EVAL-AD7625FMCZ

EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com Evaluating the AD7625/AD7626 16-Bit, 6 MSPS/10 MSPS PulSAR Differential ADC FEATURES GENERAL DESCRIPTION Full featured evaluation board for the AD7625/AD7626 Versatile analog signal conditioning circuitry On-board reference, reference buffers, and ADC drivers System demonstration board compatible (EVAL-SDP-CH1Z) PC software for control and data analysis of time and frequency domain The EVAL-AD7625FMCZ/EVAL-AD7626FMCZ are evaluation boards designed to demonstrate the low power performance of the AD7625/AD7626 16-bit, 6 MSPS/10 MSPS PulSAR® differential analog-to-digital converters (ADCs), and to provide an easy to understand interface for a variety of system applications. Full descriptions of the AD7626 and AD7625 are available in the respective product data sheets, which should be consulted in conjunction with this user guide when using this evaluation board. The user PC software executable controls the evaluation board over the USB cable through the Analog Devices, Inc., system demonstration platform board (SDP) board, EVAL-SDP-CH1Z. EVALUATION KIT CONTENTS EVAL-AD7625FMCZ/EVAL-AD7626FMCZ evaluation board ADDITIONAL EQUIPMENT AND SOFTWARE System demonstration platform (EVAL-SDP-CH1Z) Precision source World-compatible, 12 V dc supply adapter (included with EVAL-SDP-CH1Z) Power supply, +7 V/−2.5 V (optional) USB cable SMA cable On-board components include: the ADR3412/ADR4540 high precision, buffered band gap 1.2 V/4.096 V reference options; the AD8031 reference buffer; the ADA4899-1/ADA4897-1 signal conditioning circuit with two op amps and an option to use a differential amplifier (ADA4932-1); and the ADP7102, ADP7104, ADP124, and ADP2300 regulators to derive necessary voltage levels on board. ONLINE RESOURCES These evaluation boards interface to the SDP board via a 160-pin FMC connector. The SMA connectors (J3/J6 and J5/J8) are provided for the low noise analog signal source. Documents Needed AD7625/AD7626 data sheet EVAL-AD7625FMCZ/EVAL-AD7626FMCZ user guide Required Software AD7625/AD7626 evaluation software TYPICAL EVALUATION SETUP TO 12V WALL WART SIGNAL SOURCE SMA CONNECTOR PC 12552-001 USB Figure 1. PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. Rev. A | Page 1 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide TABLE OF CONTENTS Features .............................................................................................. 1 Basic Hardware Setup ...................................................................6 Evaluation Kit Contents ................................................................... 1 Evaluation Board Software ...............................................................7 Additional Equipment and Software ............................................. 1 Software Installation .....................................................................7 Online Resources .............................................................................. 1 Launching The Software ..............................................................9 General Description ......................................................................... 1 Software Operation .................................................................... 10 Typical Evaluation Setup ................................................................. 1 Waveform Capture ..................................................................... 12 Revision History ............................................................................... 2 DC Testing—Histogram ............................................................ 13 Functional Block Diagram .............................................................. 3 AC Testing—Histogram ............................................................ 13 Evaluation Board Hardware ............................................................ 4 AC Testing—FFT Capture ........................................................ 14 Device Description ....................................................................... 4 Summary Tab .............................................................................. 15 Hardware Link Options ............................................................... 4 Troubleshooting .............................................................................. 