103x1 FB11x2 C120x2 C103x2 R104x1 C104x1 FB11x1 R104x2 C104x2 FB8x2 FB8x1 C25x1 C25x2 TP_LFLT TP_GPO TP_GPO TP_LFLT J1x23 Q3xS R3x1 U6x42 U6x41 U6x40 JU_USR3x1 JU_USR3x2 JU_USR3x3 J12 U7x4 U6x45 U6x44 U6x43 R17x2 R17x1 U10x17 U10x18 U10x19 U10x20 U10x21 U10x2 U10x23 U10x24 U10x25 U10x26 U10x27 U10x28 U10x29 U10x30 U10x31 C108x1 C108x2 C109x1 C109x2 U10x32 R112x1 R12x2 C18x2 C102x2 U10x8 U10x7 U10x6 U10x5 U10x4 U10x3 U10x2 U10x1 JU_USR2x1 JU_USR2x2 JU_USR2x3 U10x16 U10x15 U10x14 U10x13 U10x12 U10x11 U10x10 R112x2 R12x1 C18x1 C102x1 JU33 R18 U25 LED_LFLT 4-1.8V IOVDD_EXT 1-IOVDD LED_LFLT R18 U25 IOVDD_EXT 3-2.5V R10 U22 LED_GOP 2-3.3V R10 AVDD_EXT LED_GOP JU30 AVDD U22 INT JU30 EXT AVDD_EXT L JU1 H U7x1 U7x2 U7x3 U7x5 R37x1 R38x1 R22x1 JU6x1 JU6x2 JU6x3 U6x48 U6x47 U6x46 JU_USR1x1 JU_USR1x2 JU_USR1x3 C101 R103x1 C110x1 U10x9 R103x2 C110x2 X6x1 DATE: R35x2 JU5x1 JU5x2 JU5x3 R5x2 R5x1 U6x1 U6x2 U6x3 U6x4 U6x5 U6x U6x7 U6x8 U6x9 U6x10 U6x1 U6x12 U6x13 U6x14 U6x15 U6x1 U6x17 U6x18 U6x19 U6x20 U6x21 U6x2 U6x23 U6x24 U6x25 U6x50 U6x49 R102x1 R101x1 C101x1 C101x2 R102x2 R101x2 DVDD_EXT INT JU31 EXT DVDD_EXT R35x1 SW122x1 SW122 SW122x2 U6x100 U6x99 U6x98 U6x97 U6x96 U6x95 U6x94 U6x93 U6x92 SW122x4 C16x2 C16x1 U6x75 U6x74 U6x73 U6x72 U6x71 U6x70 U6x9 U6x8 U6x7 U6x U6x5 U6x4 U6x3 U6x2 U6x1 U6x0 U6x59 U6x58 U6x57 U6x5 U6x5 U6x54 U6x53 U6x52 U6x51 J14x2 C21 C20x2 C23 JU31 DVDD R4x2 C23x1 C23x2 JU33 R4x1 C121 C121x1 C121x2 U6x91 U6x90 U6x89 U6x88 U6x87 U6x86 U6x85 U6x84 U6x83 U6x82 U6x81 C114 U6x80 U6x79 U6x78 U6x77 U6x76 U6 C19C114 C114x1 C114x2 J9 C19x2 C19x1 R95 J9x4 J9x3 J9x2 J9x1 R95x1 R95x2 R95 Y2x1 C19 R94x2 R94x1 R14x1 C133 LED_PWRx2 LED_PWRx1 R14x2 C132 LED_PWR C117 C117x2 C117x1 C118 C118x2 C118x1 C101 U36x1 U36x2 C96C117C118 LED_PWR C96x1 C96x2 LAYER C123x2 C109 C108 JU3x3 JU3x2 JU3x1 JU3x4 Y1 C123x1 J10 U10 J10x7 J10x5 J10x4 J10x3 J10x2 J10x1 J10x6 C23 C25 U4 R16 C34 C58 R2 X2 Y2x2 J10x8 U3 C122x1 C133x2 C133x1 C133 C132 R23 C122x2 J10x10 C109 C108 U2 LED_UCx2 LED_UCx1 J14x1 J10x11 FB7 R39x2 J10x9 JU3 FB6 U36x3 C132x2 C132x1 C59x1 C59x2 C59 C3FB7C4C5 U2 R23 C2 R85 R39x1 GNDx21 X6 U36x4 C59 EDGE OF PCB +5VINx21 C8 FB6C9C10 U3 R59 C7 C66 R93 DRS JU1 + L2 L JU20 H R25 R25 H L 1 R21 J4 GND 1 J8 R27 ADD1 JU20 1 R58 JU24 R15 J17 R19 LMN0_LOC RVDD_EXT JU9 RVDD L JU19 H LMN1_LOC R58 R21 R27 INT JU9 EXT RVDD_EXT ADD0 JU19 1 JU23 1 R19 R15 1 L JU28 H FB8 R49 R49 H L LMN1_REM