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Evaluates: MAX5861MAX5861 Evaluation Kit
General DescriptionThe MAX5861 evaluation kit (EV kit) contains a MAX5861 high-density downstream cable SCQAM and OFDM modulator that integrates a digital up-converter (DUC) and a RF Digital to Analog Converter (RF-DAC). The MAX5861 DUC performs SCQAM and OFDM mapping, pulse shaping, and digital RF up-conversion with full agil-ity and then drives a 14-bit 5Gsps RF-DAC. The device digitally synthesizes RF signals with up to 160 DOCSIS®-compliant 6MHz QAM channels (or up to 120 8MHz QAM channels) on a single RF port at frequencies from 47MHz to 1218MHz. The MAX5861 device provides up to 6 channels of OFDM IFFT processing. Each of the OFDM channels provide up to 192MHz of bandwidth, for a com-bined potential 1152MHz of modulation bandwidth. The MAX5861 can support up to six blocks powered on at the same time, where a block is defined as an OFDM chan-nel or a 32-channel SCQAM block. The MAX5861 EV kit provides a complete system solution for high-density SCQAM and OFDM modulation targeting the DOCSIS 3.1 solution with very low power dissipation.The MAX5861 EV kit connects to the FMC connector on the Xilinx VC707 evaluation kit, allowing the VC707 to communicate with the MAX5861’s three input ports and various control signals.The EV kit includes Windows XP®-, Windows Vista®-, Windows® 7/8-compatible software that provides a simple graphical user interface (GUI) for configuration of all of the MAX5861 registers, control of SPI interface, control of the VC707 FPGA and temperature monitoring.
Benefits and Features ● Evaluates Up to 160 SCQAM Channels and/or 6
OFDM Channels ● Up to 6 Blocks Powered at Once, Where a Block
is Defined as an OFDM Channel or a 32-Channel SCQAM Block
● Single 5.0V Input Voltage Supply ● Maximum 4.9152Gsps Update Rate ● Direct Interface with Xilinx® VC707 Data Source
Board if Desired ● Windows XP-, Windows Vista-, and Windows
7/8-Compatible Software ● On-Board SPI Interface Control for the MAX5861 ● On-Board SMBus Interface Control for the MAX6654
Temperature Sensor ● GUI Controls for VC707 Operation ● Pseudo Random Bit Sequence (PRBS) Test Pattern
Files ● Proven 10-Layer PCB Design ● Fully Assembled and Tested
19-7677; Rev 0; 6/15
Ordering Information appears at end of data sheet.
DOCSIS is a registered trademark and registered service mark of Cable Television Laboratories, Inc.Windows, Windows Vista, and Windows XP are regis-tered trademarks and registered service marks of Microsoft Corporation.Xilinx is a registered trademark of Xilinx, Inc.
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Evaluates: MAX5861MAX5861 Evaluation Kit
Figure 1. MAX5861 EV Kit System with MAX5861 EV Kit and Xilinx VC707 Evaluation Board
VC707 EVALUATION BOARD MAX5861 EV KIT
CLKEV KIT DAC CLOCK INPUT
OUTEV KIT OUTPUT
USB23USB INTERFACE FOR EV KIT
5V / GND5V SUPPLY FOR EV KIT
FMC CONNECTOR TO CONNECT EV KIT TO VC707
VC707 POWER SWITCH
VC707 JTAG CONNECTOR
VC707 UART CONNECTOR
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Evaluates: MAX5861MAX5861 Evaluation Kit
Quick StartRequired EquipmentBefore beginning, the following equipment is required:
● Windows XP, Windows Vista or Windows 7/8 PC with a spare HS USB port (3 USB ports if using VC707 with two of those being HS USB ports – if only 2 ports are available, the VC707 JTAG can be used first to program the BIT file into the FPGA and then it can be changed to the UART for communication)
● USB 2.0 cable for the MAX5861 EV kit, USB A male to USB Mini (supplied with kit)
● One 5.0V, minimum 3A DC power supply with banana jack cables to connect to 5V and GND to supply power to the MAX5861
● One signal generator with low-phase noise and low jitter for clock input signal to the RF-DAC at +19dBm (e.g., Rohde & Schwarz SMF100A) with SMA cable to connect to J1
● Bandpass filters for the RF-DAC clock input signal (Optional)
● One high-performance spectrum analyzer (e.g., Agilent PXA, Agilent PSA, Rohde & Schwarz FSU, or better) with SMA cable to connect to OUT
● One Xilinx Virtex 7 VC707 evaluation kit with sepa-rate USB micro and USB mini cables as well as a power cable to connect the VC707 to an outlet – for use as an external data source (Optional)
ProcedureThe MAX5861 EV kit is fully assembled and tested. Follow the steps below to verify board operation. Caution: Do not enable the outputs of the power supplies or signal sources until all connections are completed.Note: In the following section(s), software-related items are identified by bolding. Text in bold refers to items directly from the EV kit software. Text in bold and under-line refers to items from the Windows operating system.1) Verify that the MAX5861 EV kit shunts are config-
ured in their default state (the EV kit board indicates installation and position of jumper with a ● – see Table 1 for definitions of each of the jumpers).
2) Connect the USB cable from the PC HS-USB to the MAX5861 EV kit board USB23.
i) Install the driver for the FTDI device if it is not automatically detected and installed by the PC.
ii) The EVKIT USB ports can take a few minutes to fully enumerate. If the ports have not enumer-ated yet, the error window shown in Figure 5 will appear.
3) Set the DC power supply to 5.0V and disable the power-supply output.
4) Connect the 5.0V power-supply output to the MAX5861 EV kit 5V and GND banana jack
FILE DECRIPTIONMAX5861EVKITSoftwareController.exe Application program
ConfigurationLoadFiles Directory with sample register configuration files to load into the MAX5861 for evaluation
FPGAConfigurationFiles Directory with sample FPGA configurations files and memory patterns to load into the VC707
Screenshots Directory with sample spectrum analyzer screenshots for reference of expected performance on set of configurations
WindowsDriverFiles Directory with USB supporting files
MAX5861ConfigurationScripts Perl scripts and supporting files to generate new configuration files to load into the MAX5861 – see Readme.txt for details
MAX5861RegMap.txt Register definition file used by the MAX5861EVKITSoftwareController for register definition display
Miscellaneous DLLs to include ftd2xx.dll, DTD2XX_NET.dll, libMPSSE.dll and MaximStyle.dll Supporting DLL files for software operation
MAX5861 EV Kit Files
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connectors.5) Set the clock signal generator to the desired clock
frequency (2457.6MHz) and power level at +19dBm and disable the output.
6) Connect the clock signal generator to the J1 SMA connector.
7) Connect the spectrum analyzer to the EV kit SMA connector labeled OUT.
8) <<If using optional VC707 board for SCQAM input data or OFDM data>>
i) Connect the VC707 evaluation board per the User’s Manual without turning the switch on.
ii) Connect power supply.iii) Connect a USB cable between the PC and
JTAG connection.iv) Connect a USB cable between the PC HS-
USB and the UART connection.b) Ensure Xilinx’s Impact Tools are installed on the
PC and note the location of impact.exe file if pro-gramming the FPGA through the MAX5861 EV kit software GUI.
c) Connect VC707 board to MAX5861 EV kit.9) Install the EV kit software on your computer by
running the setup.exe program. The recommended location for the installation software is C:\MaximIn-tegrated\MAX5861EVKIT to avoid file permission issues. The application files are copied and icons are created in the Windows Start | Programs menu.
10) Enable the MAX5861 EV kit DC power supply.11) Enable the clock generator output.
i) Approximate current draw on the 5V supply upon power-up should be 1.4A, depending on the CFG jumper settings.
12) <<If using optional VC707 board for SCQAM input data or OFDM data>>
i) Power on the VC707 board.13) Start the MAX5861 EV kit software by opening the
icon in the Start | Programs menu under Maxim Integrated. The EV kit software window will display a splash screen, as shown in Figure 2, while the soft-ware is loading. When the software load is complete, the software GUI will display as shown in Figure 3.
i) If the USB ports are not fully enumerated, you may receive a warning that it did not connect correctly. Cancel out of this startup and try again later. There are four ports on the USB interface of the MAX5861 EV kit – one for the SPI of the MAX5861 device, one for the I2C in-terface for the temperature sensor, one for bit toggling of the RST_N and MODE2 pins, and one spare. The ports can also be monitored in the device manager of the PC to determine when all four ports are ready for use (depend-ing on the operating system, they might show up under the Universal Serial Bus Control-lers as USB Serial Converter A, USB Serial Converter B, USB Serial Converter C and USB Serial Converter D).
ii) If the PC has USB 3.0 and it is not fully compli-ant (i.e. not backward compatible to USB 2.0) then the USB 3.0 mode may need to be dis-abled in the BIOS for proper communication.
14) Verify proper communication with the board in the Log Window of the GUI. The software reads the register 0x000 at software initialization and should read a 0x27 in the ID code, as shown in Figure 3 below.
15) <<If using optional VC707 board for SCQAM input data or OFDM data>>
i) On the VC707 Tab of the GUI, click the check-box for Xilinx Impact Tools Are Installed
ii) Click on the Load FPGA Bit File button, browse to the location of the Impact program (if needed – first-time programming only), and then browse to the location of the BIT file (download_lvds_xxxxx.bit) under the FPGA-ConfigurationFiles directory.—
16) Click on the Test tab of the GUI and select a Pseudo Random Bit Sequence (PRBS) file to load by clicking on the button labeled “1 Carrier, Annex B, 256-QAM, Centered @ 1GHz”. This button will load the filename 001SB256_5861_PRBS_4915p2M_1000M.txt into the MAX5861. The SCQAM load files are in the ABC_D_E_FM_GM.txt format and the OFDM load files are in the ABC_D_E_FM_GBW_Hk_JcKr_L.txt format, where the format is defined as follows.
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1. Observe the output on the spectrum analyzer and adjust the signal generator and spectrum analyzer, if required.
Figure 2. MAX5861 EV Kit Software Controller Splash Screen
SYMBOL SCQAM DEFINITION OFDM DEFINITIONA Number of SCQAM channel, 3 digits Number of OFDM channel, 3 digits
B S for SCQAM O for OFDM
C QAM mapping - A16, A32, A64, A160, A256, B64, B256, C64 or C256
QAM mapping to include 16, 32, 64, 128, 256, 512, 1024, 2048 and 4096 QPSK for PRBS mode or xxx for input interface data
D Target of the configuration - 5861 for MAX5861 or VC707 Target of the configuration - 5861 for MAX5861 or VC707
E Source of the data - PRBS for internal PRBS generator or input for input interface
Source of the data - PRBS for internal PRBS generator or input for input interface
F DAC frequency in MHz DAC output data center frequency in MHz
G DAC output data center frequency in MHz OFDM Channel BW to include 24, 48, 96 and 192MHz
H NA 4 or 8 for 4k or 8k points IDFT
J NA NCP
K NA NRP
L NA NP or P for no pilot insertion or pilot insertion
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Figure 3. MAX5861 Evaluation System Controller Software GUI Window
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●Default position.
Table 1. Jumper Configuration for MAX5861 EV Kit OperationJUMPER POSITION EVKIT FUNCTION
JU2 1-2 Installed●2-3 Installed
3.3V LDO drives AVDD33_INExternal AVDD3ANALOG Supply drives AVDD33_IN
JU3 1-2 Installed●2-3 Installed
1.8V LDO drives AVCLK_INExternal ANALOG18 Supply drives AVCLK_IN
JU4 Installed●Not Installed
Connects SE signal to the DUTSE signal not connected to the DUT
JU5 1-2,4-5●,7-8●,10-11●2-3●,5-6,8-9,11-12 13-14
CFG1, CFG2, CFG3, CFG4 connected to GNDCFG1, CFG2, CFG3, CFG4 connected to VDD18
JU6 1-2 Installed2-3 Installed●
Connect REF to DUTConnect DAC REF to GND
JU7(1-2,4-5,7-8,10-11)●
2-3,5-6,8-9,11-1213-14
SCLK, SDI, SDO, CSA pins connected to USBSCLK, SDI, SDO, CSA pins connected to FPGAUnused connection
JU81-2 Installed●2-3 InstalledNot Installed
Selects LVDS TerminationSelects SSTL 1.5VSelects SSTL 1.2V
JU10 1-2 Installed●2-3 Installed
1.8V LDO drives AVDD18_INExternal ANALOG18 Supply drives AVDD18_IN
JU11 1-2 Installed2-3 Installed●
RST_N_FPGA Drives RST_NPushbutton RST drives RST_N
JU12 Installed●Not Installed
U11 LDO Drives REFIOExternal REFIOA drives REFIO
JU22 1-2 Installed2-3 Installed●
MODE_2_FPGA Drives MODE2Pushbutton MODE_2_LV drives MODE2
JU23(1-2,4-5,7-8,10-11) ●
2-3,5-6,8-9,11-1213-14
SA3, SA2, SA1, SA0 pins connected to GNDSA3, SA2, SA1, SA0 pins connected to VDD18Unused connection
JU24 InstalledNot Installed●
Normal Operation0.9V_VDDSense Monitoring
JU25 InstalledNot Installed●
Normal Operation0.9V_GND Sense Monitoring
JU26 1-2 Installed●2-3 Installed
1.8V LDO drives 1.8V_OUTExternal DIGITAL_18 drives 1.8V_OUT
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Detailed Description of SoftwareThe MAX5861 EV kit Software Controller GUI is designed to control the MAX5861 EV kit and the VC707 board as shown in Figure 4. The MAX5861 Software Controller includes USB controls that provide SPI and SMBus com-munication to the MAX5861 and the MAX6654 interfaces. The software also controls the VC707 through the Silicon Labs COM port on the VC707 board (UART connection on the board panel). The software gives the user the capability of accessing the MAX5861 device’s 1492 inter-nal registers in each device, each 32 bits wide.The MAX5861 EV kit software features six window tabs for operation of the MAX5861 Software Controller and are defined below:
● Register• Single Access Read And Write Operations• File Read/Write Loads And Downloads• Reload Of Last Configuration Loaded• Register Definition Display• Rstn And Mode2 Toggle Control
● QAM Status• Display Of SCQAM Channel Configuration Summary• Display Of The SCQAM Channel Center Frequency
● OFDM Status• Display Of OFDM Channel Configuration Summary
● Device Status• Temperature Readings And Control Of The
MAX6654 Temperature Sensor IC• Display Of The FIFO Status, Parity Error Status
And DLL Lock Status• Display Of The Saturation Status With The Ability
To Clear The Status ● DPD
• Manipulation Of The DPD Register Set Through Easy-To-Use Slide Bars Or Text Boxes
● Test• Ability To Save Off Current Device Settings• Quick And Easy Buttons For Device Configuration
Or Generic DPD Settings For Static Linearity And fdac/2 - 2fout Corrections
• Display Of Sample Spectrum Analyzer Screen Capture Available for Comparison Of Expected Wideband Output
● VC707• Status Of COM Port Connection and Ability to
Connect• File Read/Write Loads and Downloads• Pattern File DDR3 Memory Loads for OFDM Data
Transfer• Start Of OFDM Memory Pattern• Enable SDCLK Output from FPGA• Ability to Load A Bit File Into the FPGA
Requires Xilinx Lab Tools for Impact Executable to Load Bit File
Figure 4. MAX5861 Evaluation System Block Diagram
VC707
MAX5861 EV Kit
DUT
POWERSUPPLY
HS PORTHS PORT
SIGNAL GENERATOR SUCH AS R&S
SMF100A
SPECTRUM ANALYZER SUCH AS
AGILENT PXA
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MAX5861 EV Kit Software ControllerUSB communication to the FTDI microcontroller’s SPI is verified upon execution of the MAX5861 EV kit Software Controller. If the USB is not connected or communicat-ing to the interface correctly, a pop-up window appears (Figure 5).
When the MAX5861 EV kit is not found, a debug setup window will appear as shown in Figure 6. If the Number of MPSSE/FTDI Ports is clicked without any devices, it would show “No devices found” in the window.
Figure 5. Error in Allocating USB Ports and Failed to Connect to MAX5861 EV Kit Windows
Figure 6. MAX5861 EV Kit Software Controller Setup Window
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If desired, the Demonstration Mode button can be clicked to enter the SW GUI. Of course, there is not a board to connect to and therefore no configuration can take place. If demonstration Mode is used, the following window
is displayed, with the appropriate “DEMONSTRATION MODE” titles and “Not Connected” and “Adapter: None” messages shown in Figure 7.
Figure 7. Demonstration Mode (Debug Mode Display)
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When the MAX5861 EV kit is detected and the ports are connected, the screen shown in Figure 8 is displayed. The initialization of the SW will read the RevID from the ID register in the MAX5861 device at offset 0x000 to see if the communication is working between the SW and the MAX5861. The RevID should read ‘27’. If this is the case, then it assures that the communication is working between the SW and device. If the board is set up with
a board address set to something other than ‘0000’, then this communication will not work. However, this does not mean that it would not work once the board address was set correctly using the Select Device Board Address pulldown. The SW will also attempt to enable the DPD branches to allow for correction manipulation through the DPD page.
Figure 8. Initial Display with Proper Connections
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When connecting to the MAX5861 EV kit correctly, the text in the Results Log will show text similar to the fol-lowing text:If Digilent devices show up in the Results Log text, then the VC707 board has the JTAG cable connected. The FT4232H devices are the MAX5861 EV kit board. There are four ports on the FTDI USB device where the MAX5861 EV kit uses port A for the SPI communication to the MAX5861, port B for the I2C communication to the temperature sensor, port C for GPIO expansion bus, and port D for bit-bang functions such as issuing a RST_N or MODE2 pulse to the MAX5861 device. The status bar at the bottom of the MAX5861 EV Kit Software Controller shows the status of the connection when the GUI was opened. It also displays the version of the software.
Notes about the MAX5861 EV Kit Software Controller GUI:Boxes that can have user entry are white in color, with the exception of the Results Log. Text boxes that are for displaying results of an action are grey. The Results Log will show grey if it has been disabled. Logging can be disabled, but this does not result in much of a savings on the processing timing and is therefore not recommended so that results feedback can be provided to the user. The entire content of the Results Log can be copied by click-ing on the Copy button and then pasted into a text editor for viewing if desired. The Results Log can be cleared by clicking on the Clear button.
Figure 9. Sample Text Output When Connected
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MAX5861 Register TabFigure 10 displays the Register tab page. The board address can be selected from the pulldown (range of 0000 to 1111) in panel 1. Panel 2 contains the Select Command radio buttons. The radio buttons include the Register Description, File Register Load, Reload Last Configuration, Single Register Read, Single Register Write and Set Control Bit.
To see the register description, click on the Register Description radio button, enter the address in the Address text box located in panel 3 and click the Execute button in panel 4. The description of the register defined will display in the Results Log window.
Figure 10. Register Tab Register Description Results
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To load a MAX5861 configuration file, click on the File Register Load radio button and click on the Execute but-ton in panel 4. This will bring up the file browse window for the configuration file selection. There are a few selections in panel 1 that affect a file load. These are Check to Verify All Register Writes, Apply Generic DPD Correction with Load and Apply Reset Prior to Configuration Load. The Check to Verify All Register Writes checkbox will read the register after the
write to verify that the contents were received. The reg-isters will have a mask so that it only verifies the appro-priate bits. The Apply Generic DPD Correction with Load checkbox will apply values to the fDAC/2 - 2fOUT correction (using DPD gain 9 and gain 10 offsets – 0x03E written with 0x004A00FA) and static linearity correction (using DPD gain 11 and gain 12 – 0x03F written with 0x008007F0). The Apply Reset Prior to Configuration Load checkbox will initiate a toggle of the RST_N pin before loading a configuration load file.
Figure 11. Register Tab File Register Load
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To read an individual register within the MAX5861, click on the Single Register Read radio button, enter the address offset into the Address box in panel 3 and click on the Execute button in panel 4. The result will be dis-played in both the Results window in panel 5 as well as the Results Log.To write to an individual register within the MAX5861, click on the Single Register Write radio button, enter the address offset into the Address box and the data to
be written into the Data box in panel 3 and click on the Execute in panel 4. The write will be performed, verified and displayed in both the Results window in panel 5 as well as the Results Log.To set a control bit to the MAX5861, click on the Set Control Bit radio button, select the bit(s) to toggle in panel 3 and click on the Execute in panel 4. The RST_N and/or MODE2 bits connected to the device will be toggled.
Figure 12. Browse Window for Register File Load
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Figure 13. Register Tab Single Register Read
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Figure 14. Register Tab Single Register Write
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Figure 15. Register Tab Set Control Bit
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MAX5861 SCQAM Status TabThere are many status qualifiers of the MAX5861. The SCQAM Status page is designed to provide status about a specific SCQAM channel’s configuration. Enter the channel into the text box and click on the Display SCQAM
Channel Status for Channel # button and the information about that channel will be displayed. To determine the programmed center frequency of a channel, enter the channel number, enter the fDAC frequency for the system and click the Calculate fOUT button. The result will be displayed.
Figure 16. QAM Status Tab
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MAX5861 OFDM Status TabThe OFDM Status tab is designed to provide status about a specific OFDM channel’s configuration. Enter the
channel into the text box and click on the Display OFDM Channel Status for Channel # button and the informa-tion about that channel will be displayed.
Figure 17. OFDM Status Tab
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MAX5861 Device Status TabThe Device Status tab is designed to provide status about the overall health of the MAX5861. There are three status panels to include the Temperature, FIFO, LOCK, Parity Status and Saturation Status panels. The tem-perature of the MAX5861 can be read from the remote temperature sensor by clicking the Read Temperature button. The threshold that determines alerts (shown with the LED on the board) can be modified by setting a new temperature into the text box next to the Set Threshold button and then clicking on the button to set it. If the LED is on and the current temperature is below the current threshold, then the Clear Temperature Alert button can be clicked to clear the LED.
The FIFO, DLL lock status and parity error status can be seen by clicking the Get FIFO Status, Get DLL Lock Status, and Get Parity Error Status buttons under the FIFO, LOCK, Parity Status panels. Keep in mind that FIFO and Parity errors can be seen on startup depending on programming order. Clear these errors by clicking on the Get FIFO Status and Get Parity Error Status but-tons right after initial configuration. After the initialization errors have been cleared, click on the buttons to deter-mine the system’s true health during normal operation. The saturation status of the stages throughout the device can be verified by clicking on the Get Saturation Status button. This reads many registers and will take a minute. The status will be displayed but can be cleared by clicking the Clear Saturation Status button.
Figure 18. Device Status Tab
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MAX5861 DPD TabThe DPD tab is designed to provide an interactive way for the user to set the DPD register values and see the results on the analyzer in real-time. When first accessing the DPD page, click the Set to Register Gain Values to synchronize the page up with the current register settings. After this point, either the text entry method or the slide bar method can be used. New values can be entered
into the text boxes followed by the Apply Text Box Gain Values button. This will load the values into the registers. Another option with the text boxes is to use the left and right arrow keys. Click on a box to place the cursor in the box and then use the left or right arrows to change the values by plus or minus 1. The results of these settings can be easily seen on the spectrum analyzer where the sweep time is set to less than a second. In addition to the
Figure 19. DPD Tab
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text boxes, the slide bars can be moved. The software will write a new value to the register if the value has been moved from its previous location. This allows real-time monitoring of the output signal while changing the gain values with the slide bars. All of the writes to vary the DPD settings will be logged in the Results Log.