16 Power Supplies .............................................................................. 4 Software ....................................................................................... 16 Serial Interface .............................................................................. 5 Hardware ..................................................................................... 16 Analog Inputs ................................................................................ 5 Evaluation Board Schematics and Artwork ................................ 17 Reference Options ........................................................................ 6 Bill of Materials ............................................................................... 26 Layout Guidelines ......................................................................... 6 REVISION HISTORY 8/15—Rev. 0 to Rev. A Changes to General Description Section ...................................... 1 Change to Power Supplies Section ................................................. 4 Change to PLL Enable Section ...................................................... 10 Added Evaluation Board Schematics and Artwork Section, and Figure 24; Renumbered Sequentially ........................................... 17 Added Figure 25.............................................................................. 18 Added Figure 26.............................................................................. 19 Added Figure 27.............................................................................. 20 Added Figure 28.............................................................................. 21 Added Figure 29 and Figure 30 .................................................... 22 Added Figure 31 and Figure 32 .................................................... 23 Added Figure 33 and Figure 34 .................................................... 24 Added Figure 35.............................................................................. 25 Added Bill of Materials Section and Table 4 ............................... 26 11/14—Revision 0: Initial Version Rev. A | Page 2 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 FUNCTIONAL BLOCK DIAGRAM +12V WALL WART ADP7102 +12V +5V ADP7104 ADP2300 +12V +7V USB PORT –VS = –2.5V ADR4540 +7V +VS +4.096V AD8031 +2.5V ADR3412 REFIN VIN+ POWER SUPPLY CIRCUITRY ADP124 +4.096V REF VDD1 VDD2 VIO CNV± 100Ω ADA4899-1 ADSP-BF527 –VS IN+ AD7625/ AD7626 +7V LVDS INTERFACE 100Ω DCO± IN– VIN– 100Ω D± GND ADA4899-1 –VS SPARTAN-6 FPGA XC6SLX25 CLK± VCM 100Ω 2.5V +7V VCM AD8031 EVAL-SDP-CH1Z 160-PIN 10mm VITA 57 CONNECTOR Figure 2. Rev. A | Page 3 of 28 12552-002 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide EVALUATION BOARD HARDWARE DEVICE DESCRIPTION POWER SUPPLIES The AD7625/AD7626 are 6 MSPS/10 MSPS, high precision, power efficient, 16-bit PulSAR ADCs that use SAR based architecture and do not exhibit any pipeline delay or latency. The AD7625/AD7626 are specified for use with 5 V and 2.5 V supplies (VDD1, VDD2). The interfaces from the digital host to the AD7625/AD7626 use 2.5 V logic only. The power (12 V) for the EVAL-AD7625FMCZ/EVALAD7626FMCZ evaluation boards comes through a 160-pin FMC connector (J7) from the EVAL-SDP-CH1Z SDP board. The user also has the option of using external bench top supplies to power the on-board amplifiers. The on-board regulators generate the required levels from the applied 12 V rail. The AD7625/AD7626 use an LVDS interface to transfer data conversions. Complete specifications for the AD7625/AD7626 are provided in the respective product data sheets, which should be consulted in conjunction with this user guide when using the EVAL-AD7625FMCZ/EVAL-AD7626FMCZ evaluation boards. Full details on the EVAL-SDP-CH1Z are available at the SDP product page on the Analog Devices website. The ADP7102 (U18) supplies 7 V for the +VS of the ADC driver amplifiers (ADA4899-1 or ADA4932-1) and the external reference ADR4540 (U14). The ADP7104 (U10) delivers 5 V for VDD1 (U1), the external reference ADR3412 (U4), the ADP2300 (U5), and the ADP124 (U12 and U16). The ADP2300 (U5) generates −2.5 V for the amplifier –VS. The ADP124 (U12 and U16) provides a 2.5 V supply for VDD2 and VIO (U1). HARDWARE LINK OPTIONS The 3.3 V supply