LMN0_REM JU32 HVDD HVDD_EXT BWS JU28 FB8 1 JU22 I-IOVDD GND INT JU32 EXT HVDD_EXT L JU27 H R69 R69 J2 J11 R54 L R54 H 1 J6 J6 U4 PWDN JU27 JU3 TP_RSVD32 JU8 PLLVDD PLLVDD_EXT C107 C106 RSVD44 L JU26 H R64 R64 LED_INTOUT 4 REG INT JU8 EXT PLLVDD_EXT C107 Y1 C106 J3 J3 CDS JU26 3 LED_INTOUT R36 1 VDD R63 1 U9 JU7 XVDD XVDD_EXT TP_INTOUT L JU25 H R63 2 USB+5V +5VIN U26 INT JU7 EXT XVDD_EXT MS JU25 C103 1 U26 R104 R104 C103 L JU2 H R62 R62 VDD_REF FB11C120 C120 C104 C104 FB11 FB11 C120 AUTOS JU2 3.3V J21 J21 R112 R7 L JU4 H R31 R31 R112 JU_USR3 J10 J12 EXT_UC C1 1 C102 C102 R8 HIM JU4 L R61 R17 H JU_USR3 R32 VDD_REF C18 C18 R8 C47 R66 L JU34 H R32 1 R12 R103 U8 R17 JU_USR2 R12 R77C1 RX/SDA CX_TP JU34 H JU_USR2 L R103 C110 C47 TP_WS R61 GND JU_USR1 C110 R102 R77 R66 JU18 I2CSEL TX/SCL U10 R102 R101 H JU_USR1 L TP_SCK Y3 R101 UART JU18 I2C R13 INTOUT U6 R24 R24 GND J14 J14 J5 R13 TP_SD R14 J5 SCL_PU GND C96 R14 RX/SDA RESET_N 1 R38 R38 1 R28 R28 J16 J9 R37 R37 SDA JU6 RX J16 SDA_PU ICE_DAT GND R22 TP_HPD 888-MAXIM-IC R22 R5 JU61 GND R3 +5VIN www.maximintegrated.com R5 SCL JU5 TX R94 +5VIN ICE_CLK R1 R3 DDCSDA DDCSCL JU5 TX/SCL +12V J7 R6 R94 ICE-Debug 1 U7U7 1 1 TP_J1CEC Q1 J19 J13 1 TP_J1HPD C16 C16 C121 1 X3x1 J7x2 J7x3 J7x1 MAX9291/93 EV\KIT REV B TOP SILKSCREEN ALL UNITS ARE IN 0.001" X4 C38 JU23 CNTL2 JU22 CNTL1 R36 Q2 1.0" Y2 C122 Y2x1 C123 R4C20 TP_HPD R1 R6 R29 TP_J1CEC Q3 TP_J1HPD J1 R34 J-CN J19 Q1 R20 J13 Q2 Q2xD Q2xG Q2xS U9x59 U9x64 U9x69 U9x73 U9x58 U9x63 U9x68 U9x72 U9x38 U9x37 LED_INTOUTx2 LED_INTOUTx1 U26x3 U26x2 U26x4 U26x5 R36x1 R36x2 LED_INTOUT R36 TP_INTOUT U26 U26x1 TP_INTOUTx1 U9x29 U9x30 U9x31 U9x32 U9x33 U9x34 U9x35 U9x36 TP_RSVD32x1 JU22x1 JU22x2 JU22x3 JU22 R54 R54x2 R54x1 R27x1 R15x1 R21x1 R21x2 R19x2 R19x1 R49 R49x2 R49x1 JU23x1 JU23x2 JU23x3 R58 R58x2 R58x1 R26x1 R26x2 J17x1 J17x2 JU24x1 JU24x2 JU24x3 J2x2 J2x1 J4x2 J4x1 C63x1 C63x2 R27x2 R15x2 L2x2 R11x1 R11x2 C38 C38x2 C38x1 R30x1 R30x2 L2x1 C12x1 R9x1 R9x2 L1x1 L1x2 C17 C17x2 C17x1 C12x2 C12 R30 J13x1 J13x2 U9x60 U9x65 U9x74 C61x2 C61x1 TP_GPOx1 U22x1 U22x2 U22x3 U25x4 R18x1 OUT-x2 OUT+x3 OUT+x2 OUT-x1 OUT+x1 TP_LFLTx1 U25x1 U25x2 U25x3 U25x5 R18x2 OUT-x5 OUT+x4 OUT+x5 C13 C13x1 C13x2 L3x1 L3x2 OUT-x3 J18x2 OUT-x4 X4x1 J18x1 J18 R33 R33x2 R33x1 R20x1 R20x2 X1x1 TP_SDx1 TP_SCKx1 TP_WSx1 C11 Q1xG C11x2 C11x1 U9x61 U9x66 U9x70 U9x75 TP_RSVD32 Q1xS R8 R8x2 R8x1 R7x1 R7x2 U9x62 U9x67 U9x71 U9x76 