MAX5861 Test TabThe Test page is designed to allow capturing of the device’s current configuration as well as easy initial configuration of the device. The Save Settings panel will capture the current register settings of the device. They
can be captured in their entirety in numerical order or cap-turing only the active SCQAM channels and their settings. The Load Sample Configurations Using Internal PRBS Data panel allows a user to click a single button and load a pre-set PRBS configuration into the device. Under this panel, there is also an Apply Generic DPD Values – Static Lin & fDAC/2-2fOUT button. This writes generic DPD gain values to the Static Linearity and fDAC/2 - 2fOUT branches of the DPD processing. See the device data-sheet for further details. When loading the configurations under the SCQAM Configurations, SCQAM and OFDM Configurations and OFDM Configurations sections, the
Figure 20. Test Tab
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expected sample screen captures can be displayed by clicking on the checkmark and making it an active green checkmark. This will open up another window to show the screenshots. These files can also be viewed, if larger images are needed, by accessing the Screenshots direc-tory of the installed software.
MAX5861 VC707 TabThe VC707 tab is designed to provide control of the VC707 FPGA through the MAX5861 EV kit GUI. The page allows the user to send single commands, load configuration files, load memory files, enable SDCLK, start memory data flow and stop memory data flow. The user can send individual commands to the VC707 with the use of the Single Command to Send button. To load a configuration into the VC707 for SCQAM setup, click the File – Load Configuration button. These configurations set up the time slots, PRBS information for the channels,
clocks, and align the RDY interface appropriately. As the signals come up, it will go through a training sequence on the ready signals so only the second through the eighth channels (in each 8-channel combiner) will show until the training is complete. These can take a couple of minutes to load. To run the OFDM from the FPGA, a pat-tern memory file must be loaded into the VC707 board. This file can be loaded via the File – Load Memory Pattern button. It will bring up a file browse window to search for the desired memory file. The memory files can take a little while to load into the VC707 memory (i.e. a 4k IFFT pattern with 128 symbols for demodulation can take approximately 10 minutes and an 8k IFFT pattern with 128 symbols can take approximately 20 minutes – shorter patterns of 14 symbols will only take a couple of minutes). There is a CRC verification on the data written into the memory to confirm expected data values. The SDCLK to the MAX5861 must also be transmitting. This
Figure 21. Test Tab Option for Displaying the Sample Wideband Spectrum Analyzer Capture
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Figure 22. VC707 Tab
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can be accomplished with the Enable SDCLK Output button. The final step for the OFDM pattern to drive the MAX5861 is to send the OFDM memory pattern from the VC707 to the DUC. To send the data, click the Start OFDM Memory Flow button and to stop the flow of data, click the Stop OFDM Memory Flow button.
MAX5861 Configuration Load OrderThe optimal order of operation for the system with the MAX5861 receiving data from the VC707 is the following:1) Configure the MAX5861 for the SCQAM and/or
OFDM channel2) Program the FPGA to send data to the MAX5861
channel3) With data flowing from the FPGA to the MAX5861,
clear the status registers of the MAX5861 of the startup condition triggers (FIFO, parity, saturation, etc)
4) Monitor the MAX5861 for health as neededFor the initial configuration of the device, the optimal order of operation for the registers within the MAX5861 is the following:1) Set the Gain5 and Gain6 to zero (GAIN56 register)2) Power up the blocks (GBL_CFG2)3) Program channel(s) to include all NCO load pulses4) Set Gain5 and Gain6 to desired valuesTo program another channel when the device is already configured, program in the order defined:1) Make sure the channel is muted (CHAN_x_x for
SCQAM and OFDM_CFG_x for OFDM)2) Power up the additional block (GBL_CFG2)3) Set the Gain1/Gain2 (G1G2_x) for SCQAM or Gain7/
Gain8 (GAIN_x) for OFDM to zero4) Unmute the additional channel(s)5) Program the channel(s) to include all NCO load
pulses (if using OFDM, this includes the GAIN_x register for the NCO3 load, while keeping Gain7/Gain 8 at zero)
6) Set Gain1/Gain2 or Gain7/Gain8 to the desired gain values
This procedure should ensure that the channels come up cleanly in the spectrum.
Detailed Description of HardwareThe MAX5861 EV kit contains a MAX5861 high-density downstream cable SCQAM and OFDM modulator that
integrates a DUC and RF-DAC. The MAX5861 DUC per-forms SCQAM and OFDM mapping, pulse shaping and digital RF up-conversion with full agility and then drives a 14-bit 4.6Gsps RF-DAC. The device digitally synthesizes RF signals with up to 160 DOCSIS-compliant 6MHz QAM channels (or up to 120 8MHz QAM channels) on a single RF port at frequencies from 47MHz to 1218MHz. The MAX5861 device provides up to 6 channels of OFDM IFFT processing. Each of the OFDM channels provide up to 192MHz of bandwidth. The MAX5861 can support up to 6 blocks powered on at one time, where a block is defined as an OFDM channel or a 32-channel SCQAM block. The MAX5861 EV kit provides a complete system solution for high-density QAM modulation with very low power dis-sipation. The EV kit operates from a single 5.0V/3A input power supply.The MAX5861 EV kit provides a Samtec FMC connec-tor J1 to drive the IC input ports. The MAX5861 output is available for viewing at the OUT SMA connector (see Figure 4).The EV kit incorporates a MAX6654 device for monitor-ing the die temperature. The LED D1 turns on when the MAX5861 die temperature rises above the programmed high temperature threshold within the MAX6654. See the MAX5861 Device Status Tab section for configuring the high temperature threshold. Also refer to the MAX6654 IC data sheet for additional register information. The EV kit provides on-board SPI and SMBus interfaces and is connected to the computer through the USB con-nector, USB23. The EV kit Windows XP- , Vista- and Windows 7/8- compatible software provides a GUI for control of the MAX5861, MAX6654, and VC707 program-mable features. Logic-level translators provide proper interface translation from the MAX5861 digital signals to the USB and VC707 circuitry.The EV kit includes a hardware kit that allows the board to be lifted off of a lab bench as well as mate to the VC707 board. The hardware kit includes standoffs, screws, metal washers, and nylon washers. The order from the top of the board to the bottom should be as follows: pan screw, metal washer, MAX5861 EV kit board mounting through-hole, nylon washer, and standoff. The hardware kit components should be placed on the outer 3 corners of the EV kit as well as the mounting hole inside the FMC connector holes.
Power SuppliesThe EV kit operates from a single 5.0V/3A power supply applied at the 5.0V_IN and GND PCB pads. The MAX15023 dual synchronous step-down controller,
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MAX1793 LDO regulator, and MAX8902A low-noise LDO regulator provide power to the EV kit’s power rails. The MAX15023 devices are configured to 0.9V and are used for on-board regulation of the MAX5861 core supply input, VDD09. The MAX1793 LDO regulators are configured to 1.8V and 3.3V and are used for on-board regulation of the MAX5861 VDD18, AVCLK, and AVDD3 supply inputs. The MAX8902A LDO regulators are configured to 1.8V and are used for on-board regulation of the AVDD18 sup-ply inputs. The EV kit also provides the option of using external power supplies. When using an external sup-ply for the VDD09 supply rail, remove resistor R17 and apply a 0.9V/5A power supply at the DIGITAL09 relative to GND PCB pads. See Table 1 for proper shunt settings for all of the other EV kit power-supply inputs. A 1.8V/3A power supply will then be applied on the DIGITAL18, ANALOG18, ANALOGCLK, and ANALOG33 pads. Test points are available at VDD09, AVDD18, AVCLK, AVDD3, VDD18_IN, and GND for monitoring the EV kit power-supply voltages. Jumpers JU24 and JU25 are provided for sensing the MAX5861 VDD09 voltage. Remove the shunts at jumper JU1 and JU8 and connect the voltmeter positive and negative terminals at JU24 pin 1 and JU25 pin 2 respec-tively to monitor VDD09 voltage as monitored inside the MAX5861 IC.
SPI and SMBus Interface ControlThe EV kit communicates to the MAX5861 SPI interface using the on-board USB circuitry. Place shunts across pins 1-2, 4-5, 7-8, 10-11 and 13-14 of jumper JU7 to con-trol the SPI interface using the USB circuitry. The EV kit communicates to the MAX6654 SMBus interface using the on-board USB circuitry. Place shunts across pins 1-2 and 4-5 of jumper JU23 to control the SMBus interface using the USB circuitry.
Global ResetMomentary pushbutton switch RSTN is used as a global reset to clear all MAX5861 configuration registers. A global reset is required when uploading a new test con-
figuration on the MAX5861 Register tab. Press the RSTN switch to clear the registers before uploading a new test configuration file. Test configuration files are available for loading into the MAX5861, via the SPI interface. The MAX5861 output is available for viewing at the external OUT SMA connector.
MODE2 Pushbutton Switch Momentary pushbutton switch MODE2 is available for providing a low-to-high pulse at the MAX5861 port MODE2 input when pressed.The pushbutton switch is used to perform various func-tions within the MAX5861. Refer to the MAX5861 IC data sheet for additional information.
Using the VC707 Virtex FPGA Board with the MAX5861 EV KitThe MAX5861 device has the ability to produce PRBS data for both the SCQAM and OFDM ports. This PRBS is inserted in place of the input interface data if programmed. The MAX5861 device can be fully evaluated without the need for the VC707. But if input data is desired, the FPGA platform (VC707) can be used as a data source for the MAX5861 EV kit. The VC707 drives the MAX5861 multi-plexed input ports, control signals and monitors the ready logic outputs. The EV kit software provides the VC707 tab for controlling the VC707. The VC707 and MAX5861 EV kit boards can be con-nected using the available FMC interface connector. See Figure 4 for details in connecting the boards together. Alternatively, the VC707 and MAX5861 EV kit can be connected with coaxial ribbon cables (Part No.: Samtec HDR-169468-01). Note that it is necessary to use recom-mended hardware and/or cables to get a reliable electrical connection between the boards.
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Note: Indicate that you are using the MAX5861s when contacting these component suppliers.
SUPPLIER PHONE WEBSITEFairchild Semiconductor 888-522-5372 www.fairchildsemi.comHong Kong X’tals Ltd. 852-35112388 www.hongkongcrystal.comMurata Electronics North America, Inc. 770-436-1300 www.murata-northamerica.comPanasonic Corp. 800-344-2112 www.panasonic.comTaiyo Yuden 800-348-24120 www.t-yuden.comTDK Corp. 847-803-6100 www.component.tdk.com
PART TYPE TYPEMAX5861EVKIT# EV Kit 160-Channel SCQAM and 6-Channel OFDM Cable Modulator
EK-V7-VC707-G FPGA Board Xilinx Virtex 7 FPGA Board – Ordered through a qualified Xilinx Vendor
Component List, Schematics, and PCB Layout DiagramsRefer to the following files attached to this data sheet for component information, schematics, PCB layout diagrams:
● BOM_MAX5861EVKIT_REVA.xlsx ● Schematic_MAX5861_evkit_reva.PDF ● PCB_MAX5861_evkit_reva.PDF
Component Suppliers
Ordering Information
Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time.
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Evaluates: MAX5861MAX5861 Evaluation Kit
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0 6/15 Initial release —
Revision History
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.
Configuration Load Sequence Output Example The following is a Results Log capture of a configuration load sequence. To make the configuration easier to follow, repeated functions and/or writes (i.e. same or similar register values to channels 1 through 128, etc) will be condensed and noted as such with ellipses between the initial write and the final write within the configuration load file. The sequence uses the Test tab and configures the device for a single-carrier SCQAM. It then checks the SCQAM Status tab for the current settings. This is followed by a reset and reconfiguration using the Register tab with a (128) SCQAM plus (2) 192MHz bandwidth OFDM configuration from the input interface. The FPGA is then configured for a (128) channel configuration, the memory is loaded with a pattern, the SDCLK is enabled and the memory is started. The next step was to check the OFDM Status tab for the current settings. The final step is to look at the Device Status tab. Especially given the order of operation, the FIFOs and parity might have startup errors. The reading of these registers clears these errors and subsequent reads will be valid for operating status. Test Tab – Load Single SCQAM:
//Test: Display Sample Pictures for Configurations // File Configuration Load, Board Address 0x0 Write Reg: 0x026 0x000A000A //--> USB/FTDI Write Good/Verified Write Reg: 0x008 0x000007BF //--> USB/FTDI Write Good/Verified Write Reg: 0x081 0x000FFFFE //--> USB/FTDI Write Good/Verified Write Reg: 0x080 0x0000105E //--> USB/FTDI Write Good/Verified Write Reg: 0x088 0x00000401 //--> USB/FTDI Write Good/Verified Write Reg: 0x109 0x000001A0 //--> USB/FTDI Write Good/Verified Write Reg: 0x10A 0x000002E9 //--> USB/FTDI Write Good/Verified Write Reg: 0x10B 0x00023000 //--> USB/FTDI Write Good/Verified Write Reg: 0x10C 0x00FE028A //--> USB/FTDI Write Good/Verified Write Reg: 0x101 0x00078000 //--> USB/FTDI Write Good/Verified Write Reg: 0x061 0x0003C000 //--> USB/FTDI Write Good/Verified Write Reg: 0x041 0x00080F55 //--> USB/FTDI Write Good/Verified Write Reg: 0x108 0x00D00616 //--> USB/FTDI Write Good/Verified Write Reg: 0x100 0x00000001 //--> USB/FTDI Write Good/Verified Write Reg: 0x060 0x00000001
//--> USB/FTDI Write Good/Verified Write Reg: 0x040 0x00000000 //--> USB/FTDI Write Good/Verified Write Reg: 0x0D8 0x80000000 //--> USB/FTDI Write Write Reg: 0x042 0x010000FE //--> USB/FTDI Write Good/Verified Write Reg: 0x047 0x00008000 //--> USB/FTDI Write Good/Verified Write Reg: 0x040 0x00000003 //--> USB/FTDI Write Good/Verified Write Reg: 0x001 0x87800000 //--> USB/FTDI Write Good/Verified //Register: Read Modify Write Reg: 0x0D8 data 0x00000000 mask 0x00000020 Read Reg: 0x0D8 0x80001010 //--> USB/FTDI Read Good Write Reg: 0x0D8 0x80001010 //--> USB/FTDI Write // File Loaded: C:\Test\MAX5861EVKIT/ConfigurationLoadFiles/SCQAM/001SB256_5861_PRBS_4915p2M_1000M.txt Loaded file from ConfigurationLoadFiles : C:\Test\MAX5861EVKIT/ConfigurationLoadFiles/SCQAM/001SB256_5861_PRBS_4915p2M_1000M.txt
QAM Status Tab: //QAM Status: Get QAM Channel Status for Channel Number 1 Read Reg: 0x088 0x00000001 //--> USB/FTDI Read Good Read Reg: 0x080 0x0000105E //--> USB/FTDI Read Good // 32 chan mute bit 0 with result of 0 Read Reg: 0x081 0x000FFFFE //--> USB/FTDI Read Good // 8 chan mute bit 0 with result of 0 Read Reg: 0x009 0x00000040 //--> USB/FTDI Read Good // 32 chan powerdown 6 with result of 1 // SYM_INTF 0x00000040 Read Reg: 0x108 0x00100616 //--> USB/FTDI Read Good // SYMIF 0x00100616 Read Reg: 0x10A 0x000002E9 //--> USB/FTDI Read Good // LF 0x000002E9 Read Reg: 0x109 0x000001A0 //--> USB/FTDI Read Good // KF 0x000001A0 Read Reg: 0x10C 0x00FE028A //--> USB/FTDI Read Good // G1G2 0x00FE028A Read Reg: 0x042 0x010000FE //--> USB/FTDI Read Good // G5G6 0x010000FE
Read Reg: 0x10B 0x00023000 //--> USB/FTDI Read Good // NCOA 0x00023000 Read Reg: 0x101 0x00078000 //--> USB/FTDI Read Good // NCO2 0x00078000 Read Reg: 0x061 0x0003C000 //--> USB/FTDI Read Good // NCO3 0x0003C000 Read Reg: 0x041 0x00080F55 //--> USB/FTDI Read Good // NCO4 0x00080F55 //QAM Status: Get Channel fOUT for Channel Number 1 Read Reg: 0x10B 0x00023000 //--> USB/FTDI Read Good // NCOA 0x00023000 Read Reg: 0x101 0x00078000 //--> USB/FTDI Read Good // NCO2 0x00078000 Read Reg: 0x061 0x0003C000 //--> USB/FTDI Read Good // NCO3 0x0003C000 Read Reg: 0x041 0x00080F55 //--> USB/FTDI Read Good // NCO4 0x00080F55 // Value Signed Mag (1) 143360.000 (2) 491520.000 (3) 245760.000 (4) 528213.000 // NCO Freq Offset in Hz (1) 21000000.000 (2) 72000000.000 (3) 288000000.000 (4) 618999609.375 // Calculated Channel Offset ==> 999.999609375 MHz
Register Tab – Toggle RSTN: //Register: Toggle Bit RSTN // Reset also Resets The DAC DLL - Clear Lock Status //Register: Read Modify Write Reg: 0x0D8 data 0x00000000 mask 0x00000020 Read Reg: 0x0D8 0x83FF10B4 //--> USB/FTDI Read Good Write Reg: 0x0D8 0x83FF1094 //--> USB/FTDI Write //Register: Toggle Bit RSTN
Register Tab: Load File Configuration (128 SCQAM plus 2 OFDM): //Register: File IO Browse, Board Address 0x0 Write Reg: 0x026 0x000A000A //--> USB/FTDI Write Good/Verified Write Reg: 0x008 0x0000043C //--> USB/FTDI Write Good/Verified Write Reg: 0x081 0x000F0000 //--> USB/FTDI Write Good/Verified Write Reg: 0x080 0x00008050 //--> USB/FTDI Write Good/Verified Write Reg: 0x0B1 0x04540453 //--> USB/FTDI Write Good/Verified Write Reg: 0x74F 0x00000F00
//--> USB/FTDI Write Good/Verified Write Reg: 0x0B2 0x04560455 //--> USB/FTDI Write Good/Verified … Write Reg: 0x093 0x04180417 //--> USB/FTDI Write Good/Verified Write Reg: 0x7BC 0x00040008 //--> USB/FTDI Write Good/Verified Write Reg: 0x7B0 0x00040008 //--> USB/FTDI Write Good/Verified Write Reg: 0x0A2 0x04360435 //--> USB/FTDI Write Good/Verified … Write Reg: 0x0B5 0x045C045B //--> USB/FTDI Write Good/Verified Write Reg: 0x109 0x000001A0 //--> USB/FTDI Write Good/Verified Write Reg: 0x10A 0x000002E9 //--> USB/FTDI Write Good/Verified … Write Reg: 0x5F1 0x000001A0 //--> USB/FTDI Write Good/Verified Write Reg: 0x5F2 0x000002E9 //--> USB/FTDI Write Good/Verified Write Reg: 0x10B 0x00063000 //--> USB/FTDI Write Good/Verified Write Reg: 0x113 0x00059000 //--> USB/FTDI Write Good/Verified … Write Reg: 0x5F3 0x00023000 //--> USB/FTDI Write Good/Verified Write Reg: 0x10C 0x000A028A //--> USB/FTDI Write Good/Verified … Write Reg: 0x4DC 0x000A028A //--> USB/FTDI Write Good/Verified Write Reg: 0x744 0x065C074E //--> USB/FTDI Write Good/Verified … Write Reg: 0x758 0x0000079C //--> USB/FTDI Write Good/Verified Write Reg: 0x101 0x00178000 //--> USB/FTDI Write Good/Verified