for the EEPROM (U7) comes from the EVALSDP-CH1Z through a 160-pin FMC connector (J7). Each supply is decoupled where it enters the board and again at each device. A single ground plane is used on this board to minimize the effect of high frequency noise interference. The default link settings on the board and the function of the link options are described in Table 1. Table 1. Pin Jumper Descriptions Link JP1, JP2 JP6 JP10 JP11, JP12 Default B to center B to center B to center B to center JP13, JP14 B to center LK2 LK3 LK6 LK9 LK10 Inserted Inserted B A A Description Connects CNV+ and CNV− from the FPGA. The A to center position connects the CNV signal from the AD9513. Connects 7 V to amplifier +VS. Connects −2.5 V to amplifier −VS. Connects analog inputs VIN+ and VIN− to the inputs of the ADC driver ADA4899-1 or ADA4897-1. The A to center position sets the fully differential path through the ADA4932-1. Connect outputs from the ADA4899-1 to the inputs of the ADC. The A to center position sets the fully differential path through the ADA4932-1. Connects REFIN to the1.2 V external reference. Connects the 4.096 V output from the ADR4540 after buffer AD8031. Connects the output of the VCM buffer to the VCM of the amplifier. Connects to the 7 V supply coming from the ADP7102. Connects to the −2.5 V coming from the ADP2300. Table 2. On-Board Connectors Connector J1 J2, J10 J3, J5, J6, J8 J4 J9 J7 J11, J12 Description SMA low noise, low jitter clock source input. SMA CNV input. This option is for using the external CNV signal. SMA analog input. Connects the low noise analog signal source to the inputs of the ADC driver ADA4899-1, ADA4897-1, or ADA4932-1. 3-pin terminal. This option is for using external bench top supplies. Apply external +VS, −VS, and GND to power amplifiers on the EVAL-AD7625FMCZ/EVAL-AD7626FMCZ boards. 6-pin (2 × 3) socket. This option is for interfacing with an external ADC driver board. 160-pin FMC 10 mm male VITA 57 connector. This connector mates with the EVAL-SDP-CH1Z board. SMA low noise, low jitter clock output from the AD9513. Rev. A | Page 4 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 Table 3. On-Board Power Supplies Description Power Supply +VS Voltage Range (V) 5 to 7 −VS −2 to −5 |+VS to −VS| VDD1 VDD2, VIO 12 5 2.5 1 2 Description The ADP7104 (U10) and ADP7102 (U18) generate the necessary 5 V and 7 V supplies, respectively, from the 12 V supply coming from the EVAL-SDP-CH1Z. The 7 V supply is recommended for the onboard amplifier +VS. The 5 V supply is provided to VDD1 (U1), the external reference ADR3412 (U14), the ADP2300 (U5), and the ADP124 (U12 and U16). The user also has an option to use an external bench top supply +VS through J4. The ADP2300 generates −2.5 V for amplifier −VS. The user also has an option to use an external bench top supply −VS through J4. Maximum range of supply for correct operation.1 AD7625/AD7626 analog supply rail.2 ADC supply rails.2 Dictated by ADA4899-1 supply operation. Refer to the AD7625 and AD7626 data sheets. SERIAL INTERFACE ANALOG INPUTS The EVAL-AD7625FMCZ/EVAL-AD7626FMCZ evaluation boards use the serial interface connection to the EVAL-SDPCH1Z SDP board. The evaluation boards operate only in echoclocked serial interface mode. This mode requires three LVDS pairs (D±, CLK±, and DCO±) between the AD7625/AD7626 and the digital host. The SDP board features include The analog inputs applied to the EVAL-AD7625FMCZ/EVALAD7626FMCZ are the J3 and J5 SMA (push-on) connectors. These inputs are buffered with dedicated discrete driver amplifier circuitry (U13 and U15 or U6), as shown in Figure 1. • • • • • • • • • XILINX Spartan®-6 FPGA DDR2 • Micron MT47H32M16Hr-25E:G 8 Mb × 16 bits × 4 Banks(512 Mb/64 Mb) SRAM • ISSI IS61WV25616BLL-10BLI 256 kB × 16 bits (4 Mb/512 kB) 1 × 160-pin FMC-LPC connector (refer to the VITA 57 specification) • Samtec ASP-134603-01 • Up to 1080 Mbps LVDS • Single-ended LVCMOS • Power Analog Devices ADSP-BF527 Blackfin® processor • Core performance up to 600 MHz • 208-ball CSP-BGA package • 24 MHz CLKIN oscillator 32 Mb flash memory • Numonyx M29W320EB or Numonyx M25P32 SDRAM memory • Micron MT48LC16M16A2P-6A 16 Mb × 16 bits (256 Mb/32 MB) 2 × 120-pin small footprint connectors • Hirose FX8-120P-SV1(91), 120-pin header Blackfin processor peripherals exposed • SPI • SPORT • TWI/I2C • GPIO • PPI • Asynchronous parallel The circuit allows different configurations, input range scaling, filtering, the addition of a dc component, the use of a different op amp, and a differential amplifier and supplies. The analog input amplifiers are set as unity-gain buffers at the factory. The driver amplifiers (U6, U13, and U15) positive rails are driven from 7 V (from ADP7102, U18), and the negative rail is driven from −2.5 V. The positive rails of the other reference buffers (U8 and U11) are driven from 7 V, and the negative rails are grounded. Change these values as required. Table 3 lists the range of possible supplies. The default configuration sets both U13 and U15 at midscale generated from a buffered reference voltage (VCM) of the AD7625/ AD7626 (U1). The evaluation board is factory configured to provide either a single-ended path or a fully differential path, as described in Table 1. For dynamic performance, a fast Fourier transform (FFT) test can be performed by applying a very low distortion source. For low frequency testing, the audio precision source can be used directly, because the outputs on these are isolated. Set the outputs for balanced and floating. Different sources can be used, though most are single ended and use a fixed output resistance. Because the evaluation board uses the amplifiers in unity gain, the noninverting input has a common-mode input with a series 1 kΩ resistor, which must be taken into account when directly connecting a source (voltage divider). Rev. A | Page 5 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide REFERENCE OPTIONS BASIC HARDWARE SETUP The AD7625/AD7626 have an internal 4.096 V reference along with an internal buffer that can be used with an external reference, or the devices can be used directly with an external 4.096 V reference. The EVAL-AD7625FMCZ/EVAL-AD7626FMCZ evaluation boards can be configured to use any of these references. To use the internal ADC reference, leave LK2 and LK3 open. To use the ADR4540, insert LK3 and leave LK2 open. (The 4.096V output of the ADR4540 is buffered by an AD8031 in a unity-gain configuration.) The EVAL-AD7625FMCZ/EVAL-AD7626FMCZ evaluation boards connect to the EVAL-SDP-CH1Z SDP board. The SDP board is the controller board, which is the communication link between the PC and the main evaluation board. To use the internal reference buffer on the AD7625/AD7626 REFIN pin, insert LK2 and leave LK3 open. The 1.2 V reference voltage is applied to REFIN prior to the internal buffer in the AD7625/AD7626, which creates the required internal 4.096 V reference. (The 1.2 V output of the ADR3412 is buffered by an AD8031 in a unity-gain configuration). The various options for using this reference are controlled by the EN1 and EN0 pins (EN bits on software), as described in the AD7625/AD7626 data sheets. LAYOUT GUIDELINES • • • • • • 2. 3. 4. 5. When laying out the printed circuit board (PCB) for the AD7625/AD7626, follow these recommended guidelines to obtain the maximum performance from the converter. • 1. Solder the AD7625/AD7626 (Pin 33) directly to the PCB and connect the paddle to the ground plane of the board using multiple vias. Decouple all the power supply pins (VDD1, VDD2, and VIO) and the REF pin with low ESR and low ESL ceramic capacitors, typically 10 µF and 100 nF, placed close to the DUT (U1) and connected using short, wide traces. This provides low impedance paths and reduces the effect of glitches on the power supply lines. Use a 50 Ω single-ended trace and a 100 Ω differential trace. Separate analog and digital sections and keep power supply circuitry away from the AD7625/AD7626. Avoid running digital lines under the device as well as crossover of digital and analog signals because these couple noise into the AD7625/AD7626. Do not run fast switching signals, such as CNV or clocks, near analog signal paths. Remove the ground and power plane beneath the input (including feedback) and output pins of the amplifiers (U6, U13, and U15), because they create an undesired capacitor. 