U9x57 U9x15 U9x16 U9x17 U9x18 U9x19 U9x20 U9x21 U9x2 U9x23 U9x24 U9x25 U9x26 U9x27 U9x28 U9x40 U9x39 R10x1 R10x2 U22x4 R9 Q1xD J19x1 J19x2 C6x2 C6x1 U9x14 U9x13 U9x12 U9x11 U9x10 U9x9 U9x8 U9x7 U9x6 U9x5 U9x77 U22x5 L3 X5 X5x1 R34x2 R34x1 Y3x1 Y3x2 Y3 R7 C6 J-CNx10 J1x20 J1x1 U9x78 R21 R19 L2 J-CNx9 J1x3 U9x79 R27 R15 J1x2 U9x80 R40x1 R40x2 R26 J-CNx3 J-CNx5 J1x6 J1x5 J1x4 U9x81 U9x42 U9x56 U9x5 U9x54 U9x53 U9x52 U9x51 U9x50 U9x49 U9x48 U9x47 U9x46 U9x45 U9x4 U9x43 U9x41 U9x4 U9x3 U9x2 U9 U9x1 J8x2 J8x1 J8 J4 J11 C61 C63 J2 J17 J-CNx1 J1x9 J1x8 J1x7 R6x1 R6x2 J11x2 J11x1 R40 J-CNx7 J1x12 J1x11 J1x10 J6 J6x2 J6x1 R25x1 R25x2 JU1x3 JU1x2 JU1x1 R11 L1 OUT- J-CNx8 J1x15 J1x14 J1x13 JU2 J1x17 JU25 J1x16 C47x1 J3x2 JU28 J1x19 C47 C47x2 R41x1 R41x2 R41 J3 J3x1 X10 J1x18 R108x2 R108x1 U8x8 U8x9 U8x10 U8x1 U8x12 U8x13 U8x14 U8x7 U8x6 U8x5 U8x4 U8x3 U8x2 U8x1 U8 R108 R1x2 R1x1 R13x2 R13x1 X10x1 JU20x3 JU20x2 JU20x1 R25 J1x21 J5 R13 J5x2 JU19x3 JU19x2 JU19x1 JU1 J-CNx6 J-CNx2 LED_HPD R28x2 JU28x3 JU28x2 JU28x1 OUT+ J1x22 R35 R28x1 R69x1 R69x2 R69 TP_J1HPDx1 TP_J1CECx1 TP_HPDx1 J16 R28 J16x2 R64x1 R64x2 JU27x3 JU27x2 JU27x1 TP_LFLT TP_GPO J1x23 R3 U7 LED_HPDx1 LED_HPDx2 R63 R63x1 R63x2 JU26x3 JU26x2 JU26x1 R64 R29x2 R29x1 C1 R61 R66 R66x2 R61x2 C1x2 R66x1 R61x1 C1x1 R62 R62x1 R62x2 JU25x3 JU25x2 JU25x1 JU26 Q3xG J5x1 JU4 R31 R31x1 R31x2 JU2x3 JU2x2 JU2x1 JU27 Q3xD R24 J16x1 JU18 R3x2 R77 R3x1 JU34 U7x4 R32 R32x1 R32x2 JU4x3 JU4x2 JU4x1 JU19 U22 R77x1 R77x2 JU34x3 JU34x2 JU34x1 J12 JU18x3 JU18x2 JU18x1 RVDD_EXT LED_GOP R10 R24x1 R24x2 JU9 LED_LFLTx2 LED_LFLTx1 JU20 LED_GOPx2 LED_GOPx1 DVDD_EXT IOVD _EXTx21 JU31 XVD _EXTx12 PL VD _EXTx12 HVD _EXTx12 RVD _EXTx21 DV D_EXTx21 AVD _EXTx21 JU30x1 JU30x2 JU30x3 AVDD_EXT LED_LFLT R18 U25 U7x1 U7x2 U7x3 C21x2 C21x1 JU33x3 JU33x2 JU33x1 JU33x4 JU33x5 JU30 JU31x1 JU31x2 JU31x3 JU9x1 JU9x2 JU9x3 IOVDD_EXT Q3xS U7x5 JU6x1 JU6x2 JU6x3 U6x28 U6x27 U6x26 JU32x1 JU32x2 JU32x3 JU8x1 JU8x2 JU8x3 JU7x1 JU7x2 JU7x3 R23x2 R23x1 C2x1 C2x2 R85x1 R85x2 U2x5 U2x6 U2x7 U2x8 U2x9 U2x4 U2x3 U2x2 U2x1 C5x1 C5x2 C4x1 C4x2 FB7x2 FB7x1 C3x1 C3x2 JU33 R35x2 JU5 JU5x1 JU5x2 JU5x3 U6x31 U6x30 U6x29 J21 J21x1 J21x2 C66x2 C66x1 C7x1 C7x2 R93x1 R93x2 R59x2 R59x1 U3x5 U3x6 U3x7 U3x8 U3x9 U3x4 U3x3 U3x2 U3x1 C10x1 C10x2 C9x1 C9x2 FB6x2 FB6x1 C8x1 C8x2 DATE: R35x1 SW122x1 SW122x4 SW122 SW122x2 SW122x3 U6x34 U6x33 U6x32 C21 C20x1 U6x37 U6x36 U6x35 J12x4 J12x3 J12x2 J12x1 