… Write Reg: 0x381 0x00178000 //--> USB/FTDI Write Good/Verified Write Reg: 0x061 0x0013C000 //--> USB/FTDI Write Good/Verified Write Reg: 0x065 0x00114000 //--> USB/FTDI Write Good/Verified Write Reg: 0x069 0x00014000 //--> USB/FTDI Write Good/Verified Write Reg: 0x06D 0x0003C000 //--> USB/FTDI Write Good/Verified Write Reg: 0x7B1 0x00064000 //--> USB/FTDI Write Good/Verified Write Reg: 0x7BD 0x0008C000 //--> USB/FTDI Write Good/Verified Write Reg: 0x041 0x0005B400 //--> USB/FTDI Write Good/Verified Write Reg: 0x108 0x00C00000 //--> USB/FTDI Write Good/Verified … Write Reg: 0x5F0 0x00C00000 //--> USB/FTDI Write Good/Verified Write Reg: 0x100 0x00000001 //--> USB/FTDI Write Good/Verified … Write Reg: 0x5B0 0x00000001 //--> USB/FTDI Write Good/Verified Write Reg: 0x060 0x00000001 //--> USB/FTDI Write Good/Verified … Write Reg: 0x06C 0x00000001 //--> USB/FTDI Write Good/Verified Write Reg: 0x7B2 0x00013823 //--> USB/FTDI Write Good/Verified Write Reg: 0x7BE 0x00013823 //--> USB/FTDI Write Good/Verified Write Reg: 0x040 0x00000000 //--> USB/FTDI Write Good/Verified Write Reg: 0x0D8 0x80000000 //--> USB/FTDI Write Write Reg: 0x042 0x010000FE //--> USB/FTDI Write Good/Verified Write Reg: 0x047 0x00008000
//--> USB/FTDI Write Good/Verified Write Reg: 0x040 0x00000003 //--> USB/FTDI Write Good/Verified Write Reg: 0x001 0x87800000 //--> USB/FTDI Write Good/Verified //Register: Read Modify Write Reg: 0x0D8 data 0x00000000 mask 0x00000020 Read Reg: 0x0D8 0x80001010 //--> USB/FTDI Read Good Write Reg: 0x0D8 0x80001010 //--> USB/FTDI Write // File Loaded: C:\Test\MAX5861EVKIT\ConfigurationLoadFiles\Mix\128SB256and002OB1024_5861_input_630M_192BW_50k_1024c256r_P.txt //VC707: File I/O
VC707 Tab – Load Configuration for 128 Channels: // Loading File Into FPGA : C:\Test\MAX5861EVKIT\FPGAConfigurationFiles\128Sxxx_VC707_SPinput_TS128_PRBS_PCLK633M.txt //VC707: Send Command leds 00000000 //VC707: Return leds 00000000 ACK # //VC707: Send Command si570 set 633.0 //VC707: Return si570 set 633.0 00 42 C4 F6 63 11 ACK # //VC707: Send Command leds 0000000b //VC707: Return leds 0000000b ACK # //VC707: Send Command type set all prbs //VC707: Return type set all prbs ACK # //VC707: Send Command prbs set 1 0 1558 1 off 0 even //VC707: Return prbs set 1 0 1558 1 off 0 even ACK # … //VC707: Send Command prbs set 128 0 2356 1 off 0 even //VC707: Return prbs set 128 0 2356 1 off 0 even ACK # //VC707: Send Command leds 000000b1 //VC707: Return leds 000000b1 ACK # //VC707: Send Command prbs reset all off //VC707: Return prbs reset all off ACK # //VC707: Send Command prbs enable all on //VC707: Return prbs enable all on ACK # //VC707: Send Command leds 00000111 //VC707: Return leds 00000111 ACK # //VC707: Send Command pll reset qam on //VC707: Return pll reset qam on ACK # //VC707: Send Command pll clksel qam clkin1 //VC707: Return pll clksel qam clkin1 ACK # //VC707: Send Command pll reset qam off //VC707: Return pll reset qam off ACK #
//VC707: Send Command pll qam info //VC707: Return pll qam info inclk - ok | fbclk - ok | outclk - locked ACK # //VC707: Send Command oserdes reset adat on //VC707: Return oserdes reset adat on ACK # //VC707: Send Command oserdes reset adat off //VC707: Return oserdes reset adat off ACK # //VC707: Send Command leds 00001111 //VC707: Return leds 00001111 ACK # //VC707: Send Command bank set adat 16 //VC707: Return bank set adat 16 ACK # //VC707: Send Command ready reset on //VC707: Return ready reset on ACK # //VC707: Send Command ready channel 1 //VC707: Return ready channel 1 ACK # //VC707: Send Command delay reset pulse //VC707: Return delay reset pulse ACK # //VC707: Send Command oserdes enable pclk on //VC707: Return oserdes enable pclk on ACK # //VC707: Send Command delay set pclk 7 //VC707: Return delay set pclk 7 ACK # //VC707: Send Command oserdes enable psync on //VC707: Return oserdes enable psync on ACK # //VC707: Send Command leds 00011111 //VC707: Return leds 00011111 ACK # //VC707: Send Command ready bypass on //VC707: Return ready bypass on ACK # //VC707: Send Command ready bypass set 0 FEFEFEFE //VC707: Return ready bypass set 0 FEFEFEFE ACK # //VC707: Send Command ready bypass set 1 FEFEFEFE //VC707: Return ready bypass set 1 FEFEFEFE ACK # //VC707: Send Command ready bypass set 2 FEFEFEFE //VC707: Return ready bypass set 2 FEFEFEFE ACK # //VC707: Send Command ready bypass set 3 FEFEFEFE //VC707: Return ready bypass set 3 FEFEFEFE ACK # //VC707: Send Command ready bypass set 4 FEFEFEFE //VC707: Return ready bypass set 4 FEFEFEFE ACK # //VC707: Send Command ready bypass set 5 00000000 //VC707: Return ready bypass set 5 00000000 ACK # //VC707: Send Command leds 00011111 //VC707: Return leds 00011111 ACK # … //VC707: Send Command leds 00111111 //VC707: Return leds 00111111 ACK #
//VC707: Send Command bank enable adat on //VC707: Return bank enable adat on ACK # //VC707: Send Command oserdes enable adat on //VC707: Return oserdes enable adat on ACK # //VC707: Send Command leds 00011111 //VC707: Return leds 00011111 ACK # … //VC707: Send Command leds 00111111 //VC707: Return leds 00111111 ACK # //VC707: Send Command ready reset off //VC707: Return ready reset off ACK # //VC707: Send Command leds 00111111 //VC707: Return leds 00111111 ACK # … //VC707: Send Command leds 01111111 //VC707: Return leds 01111111 ACK # //VC707: Send Command ready bypass off //VC707: Return ready bypass off ACK # //VC707: Send Command ready bypass set 0 FFFFFFFF //VC707: Return ready bypass set 0 FFFFFFFF ACK # //VC707: Send Command ready bypass set 1 FFFFFFFF //VC707: Return ready bypass set 1 FFFFFFFF ACK # //VC707: Send Command ready bypass set 2 FFFFFFFF //VC707: Return ready bypass set 2 FFFFFFFF ACK # //VC707: Send Command ready bypass set 3 FFFFFFFF //VC707: Return ready bypass set 3 FFFFFFFF ACK # //VC707: Send Command ready bypass set 4 00000000 //VC707: Return ready bypass set 4 00000000 ACK # //VC707: Send Command ready bypass set 5 00000000 //VC707: Return ready bypass set 5 00000000 ACK # //VC707: Send Command leds 11111111 //VC707: Return leds 11111111 ACK # //VC707: Loaded FPGA Configuration File C:\Test\MAX5861EVKIT\FPGAConfigurationFiles\128Sxxx_VC707_SPinput_TS128_PRBS_PCLK633M.txt into the FPGA Successfully
VC707 Tab – Load Memory File for OFDM: //VC707: Load Memory File Into VC707 //VC707: Send Command delay set sdclk 5 //VC707: Return delay set sdclk 5 ACK # // DDR3 Memory File Load Update: Lines Written is -->2048 // DDR3 Memory File Load Update: Lines Written is -->4096 … // DDR3 Memory File Load Update: Lines Written is -->71680
//VC707: Send Command to Read Memory ddr3 read 0 1 //VC707: Read 1 Blocks of DDR3 Memory //VC707: Reading Block #0 of 1 //VC707: Reading Complete - Now Formatting Data //VC707: Bytes From Block 2 : Read 1 Blocks of DDR3 Memory //VC707: 11111100 11111100 11111100 11111100 11111100 11111100 11111100 11111100 00000000 00000000 00000000 00000000 00000000 00000000 00000000 00000000 //VC707: Read From DDR3 Memory: Read 1 Blocks of DDR3 Memory //VC707: DDR3 Read Results Written to File ‘VC707DDR3ReadMemoryResults.txt’ // CRC Verfied Good and All FPGA Communications Returned ACKs //VC707: Loaded DDR3 Memory File C:\Test\MAX5861EVKIT\FPGAConfigurationFiles\VC707Memfile_Fill_50kSpace4kIFFT_BW192M_1024QAM_CP1024RP256_14symb.txt into Memory Successfully //VC707: Send Command ofdm memory 1 0 17920 //VC707: Return ofdm memory 1 0 17920 ACK #
VC707 Tab – Enable SDCLK: //VC707: Send Command leds tt0000tt //VC707: Return leds tt0000tt ACK # //VC707: Enable the SDCLK Output //VC707: Send Command leds 00111111 //VC707: Return leds 00111111 ACK # //VC707: Send Command delay reset pulse //VC707: Return delay reset pulse ACK # //VC707: Send Command oserdes enable pclk on //VC707: Return oserdes enable pclk on ACK # //VC707: Send Command leds 01111111 //VC707: Return leds 01111111 ACK # //VC707: Send Command pll reset ofdm on //VC707: Return pll reset ofdm on ACK # //VC707: Send Command pll clksel ofdm clkin1 //VC707: Return pll clksel ofdm clkin1 ACK # //VC707: Send Command pll reset ofdm off //VC707: Return pll reset ofdm off ACK # //VC707: Send Command pll ofdm info //VC707: Return pll ofdm info inclk - ok | fbclk - ok | outclk - locked ACK # //VC707: Send Command oserdes reset sdclk on //VC707: Return oserdes reset sdclk on ACK # //VC707: Send Command oserdes reset sdclk off //VC707: Return oserdes reset sdclk off ACK #
//VC707: Send Command oserdes enable sdclk on //VC707: Return oserdes enable sdclk on ACK # //VC707: Send Command leds 00000111 //VC707: Return leds 00000111 ACK # //VC707: Send Command leds 00000001 //VC707: Return leds 00000001 ACK # //VC707: Send Command oserdes enable bcsync on //VC707: Return oserdes enable bcsync on ACK # //VC707: Send Command oserdes enable bdat on //VC707: Return oserdes enable bdat on ACK # //VC707: Send Command oserdes enable cdat on //VC707: Return oserdes enable cdat on ACK # //VC707: Send Command leds tt1111tt //VC707: Return leds tt1111tt ACK #
VC707 Tab – Start Memory Flow for OFDM: //VC707: Start OFDM Data Flow from Memory //VC707: Start Memory from Stream 1 //VC707: Send Command ofdm disable //VC707: Return ofdm disable ACK # //VC707: Send Command ofdm enable 1 on //VC707: Return ofdm enable 1 on enable stream: 1 length: 17920 mempos: 0 ACK # //VC707: Send Command leds tbhqqhbt //VC707: Return leds tbhqqhbt ACK #
OFDM Status Tab: //OFDM Status: Get OFDM Channel Status for Channel Number 1 Read Reg: 0x741 0x0000FF00 //--> USB/FTDI Read Good Read Reg: 0x009 0x000003C3 //--> USB/FTDI Read Good // OFDM chan powerdown 0 with result of 1 // OFDM_CFG 0x000003C3 Read Reg: 0x74B 0x00000006 //--> USB/FTDI Read Good Read Reg: 0x74C 0x01EFE080 //--> USB/FTDI Read Good Read Reg: 0x740 0x00029FFE //--> USB/FTDI Read Good Read Reg: 0x7B0 0x00040008 //--> USB/FTDI Read Good Read Reg: 0x7B1 0x00064000 //--> USB/FTDI Read Good Read Reg: 0x041 0x0005B400 //--> USB/FTDI Read Good // Value Signed Mag (3) 409600.000 (4) 373760.000 // NCO Freq Offset in Hz (3) 480000000.000 (4) 438000000.000 Read Reg: 0x7B5 0x1100006F //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x741 data 0x00004000 mask 0x00004000 Read Reg: 0x741 0x0000FF00 //--> USB/FTDI Read Good Write Reg: 0x741 0x0000FF00 //--> USB/FTDI Write Good/Verified Read Reg: 0x7B2 0x00003823 //--> USB/FTDI Read Good
Read Reg: 0x744 0x065C074E //--> USB/FTDI Read Good Read Reg: 0x745 0x0550034E //--> USB/FTDI Read Good Read Reg: 0x746 0x044E0472 //--> USB/FTDI Read Good Read Reg: 0x747 0x00800370 //--> USB/FTDI Read Good Read Reg: 0x748 0x024E0270 //--> USB/FTDI Read Good Read Reg: 0x749 0x014E0170 //--> USB/FTDI Read Good Read Reg: 0x74A 0x0000079C //--> USB/FTDI Read Good
Device Status Tab: //Device Status: I2C Temperature Read Write I2C Address: 78 Command 9 Data 32 //--> USB/FTDI Write Good Write I2C Address: 78 Command 1 Read I2C Data: 93 //--> USB/FTDI Read Good //Device Status: FIFO Status Read Reg: 0x0D9 0x00086F0F //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x0DA data 0x00000000 mask 0xFFFFFFFF Read Reg: 0x0DA 0xFFFFFFFF //--> USB/FTDI Read Good Write Reg: 0x0DA 0x00000000 //--> USB/FTDI Write Good/Verified … //Register: Read Modify Write Reg: 0x0E3 data 0x00000000 mask 0xFFFFFFFF Read Reg: 0x0E3 0x00000000 //--> USB/FTDI Read Good Write Reg: 0x0E3 0x00000000 //--> USB/FTDI Write Good/Verified Read Reg: 0x741 0x0000FF00 //--> USB/FTDI Read Good Read Reg: 0x74F 0x0000FF00 //--> USB/FTDI Read Good Read Reg: 0x75D 0x00020F01 //--> USB/FTDI Read Good Read Reg: 0x76C 0x00020F01 //--> USB/FTDI Read Good Read Reg: 0x77A 0x00020F01 //--> USB/FTDI Read Good Read Reg: 0x788 0x00020F01 //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x741 data 0x00000000 mask 0x00003000 Read Reg: 0x741 0x0000FF00 //--> USB/FTDI Read Good Write Reg: 0x741 0x0000CF00 //--> USB/FTDI Write Good/Verified … //--> USB/FTDI Write Good/Verified //Register: Read Modify Write Reg: 0x788 data 0x00000000 mask 0x00003000 Read Reg: 0x788 0x00020F01 //--> USB/FTDI Read Good Write Reg: 0x788 0x00020F01 //--> USB/FTDI Write Good/Verified //Device Status: Parity Status Read Reg: 0x0D8 0x80001098 //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x0D8 data 0x00000000 mask 0x00000058 Read Reg: 0x0D8 0x80001098 //--> USB/FTDI Read Good Write Reg: 0x0D8 0x80001080
//--> USB/FTDI Write //Device Status: Lock Status Read Reg: 0x0D8 0x80001080 //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x0D8 data 0x00000000 mask 0x00000020 Read Reg: 0x0D8 0x80001080 //--> USB/FTDI Read Good Write Reg: 0x0D8 0x80001080 //--> USB/FTDI Write //Device Status: FIFO Status Read Reg: 0x0D9 0x00086000 //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x0DA data 0x00000000 mask 0xFFFFFFFF Read Reg: 0x0DA 0x00000000 //--> USB/FTDI Read Good Write Reg: 0x0DA 0x00000000 //--> USB/FTDI Write Good/Verified … //--> USB/FTDI Write Good/Verified //Register: Read Modify Write Reg: 0x0E3 data 0x00000000 mask 0xFFFFFFFF Read Reg: 0x0E3 0x00000000 //--> USB/FTDI Read Good Write Reg: 0x0E3 0x00000000 //--> USB/FTDI Write Good/Verified Read Reg: 0x741 0x0000CF00 //--> USB/FTDI Read Good Read Reg: 0x74F 0x0000CF00 //--> USB/FTDI Read Good Read Reg: 0x75D 0x00020F01 //--> USB/FTDI Read Good Read Reg: 0x76C 0x00020F01 //--> USB/FTDI Read Good Read Reg: 0x77A 0x00020F01 //--> USB/FTDI Read Good Read Reg: 0x788 0x00020F01 //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x741 data 0x00000000 mask 0x00003000 Read Reg: 0x741 0x0000CF00 //--> USB/FTDI Read Good Write Reg: 0x741 0x0000CF00 //--> USB/FTDI Write Good/Verified … //Register: Read Modify Write Reg: 0x788 data 0x00000000 mask 0x00003000 Read Reg: 0x788 0x00020F01 //--> USB/FTDI Read Good Write Reg: 0x788 0x00020F01 //--> USB/FTDI Write Good/Verified //Device Status: Parity Status Read Reg: 0x0D8 0x80001080 //--> USB/FTDI Read Good //Register: Read Modify Write Reg: 0x0D8 data 0x00000000 mask 0x00000058 Read Reg: 0x0D8 0x80001080 //--> USB/FTDI Read Good Write Reg: 0x0D8 0x80001080
//--> USB/FTDI Write
<Drawn By>
SHEET: OF 10
MAX5861 EVKIT
03/09/2015
A
1
REVISION RECORD
APPROVED:
ECO NO:
LTR
REV:
DATE:
1
TITLE:
2
3
4
5
6
D
C
B
A
C
D
B
A
PCB PART NUMBER:
DATED:
DRAWN:
<REVISED BY:>
REVISED BY:
DUT CONNECTIONS
L9
390nH
C103
0.1uF
C105
1uF
C106
1uF
C104
0.1uF
L10
390nH
1
3
4
6
T5
L17
1.3nH
C466
6.8pF
C107
1uF
R214
499
1%
R213
2.0k
1%
JU24
JU25
P5
RDYAN
N5
RDYAP
M5
BN2
M6
BN3
L5
BP2
L6
BP3
N7
SA3
M7
BN4
P3
RDYCLKN
P4
RDYSYNCN
N3
RDYCLKP
N4
RDYSYNCP
M3
BN0
M4
BN1
L3
BP0
L4
BP1
K6
BN5
H4
BN6
D5
AN3
D6
AN4
C5
AP3
C6
AP4
B5
AN7
B6
AN8
A5
AP7
A6
AP8
B7
AN9
A7
AP9
E3
PSYNCP
E4
AP0
D3
AN1
D4
AN2
C3
AP1
C4
AP2
B3
AN5
B4
AN6
A3
AP5
A4
AP6
K4
BN7
J6
BP5
G3
PCLKP
G4
BP6
J4
BP7
H3
PCLKN
F4
AN0
F3
PSYNCN
P11
RSETIO
N11
GNDS
G21
ON
G22
ON
H21
OP
H22
OP
A18
CLKP
A19
CLKN
P15
DATACLKP
P14
DATACLKN
E5
VALIDAP
E6
PARAP
F5
VALIDAN
F6
PARAN
F8
VDD18I
E1
PARBP
G8
VDD18BI
F1
PARBN
H8
VDD18I
J5
BP8
K5
BN8
K11
RSETII
K12
VDD09S
L7
BP4
N14
TESTCLKN
N15
TESTCLKP
N19
REFIO
P20
CREF
P19
DACREF
N20
FSADJ
N22
REFRES
M18
SE
N18
TEST
M19
PERR
P13
GND
N21
GND
N16
GND
N13
GND
N12
GND
M22
GND
M21
GND
M17
GND
M16
GND
M15
GND
M13
GND
M12
GND
M11
GND
M10
GND
M9
GND
M8
GND
L15
GND
L13
GND
L12
GND
L11
GND
L10
GND
L9
GND
L8
GND
K22
GND
K21
GND
K20
GND
K19
GND
K18
GND
K17
GND
K16
GND
K15
GND
K13
GND
J19
GND
J18
GND
J17
GND
J16
GND
J15
GND
J7
GND
G12
VDD18BO
H13
VDD18O
G13
VDD18O
F13
VDD18O
H7
VDD18
G7
VDD18
F7
VDD18
M14
VDD09
L14
VDD09
K14
VDD09
K10
VDD09
K9
VDD09
K8
VDD09
J14
VDD09
J13
VDD09
J12
VDD09
J11
VDD09
J10
VDD09
J9
VDD09
J8
VDD09
H14
VDD09
G15
VDD09
G14
VDD09
F14
VDD09
E14
VDD09
E13
VDD09
E12
VDD09
E11
VDD09
E10
VDD09
E9
VDD09
E8
VDD09
D14
VDD09
D13
VDD09
D12
VDD09
D11
VDD09
C14
VDD09
C13
VDD09
B14
VDD09
B13
VDD09
A14
VDD09
A13
VDD09
P22
AVDD3
J22
AVDD3
J21
AVDD3
J20
AVDD3
H20
AVDD3
G20
AVDD3
F22
AVDD3
F21
AVDD3
F20
AVDD3
L22
AVDD18
L21
AVDD18
L20
AVDD18
L19
AVDD18
L18
AVDD18
L17
AVDD18
D22
AVDD18
D21
AVDD18
D20
AVDD18
D19
AVDD18
B20
AVCLK
B19
AVCLK
B18
AVCLK
B17
AVCLK
A20
AVCLK
A17
AVCLK
H19
GND
H18
GND
H17
GND
H16
GND
H15
GND
H12
GND
H11
GND
H10
GND
H9
GND
G19
GND
G18
GND
G17
GND
G16
GND
G11
GND
G10
GND
G9
GND
F19
GND
F18
GND
F17
GND
F16
GND
F15
GND
F12
GND
F11
GND
F10
GND
F9
GND
E22
GND
E21
GND
E20
GND
E19
GND
E18
GND
E17
GND
E16
GND
E15
GND
D18
GND
D17
GND
D16
GND
D15
GND
D10
GND
C22
GND
C21
GND
C20
GND
C19
GND
C18
GND
C17
GND
C16
GND
C15
GND
C12
GND
C11
GND
C10
GND
B22
GND
B21
GND
B16
GND
B15
GND
B12
GND
B11
GND
B10
GND
A22
GND
A21
GND
A16
GND
A15
GND
A12
GND
A11
GND
A10
GND
E7
TEST_N
C8
RST_N
B9
MODE2
A8
OTP
C7
MODE
C9
DTOP
B8
TDA
D8
INTR_N
A9
TDC
N9
SA2
P10
SA1
D9
DTON
P9
SA0
N8
SDO
P8
SS_N
N10
SDI
P7
SCLK
P16
GND
P18
GND
P21
GND
L16
GND
B2
CN0
E2
CP3
H1
CN4
F2
CN3
D2
CN2
D1
CN1
C2
CP2
C1
CP1
A2
CP0
G1
CP4
H2
CN5
G2
CP5
K2
CN6
J2
CP6
N2
SYNC1P
P2
SYNC1N
L2
CP8
M2
CN8
L1
CP7
M1
CN7
P6
SYNC2N
N6
SYNC2P
G5
SYNC3P
H5
SYNC3N
K1
SYNC5N
J1
SYNC5P
G6
SYNC4P
H6
SYNC4N
N1
SYNC6P
P1
SYNC6N
K7
CFG1
P12
CFG2
P17
CFG3
M20
CFG4
B1
REFCLKN
A1
REFCLKP
J3
SDCLKP
K3
SDCLKN
N17
LOCK
D7
PERRI
U23
MAX5861
1
2
JU4
VDD09
VDD18
AVCLK
AVDD18
AVDD3
C108
1uF
C111
OPEN
C112
0.1uF
1
2
JU12
C110
OPEN
C109
OPEN
REFIOA
1
N.C.
2
IN
3
N.C.
4
GND
5
N.C.
7
N.C.
6
OUT
8
N.C.
U11
MAX6161
GND
C113
0.1uF
1
2
3
JU6
1
3
4
6
T6
2
1
OUT
AVDD3
AVDD3
AVDD3
AVDD3
DATACLKP
DATACLKN
AVDD3
DACREF
CREF
FSADJ
0.9V_GNDSENSE
0.9V_VDDSENSE
AVCLK
AVDD18
AVDD3
VDD09
VDD18
SA3
SA2
SA1
SA0
DATACLKP
DATACLKN
CREF
DACREF
FSADJ
SCLK
SDI
SDO
TDA
VDD18
CLKP_I
CLKN_I
CSA
DTON
DTOP
INTR_N
MODE2
RST_N
AN0
AP0
AN1
AP1
AN2
AP2
AN3
AP3
AN4
AP4
AN5
AP5
AN6
AP6
AN7
AP7
AN8
AP8
AN9
AP9
BN0
BP0
BN1
BP1
BN2
BP2
BN3
BP3
BN4
BP4
BN5
BP5
BN6
BP6
BN7
BP7
BN8
BP8
CN0
CP0
CN1
CP1
CN2
CP2
CN3
CP3
CN4
CP4
CN5
CP5
CN6
CP6
CN7
CP7
CN8
CP8
SYNC1N
SYNC1P
SYNC2N
SYNC2P
SYNC3N
SYNC3P
SYNC4N
SYNC4P
SYNC5N
SYNC5P
SYNC6N
SYNC6P
VALIDAN
VALIDAP
PSYNCN
PSYNCP
PCLKN
PCLKP
RDYAN
RDYAP
RDYSYNCN
RDYSYNCP
RDYCLKN
RDYCLKP
PARAN
PARAP
PARBN
PARBP
PERR
REFCLKN
SDCLKP
SDCLKN
PERRI
LOCK
CFG1
CFG2
CFG3
CFG4
SE
REFCLKP
VDD09
VDD18
AVCLK
AVDD18
AVDD3
AVDD3
U11-6
REFIO
REFIO
DACREF
SHEET: OF 10
MAX5861 EVKIT
03/09/2015
2
<Drawn By>
DRAWN:
DATED:
A
PCB PART NUMBER:
A
B
D
C
A
B
C
D
6
5
4
3
2
TITLE:
1
DATE:
REV:
LTR
ECO NO:
APPROVED:
REVISION RECORD
EP
EP
POWER CIRCUIT
<REVISED BY:>
REVISED BY:
C85
0.22uF
L6
4.7uH
C84
0.1uF
C80
0.22uF
L5
10uH
C82
0.1uF
C14
10uF
C79
10uF
R157
1%
33.2k
R161
1%
10k
C75
3300pF
C77
33pF
C76
2200pF
R160
1%
3.01k
R159
1%
9.53k
R158
1%
143
R156
1%
8.06k
C74
1uF
R154
1%
10k
R155
1%
33.2k
C73
2200pF
C72
33pF
C71
2200pF
R10
1%
16.9k
R9
1%
8.45k
R8
1%
143
R165
OPEN
C86
OPEN
C81
OPEN
R162
OPEN
4
2
7
6
5
8
1
3
N2
2
1
8
7
N3-A
4
3
6
5
N3-B
4
2
7
6
5
8
1
3
N1
2
EN1
15
PGOOD2
3
EN2
4
PGOOD1
9
DH1
8
BST1
7
LX1
5
DL1
6
PGND1
14
DL2
12
LX2
11
BST2
10
DH2
13
PGND2
16
VCC
17
FB2
18
COMP2
19
RT
20
SGND
21
IN
22
LIM2
23
LIM1
24
COMP1
1
FB1
U8
MAX15023
C88
10uF
+
C87
470uF
6.3V
C78
4.7uF
R167
10
R166
10
5.0V_IN
GND
+
C24
150uF
10V
2
IN
3
IN
4
IN
5
IN
7
SHDN
6
RST
10
GND
15
OUT
14
OUT
13
OUT
12
OUT
11
SET
16
N.C.