6. Rev. A | Page 6 of 28 Figure 1 shows a photograph of the connections made between the EVAL-AD7625FMCZ/EVAL-AD7626FMCZ daughter board and the EVAL-SDP-CH1Z SDP controller board. Install the AD7625/AD7626 evaluation software. Ensure that the SDP board is disconnected from the USB port of the PC while installing the software. The PC must be restarted after the installation. Before connecting power, connect the 160-pin FMC connector (J7) on the evaluation board to Connector J4 on the SDP board. Nylon screws are included in the evaluation kit and can be used to ensure that the evaluation board and the SDP board are connected firmly together. Connect the 12 V power supply adapter included in the kit to the SDP board. Connect the SDP board to the PC via the USB cable. Windows® XP users may need to search for the EVALSDP-CH1Z drivers. Choose to automatically search for the drivers for the SDP board if prompted by the operating system. Launch the AD7625/AD7626 evaluation software from the Analog Devices subfolder in the Programs menu. The full software installation procedure is described in the Evaluation Board Software section. EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 EVALUATION BOARD SOFTWARE SOFTWARE INSTALLATION The evaluation board software is available to download from the EVAL-AD7625FMCZ/EVAL-AD7626FMCZ evaluation board pages on the Analog Devices website. Double-click the setup.exe file to run the install. The default location for the software is C:\Program Files (x86)\Analog Devices\ AD7626_25 Evaluation Software. Install the evaluation software before connecting the evaluation board and the EVAL-SDP-CH1Z board to the USB port of the PC to ensure that the evaluation system is correctly recognized when connected to the PC.   12552-005 There are two parts of the software installation process: AD7625/AD7626 evaluation software installation EVAL-SDP-CH1Z board drivers installation Figure 5. Evaluation Software Installation—Choose Install Location Figure 3 to Figure 9 show the steps to install the AD7625/AD7626 evaluation software, and Figure 10 to Figure 14 show the steps to install the EVAL-SDP-CH1Z drivers. Proceed through all of the installation steps to install the software and drivers in the appropriate locations. 12552-006 Connect the EVAL-SDP-CH1Z board to the PC only after the software and drivers have been installed. 12552-003 Figure 6. Evaluation Software Installation—License Agreement 12552-007 Figure 3. User Account Control 12552-004 Figure 7. Evaluation Software Installation—Summary Figure 4. Evaluation Software Installation—Initializing Rev. A | Page 7 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide Figure 8. Evaluation Software Installation—In Progress 12552-011 12552-008 UG-745 12552-012 12552-009 Figure 11. EVAL-SDP-CH1Z Drivers Setup—Choose Install Location Figure 9. Evaluation Software Installation—Complete 12552-013 Figure 12. EVAL-SDP-CH1Z Drivers Setup—Installing Drivers 12552-010 Figure 13. EVAL-SDP-CH1Z Drivers Setup—Windows Security Figure 10. EVAL-SDP-CH1Z Drivers Setup—Welcome Rev. A | Page 8 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 LAUNCHING THE SOFTWARE When the evaluation board and the SDP board are correctly connected to the PC, the AD7625/AD7626 evaluation software can be launched. 12552-014 1. From the Start menu, click Programs > Analog Devices > AD7626_25 Evaluation Software. The main window of the software then displays (see Figure 19). a. If the evaluation system is not connected to the USB port via the EVAL-SDP-CH1Z when the software is launched, a connectivity error displays (see Figure 17). b. Connect the evaluation board to the USB port of the PC. c. Wait for a few seconds and then click Rescan (see Figure 18). 12552-017 12552-015 Figure 14. EVAL-SDP-CH1Z Drivers Setup—Installation Complete Figure 15. Restart Required After installation is complete, connect the evaluation board to the SDP board as described in the Evaluation Board Hardware section. Figure 17. Connectivity Error Alert 1 12552-018 When the SDP board is first plugged in via the USB cable provided, allow the new Found Hardware Wizard to run. Once the drivers are installed, check that the board has connected correctly by looking at the Device Manager of the PC. The Device Manager can be accessed via My Computer > Manage > Device Manager from the list of System Tools. The EVAL-SDP-CH1Z board appears under ADI Development Tools, which indicates that the installation is complete. 