X2x1 C58x2 C58x1 C34x1 C34x2 XVDD_EXT C20x2 U6x39 U6x38 C106x2 C106x1 JU7 R22x2 U6x42 U6x41 U6x40 Y1x2 PLLVDD_EXT R5x2 U6x45 U6x44 U6x43 C120x1 R2x2 R2x1 R16x2 R16x1 U4x5 U4x6 U4x7 U4x8 U4x9 U4x4 U4x3 U4x2 U4x1 JU8 R37x2 R38x2 JU6 R22 R5 R22x1 R38 R37 R5x1 R37x1 R38x1 U6x1 U6x2 U6x3 U6x4 U6x5 U6x U6x7 U6x8 U6x9 U6x10 U6x1 U6x12 U6x13 U6x14 U6x15 U6x1 U6x17 U6x18 U6x19 U6x20 U6x21 U6x2 U6x23 U6x24 U6x25 U6x48 U6x47 U6x46 C103x1 FB11x2 C120x2 C103x2 FB11x1 Y1x1 C107x1 C107x2 HVDD_EXT R4x2 U6x100 U6x99 U6x98 U6x97 U6x96 U6x95 U6x94 U6x93 U6x92 U6x50 U6x49 R104x1 C104x1 JU32 R4x1 C16x2 C16x1 C16 C121 C121x1 C121x2 U6x91 U6x90 U6x89 U6x88 U6x87 U6x86 U6x85 U6x84 U6x83 JU_USR3x1 JU_USR3x2 JU_USR3x3 U10x25 U10x26 U10x27 U10x28 U10x29 U10x30 U10x31 R104x2 C104x2 C108x1 C108x2 FB8x2 FB8x1 C25x1 C25x2 X6x1 LAYER C123x2 LED_UC C19C114 C123x1 R39 U6 U6x82 JU_USR1 U6x81 JU_USR2 U6x80 R17x2 R17x1 JU_USR3 U6x79 C109x1 C109x2 U10x32 R112x1 R12x2 C18x2 C102x2 U10x17 U10x18 U10x19 U10x20 U10x21 U10x2 U10x23 U10x24 JU_USR2x1 JU_USR2x2 JU_USR2x3 U10x16 U10x15 U10x14 U10x13 U10x12 U10x11 U10x10 R112x2 R12x1 C18x1 C102x1 C103 FB11C120 U6x78 JU_USR1x1 JU_USR1x2 JU_USR1x3 R103x1 Y1 U6x77 R103x2 U10x9 C110x1 C106 Y2x2 J9 U6x75 U6x74 U6x73 U6x72 U6x71 U6x70 U6x9 U6x8 U6x7 U6x U6x5 U6x4 U6x3 U6x2 U6x1 U6x0 U6x59 U6x58 U6x57 U6x5 U6x5 U6x54 U6x53 U6x52 U6x51 J14 J14x2 C110x2 C23FB8C25 U4 R16 C34 C58 R2 X2 C122x1 U6x76 J14x1 C101x1 C101x2 R102x1 C23x1 C23x2 C8 FB6C9C10 U3 R59 C7 C66 R93 C114x1 C114x2 R95 J9x4 J9x3 J9x2 J9x1 R102x2 U10x8 U10x7 U10x6 U10x5 U10x4 U10x3 U10x2 U10x1 R101x1 JU3x3 JU3x2 JU3x1 JU3x4 C3FB7C4C5 U2 R23 C2 R85 C122x2 C19x2 C19x1 R94 R39x2 R14 R14x2 R101x2 C101 R39x1 C133 C132 R17 LED_UCx2 LED_UCx1 R14x1 J10x8 C107 R95x1 R95x2 LED_PWRx2 LED_PWRx1 C118x2 C118x1 GND U36x1 C96C117C118 LED_PWR C117x2 C117x1 J10x10 R112 C102 C18 R12 R103 C110 R102 R101 R94x2 C59 R104 C104 R94x1 +5VIN C96x1 C96x2 J10x11 J10x7 J10x5 J10x4 J10x3 J10x2 J10x1 J10x6 J10x9 J10 U10 C109 C108 U36x2 C59x1 C59x2 GNDx21 JU3 U36x3 C132x2 C132x1 +5VINx21 X6 U36x4 C133x2 C133x1 J7 X3 U36 X3x1 J7x2 J7x3 J7x1 MAX9291/93 EV\KIT REV B COMPONENT SIDE ALL UNITS ARE IN 0.001" X4 JU24 JU23 TP_WS TP_SCK TP_SD X1 J7 X3 X3x1 J7x2 J7x3 J7x1 1.0" SW122 TP_HPD TP_J1CEC TP_J1HPD J1 J-CN J-CNx9 J-CNx10 J19x1 J19x2 U9x70 U9x66 U9x61 U9x67 U9x62 U9x60 U9x65 U9x74 U9x59 U9x64 U9x69 U9x73 U9x58 U9x63 U9x68 U9x72 TP_INTOUTx1 