9
N.C.
8
N.C.
1
N.C.
U9
MAX1793
C91
4.7uF
R163
OPEN
R164
0
C90
6.8uF
R1
0
+
C83
470uF
6.3V
R2
0
U8_PG2
U8_PG1
1
2
3
JU26
DIGITAL18
GND
R4
10
R5
10
R21
0
R22
0
FB7
0.001
VIN
0.9V_OUT
VIN
2.5V_OUT
VIN
2.5V_OUT
0.9V_OUT
VCC
VCC
VIN
2.5V_OUT
1.8V_OUT
DIGITAL_18
0.9V_VDDSENSE
0.9V_GNDSENSE
SHEET: OF 10
MAX5861 EVKIT
03/09/2015
3
<Drawn By>
REVISION RECORD
APPROVED:
ECO NO:
LTR
REV:
DATE:
1
TITLE:
2
3
4
5
6
D
C
B
A
C
D
B
A
PCB PART NUMBER:
A
DATED:
DRAWN:
EP
EP
EP
DAC POWER CIRCUIT
<REVISED BY:>
REVISED BY:
FOR EACH SUPPLY:
Place a 0201 cap between each power and ground via under U23
The remaining decoupling caps in this section should be placed near U23
AVCLK 1.85V
1
IN
3
EN
4
SELA
2
GND
5
SELB
6
OUTS
7
BYP
8
OUT
U15
MAX8902A
C162
10uF
R215
OPEN
R11
0
R216
OPEN
R212
0
C163
0.01uF
C164
10uF
2
IN
3
IN
4
IN
5
IN
7
SHDN
6
RST
10
GND
15
OUT
14
OUT
13
OUT
12
OUT
11
SET
16
N.C.
9
N.C.
8
N.C.
1
N.C.
U13
MAX1793
C165
4.7uF
R218
1%
133k
R219
1%
80.6k
C167
6.8uF
2
IN
3
IN
4
IN
5
IN
7
SHDN
6
RST
10
GND
15
OUT
14
OUT
13
OUT
12
OUT
11
SET
16
N.C.
9
N.C.
8
N.C.
1
N.C.
U14
MAX1793
C166
4.7uF
R217
1%
4.7k
R220
1%
10k
C168
6.8uF
1
2
3
JU2
1
2
3
JU3
1
2
3
JU10
ANALOG18
+
C114
47uF
16V
C117
10uF
C124
1uF
C135
0.1uF
C132
0.1uF
C133
0.1uF
C134
0.1uF
C118
10uF
C121
10uF
C128
1uF
C138
0.1uF
C137
0.1uF
C136
0.1uF
C120
10uF
C129
1uF
C144
0.1uF
C143
0.1uF
C142
0.1uF
C141
0.1uF
C125
1uF
C119
10uF
+
C115
47uF
16V
C145
0.1uF
GND
+
C116
47uF
16V
C122
10uF
C126
1uF
C146
0.1uF
C140
0.1uF
C139
0.1uF
C147
0.1uF
C131
1uF
C123
10uF
C130
1uF
L11
L12
L13
C157
0.1uF
C156
0.1uF
C155
0.1uF
C160
0.1uF
C159
0.1uF
C158
0.1uF
C153
0.1uF
C154
0.1uF
C178
0.1uF
C179
0.1uF
ANALOG33
ANALOGCLK
AVDD18_IN
VIN
VIN
AVDD33_IN
VIN
AVCLK_IN
AVDD3
AVDD18
AVDD18
AVCLK
AVDD33_IN
AVDD18_IN
AVCLK_IN
SHEET: OF 10
MAX5861 EVKIT
A
03/09/2015
<Drawn By>
4
DRAWN:
DATED:
PCB PART NUMBER:
A
B
D
C
A
B
C
D
6
5
4
3
2
TITLE:
1
DATE:
REV:
LTR
ECO NO:
APPROVED:
REVISION RECORD
RESET/TEMP SENSE
GND
GND
GND
GND
GND
GND
GND
GND
11 = address 1001 110
<REVISED BY:>
REVISED BY:
JU23
FOR EACH SUPPLY:
Place a 0201 cap between each power and ground via under U23
The remaining decoupling caps in this section should be placed near U23
JU5
JU23-1
JU23-2
JU23-3
JU23-4
JU23-5
JU23-6
JU23-7
JU23-8
JU23-9
JU23-10
JU23-11
JU23-12
JU23-13
JU23-14
JU23-15
3
MR
2
RST
4
VCC
1
GND
U5
MAX811
3
MR
2
RST
4
VCC
1
GND
U6
MAX812
1
3
RSTN
1
3
MODE2
C5
0.1uF
C6
0.1uF
R7
47
C66
0.1uF
C67
2200pF
TDA
TDC
R24
499
1%
R141
10k
R142
10k
D1
3
DXP
7
GND
8
GND
11
ALERT
14
SMBCLK
12
SMBDATA
2
VCC
4
DXN
15
STBY
10
ADD0
6
ADD1
1
N.C.
5
N.C.
9
N.C.
13
N.C.
16
N.C.
U4
MAX6654
+
C19
47uF
16V
C25
10uF
C35
1uF
C59
0.22uF
C60
0.22uF
C61
0.22uF
C62
0.22uF
C36
1uF
C26
10uF
C58
0.22uF
C57
0.22uF
C56
0.22uF
C29
10uF
C40
1uF
C51
0.1uF
C50
0.1uF
C49
0.1uF
C39
1uF
C28
10uF
+
C20
47uF
16V
C55
0.22uF
+
C21
47uF
16V
C30
10uF
C41
1uF
C47
0.1uF
C48
0.1uF
C42
1uF
C31
10uF
L1
L2
C43
1uF
C32
10uF
+
C22
47uF
16V
C65
0.22uF
C64
0.22uF
C63
0.22uF
C52
0.22uF
C53
0.22uF
C54
0.22uF
C46
0.1uF
DIGITAL09
GND
R17
0
L8
C92
0.47uF
C93
0.47uF
C176
0.1uF
C175
0.1uF
C177
0.1uF
C7
0.22uF
C12
0.22uF
C13
0.22uF
C15
0.22uF
C16
0.22uF
C17
0.22uF
C18
0.22uF
C23
0.22uF
C27
0.22uF
C33
0.22uF
C34
0.22uF
C37
0.22uF
C38
0.22uF
C44
0.22uF
C45
0.22uF
C68
0.22uF
C69
0.22uF
C70
0.22uF
C101
0.22uF
C102
0.1uF
JU5-1
JU5-2
JU5-3
JU5-4
JU5-5
JU5-6
JU5-7
JU5-8
JU5-9
JU5-10
JU5-11
JU5-12
JU5-13
JU5-14
JU5-15
R6
1k
R41
1k
3
MR
2
RST
4
VCC
1
GND
U16
MAX812
1
3
SE
C96
0.1uF
R42
1k
VDD18
SA3
SA2
SA1
SA0
+3.3V
+3.3V
+3.3V
+3.3V
USB_SCL
USB_SDA
U4_VCC
U4_VCC
TDA
RST
MODE_2_LV
VDD09
0.9V_OUT
1.8V_OUT
VDD18
VDD18
VDD18
VDD09
VDD09
VDD18
CFG1
CFG2
CFG3
CFG4
USB_MODE2
USB_RSTN
+3.3V
SE_33
USB_SE
SHEET: OF 10
MAX5861 EVKIT
<Drawn By>
REVISION RECORD
APPROVED:
ECO NO:
LTR
REV:
DATE:
1
TITLE:
2
3
4
5
6
D
C
B
A
C
D
B
A
PCB PART NUMBER:
A
DATED:
03/09/2015
DRAWN:
5
LEVEL TRANSLATION
<REVISED BY:>
REVISED BY:
JU7
2-3 POPULATED 0 ohm RESISTOR
C1
0.1uF
C2
0.1uF
1
DIR1
2
DIR2
3
A1
4
A2
5
A3
6
A4
7
DIR3
8
DIR4
9
OE
10
GND
11
B4
12
B3
13
B2
14
B1
15
VCCB
16
VCCA
U3
SN74AVC4T774
R145
10k
R144
10k
R147
10k
R143
10k
R75
10k
R76
10k
JU7-1
JU7-2
JU7-3
JU7-4
JU7-5
JU7-6
JU7-7
JU7-8
JU7-9
JU7-10
JU7-11
JU7-12
JU7-13
JU7-14
JU7-15
R77
10k
1
DIR1
2
DIR2
3
A1
4
A2
5
A3
6
A4
7
DIR3
8
DIR4
9
OE
10
GND
11
B4
12
B3
13
B2
14
B1
15
VCCB
16
VCCA
U12
SN74AVC4T774
1
DIR1
2
DIR2
3
A1
4
A2
5
A3
6
A4
7
DIR3
8
DIR4
9
OE
10
GND
11
B4
12
B3
13
B2
14
B1
15
VCCB
16
VCCA
U21
SN74AVC4T774
PERR
LOCK
R28
10k
R25
10k
R26
10k
PERRI
C3
0.1uF
1
DIR1
2
DIR2
3
A1
4
A2
5
A3
6
A4
7
DIR3
8
DIR4
9
OE
10
GND
11
B4
12
B3
13
B2
14
B1
15
VCCB
16
VCCA
U2
SN74AVC4T774
C4
0.1uF
1
2
3
JU11
1
2
3
JU22
R13
10k
R14
10k
1
DIR1
2
DIR2
3
A1
4
A2
5
A3
6
A4
7
DIR3
8
DIR4
9
OE
10
GND
11
B4
12
B3
13
B2
14
B1
15
VCCB
16
VCCA
U17
SN74AVC4T774
R43
10k
R44
10k
R45
10k
R27
10k
R46
10k
1
3
2
R209
0
INTR_N
OPEN
RST_N
VADJ_FORCE_S
OPEN
USB_SCLK
USB_SDI
USB_CSA
SCLK_IN
SDI_IN
SDO_IN
SS_NNA
USB_SDO
VDD18
VDD18
+3.3V
+3.3V
+3.3V
VDD18
SCLK_IN
SDI_IN
SDO_IN
SS_NNA
SCLK
SDI
SDO
SCLK_FPGA
SDI_FPGA
SDO_FPGA
CSA_FPGA
VDD18
VDD18
INTR_N_FMC
MODE2_FPGA_FMC
LEV_TRANS_V
RST_N_FPGA_FMC
RST_N_FPGA
INTR_N
MODE_2_FPGA
VDD18
LOCK_FPGA_FMC
LEV_TRANS_V
PERR_FPGA_FMC
PERR
LOCK
VDD18
VDD18
LEV_TRANS_V
LEV_TRANS_V
LEV_TRANS_V
VDD18
CSA
PERRI_FPGA_FMC
PERRI
VDD18
MODE_2_LV
RST
+3.3V
RST_N_FPGA
MODE_2_FPGA
VDD18
SE_33
SE
MODE2
RST_N
VDD18
SDO_FPGA_FMC
CSA_FPGA_FMC
LEV_TRANS_V
SDI_FPGA_FMC
SDI_FPGA
SDO_FPGA
CSA_FPGA
LEV_TRANS_V
LEV_TRANS_V
LEV_TRANS_V
SCLK_FPGA_FMC
SCLK_FPGA
VDD18
VDD18
VDD18
VDD18
VADJ_FORCE_SENSE
SHEET: OF 10
MAX5861 EVKIT
6
03/09/2015
<Drawn By>
REVISION RECORD
APPROVED:
ECO NO:
LTR
REV:
DATE:
1
TITLE:
2
3
4
5
6
D
C
B
A
C
D
B
A
PCB PART NUMBER:
A
DATED:
DRAWN:
USB INTERFACE CIRCUIT
<REVISED BY:>
REVISED BY:
EP
EP
J2
J3
OPEN
OPEN
C213
10uF
1
IN
3
SHDN
2
GND
5
OUT
4
N.C.
U205
MAX8511EXK25-T
C214
1uF
TP5V
TP25V
50
VREGIN
49
VREGOUT
7
DM
8
DP
6
REF
14
RESET#
63
EECS
62
EECLK
61
EEDATA
2
OSCI
3
OSCO
13
TEST
16
ADBUS0
17
ADBUS1
18
ADBUS2
19
ADBUS3
21
ADBUS4
22
ADBUS5
23
ADBUS6
24
ADBUS7
60
PWREN#
56
VCCIO
42
VCCIO
31
VCCIO
20
VCCIO
64
VCORE
37
VCORE
12
VCORE
9
VPLL
4
VPHY
51
GND
47
GND
35
GND
25
GND
15
GND
11
GND
5
GND
1
GND
10
AGND
34
BDBUS7
33
BDBUS6
32
BDBUS5
30
BDBUS4
29
BDBUS3
28
BDBUS2
27
BDBUS1
26
BDBUS0
46
CDBUS7
45
CDBUS6
44
CDBUS5
43
CDBUS4
41
CDBUS3
40
CDBUS2
39
CDBUS1
38
CDBUS0
48
DDBUS0
52
DDBUS1
53
DDBUS2
54
DDBUS3
55
DDBUS4
57
DDBUS5
58
DDBUS6
59
DDBUS7
36
SUSPENDED#
U7
FT4232H
R3
12k
R12
1k
4
VCC
3
OUT
1
DN
2
GND
Y1
12MHz
C9
8pF
C10
8pF
1
VBUS
2
D-
3
D+
4
GND
8
SHIELD
9
SHIELD
7
SHIELD
5
GND
6
SHIELD
USB23
C11
3.3uF
5
GND
1
CS
3
D
2
SCL
8
VCC
6
ORG
4
Q
7
DU
U27
IC93LC56BT-E_OT
R23
2.2k
C89
100nF
C95
4.7uF
L16
R15
0
R16
0
R18
0
R19
0
R20
0
R29
0
R30
0
R32
0
R31
0
R33
0
R34
0
R35
0
R36
0
R37
0
R38
0
R39
0
R40
0
R48
OPEN
R49
0
R47
10k
2
IN
3
IN
4
IN
5
IN
7
SHDN
6
RST
10
GND
15
OUT
14
OUT
13
OUT
12
OUT
11
SET
16
N.C.
9
N.C.
8
N.C.
1
N.C.
U204
MAX1793
C97
4.7uF
R62
1%
133k
R63
1%
80.6k
C98
6.8uF
TP33V
R202
0
R203
0
R204
0
C204
100nF
C203
4.7uF
L3
C202
10uF
1
IN
3
SHDN
2
GND
5
OUT
4
N.C.
U206
MAX8511EXK33+
C201
1uF
TPUSB3V
C208
0.1uF
C205
0.1uF
C206
0.1uF
C207
0.1uF
C209
0.1uF
C210
0.1uF
C211
0.1uF
J2-1
J2-2
J2-3
J2-4
J2-5
J2-6
J2-7
J2-8
J2-9
J2-10
J2-11
J2-12
J2-13
J2-14
J2-15
J2-16
J2-17
J2-18
J2-19
J2-20
J2-21
J2-22
J2-23
J2-24
J2-25
J2-26
J3-1
J3-2
J3-3
J3-4
J3-5
J3-6
J3-7
J3-8
J3-9
J3-10
J3-11
J3-12
J3-13
J3-14
J3-15
J3-16
J3-17
J3-18
J3-19
J3-20
J3-21
J3-22
J3-23
J3-24
J3-25
J3-26
R205
0
R206
OPEN
R207
0
R208
OPEN
R200
10k
R201
10k
USB1V8
OPEN
+2.5V
VIN
USB1V8
USB3V
USB3V
USB1V8
USB3V
USB3V
USB_SCLK
USB_SDI
USB_SDO
USB_CSA
USB_CSB
USB_CSC
USB_CSD
USB_SDA
USB_SCL
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
USB_SE
USB_RSTN
USB_MODE2
USB3V
VIN
+3.3V
USB5V
USB3V
USB3V
USB3V
USB3V
USB5V
USB3V
USB1V8
USB_SDI
USB_SCLK
USB_SDO
USB_CSA
USB_CSB
USB_CSD
USB_SCL
USB_SDA
+3.3V
USB_CSC
USB_SDA
USB_MODE2
USB_SE
GPIO6
GPIO4
GPIO3
GPIO1
VIN
USB_RSTN
GPIO7
GPIO5
GPIO2
GPIO0
SHEET: OF 10
MAX5861 EVKIT
7
DRAWN:
03/09/2015
DATED:
A
PCB PART NUMBER:
A
B
D
C
A
B
C
D
6
5
4
3
2
TITLE:
1
DATE:
REV:
LTR
ECO NO:
APPROVED:
REVISION RECORD
<Drawn By>
<REVISED BY:>
REVISED BY:
FMC
J1-A
J1-B
J1-C
J1-D
J1-E
J1-F
J1-A1
J1-A2
J1-A3
J1-A4
J1-A5
J1-A6
J1-A7
J1-A8
J1-A9
J1-A10
J1-A11
J1-A12
J1-A13
J1-A14
J1-A15
J1-A16
J1-A17
J1-A18
J1-A19
J1-A20
J1-A21
J1-A22
J1-A23
J1-A24
J1-A25
J1-A26
J1-A27
J1-A28
J1-A29
J1-A30
J1-A31
J1-A32
J1-A33
J1-A34
J1-A35
J1-A36
J1-A37
J1-A38
J1-A39
J1-A40
J1-B1
J1-B2
J1-B3
J1-B4
J1-B5
J1-B6
J1-B7
J1-B8
J1-B9
J1-B10
J1-B11
J1-B12
J1-B13
J1-B14
J1-B15
J1-B16
J1-B17
J1-B18
J1-B19
J1-B20
J1-B21
J1-B22
J1-B23
J1-B24
J1-B25
J1-B26
J1-B27
J1-B28
J1-B29
J1-B30
J1-B31
J1-B32
J1-B33
J1-B34
J1-B35
J1-B36
J1-B37
J1-B38
J1-B39
J1-B40
J1-C1
J1-C2
J1-C3
J1-C4
J1-C5
J1-C6
J1-C7
J1-C8
J1-C9
J1-C10
J1-C11
J1-C12
J1-C13
J1-C14
J1-C15
J1-C16
J1-C17
J1-C18
J1-C19
J1-C20
J1-C21
J1-C22
J1-C23
J1-C24
J1-C25
J1-C26
J1-C27
J1-C28
J1-C29
J1-C30
J1-C31
J1-C32
J1-C33
J1-C34
J1-C35
J1-C36
J1-C37
J1-C38
J1-C39
J1-C40
J1-D1
J1-D2
J1-D3
J1-D4
J1-D5
J1-D6
J1-D7
J1-D8
J1-D9
J1-D10
J1-D11
J1-D12
J1-D13
J1-D14
J1-D15
J1-D16
J1-D17
J1-D18
J1-D19
J1-D20
J1-D21
J1-D22
J1-D23
J1-D24
J1-D25
J1-D26
J1-D27
J1-D28
J1-D29
J1-D30
J1-D31
J1-D32
J1-D33
J1-D34
J1-D35
J1-D36
J1-D37
J1-D38
J1-D39
J1-D40
J1-E1
J1-E2
J1-E3
J1-E4
J1-E5
J1-E6
J1-E7
J1-E8
J1-E9
J1-E10
J1-E11
J1-E12
J1-E13
J1-E14
J1-E15
J1-E16
J1-E17
J1-E18
J1-E19
J1-E20
J1-E21
J1-E22
J1-E23
J1-E24
J1-E25
J1-E26
J1-E27
J1-E28
J1-E29
J1-E30
J1-E31
J1-E32
J1-E33
J1-E34
J1-E35
J1-E36
J1-E37
J1-E38
J1-E39
J1-E40
J1-F1
J1-F2
J1-F3
J1-F4
J1-F5
J1-F6
J1-F7
J1-F8
J1-F9
J1-F10
J1-F11
J1-F12
J1-F13
J1-F14
J1-F15
J1-F16
J1-F17
J1-F18
J1-F19
J1-F20
J1-F21
J1-F22
J1-F23
J1-F24
J1-F25
J1-F26
J1-F27
J1-F28
J1-F29
J1-F30
J1-F31
J1-F32
J1-F33
J1-F34
J1-F35
J1-F36
J1-F37
J1-F38
J1-F39
J1-F40
AP3
AN3
AP6
AN6
AP2
AN2
BP2
BN2
BP1
BN1
BP7
BN7
BP6
BN6
SYNC3P
SYNC3N
CLKP_FPGA
CLKN_FPGA
CP5
CN5
CP7
CN7
SYNC5P
SYNC5N
SYNC4P
SYNC4N
CP8
CN8
CP6
CN6
CP3
CN3
INTR_N_FMC
PERR_FPGA_FMC
PERRI_FPGA_FMC
LOCK_FPGA_FMC
VADJ_FORCE_SENSE
BP4
BN4
SYNC6P
SYNC6N
DTOP
DTON
RST_N_FPGA_FMC
MODE2_FPGA_FMC
SDI_FPGA_FMC
SDO_FPGA_FMC
CSA_FPGA_FMC
SCLK_FPGA_FMC
SHEET: OF 10
MAX5861 EVKIT
<Drawn By>
REVISION RECORD
APPROVED:
ECO NO:
LTR
REV:
DATE:
1
TITLE:
2
3
4
5
6
D
C
B
A
C
D
B
A
PCB PART NUMBER:
A
DATED:
03/09/2015
DRAWN:
8
<REVISED BY:>
REVISED BY:
FMC
J1-G
J1-H
J1-J
J1-K
J1-G1
J1-G2
J1-G3
J1-G4
J1-G5
J1-G6
J1-G7
J1-G8
J1-G9
J1-G10
J1-G11
J1-G12
J1-G13
J1-G14
J1-G15
J1-G16
J1-G17
J1-G18
J1-G19
J1-G20
J1-G21
J1-G22
J1-G23
J1-G24
J1-G25
J1-G26
J1-G27
J1-G28
J1-G29
J1-G30
J1-G31
J1-G32
J1-G33
J1-G34
J1-G35
J1-G36
J1-G37
J1-G38
J1-G39
J1-G40
J1-H1
J1-H2
J1-H3
J1-H4
J1-H5
J1-H6
J1-H7
J1-H8
J1-H9
J1-H10
J1-H11
J1-H12
J1-H13
J1-H14
J1-H15
J1-H16
J1-H17
J1-H18
J1-H19
J1-H20
J1-H21
J1-H22
J1-H23
J1-H24
J1-H25
J1-H26
J1-H27
J1-H28
J1-H29
J1-H30
J1-H31
J1-H32
J1-H33
J1-H34
J1-H35
J1-H36
J1-H37
J1-H38
J1-H39
J1-H40
J1-J1
J1-J2
J1-J3
J1-J4
J1-J5
J1-J6
J1-J7
J1-J8
J1-J9
J1-J10
J1-J11
J1-J12
J1-J13
J1-J14
J1-J15
J1-J16
J1-J17
J1-J18
J1-J19
J1-J20
J1-J21
J1-J22
J1-J23
J1-J24
J1-J25
J1-J26
J1-J27
J1-J28
J1-J29
J1-J30
J1-J31
J1-J32
J1-J33
J1-J34
J1-J35
J1-J36
J1-J37
J1-J38
J1-J39
J1-J40
J1-K1
J1-K2
J1-K3
J1-K4
J1-K5
J1-K6
J1-K7
J1-K8
J1-K9
J1-K10
J1-K11
J1-K12
J1-K13
J1-K14
J1-K15
J1-K16
J1-K17
J1-K18
J1-K19
J1-K20
J1-K21
J1-K22
J1-K23
J1-K24
J1-K25
J1-K26
J1-K27
J1-K28
J1-K29
J1-K30
J1-K31
J1-K32
J1-K33
J1-K34
J1-K35
J1-K36
J1-K37
J1-K38
J1-K39
J1-K40
AP0
AN0
AP5
AN5
AP4
AN4
AP7
AN7
PCLKP
PCLKN
AP8
AN8
VALIDAP
VALIDAN
AP1
AN1
PARAP
PARAN
PSYNCP
PSYNCN
RDYAP_BUFF
RDYAN_BUFF
RDYSYNCP_BUFF
RDYSYNCN_BUFF
RDYCLKP_BUFF
RDYCLKN_BUFF
BP3
BN3
BP8
BN8
BP0
BN0
SYNC1P
SYNC1N
PARBP
PARBN
REFCLKP
REFCLKN
SDCLKP
SDCLKN
CP0
CN0
CP4
CN4
CP1
CN1
CP2
CN2
VADJ_FORCE_SENSE
AP9
AN9
SYNC2P
SYNC2N
BP5
BN5
SHEET: OF 10
MAX5861 EVKIT
<Drawn By>
REVISION RECORD
APPROVED:
ECO NO:
LTR
REV:
DATE:
1
TITLE:
2
3
4
5
6
D
C
B
A
C
D
B
A
PCB PART NUMBER:
A
DATED:
03/09/2015
DRAWN:
9
<REVISED BY:>
REVISED BY:
FMC
ALL BYPASS RESISTORS ARE LOCATED UNDER THE BUFFER FOOTPRINT
AND SHARE COMMON PINS FROM INPUT TO OUTPUT
ALL BYPASS RESISTORS ARE LOCATED UNDER THE BUFFER FOOTPRINT
AND SHARE COMMON PINS FROM INPUT TO OUTPUT
ALL BYPASS RESISTORS ARE LOCATED UNDER THE BUFFER FOOTPRINT
AND SHARE COMMON PINS FROM INPUT TO OUTPUT
A
B
Jumper position
open --- > SSTL1.2V 600mV
A --- > SSTL1.5V 750mV
B --- > LVDS 1.25V
1
N.C.