12552-016 Figure 18. Connectivity Error Alert 2 Figure 16. Device Manager Rev. A | Page 9 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide SOFTWARE OPERATION Samples This section describes the full software operation and all the windows that appear. When the software is launched, the main software window opens, and the software searches for hardware connected to the PC. The user evaluation software launches as shown in Figure 19. The labels listed in this section correspond to the numbered labels in Figure 19. From the Samples drop-down menu, Label 5 in Figure 19, select the number of samples to analyze when running the software; this number is limited to 1,048,576 samples. Single Capture and Continuous Capture File Menu Clicking Single Capture, Label 6 in Figure 19, performs a single capture. Clicking Continuous Capture, Label 7 in Figure 19, performs a continuous capture from the ADC. The File menu, Label 1 in Figure 19, has the following options: Eval Board Connected • • • • • The Eval Board Connected indicator, Label 8 in Figure 19, shows that the evaluation board is connected. In Figure 19, the connected evaluation board is the EVAL-AD7626FMCZ. Save Captured Data: saves data to a .CSV file Load Captured Data: loads data for analysis Take Screenshot: saves the current screen Print: prints the window to the default printer Exit: closes the application Voltage Reference The various options for using the external reference are controlled by the Control Pins drop-down menu, Label 9 in Figure 19. The default value is set to 4.096 V (internal reference). The other options are external reference 4.096 V, external 1.2 V, and power down. It is recommended to use an on-board AD8031 device as an external reference buffer. Edit Menu The Edit menu, Label 2 in Figure 19, provides the option to Initialize to Default Values, which resets the software to its initial state. Help Menu PLL Enable The Help menu, Label 3 in Figure 19, offers help from the • • • • The PLL Enable check box, Label 10 in Figure 19, is used when the CNV signal is coming from the AD9513. The positions of JP1 and JP2 must also be changed to A connected to center. Analog Devices website User Guide Context Help About Tabs There are four additional tabs available for displaying the data in different formats. Throughput The Throughput field, Label 4 in Figure 19, controls the throughput. The default throughput (sampling frequency) is 10,000 kSPS for the AD7626, and 6000 kSPS for the AD7625. The user can adjust the sampling frequency; however, there are limitations around the sample frequency related to the SCLK frequency applied. The sample frequency must be at least 500 kSPS. If the user enters a value exceeding the ability of the ADC (the AD7625/AD7626 have a maximum sample frequency of 10M/6M), the software indicates this, and the user must revert to the maximum sample frequency. • • • • Waveform Histogram FFT Summary To exit the software, go to File > Exit. Rev. A | Page 10 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide 2 3 5 8 6 7 9 4 10 12552-019 1 UG-745 Figure 19. Evaluation Software Window Rev. A | Page 11 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide WAVEFORM CAPTURE Figure 20 shows the Waveform tab. A 20 kHz sine-wave input signal was used along with an on-board 4.096 V external reference. The Waveform Analysis boxes, Label 1 in Figure 20, show the amplitudes recorded from the captured signal in addition to the frequency of the signal tone. CONTROL CONTROL CONTROL CURSOR ZOOMING PANNING 12552-020 1 Figure 20. Waveform Capture Tab Rev. A | Page 12 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 DC TESTING—HISTOGRAM AC TESTING—HISTOGRAM Figure 21 shows the Histogram tab. The histogram can be used to test the ADC for the code distribution for dc input, compute the mean and standard deviation or transition noise of the converter, and display the results. Raw data is captured and passed to the PC for statistical computations. The histogram can also be used to test the ADC for the code distribution for ac input, compute the mean and standard deviation or transition noise of the converter, and display the results. Raw data is captured and passed to the PC for statistical computations. To perform a histogram test, click the Histogram tab, then click Single Capture or Continuous Capture. To perform a histogram test, click the Histogram tab, then click Single Capture or Continuous Capture. A histogram test can be performed without an external source because the evaluation board has a buffered VREF/2 source at the ADC input. An AC histogram requires a quality signal source applied to the input J3 and J5 connectors. To test other dc values, apply a source to the J3 and J5 inputs. The signal may need to be filtered so that the dc source noise is compatible with that of the ADC. Figure 21 shows the histogram for a 20 kHz sine wave applied to the ADC input and the results calculated. The Histogram Analysis boxes, Label 1 in Figure 21, show the various measured values for the data captured. 