TP_RSVD32x1 J6x2 J11x2 J11x1 J8x2 J8x1 X10x1 JU23x1 JU23x2 JU23x3 JU24x1 JU24x2 JU24x3 J2x2 J2x1 J4x2 J4x1 J4 J2 JU22x1 JU22x2 JU22x3 JU1x3 JU1x2 JU1x1 J17x1 J17x2 JU20x3 JU20x2 JU20x1 TP_GPOx1 OUT-x3 OUT-x2 OUT+x3 OUT+x2 OUT-x1 OUT+x1 TP_LFLTx1 J16 J5 J19 X4x1 J18x1 J18x2 OUT-x4 OUT-x5 OUT+x4 OUT+x5 J18 J13 J13x1 J13x2 JU34 X1x1 TP_SDx1 TP_SCKx1 TP_WSx1 U9x75 U9x71 U9x77 U9 U9x76 U9x78 J3x2 JU19x3 JU19x2 JU19x1 IOVD _EXTx21 OUT- X5 X5x1 JU5 J-CNx3 J-CNx5 JU4 J-CNx7 JU2 U9x57 U9x79 JU25 U9x80 J3 U9x81 JU26 J6x1 J6 J17 J-CNx8 JU6 J8 J11 J-CNx6 J-CNx2 J9 JU27 J3x1 JU28x3 JU28x2 JU28x1 JU1 J1x20 J14 JU18 OUT+ J1x22 J12 JU27x3 JU27x2 JU27x1 JU26x3 JU26x2 JU26x1 JU28 J1x21 JU25x3 JU25x2 JU25x1 JU19 X10 J1x23 XVDD_EXT TP_LFLT TP_GPO TP_J1HPDx1 TP_J1CECx1 TP_HPDx1 JU7 JU20 J5x2 PLLVDD_EXT JU2x3 JU2x2 JU2x1 JU8 JU4x3 JU4x2 JU4x1 HVDD_EXT XVD _EXTx12 PL VD _EXTx12 HVD _EXTx12 RVD _EXTx21 DV D_EXTx21 AVD _EXTx21 JU33x3 JU33x2 JU33x1 JU33x4 JU33x5 JU31x1 JU31x2 JU31x3 JU30x1 JU30x2 JU30x3 JU9x1 JU9x2 JU9x3 RVDD_EXT JU34x3 JU34x2 JU34x1 JU32x1 JU32x2 JU32x3 JU32 JU8x1 JU8x2 JU8x3 JU7x1 JU7x2 JU7x3 U2x9 JU9 JU18x3 JU18x2 JU18x1 J21 J21x1 J21x2 U3x9 DVDD_EXT J16x2 GND JU31 J5x1 JU_USR1 J12x4 J12x3 J12x2 J12x1 X2x1 U4x9 X6x1 DATE: J16x1 JU_USR2 AVDD_EXT JU6x1 JU6x2 JU6x3 JU_USR3 JU30 JU5x1 JU5x2 JU5x3 JU_USR3x1 JU_USR3x2 JU_USR3x3 JU3 X2 IOVDD_EXT SW122x1 JU_USR2x1 JU_USR2x2 JU_USR2x3 J10 JU_USR1x1 JU_USR1x2 JU_USR1x3 JU3x3 JU3x2 JU3x1 JU3x4 U4 J14x2 J10x10 U3 JU33 SW122x2 J14x1 J10x11 U2 SW122x4 GNDx21 X6 SW122x3 +5VIN J9x4 J9x3 J9x2 J9x1 +5VINx21 MAX9291/93 EV\KIT REV B LAYER LAYER 2 GND ALL UNITS ARE IN 0.001" X4 JU24 JU23 JU22 TP_RSVD32 TP_INTOUT TP_WS TP_SCK TP_SD X1 J7 X3 X3x1 J7x2 J7x3 J7x1 1.0" SW122 TP_HPD TP_J1CEC TP_J1HPD J1 J-CN J-CNx9 J-CNx10 J19x1 J19x2 U9x70 U9x66 U9x61 U9x67 U9x62 U9x60 U9x65 U9x74 U9x59 U9x64 U9x69 U9x73 U9x58 U9x63 U9x68 U9x72 TP_INTOUTx1 TP_RSVD32x1 J6x2 J11x2 J11x1 J8x2 J8x1 X10x1 JU23x1 JU23x2 JU23x3 JU24x1 JU24x2 JU24x3 J2x2 J2x1 J4x2 J4x1 J4 J2 JU22x1 JU22x2 JU22x3 JU1x3 JU1x2 JU1x1 J17x1 J17x2 JU20x3 JU20x2 JU20x1 TP_GPOx1 OUT-x3 OUT-x2 OUT+x3 OUT+x2 OUT-x1 OUT+x1 TP_LFLTx1 J16 J5 J19 X4x1 J18x1 J18x2 OUT-x4 OUT-x5 OUT+x4 OUT+x5 J18 J13 J13x1 J13x2 JU34 X1x1 TP_SDx1 TP_SCKx1 TP_WSx1 U9x75 U9x71 U9x77 U9 U9x76 U9x78 J3x2 JU19x3 JU19x2 JU19x1 IOVD _EXTx21 OUT- X5 X5x1 JU5 J-CNx3 J-CNx5 JU4 J-CNx7 JU2 U9x57 U9x79 JU25 U9x80 J3 U9x81 JU26 J6x1 