2
A
3
B
4
N.C.
8
VCC
7
Y
6
Z
5
GND
U28
ICSN65LVDT100DGK
1
N.C.
2
A
3
B
4
N.C.
8
VCC
7
Y
6
Z
5
GND
U1
ICSN65LVDT100DGK
1
N.C.
2
A
3
B
4
N.C.
8
VCC
7
Y
6
Z
5
GND
U10
ICSN65LVDT100DGK
R50
0
R51
0
R52
0
R53
0
R54
0
R55
0
R56
0
R57
0
R58
0
R59
0
R60
0
R61
0
1
3
4
6
T4
OPEN
REF_CLKOUT
OPEN
R64
10k
R65
10k
1
2
3
JU8
R66
5.23k
R67
1%
866
C99
0.1uF
R68
1%
1.87k
R69
1%
590
C148
0.1uF
C149
0.1uF
C150
0.1uF
+3.3V
+3.3V
+3.3V
RDYCLKP
RDYCLKN
RDYSYNCP
RDYSYNCN
RDYAP
RDYAN
RDYCLKP_BUFF
RDYCLKN_BUFF
RDYSYNCP_BUFF
RDYSYNCN_BUFF
RDYAP_BUFF
RDYAN_BUFF
CLKN_REF
CLKP_REF
CLKP_FPGA
CLKN_FPGA
+2.5V
+2.5V
+2.5V
SHEET: OF 10
MAX5861 EVKIT
10
DRAWN:
DATED:
A
PCB PART NUMBER:
A
B
D
C
A
B
C
D
6
5
4
3
2
TITLE:
1
DATE:
REV:
LTR
ECO NO:
APPROVED:
REVISION RECORD
<Drawn By>
03/09/2015
CLOCK MODULE
<REVISED BY:>
REVISED BY:
CLK MODULE INTERCONNECT
C8
100pF
C94
100pF
CLKN
CLKP
GND
GND
GND
GND
GND
GND
GND
GND
GND
V+
+3.3V
USB_CSD
USB_SDI
USB_SDO
USB_SCLK
USB_SDA
USB_SCL
P1.6
P1.5
P1.4
P1.3
P1.2
P1.1
P1.7
P1.0
GND
GND
+3.3V
1
2
X67
MTH_32K243-40ML5
1
2
X68
MTH_32K243-40ML5
GND
GND
GND
GND
P1.6
P1.5
P1.4
P1.3
P1.2
P1.1
P1.7
P1.0
V+
+3.3V
USB_CSC
USB_CSD
USB_SDI
USB_SDO
USB_SCLK
USB_SDA
USB_SCL
GND
GND
GND
GND
GND
+3.3V
USB_CSC
CLKP_MOD
CLKN_MOD
CLKN_REF
CLKP_REF
CLKN3
CLKP3
C100
0.1uF
C127
0.1uF
CLKN_I
CLKP_I
VIN
+3.3V
USB_CSD
USB_SDI
USB_SDO
USB_SCLK
USB_SCL
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
VIN
+3.3V
USB_CSC
USB_CSD
USB_SDI
USB_SDO
USB_SCLK
USB_SCL
USB_SDA
USB_SDA
USB_CSC
CLKP_FPGA
CLKN_FPGA
CLKN_REF
CLKP_REF
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
GND
GND
GND
GND
GND
GND
GND
GND
GNDGND
CLOCK MODULE
SILKSCREEN TOP
V+
GND
5V
5V
GND
GND
GND
GND
1
2
25
26
1 1 1 1
GND
1
1
1
GNDSA
VDD18
GNDCFG
VDD18
USBSPI
FPGA
1 1
GND
A1
USB
_SC
L
USB
_SD
O
USB
_SD
I
GND
GND
USB
_CSC
+3.3
V
GND
AVDD
3
GND
GND
+3.3
V
GNDGND
GND
GND
GND
MAX5861 EVKIT888-MAXIM-ICwww.maximintegrated.com
REV-A03/15 KT
1
+
+
+
+ + ++
+ +
+
1
1
1
1
1
1
1
GND
R E R E R E R E
DG
F R
SW F
S S
S15 L
3 2 1 0 1 2 3 4
2
126
25
USB3V
VDD09NomMinMax
AVDD18, VDD180.99V0.85V0.90V
Max 1.9VMin 1.7VNom 1.8V
AVDD3
Max 3.5VMin 3.1VNom 3.3V
SCLK
SDI
SDO
CSA
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
AVCLKNom 1.85VMinMax 1.9V
1.8V
SE
R76
R77R75
JU10
C20
8
T6
J3
R203R204
R202
C21
4
C207
C20
5
U7
C20
6
C210
R49
C209
R201
U27
R20
0
C10
R47
C204
R23
C89C95
R29R20
R30
R32R31
R16R18
R144
R20
8R
207
J2
C11
R40
R39R36
R35
T4
JU22
R142
R20
6
R20
5
C211
L16C203L3
R3R48
R15
R12
C127
C100
U28R50
C99R69R68
T5
C150
R54
C148C149
C103
C113
JU6
C117
CLK
N_R
EF
R43
R44R26R25
PERRI
U8_PG2
C88
L2
R147
TP25V
CLKN
_MOD
L10
R65R64
R66
CLK
P_M
OD
R67
JU8
U23
R51
U10 U1
U204
R63
C98
R62
C213
R34
R33
L9
C105
JU25
JU7
C32
R61
U4C67
C112
R141C66
D1
TDA R7
R24TDC
C8C94
U8_PG1
CLK
P_RE
F
R57
C109C111
C110
C108
R14
C106
C104
C107R213
C466L17
R143C4
C1
R27
U12
R145
TP5V
MODE2
C9
R55 R53R52R58
R59R60R56
JU5
C91
C81
RSTN
C79 R162
U14
R219
R218
U2
C2R46
U3
N3
C78
R157
C74
C14N1
U8
C118 C31C30
AN
ALO
G33JU2
C163
R38
R19
USB23
JU23
JU11
C3
R13R45
R28 U17U21
C123C122
C116
C120C119
C115 C114
C162
C164
R11
R212
R215
R216
U15
L12
ANAL
OG18
L13
C168
U13
R22
0
JU3
L11
C167
R217
C165
C166 SE
C90
U9
R163
C29C28
C20C22C21
LOCK
PERRC
82
C19
TP33V
U205
Y1
R37
JU26
CLKP
CLKN
JU24
C121
C86
GNDC83
N2
DIG
ITA
L09
DIGI
TAL1
8
C25C26
C87
C24
R17
L5
L1
L6
L8
REF_
CLK
OU
T
JU4
R164
R165
USB
_CSD
USB
_SCL
K
USB
_SD
A
AVCL
K
AVDD
18
VD
D09
VDD1
8
CLKN
3CL
KP3
JU12
U11
REFI
OA
C97
R214
C201
C20
2
OUT
U206
R209
ANAL
OGCL
K
FB7
INTR
_N
USB1V8
RST_N
VADJ_FORCE_S
R76 R77R75
JU10
C208
J3
R203R204
R202
C214
C207
C205U7C206
C210
R49
C209
R201 U27R200
C10
R47
C204
R23
C89C95
R29R20
R30
R32R31
R16R18
R144
R208 R207
J2
C11
R40R39R36R35
JU22
R142
R206 R205
C211
L16C203L3
R3R48
R15R12
C127C100
R50
C99R69R68
C150
R54
C148C149
C103
C113JU6C117
R43R44
R26R25
C88
L2
R147
L10
R65R64
R66 R67JU8
U23R51
U204R63
C98R62
C213
R34R33
L9C105
JU25
JU7
C32
R61
U4C67
C112
R141C66
D1
R7
R24
C8C94
R57
C109C111
C110
C108
R14
C106
C104
C107
R213C466L17
R143
C4C1
R27U12 R145
C9
R55 R53R52R58
R59R60R56
JU5
C91
C81C79R162
U14R219R218
U2C2
R46 U3
N3
C78R157C74
C14
N1
C118 C31C30
JU2
C163
R38
R19
JU23
JU11
C3
R13R45
R28 U17U21
C123C122
C116C120C119
C115 C114
C162C164R11R212 R215R216
L12 L13
C168 U13R220
JU3
L11
C167R217C165C166
C90 U9R163
C29C28
C20C22C21
C82
C19
U205
R37
JU26
JU24
C121
C86
N2
C25C26
C24
R17
L1
L6
L8
JU4
R164R165
JU12U11
C97
R214
C201 C202U206
R209
FB7
R76 R77R75
JU10JU10x1
JU10x2
JU10x3
C208
J3
R203R204
R202
C214
C207
C205U7C206
C210
R49
C209
R201 U27R200
C10
R47
C204
R23
C89C95
R29R20
R30
R32R31
R16R18
R144
R208 R207
J2
C11
R40R39R36R35
JU22JU22x1
JU22x2
JU22x3
R142
R206 R205
C211
L16C203L3
R3R48
R15R12
C127C100
R50
C99R69R68
C150
R54
C148C149
C103
C113JU6JU6x1JU6x2JU6
x3
C117
R43R44
R26R25
C88
L2
R147
L10
R65R64
R66 R67JU8JU8
x1JU8
x2JU8
x3
U23R51
U204R63
C98R62
C213
R34R33
L9C105
JU25JU25x1
JU25x2
JU7
C32
R61
U4C67
C112
R141C66
D1
R7
R24
C8C94
R57
C109C111
C110
C108
R14
C106
C104
C107
R213C466L17
R143
C4C1
R27U12 R145
C9
R55 R53R52R58
R59R60R56
JU5
C91
C81C79R162
U14R219R218
U2C2
R46 U3
N3
C78R157C74
C14
N1
C118 C31C30
JU2JU2x1
JU2x2
JU2x3
C163
R38
R19
JU23
JU11JU11x1
JU11x2
JU11x3
C3
R13R45
R28 U17U21
C123C122
C116C120C119
C115 C114
C162C164R11R212 R215R216
L12 L13
C168 U13R220
JU3JU3x1
JU3x2
JU3x3
L11
C167R217C165C166
C90 U9R163
C29C28
C20C22C21
C82
C19
U205
R37
JU26JU26x1
JU26x2
JU26x3
JU24JU24x1
JU24x2
C121
C86
N2
C25C26
C24
R17
L1
L6
L8
JU4JU4x1
JU4x2
R164R165
X2
JU12JU12x1
JU12x2U11
C97
R214
C201 C202U206
R209
R76R76x1R76x2 R77R77x1
R77x2R75R75x1R7
5x2
JU10JU10x1
JU10x2
JU10x3
C208C208x1
C208x2
T6T6x1T6x2
T6x3T6x4T6x6
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
R203R203x1R203x2
R204R204x1R204x2
R202R202x1R202x2
C214C214x1
C214x2
C207C207x1
C207x2
C205C205x1
C205x2
U7
U7x1
U7x2
U7x3
U7x4
U7x5
U7x6
U7x7
U7x8
U7x9
U7x1
0
U7x1
1
U7x1
2
U7x1
3
U7x1
4
U7x1
5
U7x1
6
U7x17U7x18U7x19U7x20U7x21U7x22U7x23U7x24U7x25U7x26U7x27U7x28U7x29U7x30U7x31U7x32U
7x3
3
U7x3
4
U7x3
5
U7x3
6
U7x3
7
U7x3
8
U7x3
9
U7x4
0
U7x4
1
U7x4
2
U7x4
3
U7x4
4
U7x4
5
U7x4
6
U7x4
7
U7x4
8
U7x49U7x50U7
x51U7x52U7x5
3U7x54U7x55U
7x56U7x57U7x
58U7x59U7x60
U7x61U7x62U7
x63U7x64
U7x65
C206C206x1
C206x2
C210C210x1C210x2
R49R49x1
R49x2
C209C209x1C209x2
R201R201x1
R201x2 U27U27x1U27x2U27x3U27x4 U27x5U
27x6U27x7U27x8R200R200
x1R200
x2
C10C10x1
C10x2
R47R47x1R47x2
C204C204x1C204x2
R23R23x1
R23x2
C89C89x1
C89x2
C95C95x1
C95x2
R29R29x1
R29x2
R20R20x1
R20x2
R30R30x1
R30x2
R32R32x1
R32x2
R31R31x1
R31x2
R16R16x1
R16x2
R18R18x1
R18x2
R144R144x1
R144x2
R208R208x1
R208x2
R207R207x1
R207x2
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
C11C11x1
C11x2
R40R40x1R40x2
R39R39x1R39x2
R36R36x1R36x2
R35R35x1R35x2
T4T4x1T4x2
T4x3T4x4T4x6
JU22JU22x1
JU22x2
JU22x3
R142R142x1
R142x2
TPUSB3VTPUSB3Vx1
R206R206x1
R206x2
R205R205x1
R205x2
C211C211x1
C211x2
L16L16x1
L16x2
C203C203x1C203x2
L3L3x1
L3x2
R3R3x1R3x2
R48R48x1
R48x2
R15R15x1
R15x2 R12R12x1R1
2x2
C127C127x1
C127x2
C100C100x1
C100x2
U28U28x1U28x2U28x3
U28x4U28x5U28x6U28x7U28x8 R50R50x1
R50x2
C99C99x1
C99x2
R69R69x1
R69x2
R68R68x1
R68x2
T5T5x1 T5x
3T5x
4T5x
6
C150C150x1
C150x2
R54R54x1
R54x2
C148C148x1
C148x2C149C149x1
C149x2
C103C103x1
C103x2
C113C113x1
C113x2
JU6JU6x1JU6x2JU6
x3
C117C117x1
C117x2
CLKN_REFCLKN_REFx1
R43R43x1
R43x2
R44R44x1
R44x2
R26R26x1
R26x2
R25R25x1
R25x2PERRIPERR
Ix1
U8_PG2U8_PG2x1
C88C88x1
C88x2
L2L2x1L2x2
R147R147x1
R147x2
TP25VTP25Vx1
CLKN_MODCLKN_MODx
1
L10L10x1
L10x2
R65R65x1
R65x2
R64R64x1
R64x2
R66R66x1
R66x2
CLKP_MODCLKP_MODx
1
R67R67x1
R67x2
JU8JU8x1
JU8x2
JU8x3
U23
U23xA1
U23xA2
U23xA3
U23xA4
U23xA5
U23xA6
U23xA7
U23xA8
U23xA9
U23xA10
U23xA11
U23xA12
U23xA13
U23xA14
U23xA15
U23xA16
U23xA17
U23xA18
U23xA19
U23xA20
U23xA21
U23xA22
U23xB1
U23xB2
U23xB3
U23xB4
U23xB5
U23xB6
U23xB7
U23xB8
U23xB9
U23xB10
U23xB11
U23xB12
U23xB13
U23xB14
U23xB15
U23xB16
U23xB17
U23xB18
U23xB19
U23xB20
U23xB21
U23xB22
U23xC1
U23xC2
U23xC3
U23xC4
U23xC5
U23xC6
U23xC7
U23xC8
U23xC9
U23xC10
U23xC11
U23xC12
U23xC13
U23xC14
U23xC15
U23xC16
U23xC17
U23xC18
U23xC19
U23xC20
U23xC21
U23xC22
U23xD1
U23xD2
U23xD3
U23xD4
U23xD5
U23xD6
U23xD7
U23xD8
U23xD9
U23xD10
U23xD11
U23xD12
U23xD13
U23xD14
U23xD15
U23xD16
U23xD17
U23xD18
U23xD19
U23xD20
U23xD21
U23xD22
U23xE1
U23xE2
U23xE3
U23xE4
U23xE5
U23xE6
U23xE7
U23xE8
U23xE9
U23xE10
U23xE11
U23xE12
U23xE13
U23xE14
U23xE15
U23xE16
U23xE17
U23xE18
U23xE19
U23xE20
U23xE21
U23xE22
U23xF1
U23xF2
U23xF3
U23xF4
U23xF5
U23xF6
U23xF7
U23xF8
U23xF9
U23xF10
U23xF11
U23xF12
U23xF13
U23xF14
U23xF15
U23xF16
U23xF17
U23xF18
U23xF19
U23xF20
U23xF21
U23xF22
U23xG1
U23xG2
U23xG3
U23xG4
U23xG5
U23xG6
U23xG7
U23xG8
U23xG9
U23xG10
U23xG11
U23xG12
U23xG13
U23xG14
U23xG15
U23xG16
U23xG17
U23xG18
U23xG19
U23xG20
U23xG21
U23xG22
U23xH1
U23xH2
U23xH3
U23xH4
U23xH5
U23xH6
U23xH7
U23xH8
U23xH9
U23xH10
U23xH11
U23xH12
U23xH13
U23xH14
U23xH15
U23xH16
U23xH17
U23xH18
U23xH19
U23xH20
U23xH21
U23xH22
U23xJ1
U23xJ2
U23xJ3
U23xJ4
U23xJ5
U23xJ6
U23xJ7
U23xJ8
U23xJ9
U23xJ10
U23xJ11
U23xJ12
U23xJ13
U23xJ14
U23xJ15
U23xJ16
U23xJ17
U23xJ18
U23xJ19
U23xJ20
U23xJ21
U23xJ22
U23xK1
U23xK2
U23xK3
U23xK4
U23xK5
U23xK6
U23xK7
U23xK8
U23xK9
U23xK10
U23xK11
U23xK12
U23xK13
U23xK14
U23xK15
U23xK16
U23xK17
U23xK18
U23xK19
U23xK20
U23xK21
U23xK22
U23xL1
U23xL2
U23xL3
U23xL4
U23xL5
U23xL6
U23xL7
U23xL8
U23xL9
U23xL10
U23xL11
U23xL12
U23xL13
U23xL14
U23xL15
U23xL16
U23xL17
U23xL18
U23xL19
U23xL20
U23xL21
U23xL22
U23xM1
U23xM2
U23xM3
U23xM4
U23xM5
U23xM6
U23xM7
U23xM8
U23xM9
U23xM10
U23xM11
U23xM12
U23xM13
U23xM14
U23xM15
U23xM16
U23xM17
U23xM18
U23xM19
U23xM20
U23xM21
U23xM22
U23xN1
U23xN2
U23xN3
U23xN4
U23xN5
U23xN6
U23xN7
U23xN8
U23xN9
U23xN10
U23xN11
U23xN12
U23xN13
U23xN14
U23xN15
U23xN16
U23xN17
U23xN18
U23xN19
U23xN20
U23xN21
U23xN22
U23xP1
U23xP2
U23xP3
U23xP4
U23xP5
U23xP6
U23xP7
U23xP8
U23xP9
U23xP10
U23xP11
U23xP12
U23xP13
U23xP14
U23xP15
U23xP16
U23xP17
U23xP18
U23xP19
U23xP20
U23xP21
U23xP22
R51R51x1
R51x2 U10U10x1U1
0x2U10x3U10x4U10x5U10x6U10x7U10x8 U1U1x1U1
x2U1x3U1x4U1x5U1x6U1x7U1x8
U204
U204x1U204x2U204x3U204x4U204x5U204x6U204x7U204x8 U204x9U204x10U204x11
U204x12U204x13U204x14
U204x15U204x16
U204x17U204
x18
U204x19
U204x20
U204x21
R63R63x1R63x2 C98C98x1C
98x2
R62R62x1
R62x2
C213C213x1
C213x2
R34R34x1R34x2
R33R33x1R33x2
L9L9x1L9x2
C105C105x1
C105x2
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
C32C32x1
C32x2
R61R61x1
R61x2
U4
U4x1U4x2U4x3U4x4U4x5U4x6U4x7U4x8 U4x9U4x10U4x11U4x12
U4x13U4x14U4x15U4x16C67C67x1C67x2
C112C112x1
C112x2
R141R141x1
R141x2
C66C66x1
C66x2
D1D1x1
D1x2
TDATDAx1 R7R7x1
R7x2
R24R24x1
R24x2
TDCTDCx1
C8C8x1
C8x2C94C9
4x1C94
x2
U8_PG1U8_PG1x1
CLKP_REFCLKP_REFx1
R57R57x1
R57x2
C109C109x1
C109x2
C111C111x1
C111x2
C110C110x1
C110x2
C108C108x1
C108x2
R14R14x1
R14x2
C106C106x1
C106x2
C104C104x1
C104x2
C107C107x1
C107x2
R213R213x1
R213x2
C466C466x1
C466x2
L17L17x1
L17x2
R143R143x1
R143x2
C4C4x1
C4x2
C1C1x1
C1x2
R27R27x1
R27x2U12U12x1U12
x2U12x3U12x4U12
x5U12x6U12x7U12
x8U12x9U12x10U12x11U12x12U12x13U12x14U12x15U12x16
R145R145x1
R145x2
TP5VTP5Vx1
MODE2MODE2x1
MODE2x2
MODE2x3
MODE2x4
C9C9x1
C9x2
X70X70x1
R55R55x1
R55x2 R53R53
x1
R53x2
R52R52x1
R52x2R58R58x1
R58x2
R59R59x1
R59x2
R60R60x1
R60x2R56R56x1
R56x2
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
C91C91x1C91x2
C81C81x1C81x2
RSTNRSTNx1
RSTNx2
RSTNx3
RSTNx4
C79C79x1
C79x2
R162R162x1
R162x2
U14U14x1U14x2U14x3
U14x4U14x5U14x6
U14x7U14x8U14x9U14x10U14x11U14x12U14x13U14x14U14x15U14x16
U14x17
U14x18
U14x19
U14x20
U14x21
R219R219x1
R219x2
R218R218x1
R218x2
U2U2x1U2x2U2x3
U2x4U2x5U2x6
U2x7U2x8U2x9U2x10U2x11U2x12U2x13U2x14U2x15U2x16
C2C2x1
C2x2
R46R46x1
R46x2 U3U3x1U3x
2U3x3U3x4U3x
5U3x6U3x7U3x
8U3x9U3x10U3x11U3x12U3x13U3x14U3x15U3x16
N3
N3x
1
N3x
2
N3x
3
N3x
4N
3x5
N3x
6
N3x
7
N3x
8
C78C78x1C78x2
R157R157x1
R157x2
C74C74x1
C74x2
C14C14x1
C14x2
N1
N1
x1
N1
x2
N1
x3
N1
x4
N1
x5
N1
x6
N1
x7
N1
x8
N1x9 N1x10
U8
U8x1U8x2
U8x3U8x4
U8x5U8x6
U8
x7
U8
x8
U8
x9
U8x1
0
U8x1
1
U8x1
2
U8x13U8x14
U8x15U8x16
U8x17U8x18
U8x1
9
U8x2
0
U8x2
1
U8x2
2
U8x2
3
U8x2
4
U8x25U8x
42
U8x43
U8x44
U8x45
C118C118x1
C118x2 C31C31x1
C31x2
C30C30x1
C30x2
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
C163C163x1
C163x2
R38R38x1R38x2
R19R19x1
R19x2
USB23
US
B2
3x1
US
B2
3x2
US
B2
3x3
US
B2
3x4
US
B2
3x5
USB23x6
USB23x7
USB23x8
USB23x9
USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
C3C3x1
C3x2
R13R13x1
R13x2
R45R45x1
R45x2
R28R28x1
R28x2 U17U17x1U17
x2U17x3U17x4U17
x5U17x6U17x7U17
x8U17x9U17x10U17x11U17x12U17x13U17x14U17x15U17x16U21U21x1U21x2U21x3
U21x4U21x5U21x6
U21x7U21x8U21x9U21x10U21x11U21x12U21x13U21x14U21x15U21x16
C123C123x1
C123x2
C122C122x1
C122x2
C116C116x1
C116x2
C120C120x1
C120x2
C119C119x1
C119x2
C115C115x1
C115x2 C114C114x1
C114x2
C162C162x1
C162x2C164C164
x1C164
x2 R11R11x1R11x2
R212R212x1
R212x2
R215R215x1
R215x2
R216R216x1
R216x2
U15U15x1U15x2
U15x3U15x4U15x5
U15x6U15x7
U15x8 U15x
9
L12L12x1
L12x2
ANALOG18ANALOG18x
1ANA
LOG18x