12552-021 1 Figure 21. Histogram Capture Tab Rev. A | Page 13 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide AC TESTING—FFT CAPTURE Figure 22 shows the FFT tab. This tests the traditional ac characteristics of the converter and displays a FFT of the results. As in the histogram test, raw data is captured and passed to the PC where the FFT is performed to display the signal-to-noise ratio (SNR), signal-to-noise-and-distortion ratio (SINAD), total harmonic distortion (THD), and spurious-free dynamic range (SFDR). To perform an ac test, apply a sinusoidal signal to the evaluation board at the SMA inputs, J1 and J2. A very low distortion, better than 130 dB input signal source (such as audio precision) is required to allow true evaluation of the device. One possibility is to filter the input signal from the ac source. There is no suggested band-pass filter, but carefully consider the choices. Furthermore, if using a low frequency band-pass filter when the full-scale input range is more than a few volts peak-to-peak, it is recommended to use the on-board amplifiers to amplify the signal, thus preventing the filter from distorting the input signal. Figure 22 displays the results of the captured data. FFT Analysis shows the input signal information (Label 1 in Figure 22), as well as the performance data, including SNR, dynamic range, THD, SINAD, and noise performance (Label 3 in Figure 22). Show Harmonic Content displays the fundamental frequency and amplitude in addition to the second to fifth harmonics (Label 2 in Figure 22). 3 1 12552-022 2 Figure 22. FFT Capture Tab Rev. A | Page 14 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 SUMMARY TAB 12552-023 Figure 23 shows the Summary tab, which captures all the display information and provides it in one tab with a synopsis of the information, including key performance parameters such as SNR and THD. Figure 23. Summary Tab Rev. A | Page 15 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide TROUBLESHOOTING This section provides recommendations on how to prevent and troubleshoot problems encountered with the software and the hardware. SOFTWARE Follow these recommendations for the evaluation software: • • • • • • HARDWARE If the software does not read any data back, take the following steps: • • Always install the software prior to connecting the hardware to the PC. Always allow the install to fully complete (the software installation is a two-part process: installing the ADC software and the SDP drivers). This may require a restart of the PC. When first plugging in the SDP board via the USB cable provided, allow the new Found Hardware Wizard to run. Though this may take time, do this prior to starting the software. If the board does not appear to be functioning, ensure that the ADC evaluation board is connected to the SDP board and that the SDP board is recognized in the Device Manager, as shown in Figure 16. If connected to a slower USB port where the SDP board cannot read quickly, a timeout error may occur. In this case, it is advised not to read continuously or, alternatively, to lower the number of samples taken. Note that when reading continuously from the ADC, the recommended number of samples is up to 1,048,576. • • • With the 12 V wall wart plugged in to the SDP board, check that the voltage applied is within the ranges shown in Table 3. Using a digital multimeter (DMM), measure the voltage present at 12 V and the VADJ test points, which should read 12 V and 2.5 V, respectively. The +12V_FMC LED of the evaluation board and the LEDs of the SDP board (FMC_PWR_GO, SYS_PWR, FPGA_DONE, BF_POWER, LED0, and LED2) should all be lit. Launch the software and read the data. If nothing happens, exit the software. Remove the 12 V wall