J6 J17 J-CNx8 JU6 J8 J11 J-CNx6 J-CNx2 J9 JU27 J3x1 JU28x3 JU28x2 JU28x1 JU1 J1x20 J14 JU18 OUT+ J1x22 J12 JU27x3 JU27x2 JU27x1 JU26x3 JU26x2 JU26x1 JU28 J1x21 JU25x3 JU25x2 JU25x1 JU19 X10 J1x23 XVDD_EXT TP_LFLT TP_GPO TP_J1HPDx1 TP_J1CECx1 TP_HPDx1 JU7 JU20 J5x2 PLLVDD_EXT JU2x3 JU2x2 JU2x1 JU8 JU4x3 JU4x2 JU4x1 HVDD_EXT XVD _EXTx12 PL VD _EXTx12 HVD _EXTx12 RVD _EXTx21 DV D_EXTx21 AVD _EXTx21 JU33x3 JU33x2 JU33x1 JU33x4 JU33x5 JU31x1 JU31x2 JU31x3 JU30x1 JU30x2 JU30x3 JU9x1 JU9x2 JU9x3 RVDD_EXT JU34x3 JU34x2 JU34x1 JU32x1 JU32x2 JU32x3 JU32 JU8x1 JU8x2 JU8x3 JU7x1 JU7x2 JU7x3 U2x9 JU9 JU18x3 JU18x2 JU18x1 J21 J21x1 J21x2 U3x9 DVDD_EXT J16x2 GND JU31 J5x1 JU_USR1 J12x4 J12x3 J12x2 J12x1 X2x1 U4x9 X6x1 DATE: J16x1 JU_USR2 AVDD_EXT JU6x1 JU6x2 JU6x3 JU_USR3 JU30 JU5x1 JU5x2 JU5x3 JU_USR3x1 JU_USR3x2 JU_USR3x3 JU3 X2 IOVDD_EXT SW122x1 JU_USR2x1 JU_USR2x2 JU_USR2x3 J10 JU_USR1x1 JU_USR1x2 JU_USR1x3 JU3x3 JU3x2 JU3x1 JU3x4 U4 J14x2 J10x10 U3 JU33 SW122x2 J14x1 J10x11 U2 SW122x4 GNDx21 X6 SW122x3 +5VIN J9x4 J9x3 J9x2 J9x1 +5VINx21 MAX9291/93 EV\KIT REV B LAYER LAYER 3 PWR ALL UNITS ARE IN 0.001" X4 JU24 JU23 JU22 TP_RSVD32 TP_INTOUT TP_WS TP_SCK TP_SD X1 J7 X3 X3x1 J7x2 J7x3 J7x1 1.0" SW122 TP_HPD TP_J1CEC TP_J1HPD J1 J-CN J-CNx4 J-CNx9 J-CNx10 U9x61 U9x60 U9x65 U9x74 U9x59 U9x64 U9x69 U9x73 U9x78 C31x2 C32x2 C31x1 C32x1 C28x1 C29x1 C28x2 C29x2 C22x2 C22x1 JU31x1 JU31x2 JU31x3 C68x1 C68x2 FB13x2 FB13x1 C67x2 C67x1 JU30x1 JU30x2 JU30x3 C42x1 C45x1 U9x58 U9x63 U9x68 U9x72 U9x77 C46x1 TP_INTOUTx1 C46x2 C75x2 C75x1 C77x1 C77x2 C65x1 C65x2 C72x1 C72x2 C52x2 C48 C48x1 C48x2 C26x1 C26x2 C52x1 TP_RSVD32x1 J6x2 J6x1 J11x2 J11x1 JU28x3 JU28x2 JU28x1 JU19x3 JU19x2 JU19x1 J8x2 J8x1 X10x1 JU23x1 JU23x2 JU23x3 JU24x1 JU24x2 JU24x3 J2x2 J2x1 J4x2 J4x1 J4 J2 JU22x1 JU22x2 JU22x3 JU1x3 JU1x2 JU1x1 J17x1 J17x2 JU20x3 JU20x2 JU20x1 TP_GPOx1 C82x1 C82x2 FB3x2 FB3x1 OUT-x3 OUT-x2 OUT+x3 OUT+x2 OUT-x1 OUT+x1 TP_LFLTx1 IOVD _EXTx21 JU33x3 JU33x2 JU33x1 JU33x4 JU33x5 C81x2 C81x1 J5 J19 X4x1 J18x1 J18x2 OUT-x4 OUT-x5 OUT+x4 OUT+x5 J18 J13 J13x1 J13x2 J16 X1x1 TP_SDx1 TP_SCKx1 TP_WSx1 U9x70 U9x62 U9x66 U9x75 U9x71 U9x67 U9x76 U9x79 U9x57 U9x80 U9x81 C33x1 C33x2 C30x2 C30x1 C24x2 C24x1 C37x1 C37x2 C73x2 C73x1 C74x2 C70x1 C70x2 FB9x2 FB9x1 C69x2 C69x1 OUT- X5 X5x1 J19x1 J19x2 C36x1 C35x1 C36x2 C35x2 C54x2 C45x2 C78x2 C78x1 C79x2 C79x1 C76x2 C76x1 U9 C75C46 C24C22 C30C28C29 C31C32 C74 C73C37C33 C54 