2
L13L13x1
L13x2
C168C168x1
C168x2 U13U13x1U13
x2U13x3U13x4U13
x5U13x6U13x7U13
x8U13x9U13x10U13x11U13x12U13x13U13x14U13x15U13x16
U13x17
U13x18
U13x19
U13x20
U13x21
R220R220x1
R220x2
JU3JU3x1
JU3x2
JU3x3
L11L11x1
L11x2
C167C167x1
C167x2R217R217x
1R217x
2C165C165x
1C165x
2
C166C166x1
C166x2 SESEx1
SEx2
SEx3
SEx4
C90C90x1
C90x2 U9U9x1U9x
2U9x3U9x4U9x
5U9x6U9x7U9x
8U9x9U9x10U9x11U9x12U9x13U9x14U9x15U9x16
U9x17
U9x18
U9x19
U9x20
U9x21R163R163x
1R163x
2
C29C29x1
C29x2
C28C28x1
C28x2
C20C20x1
C20x2C22C22x1
C22x2C21C21x1
C21x2
LOCKLOCKx1
PERRPERRx1
C82C82x1C82x2
C19C19x1
C19x2
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
U205U205x1U205x2
U205x3 U205x4U205x5
TP18TP18x1
TP15TP15x1
Y1Y1x1
Y1x2
Y1x3
Y1x4
R37R37x1R37x2
JU26JU26x1
JU26x2
JU26x3
X72X72x1 X71X71x1X30X30x1
X29X29x1
X20X20x1
X21X21x1
X19X19x1
X22X22x1
X23X23x1
X24X24x1
X37X37x1X28X28x1
X69X69x1
X67X67x1
X67x2 X68X68x1
X68x2
X26X26x1
X27X27x1
X181X181x1
USB_SDIUSB_SDIx1 USB_SDOUSB_SDOx1
X107X107x1
X108X108x1
X109X109x1
X110X110x1
X38X38x1
X76X76x1
X77X77x1
X124X124x1
X125X125x1 X126X126x1
CLKPCLKPx1 CLKNCLKNx1
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
C121C121x1
C121x2
C86C86x1C86x2
GNDGNDx1 X11X11x1
C83C83
x1C
83x2N2N2x1
N2x2N2x3
N2x4N2x5N2x6
N2x7N2x8
N2
x9
N2x
10
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
C25C25x1
C25x2
C26C26x1
C26x2
C87C87x1C87x2C24C
24x1
C24x2
R17R17x1R17x
2L5L5
x1
L5x2
L1L1x1L1x2
L6L6x1
L6x2
L8L8x1L8x2
REF_CLKOUTREF_CLKOUTx1REF_CLK
OUTx2REF_CLK
OUTx3REF_CLK
OUTx4REF_CLK
OUTx5REF_CLK
OUTx6REF_CLK
OUTx7REF_CLK
OUTx8REF_CLK
OUTx9REF_CLKO
UTx10REF_CLKO
UTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
R164R164x1
R164x2
R165R165x1
R165x2
USB_CSDUSB_CSDx1USB_SCLKUSB_SC
LKx1 USB_SDAUSB_SDAx1X4X4x1
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1CLKN3CLKN
3x1 CLKP3CLKP3x1
JU12JU12x1
JU12x2U11
U11x1U11x2
U11x3U11x4 U11x5
U11x6U11x7
U11x8
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
C97C97x1C97x2
R214R214x1
R214x2
C201C201x1
C201x2
C202C202x1
C202x2
OUTOUTx1OUT
x2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
U206U206x1U206x2
U206x3 U206x4U206x5
R209R209x1
R209x2
R209x3
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
FB7FB
7x1
FB7x
2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYERCOMPONENT SIDE
A
R76R76x1R76x2 R77R77x1
R77x2R75R75x1R7
5x2
JU10JU10x1
JU10x2
JU10x3
C208C208x1
C208x2
T6T6x1T6x2
T6x3T6x4T6x6
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
R203R203x1R203x2
R204R204x1R204x2
R202R202x1R202x2
C214C214x1
C214x2
C207C207x1
C207x2
C205C205x1
C205x2
U7
U7x1
U7x2
U7x3
U7x4
U7x5
U7x6
U7x7
U7x8
U7x9
U7x1
0
U7x1
1
U7x1
2
U7x1
3
U7x1
4
U7x1
5
U7x1
6
U7x17U7x18U7x19U7x20U7x21U7x22U7x23U7x24U7x25U7x26U7x27U7x28U7x29U7x30U7x31U7x32U
7x3
3
U7x3
4
U7x3
5
U7x3
6
U7x3
7
U7x3
8
U7x3
9
U7x4
0
U7x4
1
U7x4
2
U7x4
3
U7x4
4
U7x4
5
U7x4
6
U7x4
7
U7x4
8
U7x49U7x50U7
x51U7x52U7x5
3U7x54U7x55U
7x56U7x57U7x
58U7x59U7x60
U7x61U7x62U7
x63U7x64
U7x65
C206C206x1
C206x2
C210C210x1C210x2
R49R49x1
R49x2
C209C209x1C209x2
R201R201x1
R201x2 U27U27x1U27x2U27x3U27x4 U27x5U
27x6U27x7U27x8R200R200
x1R200
x2
C10C10x1
C10x2
R47R47x1R47x2
C204C204x1C204x2
R23R23x1
R23x2
C89C89x1
C89x2
C95C95x1
C95x2
R29R29x1
R29x2
R20R20x1
R20x2
R30R30x1
R30x2
R32R32x1
R32x2
R31R31x1
R31x2
R16R16x1
R16x2
R18R18x1
R18x2
R144R144x1
R144x2
R208R208x1
R208x2
R207R207x1
R207x2
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
C11C11x1
C11x2
R40R40x1R40x2
R39R39x1R39x2
R36R36x1R36x2
R35R35x1R35x2
T4T4x1T4x2
T4x3T4x4T4x6
JU22JU22x1
JU22x2
JU22x3
R142R142x1
R142x2
TPUSB3VTPUSB3Vx1
R206R206x1
R206x2
R205R205x1
R205x2
C211C211x1
C211x2
L16L16x1
L16x2
C203C203x1C203x2
L3L3x1
L3x2
R3R3x1R3x2
R48R48x1
R48x2
R15R15x1
R15x2 R12R12x1R1
2x2
C127C127x1
C127x2
C100C100x1
C100x2
U28U28x1U28x2U28x3
U28x4U28x5U28x6U28x7U28x8 R50R50x1
R50x2
C99C99x1
C99x2
R69R69x1
R69x2
R68R68x1
R68x2
T5T5x1 T5x
3T5x
4T5x
6
C150C150x1
C150x2
R54R54x1
R54x2
C148C148x1
C148x2C149C149x1
C149x2
C103C103x1
C103x2
C113C113x1
C113x2
JU6JU6x1JU6x2JU6
x3
C117C117x1
C117x2
CLKN_REFCLKN_REFx1
R43R43x1
R43x2
R44R44x1
R44x2
R26R26x1
R26x2
R25R25x1
R25x2PERRIPERR
Ix1
U8_PG2U8_PG2x1
C88C88x1
C88x2
L2L2x1L2x2
R147R147x1
R147x2
TP25VTP25Vx1
CLKN_MODCLKN_MODx
1
L10L10x1
L10x2
R65R65x1
R65x2
R64R64x1
R64x2
R66R66x1
R66x2
CLKP_MODCLKP_MODx
1
R67R67x1
R67x2
JU8JU8x1
JU8x2
JU8x3
U23
U23xA1
U23xA2
U23xA3
U23xA4
U23xA5
U23xA6
U23xA7
U23xA8
U23xA9
U23xA10
U23xA11
U23xA12
U23xA13
U23xA14
U23xA15
U23xA16
U23xA17
U23xA18
U23xA19
U23xA20
U23xA21
U23xA22
U23xB1
U23xB2
U23xB3
U23xB4
U23xB5
U23xB6
U23xB7
U23xB8
U23xB9
U23xB10
U23xB11
U23xB12
U23xB13
U23xB14
U23xB15
U23xB16
U23xB17
U23xB18
U23xB19
U23xB20
U23xB21
U23xB22
U23xC1
U23xC2
U23xC3
U23xC4
U23xC5
U23xC6
U23xC7
U23xC8
U23xC9
U23xC10
U23xC11
U23xC12
U23xC13
U23xC14
U23xC15
U23xC16
U23xC17
U23xC18
U23xC19
U23xC20
U23xC21
U23xC22
U23xD1
U23xD2
U23xD3
U23xD4
U23xD5
U23xD6
U23xD7
U23xD8
U23xD9
U23xD10
U23xD11
U23xD12
U23xD13
U23xD14
U23xD15
U23xD16
U23xD17
U23xD18
U23xD19
U23xD20
U23xD21
U23xD22
U23xE1
U23xE2
U23xE3
U23xE4
U23xE5
U23xE6
U23xE7
U23xE8
U23xE9
U23xE10
U23xE11
U23xE12
U23xE13
U23xE14
U23xE15
U23xE16
U23xE17
U23xE18
U23xE19
U23xE20
U23xE21
U23xE22
U23xF1
U23xF2
U23xF3
U23xF4
U23xF5
U23xF6
U23xF7
U23xF8
U23xF9
U23xF10
U23xF11
U23xF12
U23xF13
U23xF14
U23xF15
U23xF16
U23xF17
U23xF18
U23xF19
U23xF20
U23xF21
U23xF22
U23xG1
U23xG2
U23xG3
U23xG4
U23xG5
U23xG6
U23xG7
U23xG8
U23xG9
U23xG10
U23xG11
U23xG12
U23xG13
U23xG14
U23xG15
U23xG16
U23xG17
U23xG18
U23xG19
U23xG20
U23xG21
U23xG22
U23xH1
U23xH2
U23xH3
U23xH4
U23xH5
U23xH6
U23xH7
U23xH8
U23xH9
U23xH10
U23xH11
U23xH12
U23xH13
U23xH14
U23xH15
U23xH16
U23xH17
U23xH18
U23xH19
U23xH20
U23xH21
U23xH22
U23xJ1
U23xJ2
U23xJ3
U23xJ4
U23xJ5
U23xJ6
U23xJ7
U23xJ8
U23xJ9
U23xJ10
U23xJ11
U23xJ12
U23xJ13
U23xJ14
U23xJ15
U23xJ16
U23xJ17
U23xJ18
U23xJ19
U23xJ20
U23xJ21
U23xJ22
U23xK1
U23xK2
U23xK3
U23xK4
U23xK5
U23xK6
U23xK7
U23xK8
U23xK9
U23xK10
U23xK11
U23xK12
U23xK13
U23xK14
U23xK15
U23xK16
U23xK17
U23xK18
U23xK19
U23xK20
U23xK21
U23xK22
U23xL1
U23xL2
U23xL3
U23xL4
U23xL5
U23xL6
U23xL7
U23xL8
U23xL9
U23xL10
U23xL11
U23xL12
U23xL13
U23xL14
U23xL15
U23xL16
U23xL17
U23xL18
U23xL19
U23xL20
U23xL21
U23xL22
U23xM1
U23xM2
U23xM3
U23xM4
U23xM5
U23xM6
U23xM7
U23xM8
U23xM9
U23xM10
U23xM11
U23xM12
U23xM13
U23xM14
U23xM15
U23xM16
U23xM17
U23xM18
U23xM19
U23xM20
U23xM21
U23xM22
U23xN1
U23xN2
U23xN3
U23xN4
U23xN5
U23xN6
U23xN7
U23xN8
U23xN9
U23xN10
U23xN11
U23xN12
U23xN13
U23xN14
U23xN15
U23xN16
U23xN17
U23xN18
U23xN19
U23xN20
U23xN21
U23xN22
U23xP1
U23xP2
U23xP3
U23xP4
U23xP5
U23xP6
U23xP7
U23xP8
U23xP9
U23xP10
U23xP11
U23xP12
U23xP13
U23xP14
U23xP15
U23xP16
U23xP17
U23xP18
U23xP19
U23xP20
U23xP21
U23xP22
R51R51x1
R51x2 U10U10x1U1
0x2U10x3U10x4U10x5U10x6U10x7U10x8 U1U1x1U1
x2U1x3U1x4U1x5U1x6U1x7U1x8
U204
U204x1U204x2U204x3U204x4U204x5U204x6U204x7U204x8 U204x9U204x10U204x11
U204x12U204x13U204x14
U204x15U204x16
U204x17U204
x18
U204x19
U204x20
U204x21
R63R63x1R63x2 C98C98x1C
98x2
R62R62x1
R62x2
C213C213x1
C213x2
R34R34x1R34x2
R33R33x1R33x2
L9L9x1L9x2
C105C105x1
C105x2
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
C32C32x1
C32x2
R61R61x1
R61x2
U4
U4x1U4x2U4x3U4x4U4x5U4x6U4x7U4x8 U4x9U4x10U4x11U4x12
U4x13U4x14U4x15U4x16C67C67x1C67x2
C112C112x1
C112x2
R141R141x1
R141x2
C66C66x1
C66x2
D1D1x1
D1x2
TDATDAx1 R7R7x1
R7x2
R24R24x1
R24x2
TDCTDCx1
C8C8x1
C8x2C94C9
4x1C94
x2
U8_PG1U8_PG1x1
CLKP_REFCLKP_REFx1
R57R57x1
R57x2
C109C109x1
C109x2
C111C111x1
C111x2
C110C110x1
C110x2
C108C108x1
C108x2
R14R14x1
R14x2
C106C106x1
C106x2
C104C104x1
C104x2
C107C107x1
C107x2
R213R213x1
R213x2
C466C466x1
C466x2
L17L17x1
L17x2
R143R143x1
R143x2
C4C4x1
C4x2
C1C1x1
C1x2
R27R27x1
R27x2U12U12x1U12
x2U12x3U12x4U12
x5U12x6U12x7U12
x8U12x9U12x10U12x11U12x12U12x13U12x14U12x15U12x16
R145R145x1
R145x2
TP5VTP5Vx1
MODE2MODE2x1
MODE2x2
MODE2x3
MODE2x4
C9C9x1
C9x2
X70X70x1
R55R55x1
R55x2 R53R53
x1
R53x2
R52R52x1
R52x2R58R58x1
R58x2
R59R59x1
R59x2
R60R60x1
R60x2R56R56x1
R56x2
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
C91C91x1C91x2
C81C81x1C81x2
RSTNRSTNx1
RSTNx2
RSTNx3
RSTNx4
C79C79x1
C79x2
R162R162x1
R162x2
U14U14x1U14x2U14x3
U14x4U14x5U14x6
U14x7U14x8U14x9U14x10U14x11U14x12U14x13U14x14U14x15U14x16
U14x17
U14x18
U14x19
U14x20
U14x21
R219R219x1
R219x2
R218R218x1
R218x2
U2U2x1U2x2U2x3
U2x4U2x5U2x6
U2x7U2x8U2x9U2x10U2x11U2x12U2x13U2x14U2x15U2x16
C2C2x1
C2x2
R46R46x1
R46x2 U3U3x1U3x
2U3x3U3x4U3x
5U3x6U3x7U3x
8U3x9U3x10U3x11U3x12U3x13U3x14U3x15U3x16
N3
N3x
1
N3x
2
N3x
3
N3x
4N
3x5
N3x
6
N3x
7
N3x
8
C78C78x1C78x2
R157R157x1
R157x2
C74C74x1
C74x2
C14C14x1
C14x2
N1
N1
x1
N1
x2
N1
x3
N1
x4
N1
x5
N1
x6
N1
x7
N1
x8
N1x9 N1x10
U8
U8x1U8x2
U8x3U8x4
U8x5U8x6
U8
x7
U8
x8
U8
x9
U8x1
0
U8x1
1
U8x1
2
U8x13U8x14
U8x15U8x16
U8x17U8x18
U8x1
9
U8x2
0
U8x2
1
U8x2
2
U8x2
3
U8x2
4
U8x25U8x
42
U8x43
U8x44
U8x45
C118C118x1
C118x2 C31C31x1
C31x2
C30C30x1
C30x2
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
C163C163x1
C163x2
R38R38x1R38x2
R19R19x1
R19x2
USB23
US
B2
3x1
US
B2
3x2
US
B2
3x3
US
B2
3x4
US
B2
3x5
USB23x6
USB23x7
USB23x8
USB23x9
USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
C3C3x1
C3x2
R13R13x1
R13x2
R45R45x1
R45x2
R28R28x1
R28x2 U17U17x1U17
x2U17x3U17x4U17
x5U17x6U17x7U17
x8U17x9U17x10U17x11U17x12U17x13U17x14U17x15U17x16U21U21x1U21x2U21x3
U21x4U21x5U21x6
U21x7U21x8U21x9U21x10U21x11U21x12U21x13U21x14U21x15U21x16
C123C123x1
C123x2
C122C122x1
C122x2
C116C116x1
C116x2
C120C120x1
C120x2
C119C119x1
C119x2
C115C115x1
C115x2 C114C114x1
C114x2
C162C162x1
C162x2C164C164
x1C164
x2 R11R11x1R11x2
R212R212x1
R212x2
R215R215x1
R215x2
R216R216x1
R216x2
U15U15x1U15x2
U15x3U15x4U15x5
U15x6U15x7
U15x8 U15x
9
L12L12x1
L12x2
ANALOG18ANALOG18x
1ANA
LOG18x
2
L13L13x1
L13x2
C168C168x1
C168x2 U13U13x1U13
x2U13x3U13x4U13
x5U13x6U13x7U13
x8U13x9U13x10U13x11U13x12U13x13U13x14U13x15U13x16
U13x17
U13x18
U13x19
U13x20
U13x21
R220R220x1
R220x2
JU3JU3x1
JU3x2
JU3x3
L11L11x1
L11x2
C167C167x1
C167x2R217R217x
1R217x
2C165C165x
1C165x
2
C166C166x1
C166x2 SESEx1
SEx2
SEx3
SEx4
C90C90x1
C90x2 U9U9x1U9x
2U9x3U9x4U9x
5U9x6U9x7U9x
8U9x9U9x10U9x11U9x12U9x13U9x14U9x15U9x16
U9x17
U9x18
U9x19
U9x20
U9x21R163R163x
1R163x
2
C29C29x1
C29x2
C28C28x1
C28x2
C20C20x1
C20x2C22C22x1
C22x2C21C21x1
C21x2
LOCKLOCKx1
PERRPERRx1
C82C82x1C82x2
C19C19x1
C19x2
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
U205U205x1U205x2
U205x3 U205x4U205x5
TP18TP18x1
TP15TP15x1
Y1Y1x1
Y1x2
Y1x3
Y1x4
R37R37x1R37x2
JU26JU26x1
JU26x2
JU26x3
X72X72x1 X71X71x1X30X30x1
X29X29x1
X20X20x1
X21X21x1
X19X19x1
X22X22x1
X23X23x1
X24X24x1
X37X37x1X28X28x1
X69X69x1
X67X67x1
X67x2 X68X68x1
X68x2
X26X26x1
X27X27x1
X181X181x1
USB_SDIUSB_SDIx1 USB_SDOUSB_SDOx1
X107X107x1
X108X108x1
X109X109x1
X110X110x1
X38X38x1
X76X76x1
X77X77x1
X124X124x1
X125X125x1 X126X126x1
CLKPCLKPx1 CLKNCLKNx1
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
C121C121x1
C121x2
C86C86x1C86x2
GNDGNDx1 X11X11x1
C83C83
x1C
83x2N2N2x1
N2x2N2x3
N2x4N2x5N2x6
N2x7N2x8
N2
x9
N2x
10
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
C25C25x1
C25x2
C26C26x1
C26x2
C87C87x1C87x2C24C
24x1
C24x2
R17R17x1R17x
2L5L5
x1
L5x2
L1L1x1L1x2
L6L6x1
L6x2
L8L8x1L8x2
REF_CLKOUTREF_CLKOUTx1REF_CLK
OUTx2REF_CLK
OUTx3REF_CLK
OUTx4REF_CLK
OUTx5REF_CLK
OUTx6REF_CLK
OUTx7REF_CLK
OUTx8REF_CLK
OUTx9REF_CLKO
UTx10REF_CLKO
UTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
R164R164x1
R164x2
R165R165x1
R165x2
USB_CSDUSB_CSDx1USB_SCLKUSB_SC
LKx1 USB_SDAUSB_SDAx1X4X4x1
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1CLKN3CLKN
3x1 CLKP3CLKP3x1
JU12JU12x1
JU12x2U11
U11x1U11x2
U11x3U11x4 U11x5
U11x6U11x7
U11x8
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
C97C97x1C97x2
R214R214x1
R214x2
C201C201x1
C201x2
C202C202x1
C202x2
OUTOUTx1OUT
x2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
U206U206x1U206x2
U206x3 U206x4U206x5
R209R209x1
R209x2
R209x3
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
FB7FB
7x1
FB7x
2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
LAYER 2 GND
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
LAYER 3 SIGNAL
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYERLAYER 4 GND / VDD
A
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
1.0"
DATE:
P/N:
LAYER 5 POWER
MAX5861 EVKITREV
ALL UNITS ARE IN 0.001"
LAYER
A
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
1.0"
DATE:
P/N:
LAYER 6 GND
MAX5861 EVKITREV
ALL UNITS ARE IN 0.001"
LAYER
A
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
1.0"
DATE:
LAYER 7 SIGNAL / AVDD2 /V+
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
LAYER 8 GND
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
LAYER 9 SIGNAL
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
J1
J1x401
J1x402
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
JU6JU6x1JU6x2JU6
x3
PERRIPERRIx1
U8_PG2U8_PG2x1
TP25VTP25Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
TDATDAx1
TDCTDCx1
U8_PG1U8_PG1x1
TP5VTP5Vx1
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