C35 C64 C36 C54x1 C42x2 C26 J-CNx3 J-CNx5 C62 C64x2 C50x1 C72C65 C77 J-CNx7 JU34 C27x1 C27x2 C49x1 J3x2 J3x1 JU27x3 JU27x2 JU27x1 JU26x3 JU26x2 JU26x1 C42C45C76 C50 C79 C43C49C78 C53C51C27 C52 C64x1 C50x2 JU25 C62x2 C43x1 JU25x3 JU25x2 JU25x1 J3 J17 J-CNx8 JU5 J8 J11 J1x20 JU6 OUT+ J-CNx6 J-CNx2 C131C115FB10C116 JU26 C49x2 JU9x1 JU9x2 JU9x3 JU1 J1x22 JU18 C74x1 JU4 C62x1 JU2 C43x2 XVDD_EXT J6 C51x2 PLLVDD_EXT JU27 C53x2 HVDD_EXT JU28 C51x1 C57x1 C57x2 FB4x2 FB4x1 C56x2 C56x1 JU19 C53x1 JU32x1 JU32x2 JU32x3 RVDD_EXT X10 J1x21 C80x1 C80x2 FB5x2 FB5x1 C71x2 C71x1 TP_LFLT TP_GPO TP_J1HPDx1 TP_J1CECx1 TP_HPDx1 JU7 JU20 J5x2 JU8 C71FB5C80 JU2x3 JU2x2 JU2x1 JU8x1 JU8x2 JU8x3 JU32 DVDD_EXT XVD _EXTx12 PL VD _EXTx12 HVD _EXTx12 RVD _EXTx21 DV D_EXTx21 AVD _EXTx21 C55x1 C55x2 C56FB4C57 AVDD_EXT J16x2 J14 J5x1 JU4x3 JU4x2 JU4x1 C44FB2C55 FB2x2 FB2x1 C44x2 C44x1 JU9 IOVDD_EXT J16x1 JU34x3 JU34x2 JU34x1 J12 JU18x3 JU18x2 JU18x1 JU7x1 JU7x2 JU7x3 U2x9 X6x1 DATE: J1x23 J9 JU6x1 JU6x2 JU6x3 JU_USR1 C41x1 C41x2 C69FB9C70 JU31 JU5x1 JU5x2 JU5x3 C40FB1C41 FB1x2 FB1x1 C40x2 C40x1 C67FB13C68 SW122x1 J21 J21x1 J21x2 X2x1 U3x9 JU30 SW122x2 GND JU33C81FB3C82 SW122x4 JU_USR2 J12x4 J12x3 J12x2 J12x1 JU_USR3 FB10x1 FB10x2 JU3 X2 C116x2 JU_USR3x1 JU_USR3x2 JU_USR3x3 U4x9 U3 C115x2 C115x1 JU_USR2x1 JU_USR2x2 JU_USR2x3 J10 JU_USR1x1 JU_USR1x2 JU_USR1x3 JU3x3 JU3x2 JU3x1 JU3x4 U4 J14x2 J10x10 U2 C116x1 J14x1 J10x11 X6 C131x1 C131x2 GNDx21 LAYER SW122x3 +5VIN J9x4 J9x3 J9x2 J9x1 +5VINx21 MAX9291/93 EV\KIT REV B SOLDER SIDE ALL UNITS ARE IN 0.001" X4 JU24 JU23 JU22 TP_RSVD32 TP_INTOUT TP_WS TP_SCK TP_SD X1 1.0" SW122 TP_HPD TP_J1CEC TP_J1HPD J1 J-CN J-CNx10 U9x61 U9x60 U9x65 U9x74 U9x59 U9x64 U9x69 U9x73 U9x78 C31x2 C32x2 C31x1 C32x1 C28x1 C29x1 C28x2 C29x2 C22x2 C22x1 C33x1 C33x2 C30x2 C30x1 C24x2 C24x1 C37x1 U9x70 U9x62 U9x66 U9x75 U9x71 U9x67 U9x76 U9x79 U9x58 U9x63 U9x68 U9x72 U9x77 C42x2 C45x2 C46x2 C46x1 C75x2 C75x1 U9x57 U9x80 U9x81 C70x1 C70x2 FB9x2 FB9x1 C69x2 C69x1 JU31x1 JU31x2 JU31x3 C68x1 C68x2 FB13x2 FB13x1 C67x2 C67x1 JU30x1 JU30x2 JU30x3 C42x1 C45x1 TP_INTOUTx1 C77x1 C77x2 C65x1 C65x2 C72x1 C72x2 C52x2 C48x1 C48x2 C26x1 C26x2 C52x1 TP_RSVD32x1 J6x2 J11x2 J11x1 JU28x3 JU28x2 JU28x1 JU19x3 JU19x2 JU19x1 J8x2 J8x1 X10x1 JU23x1 JU23x2 JU23x3 JU24x1 JU24x2 JU24x3 J2x2 J2x1 J4x2 J4x1 J4 J2 JU22x1 JU22x2 JU22x3 JU1x3 JU1x2 JU1x1 J17x1 J17x2 JU20x3 JU20x2 JU20x1 C82x1 C82x2 FB3x2 FB3x1 TP_GPOx1 OUT-x3 OUT-x2 OUT+x3 OUT+x2 OUT-x1 OUT+x1 TP_LFLTx1 IOVD _EXTx21 JU33x3 JU33x2 JU33x1 JU33x4 JU33x5 C81x2 C81x1 J5 J19 X4x1 J18x1 J18x2 OUT-x4 OUT-x5 OUT+x4 OUT+x5 J18 J13 J13x1 J13x2 J16 X1x1 TP_SDx1 TP_SCKx1 TP_WSx1 C36x1 C35x1 C37x2 C73x2 C73x1 C74x2 JU9x1 JU9x2 JU9x3 U2x9 X6x1 OUT- X5 X5x1 J19x1 J19x2 U9 C75C46 C24C22 C30C28C29 C31C32 C74 C73C37C33 J-CNx9 C50x1 C48 J-CNx4 C50x2 C26 C36x2 C35x2 C54x2 C49x1 C78x2 C78x1 C79x2 C79x1 C76x2 C76x1 C49x2 25C 62C 84C 27C 56C 77C J-CNx3 J-CNx5 C35 47C C62 C54 73CC36 26C 37C C64 45C 53C 46C 63C C54x1 C51x2 C27x1 C27x2 C53x2 C51x1 C72C65 C77 J-CNx7 JU34 C64x2 JU2 C42C45C76 C50 C79 C43C49C78 C53C51C27 C52 C64x1 JU25 J3x2 J6x1 J3 J3x1 JU27x3 JU27x2 JU27x1 JU26x3 JU26x2 JU26x1 JU26 C62x2 JU25x3 JU25x2 JU25x1 J6 J17 J-CNx8 JU5 J8 J11 J1x20 JU6 OUT+ J-CNx6 J-CNx2 C131C115 C115FB10C116 611C JU27 C53x1 C57x1 C57x2 FB4x2 FB4x1 C56x2 C56x1 JU1 J1x22 JU18 C74x1 JU4 C62x1 C43x1 XVDD_EXT C43x2 JU2x3 JU2x2 JU2x1 PLLVDD_EXT XVD _EXTx12 PL VD _EXTx12 HVD _EXTx12 RVD _EXTx21 DV D_EXTx21 AVD _EXTx21 HVDD_EXT JU28 J1x21 JU32x1 JU32x2 JU32x3 JU19 X10 J1x23 C80x1 C80x2 FB5x2 FB5x1 C71x2 C71x1 RVDD_EXT J5x2 JU8x1 JU8x2 JU8x3 JU20 J16x2 J14 J5x1 JU4x3 JU4x2 JU4x1 JU7 DVDD_EXT J16x1 JU34x3 JU34x2 JU34x1 J12 JU18x3 JU18x2 JU18x1 C55x1 C55x2 FB2x2 FB2x1 C44x2 C44x1 C44FB2C55 AVDD_EXT TP_J1HPDx1 TP_J1CECx1 TP_HPDx1 JU6x1 JU6x2 JU6x3 JU7x1 JU7x2 JU7x3 JU8 C71FB5 C71 FB5C80 JU5x1 JU5x2 JU5x3 C41x1 C41x2 JU32 SW122x1 C40FB1C41 FB1x2 FB1x1 C40x2 C40x1 C56FB4C57 SW122x2 J21 J21x1 J21x2 X2x1 JU9 SW122x4 JU_USR1 J12x4 J12x3 J12x2 J12x1 JU_USR2 FB10x1 FB10x2 JU_USR3 C116x2 JU_USR3x1 JU_USR3x2 JU_USR3x3 C69FB9 FB9C70 C70 JU31 SW122x3 J9 C115x2 C115x1 JU_USR2x1 JU_USR2x2 JU_USR2x3 X2 C116x1 GND C131x1 C131x2 JU_USR1x1 JU_USR1x2 JU_USR1x3 J10 J14x2 U3x9 U3 C67FB13C68 TP_LFLT TP_GPO 23C 13C 42C 03C 33C J14x1 U4x9 JU30 IOVDD_EXT 92C 22C 82C +5VIN J9x4 J9x3 J9x2 J9x1 JU3x3 JU3x2 JU3x1 JU3x4 JU3 JU33C81FB3C82 64C 57C J10x10 DATE: 9877CC 72C 6075CC 54C 34C 9345CC 15C 24C J10x11 LAYER 3BF 28C 18C U4 01BF GNDx21 U2 31BF 86C 9BF 07C 4BF75C 5BF 08C 2BF55C 1BF 14C 65C 76C 17C 96C 44C 04C +5VINx21 X6 511C 131C J7 X3 X3x1 J7x2 J7x3 J7x1 MAX9291/93 EV\KIT REV B BOTTOM SILKSCREEN ALL UNITS ARE IN 0.001" X4 JU24 JU23 JU22 TP_RSVD32 TP_INTOUT TP_WS TP_SCK TP_SD X1 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Maxim Integrated: MAX9291COAXEVKIT# MAX9293COAXEVKIT#