U14U14x17 U14x18
U14x19
U14x20
U14x21
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
LOCKLOCKx1
PERRPERRx1
X43X43x1
X43x
2
X1X1x1
X1x2
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
JU26JU26x1
JU26x2
JU26x3
X67X67x1
X67x2 X68X68x1
X68x2
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
SOLDER SIDE
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
C125J1 C157
R6
C134
C155
C13
C53C135
C179
C132
C60C65C18
C16
C80
C43C39
C37
C58
C131
C47C48
C102
R10R166
C160C136C141
C61
C126
C36C35
C128
C42C41
C54C59
C45C44C101
C51
C38
C40
C64
C49
C63C176C50
C175C177
C15
C178C156
C133
R42
C46
C34C55
C6
C75C77
C52C17
R167R155
R1C85
C124
C139
R21
R22
R5R4R8R9
C71 C72 R156C73 R154 R161
R159R158C76R160
C84
R2
C5U6
U16
R41U5
C130C129
C92C93
C147C140 C153
C142C159C154
C144C143
C68C33
C27
C56C7C62C23
C70C12C69
C57C137C138 C145
C146
C158
C96
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
C125C125x1
C125x2J1
J1x401
J1x402
J1xA1
J1xA2
J1xA3
J1xA4
J1xA5
J1xA6
J1xA7
J1xA8
J1xA9
J1xA10
J1xA11
J1xA12
J1xA13
J1xA14
J1xA15
J1xA16
J1xA17
J1xA18
J1xA19
J1xA20
J1xA21
J1xA22
J1xA23
J1xA24
J1xA25
J1xA26
J1xA27
J1xA28
J1xA29
J1xA30
J1xA31
J1xA32
J1xA33
J1xA34
J1xA35
J1xA36
J1xA37
J1xA38
J1xA39
J1xA40
J1xB1
J1xB2
J1xB3
J1xB4
J1xB5
J1xB6
J1xB7
J1xB8
J1xB9
J1xB10
J1xB11
J1xB12
J1xB13
J1xB14
J1xB15
J1xB16
J1xB17
J1xB18
J1xB19
J1xB20
J1xB21
J1xB22
J1xB23
J1xB24
J1xB25
J1xB26
J1xB27
J1xB28
J1xB29
J1xB30
J1xB31
J1xB32
J1xB33
J1xB34
J1xB35
J1xB36
J1xB37
J1xB38
J1xB39
J1xB40
J1xC1
J1xC2
J1xC3
J1xC4
J1xC5
J1xC6
J1xC7
J1xC8
J1xC9
J1xC10
J1xC11
J1xC12
J1xC13
J1xC14
J1xC15
J1xC16
J1xC17
J1xC18
J1xC19
J1xC20
J1xC21
J1xC22
J1xC23
J1xC24
J1xC25
J1xC26
J1xC27
J1xC28
J1xC29
J1xC30
J1xC31
J1xC32
J1xC33
J1xC34
J1xC35
J1xC36
J1xC37
J1xC38
J1xC39
J1xC40
J1xD1
J1xD2
J1xD3
J1xD4
J1xD5
J1xD6
J1xD7
J1xD8
J1xD9
J1xD10
J1xD11
J1xD12
J1xD13
J1xD14
J1xD15
J1xD16
J1xD17
J1xD18
J1xD19
J1xD20
J1xD21
J1xD22
J1xD23
J1xD24
J1xD25
J1xD26
J1xD27
J1xD28
J1xD29
J1xD30
J1xD31
J1xD32
J1xD33
J1xD34
J1xD35
J1xD36
J1xD37
J1xD38
J1xD39
J1xD40
J1xE1
J1xE2
J1xE3
J1xE4
J1xE5
J1xE6
J1xE7
J1xE8
J1xE9
J1xE10
J1xE11
J1xE12
J1xE13
J1xE14
J1xE15
J1xE16
J1xE17
J1xE18
J1xE19
J1xE20
J1xE21
J1xE22
J1xE23
J1xE24
J1xE25
J1xE26
J1xE27
J1xE28
J1xE29
J1xE30
J1xE31
J1xE32
J1xE33
J1xE34
J1xE35
J1xE36
J1xE37
J1xE38
J1xE39
J1xE40
J1xF1
J1xF2
J1xF3
J1xF4
J1xF5
J1xF6
J1xF7
J1xF8
J1xF9
J1xF10
J1xF11
J1xF12
J1xF13
J1xF14
J1xF15
J1xF16
J1xF17
J1xF18
J1xF19
J1xF20
J1xF21
J1xF22
J1xF23
J1xF24
J1xF25
J1xF26
J1xF27
J1xF28
J1xF29
J1xF30
J1xF31
J1xF32
J1xF33
J1xF34
J1xF35
J1xF36
J1xF37
J1xF38
J1xF39
J1xF40
J1xG1
J1xG2
J1xG3
J1xG4
J1xG5
J1xG6
J1xG7
J1xG8
J1xG9
J1xG10
J1xG11
J1xG12
J1xG13
J1xG14
J1xG15
J1xG16
J1xG17
J1xG18
J1xG19
J1xG20
J1xG21
J1xG22
J1xG23
J1xG24
J1xG25
J1xG26
J1xG27
J1xG28
J1xG29
J1xG30
J1xG31
J1xG32
J1xG33
J1xG34
J1xG35
J1xG36
J1xG37
J1xG38
J1xG39
J1xG40
J1xH1
J1xH2
J1xH3
J1xH4
J1xH5
J1xH6
J1xH7
J1xH8
J1xH9
J1xH10
J1xH11
J1xH12
J1xH13
J1xH14
J1xH15
J1xH16
J1xH17
J1xH18
J1xH19
J1xH20
J1xH21
J1xH22
J1xH23
J1xH24
J1xH25
J1xH26
J1xH27
J1xH28
J1xH29
J1xH30
J1xH31
J1xH32
J1xH33
J1xH34
J1xH35
J1xH36
J1xH37
J1xH38
J1xH39
J1xH40
J1xJ1
J1xJ2
J1xJ3
J1xJ4
J1xJ5
J1xJ6
J1xJ7
J1xJ8
J1xJ9
J1xJ10
J1xJ11
J1xJ12
J1xJ13
J1xJ14
J1xJ15
J1xJ16
J1xJ17
J1xJ18
J1xJ19
J1xJ20
J1xJ21
J1xJ22
J1xJ23
J1xJ24
J1xJ25
J1xJ26
J1xJ27
J1xJ28
J1xJ29
J1xJ30
J1xJ31
J1xJ32
J1xJ33
J1xJ34
J1xJ35
J1xJ36
J1xJ37
J1xJ38
J1xJ39
J1xJ40
J1xK1
J1xK2
J1xK3
J1xK4
J1xK5
J1xK6
J1xK7
J1xK8
J1xK9
J1xK10
J1xK11
J1xK12
J1xK13
J1xK14
J1xK15
J1xK16
J1xK17
J1xK18
J1xK19
J1xK20
J1xK21
J1xK22
J1xK23
J1xK24
J1xK25
J1xK26
J1xK27
J1xK28
J1xK29
J1xK30
J1xK31
J1xK32
J1xK33
J1xK34
J1xK35
J1xK36
J1xK37
J1xK38
J1xK39
J1xK40
C157C157x1
C157x2
R6R6x1R6x2
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
C134C134x1C134x2
C155C155x1C155x2
C13C13x1C13x2
C53C53x1
C53x2
JU6JU6x1JU6x2JU6
x3
C135C135x1C135x2
C179C179x1
C179x2
C132C132x1
C132x2
C60C60x1C60x2
C65C65x1
C65x2C18C18x
1C18
x2
C16C16x1C16x2
PERRIPERRIx1
U8_PG2U8_PG2x1
C80C80x1
C80x2 TP25VTP25
Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
C43C43x1
C43x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
C39C39x1
C39x2
TDATDAx1
TDCTDCx1
C37C37x1C37x2
C58C58x1C58x2
C131C131x1
C131x2
C47C47x1
C47x2
C48C48x1
C48x2
C102C102x1
C102x2
U8_PG1U8_PG1x1
R10R10x1
R10x2
R166R166x1R166x2
C160C160x1
C160x2
C136C136x1
C136x2
C141C141x1
C141x2
C61C61x1
C61x2
C126C126x1
C126x2
C36C36x1
C36x2
C35C35x1
C35x2
C128C128x1
C128x2
C42C42x1
C42x2
C41C41x1
C41x2
C54C54x1C54x2 C59C59x1C59
x2
C45C45x1
C45x2
C44C44x1C44x2
C101C101x1
C101x2
C51C51x1
C51x2
C38C38x1C38x2
C40C40x1
C40x2
C64C64x1C64x2
C49C49x1
C49x2
C63C63x1
C63x2
C176C176x1C176x2C50C50
x1
C50x2
C175C175x1
C175x2
C177C177x1
C177x2
C15C15x1
C15x2
C178C178x1
C178x2 C156C156
x1C156
x2
C133C133x1C133x2
R42R42x1R42x2
TP5VTP5Vx1
C46C46x1C46x2
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
C34C34x1C34x2
C55C55x1C55x2
C6C6x1C6x2
U14U14x17 U14x18
U14x19
U14x20
U14x21
C75C75x1
C75x2C77C7
7x1C77x
2
C52C52x1C52x2
C17C17x1C17x2
R167R167x1R167x2
R155R155x1
R155x2
R1R1x1R1x2
C85C85x1
C85x2
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
C124C124x1
C124x2
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
X117X117x1X115X115x1
C139C139x1
C139x2
LOCKLOCKx1
PERRPERRx1
R21R21x1
R21x2
R22R22x1
R22x2
R5R5x1
R5x2
R4R4x1
R4x2
R8R8x1R8x2
R9R9x1
R9x2
C71C71x1
C71x2 C72C7
2x1C72x
2 R156R156x1
R156x2
C73C73x1
C73x2 R154R154x
1R154x
2
R161R161x1R161x2
R159R159x1R159x2
R158R158x1R158x2
C76C76x1C76x2
R160R160x1
R160x2
C84C84x1C84x2
R2R2x1R2x2
X43X43x1
X43x
2
X1X1x1
X1x2
C5C5x1C5x2U6U6
x1
U6x2
U6x3
U6x4
U16U16x1
U16x
2U1
6x3
U16x
4
R41R41x1R41x2
U5U5x1
U5x2
U5x3
U5x4
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
C130C130x1
C130x2
JU26JU26x1
JU26x2
JU26x3
C129C129x1
C129x2
C92C9
2x1
C9
2x2
C93C9
3x1
C9
3x2
C147C147x1
C147x2
C140C140x1
C140x2 C153C153
x1C153
x2
C142C142x1
C142x2C159C159
x1C159
x2
C154C154x1
C154x2
C144C144x1
C144x2C143C143
x1C143
x2
C68C68x1C68x2
C33C33x1C33x2
C27C27x1C27x2
C56C56x1C56x2
C7C7x1
C7x2
C62C62x1C62x2
C23C23x1C23x2
C70C70x1
C70x2
C12C12x1
C12x2
C69C69x1
C69x2
C57C57x1
C57x2
X113X113x1 X111X111x1 X67X67
x1
X67x2 X68X68x1
X68x2
X58X58x1
X59X59x1 X60X60x1
X120X120x1
X112X112x1X114X114x1X116X116x1 X118X118x1X119X119x1
X39X39x1
X51X51x1
X52X52x1
X53X53x1
X54X54x1
X55X55x1
X56X56x1
X57X57x1
X122X122x1
X123X123x1
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
C137C137x1
C137x2
C138C138x1
C138x2
C145C145x1
C145x2
C146C146x1C146x2
C158C158x1
C158x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
C96C96x1C96x2
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
GPIO0
GPIO1
GPIO2
GPIO3
GPIO4
GPIO5
GPIO6
GPIO7
V+
SILKSCREEN BOTTOM
A1 +3.3V
GND
GND
USB_CSC
USB_CSD
USB_SDI
USB_SDO
USB_SCLK
USB_SDA
USB_SCL
GND
GND
GND
+3.3V
1.0"
DATE:
P/N:MAX5861 EVKIT
REV
ALL UNITS ARE IN 0.001"
LAYER
A
C125
J1
C157
R6
C134
C155
C13
C53
C135
C179
C132
C60C65C1
8
C16
C80
C43C39C37
C58
C131
C47C48
C102
R10R166
C160
C136
C141
C61
C126
C36C35
C128
C42C41
C54 C59
C45
C44C1
01
C51
C38
C40
C64
C49
C63
C176C50
C175C177
C15
C178 C156
C133
R42
C46
C34
C55
C6
C75
C77
C52C17
R167
R155
R1
C85
C124
C139
R21
R22
R5
R4R8
R9C71 C
72 R156
C73
R154
R161
R159R158
C76R1
60
C84
R2
C5
U6
U16
R41
U5
C130
C129
C92C93
C147
C140
C153
C142
C159
C154
C144
C143
C68C33
C27
C56C7C62C23
C70C12C69
C57
C137
C138
C145
C146
C158
C96
C125J1 C157
R6
C134
C155
C13
C53C135
C179
C132
C60C65C18
C16
C80
C43C39
C37
C58
C131
C47C48
C102
R10R166
C160C136C141
C61
C126
C36C35
C128
C42C41
C54C59
C45C44C101
C51
C38
C40
C64
C49
C63C176C50
C175C177
C15
C178C156
C133
R42
C46
C34C55
C6
C75C77
C52C17
R167R155
R1C85
C124
C139
R21
R22
R5R4R8R9
C71 C72 R156C73 R154 R161
R159R158C76R160
C84
R2
C5U6
U16
R41U5
C130C129
C92C93
C147C140 C153
C142C159C154
C144C143
C68C33
C27
C56C7C62C23
C70C12C69
C57C137C138 C145
C146
C158
C96
C125J1 C157
R6
C134
C155
C13
C53C135
C179
C132
C60C65C18
C16
C80
C43C39
C37
C58
C131
C47C48
C102
R10R166
C160C136C141
C61
C126
C36C35
C128
C42C41
C54C59
C45C44C101
C51
C38
C40
C64
C49
C63C176C50
C175C177
C15
C178C156
C133
R42
C46
C34C55
C6
C75C77
C52C17
R167R155
R1C85
C124
C139
R21
R22
R5R4R8R9
C71 C72 R156C73 R154 R161
R159R158C76R160
C84
R2
C5U6
U16
R41U5
C130C129
C92C93
C147C140 C153
C142C159C154
C144C143
C68C33
C27
C56C7C62C23
C70C12C69
C57C137C138 C145
C146
C158
C96
JU10JU10x1
JU10x2
JU10x3
J3J3x1
J3x2
J3x3
J3x4
J3x5
J3x6
J3x7
J3x8
J3x9
J3x10
J3x11
J3x12
J3x13
J3x14
J3x15
J3x16
J3x17
J3x18
J3x19
J3x20
J3x21
J3x22
J3x23
J3x24
J3x25
J3x26
C125C125x1
C125x2J1
J1x401
J1x402
J1xA1
J1xA2
J1xA3
J1xA4
J1xA5
J1xA6
J1xA7
J1xA8
J1xA9
J1xA10
J1xA11
J1xA12
J1xA13
J1xA14
J1xA15
J1xA16
J1xA17
J1xA18
J1xA19
J1xA20
J1xA21
J1xA22
J1xA23
J1xA24
J1xA25
J1xA26
J1xA27
J1xA28
J1xA29
J1xA30
J1xA31
J1xA32
J1xA33
J1xA34
J1xA35
J1xA36
J1xA37
J1xA38
J1xA39
J1xA40
J1xB1
J1xB2
J1xB3
J1xB4
J1xB5
J1xB6
J1xB7
J1xB8
J1xB9
J1xB10
J1xB11
J1xB12
J1xB13
J1xB14
J1xB15
J1xB16
J1xB17
J1xB18
J1xB19
J1xB20
J1xB21
J1xB22
J1xB23
J1xB24
J1xB25
J1xB26
J1xB27
J1xB28
J1xB29
J1xB30
J1xB31
J1xB32
J1xB33
J1xB34
J1xB35
J1xB36
J1xB37
J1xB38
J1xB39
J1xB40
J1xC1
J1xC2
J1xC3
J1xC4
J1xC5
J1xC6
J1xC7
J1xC8
J1xC9
J1xC10
J1xC11
J1xC12
J1xC13
J1xC14
J1xC15
J1xC16
J1xC17
J1xC18
J1xC19
J1xC20
J1xC21
J1xC22
J1xC23
J1xC24
J1xC25
J1xC26
J1xC27
J1xC28
J1xC29
J1xC30
J1xC31
J1xC32
J1xC33
J1xC34
J1xC35
J1xC36
J1xC37
J1xC38
J1xC39
J1xC40
J1xD1
J1xD2
J1xD3
J1xD4
J1xD5
J1xD6
J1xD7
J1xD8
J1xD9
J1xD10
J1xD11
J1xD12
J1xD13
J1xD14
J1xD15
J1xD16
J1xD17
J1xD18
J1xD19
J1xD20
J1xD21
J1xD22
J1xD23
J1xD24
J1xD25
J1xD26
J1xD27
J1xD28
J1xD29
J1xD30
J1xD31
J1xD32
J1xD33
J1xD34
J1xD35
J1xD36
J1xD37
J1xD38
J1xD39
J1xD40
J1xE1
J1xE2
J1xE3
J1xE4
J1xE5
J1xE6
J1xE7
J1xE8
J1xE9
J1xE10
J1xE11
J1xE12
J1xE13
J1xE14
J1xE15
J1xE16
J1xE17
J1xE18
J1xE19
J1xE20
J1xE21
J1xE22
J1xE23
J1xE24
J1xE25
J1xE26
J1xE27
J1xE28
J1xE29
J1xE30
J1xE31
J1xE32
J1xE33
J1xE34
J1xE35
J1xE36
J1xE37
J1xE38
J1xE39
J1xE40
J1xF1
J1xF2
J1xF3
J1xF4
J1xF5
J1xF6
J1xF7
J1xF8
J1xF9
J1xF10
J1xF11
J1xF12
J1xF13
J1xF14
J1xF15
J1xF16
J1xF17
J1xF18
J1xF19
J1xF20
J1xF21
J1xF22
J1xF23
J1xF24
J1xF25
J1xF26
J1xF27
J1xF28
J1xF29
J1xF30
J1xF31
J1xF32
J1xF33
J1xF34
J1xF35
J1xF36
J1xF37
J1xF38
J1xF39
J1xF40
J1xG1
J1xG2
J1xG3
J1xG4
J1xG5
J1xG6
J1xG7
J1xG8
J1xG9
J1xG10
J1xG11
J1xG12
J1xG13
J1xG14
J1xG15
J1xG16
J1xG17
J1xG18
J1xG19
J1xG20
J1xG21
J1xG22
J1xG23
J1xG24
J1xG25
J1xG26
J1xG27
J1xG28
J1xG29
J1xG30
J1xG31
J1xG32
J1xG33
J1xG34
J1xG35
J1xG36
J1xG37
J1xG38
J1xG39
J1xG40
J1xH1
J1xH2
J1xH3
J1xH4
J1xH5
J1xH6
J1xH7
J1xH8
J1xH9
J1xH10
J1xH11
J1xH12
J1xH13
J1xH14
J1xH15
J1xH16
J1xH17
J1xH18
J1xH19
J1xH20
J1xH21
J1xH22
J1xH23
J1xH24
J1xH25
J1xH26
J1xH27
J1xH28
J1xH29
J1xH30
J1xH31
J1xH32
J1xH33
J1xH34
J1xH35
J1xH36
J1xH37
J1xH38
J1xH39
J1xH40
J1xJ1
J1xJ2
J1xJ3
J1xJ4
J1xJ5
J1xJ6
J1xJ7
J1xJ8
J1xJ9
J1xJ10
J1xJ11
J1xJ12
J1xJ13
J1xJ14
J1xJ15
J1xJ16
J1xJ17
J1xJ18
J1xJ19
J1xJ20
J1xJ21
J1xJ22
J1xJ23
J1xJ24
J1xJ25
J1xJ26
J1xJ27
J1xJ28
J1xJ29
J1xJ30
J1xJ31
J1xJ32
J1xJ33
J1xJ34
J1xJ35
J1xJ36
J1xJ37
J1xJ38
J1xJ39
J1xJ40
J1xK1
J1xK2
J1xK3
J1xK4
J1xK5
J1xK6
J1xK7
J1xK8
J1xK9
J1xK10
J1xK11
J1xK12
J1xK13
J1xK14
J1xK15
J1xK16
J1xK17
J1xK18
J1xK19
J1xK20
J1xK21
J1xK22
J1xK23
J1xK24
J1xK25
J1xK26
J1xK27
J1xK28
J1xK29
J1xK30
J1xK31
J1xK32
J1xK33
J1xK34
J1xK35
J1xK36
J1xK37
J1xK38
J1xK39
J1xK40
C157C157x1
C157x2
R6R6x1R6x2
U7U7x65
J2J2x1
J2x2
J2x3
J2x4
J2x5
J2x6
J2x7
J2x8
J2x9
J2x10
J2x11
J2x12
J2x13
J2x14
J2x15
J2x16
J2x17
J2x18
J2x19
J2x20
J2x21
J2x22
J2x23
J2x24
J2x25
J2x26
JU22JU22x1
JU22x2
JU22x3
TPUSB3VTPUSB3Vx1
C134C134x1C134x2
C155C155x1C155x2
C13C13x1C13x2
C53C53x1
C53x2
JU6JU6x1JU6x2JU6
x3
C135C135x1C135x2
C179C179x1
C179x2
C132C132x1
C132x2
C60C60x1C60x2
C65C65x1
C65x2C18C18x
1C18
x2
C16C16x1C16x2
PERRIPERRIx1
U8_PG2U8_PG2x1
C80C80x1
C80x2 TP25VTP25
Vx1
JU8JU8x1
JU8x2
JU8x3
U204U204x17U204
x18
U204x19
U204x20
U204x21
JU25JU25x1
JU25x2
C43C43x1
C43x2
JU7JU7x1
JU7x2
JU7x3
JU7x4
JU7x5
JU7x6
JU7x7
JU7x8
JU7x9
JU7x10
JU7x11
JU7x12
JU7x13
JU7x14
JU7x15
C39C39x1
C39x2
TDATDAx1
TDCTDCx1
C37C37x1C37x2
C58C58x1C58x2
C131C131x1
C131x2
C47C47x1
C47x2
C48C48x1
C48x2
C102C102x1
C102x2
U8_PG1U8_PG1x1
R10R10x1
R10x2
R166R166x1R166x2
C160C160x1
C160x2
C136C136x1
C136x2
C141C141x1
C141x2
C61C61x1
C61x2
C126C126x1
C126x2
C36C36x1
C36x2
C35C35x1
C35x2
C128C128x1
C128x2
C42C42x1
C42x2
C41C41x1
C41x2
C54C54x1C54x2 C59C59x1C59
x2
C45C45x1
C45x2
C44C44x1C44x2
C101C101x1
C101x2
C51C51x1
C51x2
C38C38x1C38x2
C40C40x1
C40x2
C64C64x1C64x2
C49C49x1
C49x2
C63C63x1
C63x2
C176C176x1C176x2C50C50
x1
C50x2
C175C175x1
C175x2
C177C177x1
C177x2
C15C15x1
C15x2
C178C178x1
C178x2 C156C156
x1C156
x2
C133C133x1C133x2
R42R42x1R42x2
TP5VTP5Vx1
C46C46x1C46x2
JU5JU5x1
JU5x2
JU5x3
JU5x4
JU5x5
JU5x6
JU5x7
JU5x8
JU5x9
JU5x10
JU5x11
JU5x12
JU5x13
JU5x14
JU5x15
C34C34x1C34x2
C55C55x1C55x2
C6C6x1C6x2
U14U14x17 U14x18
U14x19
U14x20
U14x21
C75C75x1
C75x2C77C7
7x1C77x
2
C52C52x1C52x2
C17C17x1C17x2
R167R167x1R167x2
R155R155x1
R155x2
R1R1x1R1x2
C85C85x1
C85x2
U8U8x25U8x
42
U8x43
U8x44
U8x45
ANALOG33ANALOG33x
1ANA
LOG33x
2
JU2JU2x1
JU2x2
JU2x3
USB23USB23x10
USB23x11
TP4TP4x1 JU23JU23x1
JU23x2
JU23x3
JU23x4
JU23x5
JU23x6
JU23x7
JU23x8
JU23x9
JU23x10
JU23x11
JU23x12
JU23x13
JU23x14
JU23x15
JU11JU11x1
JU11x2
JU11x3
C124C124x1
C124x2
ANALOG18ANALOG18x
1ANA
LOG18x
2U13U13x17 U13x
18
U13x19
U13x20
U13x21
JU3JU3x1
JU3x2
JU3x3
U9U9x17 U9x18
U9x19
U9x20
U9x21
X117X117x1X115X115x1
C139C139x1
C139x2
LOCKLOCKx1
PERRPERRx1
R21R21x1
R21x2
R22R22x1
R22x2
R5R5x1
R5x2
R4R4x1
R4x2
R8R8x1R8x2
R9R9x1
R9x2
C71C71x1
C71x2 C72C7
2x1C72x
2 R156R156x1
R156x2
C73C73x1
C73x2 R154R154x
1R154x
2
R161R161x1R161x2
R159R159x1R159x2
R158R158x1R158x2
C76C76x1C76x2
R160R160x1
R160x2
C84C84x1C84x2
R2R2x1R2x2
X43X43x1
X43x
2
X1X1x1
X1x2
C5C5x1C5x2U6U6
x1
U6x2
U6x3
U6x4
U16U16x1
U16x
2U1
6x3
U16x
4
R41R41x1R41x2
U5U5x1
U5x2
U5x3
U5x4
TP13TP13x1
TP33VTP33Vx1
TP17TP17x1
TP6TP6x1
TP18TP18x1
TP15TP15x1
C130C130x1
C130x2
JU26JU26x1
JU26x2
JU26x3
C129C129x1
C129x2
C92C9
2x1
C9
2x2
C93C9
3x1
C9
3x2
C147C147x1
C147x2
C140C140x1
C140x2 C153C153
x1C153
x2
C142C142x1
C142x2C159C159
x1C159
x2
C154C154x1
C154x2
C144C144x1
C144x2C143C143
x1C143
x2
C68C68x1C68x2
C33C33x1C33x2
C27C27x1C27x2
C56C56x1C56x2
C7C7x1
C7x2
C62C62x1C62x2
C23C23x1C23x2
C70C70x1
C70x2
C12C12x1
C12x2
C69C69x1
C69x2
C57C57x1
C57x2
X113X113x1 X111X111x1 X67X67
x1
X67x2 X68X68x1
X68x2
X58X58x1
X59X59x1 X60X60x1
X120X120x1
X112X112x1X114X114x1X116X116x1 X118X118x1X119X119x1
X39X39x1
X51X51x1
X52X52x1
X53X53x1
X54X54x1
X55X55x1
X56X56x1
X57X57x1
X122X122x1
X123X123x1
X15X15x1
X15x
2X12X12x
1X1
2x2
JU24JU24x1
JU24x2
C137C137x1
C137x2
C138C138x1
C138x2
C145C145x1
C145x2
C146C146x1C146x2
C158C158x1
C158x2
GNDGNDx1 X11X11x1
DIGITAL09DIGITAL09x1
DIGITA
L09x2
X17X17x1
X17x
2
X182X182x1
X182
x2
DIGITAL18DIGITAL18x1
DIGITA
L18x2
TP14TP14x1
TP16TP16x1
C96C96x1C96x2
REF_CLKOUT
REF_CLKOUTx2
REF_CLKOUTx3
REF_CLKOUTx4
REF_CLKOUTx5
REF_CLKOUTx6
REF_CLKOUTx7
REF_CLKOUTx8
REF_CLKOUTx9
REF_CLKOUTx10
REF_CLKOUTx11
REF_CLKOUTx12
REF_CLKOUTx13
REF_CLKOUTx14
REF_CLKOUTx15
REF_CLKOUTx16
REF_CLKOUTx17
REF_CLKOUTx18
REF_CLKOUTx19
JU4JU4x1
JU4x2
AVCLKAVCLKx1
AVCL
Kx2
AVDD18AVDD18x1
AVDD
18x2
VDD09VDD09x1
VDD0
9x2
VDD18VDD18x1
VDD1
8x2
X5X5x1
X6X6x1
X7X7x1X8X8x
1
JU12JU12x1
JU12x2
REFIOAREFIOAx1
REFIO
Ax2
X16X16x1
X16x
2
X9X9x1
X10X10x1
OUTOUTx2OUT
x3OUT
x4OUT
x5OUT
x6OUT
x7OUT
x8OUT
x9OUTx
10OUTx
11
OUTx12
OUTx13
OUTx14
OUTx15
OUTx16
OUTx17
OUTx18
OUTx19
ANALOGCLKANALOGCLKx1
ANALOG
CLKx2
INTR_NINTR_Nx1
USB1V8USB1V8x1
RST_NRST_Nx1
VADJ_FORCE_SVADJ_FORCE_Sx1
Bill of Materials (BOM) (Rev 0, 6/15)
Item
1 Uninsulated Banana Jacks 2 5.0V_IN, GND JOHNSON 108-0740-001
2
PC Test point, red 11 TP25V, TP33V, LOCK, PERR, PERRI, INTR_N, USB1V8, TPUSB3V, TP5V, RST_N, TDA
Keystone Electronics 5000
3 0.1uF ±10% 16V X7R ceramic capacitors (0603) 14C1, C2, C3, C4, C5, C6, C66, C82, C84, C96, C99, C148, C149, C150 TDK C1608X7R1C104K
4 10uF ±20% 10V X5R ceramic capacitors (1210) 3 C14, C79, C88 TDK C3225X5R1A106M
5 47uF ±20% 16V tantalum capacitors (C-Case) 7 C19, C20, C21, C22, C114, C115, C116 AVX TPSC476M016R0350
6 150uF ±20% 10V celectrolytic capacitor (6.6mmx 6.6mm) 1 C24 Panasonic EEEFK1A151AP
7 10uF ±20% 6.3V X5R ceramic capacitors (0805) 18
C25, C26, C28, C29, C30, C31, C32, C117, C118, C119, C120, C121, C122, C123, C162, C164, C202, C213 TDK C2012X5R0J106M
8 100pF ±5% 50V C0G ceramic capacitors (0402) 2 C8, C94 TDK C1005C0G1H101J
9 1.0uF ±20% 6.3V X5R ceramic capacitors (0402) 18
C35, C36, C39, C40, C41, C42, C43, C105, C106, C107, C108, C124, C125, C126, C128, C129, C130, C131 TDK C1005X5R0J105M
10 0.1uF ±20% 6.3V X5R ceramic capacitors (0201) 45
C46, C47, C48, C49, C50, C51, C100, C102, C127, C132, C133, C134, C135, C136, C137, C138, C139, C140, C141, C142, C143, C144, C145, C146, C147, C153, C154, C155, C156, C157, C158, C159, C160, C175, C176, C177, C178, C179, C205, C206, C207, C208, C209, C210, C211 TDK C0603X5R0J104M
11 0.22uF ±20% 6.3V X5R ceramic capacitors (0201) 33
C7, C12, C13, C15, C16, C17, C18, C23, C27, C33, C34, C37, C38, C44, C45, C52, C53, C54, C55, C56, C57, C58, C59, C60, C61, C62, C63, C64, C65, C68, C69, C70, C101 Taiyo Yuden JMK063BJ224MP-F
12 2200pF ±10% 50V C0G ceramic capacitor (0603) 4 C67, C71, C73, C76 TDK C1608C0G1H222
13 33pF ±5% 50V C0G ceramic capacitors (0603) 2 C72, C77 TDK C1608C0G1H330J
14 1uF ±10% 10V X5R ceramic capacitor (0603) 3 C74, C201, C214 TDK C1608X5R1A105K
15 3300pF ±10% 50V C0G ceramic capacitors (0603) 1 C75 TDK C1608C0G1H332K
16 4.7uF ±20% 10V X5R ceramic capacitor (0603) 7 C78, C91, C95, C97, C165, C166, C203 TDK C1608X5R1A475M
17 0.22uF ±10% 10V X5R ceramic capacitor (0603) 2 C80, C85 TDK C1608X5R1A224K
18 470uF ±20% 6.3V Electroltyic capacitor (10.3mmx 10.3mm) 2 C83, C87 SANYO 6SVP470MX
19 6.8uF ±10% 10V X5R ceramic capacitor (1206) 4 C90, C98, C167, C168 TDK C3216X5R1C685M
20 0.47uF ±20% 4V X7S ceramic capacitors (0204) 2 C92, C93 Murata LLL153C70G474ME17E
21 0.01uF ±10% 25V X5R ceramic capacitors (0402) 1 C163 TDK C1005X5R1E103K
22 0.1uF ±10% 10V X5R ceramic capacitors (0402) 4 C103, C104, C112, C113 TDK C1005X5R1A104k
23
24 0.1pF ±10% 100V ceramic capacitors (0603) 2 C89, C204 GRM188R72A104K
25 3.3uF ±10% 10V ceramic capacitor (0603) 1 C11 TDK C1608X5R1A335K
26 8.0pF 50V NP0/C0G 0603 2 C9, C10 TDK C1608C0G1H080C
27 6.8pF ±0.25pF 50V C0G ceramic capacitor (0402) 1 C466 Murata GRM1555C1H6R8C
28 0.92” SMA connectors (PC edge mount) 1 OUT Rosenberger 32K243-40ML5
29 LED Green (0603) 1 D1 Panasonic LNJ314G8TRA
30 Momentary Pushbutton Switches 3 MODE2, SE, RSTN Omron B3S-1000
31 Small Black Test Points 9 GND (x8), TDC Keystone Electronics 5001
32 Power filter ferrite bead 1 FB7 Steward/Laird Signal Integ Prod 28F0121-1SR-10 (Digikey 240-2436-1-ND)
33 FMC Connector 1 J1 Samtech ASP-134488-01
34 2 Pin Header(OK to substitute with manufactured header, do not cut to fit) 4JU4, JU12, JU24, JU25
Sullins Electronics Corp. S1012EC-02-ND
35 3x5 Header(OK to substitute with manufactured header, do not cut to fit) 3 JU5, JU7, JU23 TSW-105-15-T-T-ND
36 3 pin headers 8 JU2, JU3, JU6, JU8, JU10, JU11, JU22, JU26 TSW-103-07-T-S
37 Chip bead cores (0603) 2 L1, L8 Panasonic EXC-ML16A270U
38 Chip bead cores (1812) 4 L2, L11, L12, L13 Panasonic EXC-CL4532U1
3910uH 3A Inductor
1 L5 Sumida CDRH104RNP-100N
404.7uH 5.5A Inductor
1 L6 Vishay IHLP2020CZER4R7M11
41 390nH wire-wound chip inductors (2520) 2 L9, L10 Coilcraft 1008CS-391XJLB
42 1.3nH 1.2A Inductor (0402) 1 L17 Murata LQW15AN1N3C10D
43 FERRITE BEAD 28 OHM 4.0A 0603 2 L16, L3 Wurth 742792603
44 3OV 9A n-channel MOSFET ( 8 SO) 2 N1, N2 Fairchild FDS6692A
45 Dual n-channel 30V MOSFET (8 SO) - 1 N3 Fairchild Semiconductor FDS6982AS
46 0 Ohm 5% resistors (0603) 30
R1, R2, R11, R15, R16, R18, R19, R20, R21, R22, R29, R30, R31, R32, R33, R34, R35, R36, R37, R38, R39, R40, R49, R164, R212, R202, R203, R204, R205, R207 Venkel 0603-000T
47 0 Ohm 5% resistors (0603) - Dual_Opt 1 R209 Venkel 0603-000T
48 0 Ohm 5% resistors (2010) 1 R17 Venkel 2010-000T
49 0 Ohm 1% resistors (0201) 12R50, R51, R52, R53, R54, R55, R56, R57, R58, R59, R60, R61 PanasonicERJ-1GE0R00C
50 1k Ohm 1% resistor (0603) 4 R6, R12, R41, R42 Venkel 0603-1001T
51 143 Ohm 1% resistor (0603) 2 R8, R158 Venkel 0603-1430T
52 8.45k Ohm 1% resistor (0603) 1 R9 Venkel 0603-8451T
53 16.9k Ohm 1% resistor (0603) 1 R10 Venkel 0603-1692T
54 10k Ohm 1% resistor (0603) 9R47, R64, R65, R75, R76, R77, R154, R161, R220 Venkel 0603-1002T
55 499 Ohm 1% resistor (0402) 2 R24, R214 Venkel 0402-4990T
56 47 Ohm 1% resistor (0603) 1 R7
57 590 Ohm 1% resistor (0603) 1 R69
58 866 Ohm 1% resistor (0603) 1 R67
59 1.87k Ohm 1% resistor (0603) 1 R68 Venkel 0603-103T
60 4.7k Ohm 1% resistor (0603) 1 R217
61 5.23k Ohm 1% resistor (0603) 1 R66 Venkel 0603-2372T
62 8.06k Ohm 1% resistor (0603) 1 R156 Venkel 0603-8061T
63 33.2k Ohm 1% resistor (0603) 2 R155, R157 Venkel 0603-3322T
64 9.53k Ohm 1% resistor (0603) 1 R159 Venkel 0603-9531T
65 3.01k Ohm 1% resistor (0603) 1 R160 Venkel 0603-3011T
66 10 Ohm 5% resistor (0603) 4 R4, R5, R166, R167 Venkel 0603-100T
67 2.2k Ohm 5% resistor (0603) 1 R23 Venkel 0603-222T
68 2.0k Ohm ±1% resistors (0603) 1 R213 Venkel 0603-2001T
69 10.0k Ohm 5% resistor (0402)
19 R13, R14, R25, R26, R27, R28, R43, R44, R45, R46, R141, R142, R143, R144, R145, R146, R147, R200, R201
70 12.0 kOhm 1% resistor (0603) 1 R3
71 133k Ohm ±1% resistors (0603) 2 R62, R218 Venkel 0603-1333T
72 80.6k Ohm ±1% resistors (0603) 2 R63, R219 Venkel 0603-8062T
73 1:1 3000MHz RF transformers 2 T5, T6 Mini-Circuits TC1-1-13M-34+
74 Digital Up-converter and RF DAC (280 LFBGA) 1 U23 Maxim MAX5861Uxx+
75 Quad Level Translator (16-TSSOP) 5 U2, U3, U12, U17, U21 Texas Instrument SN74AVC4T774PW
76 Temperature sensor (16-QSOP) 1 U4 Maxim MAX6654MEE+T
77 3.3V Supervisory Circuit (SOT-143) 1 U5 Maxim MAX811TEUS+
78 3.3V Supervisory Circuit (SOT-143) 2 U6, U16 Maxim MAX812TEUS+
79 Dual DC-DC Controller (24 TQFN-EP) 1 U8 Maxim MAX15023ETG+
80 1.8V LDO Regulator (16 TSSOP-EP) 2 U14,U9 Maxim MAX1793EUE18+
81 1.25V precision voltage reference (8 SO) 1 U11 Maxim MAX6161AESA+
82
83 EEPROM 128X16 1 U27 Microchip 93LC56B-E/MS
84 3.3VLDO Regulator (16 TSSOP-EP) 2 U13, U204 Maxim MAX1793EUE33+
85 LDO Regulator (8 TDFN-EP) 1 U15 Maxim MAX8902AATA+
86
87 UART to USB Converter(TQFP-32L 7mmx7mm) 1 U7 FTDI: FT4232HQ-QFN
88 2.5V LDO Regulator (5 SC70) 1 U205 Maxim MAX8511EXK25+ Top Mark
89 3.3V LDO Regulator (5 SC70) 1 U206 Maxim MAX8511EXK33+ Top Mark
90 Mini USB Receptacle 1 USB23 575-89743005
91 12MHz crystal 1 Y1 ECS-120-18-28A CSM-4AX
92 Shunts 22 Sullins Electronics Corp. STC02SYAN
93 PCB: MAX5861 EVALUATION KIT 1 1 Oz Impedance Controlled Network PCB
94 PCB: MAX5861 EVALUATION KIT 1 1 Oz Impedance Controlled Cirrex
95 PCB: MAX5861 EVALUATION KIT 1 1 Oz Impedance Controlled MEI
96
97 Not installed capacitors (0805) 2 C81, C86
98 Not installed, capacitor (0603) 3 C109, C110, C111
99 Not installed resistor (0603) 5 R162, R163, R165, R206, R208
100 Not installed resistor (0603) 3 R215, R216, R48
101 Not installed, testpoints 2 U8_PG1, U8_PG2 Keystone 5000
102 Not installed, IC's 3 U1, U10, U28
103 Not installed, 2x13 header socket 0.1" okay to substitute (2.54mm pitch, >3.9mm ht) 2 J2, J3 Sullins Connector Solutions SFH11-PBPC-D13-ST-BK
104 Not installed, 0.92” SMA connectors (PC edge mount) 1 REF_CLKOUT Rosenberger 32K243-40ML5
105 Not installed, 1:1 3000MHz RF transformers 1 T4 Mini-Circuits TC1-1-13M+
106Not installed version of device, 1.25V precision voltage reference (8 SO) (MAX6161AESA+ installed)
0 U11 Maxim MAX6161BESA+
107
108
109 LARGE BROWN 9 3/8” x 71 /4” x 2 1/2"” Pack-out
110 Label Pack-out
111 WEB instructions for Maxim Data Sheet Pack-out
112 BAG, STATIC SHIELD ZIP 8”x10”, W/ ESD LOGO Pack-out
113 FOAM, ANTI-STATIC PE 12”x12”X5MM Pack-out
114 CABLE, USB-A male to USB-mini 6ft 1
115 4-40 x 0.75” machine screws, pan 4 Item A Grainger 1ZB43 (part of Hardware Kit)
116 flat washer (ID - 0.125”, OD- 0.312”) 6 Item B Grainger 2WA22 (part of Hardware Kit)
117 4-40 x 1 ” aluminum hex standoff 4 Item C Kyestone 2205
118 Nylon flat washers (ID - 0.140”, OD-0.375”) 4 Item D Keystone Electronics 3213
119 Hardware Kit (containing Items A, B, C, D, E and F) Contains Items A-D
120 BAG, STATIC SHIELD 5"X8",W/ESD LOGO Hardware Kit-Contains Items A-D
121 BAG, STATIC SHIELD ZIP 4”x6”, W/ ESD LOGO Items A-D
122
123 XFMR_CLK_Module (Installed) 1 Install on board
124 JUMPER TABLE
JUMPER SHUNT POSITION
JU4 JU12 Installed 1-2
JU7 JU23 1-2, 4-5, 7-8, 10-11
JU5 2-3, 4-5, 7-8, 10-11
JU2 JU3 JU8 JU10 JU26 1-2
JU6 JU11 JU22 2-3
R209 2-3
Reference Designators Manufacturer Part Number QTY Per
Component Description
MAXESSENTIAL01+
Description The Essential Analog toolkit contains a unique collection of Maxim's high-performance,
analog building block products. This curated group of parts represent a selection of
Maxim’s vast product lines, specific to 20 product categories, from key performance
areas including power efficiency, precise measurement, reliable connectivity, and robust
protection.
The ICs in the toolkit offer the breadth of each product category: low power, low noise,
multi-channel, high resolution, high accuracy, and high speed. All these features
empower your designs and bring value to your systems.
At 6.4cm x 8.9cm x 1.3cm, the box itself is small, lightweight, and easy to carry.
Products are guarded from ESD using a gel and ESD-protected box.
A guide that labels each of the part types inside the box supports the toolkit. Go to the
Maxim website to find more information for the individual part numbers.
When planning your next design, pick up an Essential Analog toolkit to review Maxim’s
high-performance analog products.
Key Features
Small, 6.4cm x 8.9cm x 1.3cm Package ESD Protection-Lined Package
Accelerate Your Design with Quick Access
Maxim Integrated