wart and USB from the SDP board, and then reconnect them and relaunch the software. If an error occurs, check that the evaluation board and the SDP board are connected together so that the evaluation board is recognized in the Device Manager, as shown in Figure 16. Note that when working with the software in standalone/offline mode (no hardware connected) and later choose to connect hardware, first close and then relaunch the software. Rev. A | Page 16 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 EVALUATION BOARD SCHEMATICS AND ARTWORK 2PT5V U12 8 IN OUT 1 7 IN OUT 2 R55 +2.5V C8 5 EN OUTSEN 3 + 4.7 µF 1uF 6 NC -2P5V 4 GND EP 9 ADP124ARHZ-2.5 5 +5V + U5 ADP2300AUJZ 1 BST SW D3 1 0.1uF C38 4.7 µF 4 C66 VIN 6 R14 2 -2.5V 0r 4.7 µH C64 1uF 0r C63 L2 IND 2 1 +5V 1A, 30V 10 µF C71 R11 EN FB 3 35.7K GND 2 R9 3PT3V 16.9K +5V 8 IN OUT 1 7 IN OUT 2 R52 EP +3.3V 0r 1uF 6 NC 4 GND +3.3V_FMC VIO 0r C68 5 EN OUTSEN 3 C72 1uF R54 VIO_2PT5V U16 VIN = +5V , VOUT= -2.5V, IOUT = 250 mA 9 ADP124ARHZ-2.5 The ADP124 is available in 2mmx2mm LFCSP packages. LK9 A +5V B +5V ADP7104ACPZ-5.0 3 +7V JP6 8 +12V_FMC 2 C58 10 µF PG_C2M AMP_PWR+_EXT VIN VOUT U18 5 N/C PG 4 57.6K R10 VIN VOUT U10 C9 4.7 µF PG_C2M 5 N/C C70 4.7 µF +5V 4 SENSE 2 EN/UVLO PG 7 1 0r +7V ADJ 2 EN/UVLO GND EP GND 3 9 6 3 Pin Terminal Block (5mm Pitch) 1 0r C69 4.7 µF 8 +12V_FMC R13 AMP_PWR+ 1 R63 +7V ADP7102ACPZ AMP_PWR+1 GND EP GND 3 9 6 7 C10 4.7 µF 100K R62 12.1K R12 J4-1 J4-3 VIN = +12V , VOUT= +7V, IOUT = upto 300 mA VIN = +12V , VOUT= +5V, IOUT = upto 500 mA 2 AMP_PWR-1 JP10 AMP_PWR1 3 LK10 -2.5V C65 10 µF A B 12552-024 Screw Terminals J4-2 OPAMP POWER SUPPLY OPTIONS Figure 24. Schematic—System Power Supply Options Rev. A | Page 17 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide External Reference AMP_PWR+ C47 0.1uF U14 U8 ADR4540BRZ R44 2 +7V VOUT +VIN R38 R46 6 3 0r 0r C52 C51 GND C43 4 10 µF 2.2µF R39 DNP OP DNP DNP 2 REF AD8031ARZ V+ C45 C44 0.1uF 7 + 0r REF 0r V- LK3 R45 6 4 4PT096V_REF R40 0r C46 DNP R41 DNP R50 DNP VCM R7 VCM_OUT 0r C53 C54 1PT2V_REFIN U4 3 0r VIN VOUT_F EN VOUT_S 6 GND_S GND_F 10 µF AMP_PWR+ 0.1uF C49 0.1uF 5 C61 C60 C55 0.1uF 10 µF REFIN 2 0.1uF C62 10 µF U11 VCM_BUF 1 3 ADR3412ARJZ 7 AD8031ARZ + V+ OP 2 C48 A 4 +5V LK2 LK6 6 B R48 R47 VCM VCM 0r V- 4 Default is B to centre linked R42 1M 10 µF GND2 GND1 There are 2 options for using an External Reference 1) Externally buffered reference source of 4.096V applied to the REF pin. 2) External reference of 2.5V applied to the REFIN pin (high impedance input).. GND5 12552-025 GND4 Figure 25. Schematic—External Reference Rev. A | Page 18 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 AMP_PWR+ C85 0.1uF ADA4899-1 U15 6 Pin (2x3) 0.1" Pitch TH R/A SOCKET R75 R78 3 OP_AMP+ J9-1 82r 0r VCM 2 100pF C88 J9-2 R85 0r J9-3 J9-4 7 V+ - V- VOUT V5 R88 0r 0r C86 0.1uF AMP_PWRDNP R81 C81 0.1uF AMP_PWR- 6 4 VCM 1k J9-6 + FB 1 R83 R79 AMP_PWR+ J9-5 8 D C82 DNP Analog Front End AMP_PWR+ C83 0.1uF ADA4899-1 U13 3 JP11 1 VOUT V5 6 C76 56pF 3 V- 4 FB 1 R87 0r 1 IN+ R70 20r 2 C84 0.1uF R80 AMP_PWR- 3 C79 0.1uF 3 C80 DNP DNP R82 JP12 J3 1 C56 DNP 1k OP_AMP- JP14 2 VCM DIFF_IN+ AMP_PWR+ 1 IN- R71 20r C21 0.1uF 2 J6 C57 56pF R74 R68 0r 2 5 VS+ 6 VS+ VS+ 12 11 U6 R67 R69 /PD OUT- IN+ 499r 0r 3 ADA4932-1 OUT+ IN- 10 499r R61 C77 4 FB+ VCM 9 VCM VS- C39 0.1uF 13 VS- 499r VS- DNP 14 R72 DNP 16 GND3 R64 VS- DIFF_IN+ FB- 499r 15 DIFF_IN- 1 VS+ DNP R51 C78 DNP 7 8 DIFF_IN- R73 DNP AMP_PWR- Figure 26. Schematic—Analog Front End Rev. A | Page 19 of 28 C87 0.1uF 12552-026 AIN- - 0r R86 0r J8 7 V+ 2 AIN+ R84 + JP13 3 2 82r 0r 100pF C89 J5 D R76 R77 OP_AMPOP_AMP+ 8 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide C3 C2 100nF +2.5V 100nF C4 1 L1 600Z 2 UG-745 100nF C5 C6 100nF 100nF +5V VIO C1 100nF C7 12 18 VIO VDD2 VDD2 7 VDD1 VDD2 2 20 19 CAP1 EN0 5 EN0 2 C15 J10 2 3 VDD1 VDD1 1 100nF J2 1 1 10nF CAP2 EN1 CNV- R1 CAP2 100R CNV+ AD7626BCPZ C18 10uF D29 9 10 D- REF 3 C17 10uF 30 32 REF D+ REF PADDLE 14 DCO- 21 VCM DCO+ IN+ 23 2 JP2 33 DCO- VCM_OUT 3 11 FPGA_CNV+ (Decouple to Pin31) 2 JP1 D+ REF IN+ CLK- DCO+ 15 16 ADC_PLL_CNV- REFIN 1 4 REFIN 8 FPGA_CNV- 28 DNP DNP CAP2 C16 10uF (Decouple to Pin27) EN1 ADC_PLL_CNV+ 26 R21 R22 6 1 25 CLKR2 CLK+ 17 100R CLK+ GND 12552-027 31 GND 27 24 GND IN- GND 22 13 IN- Figure 27. Schematic—AD7626 Decoupling Rev. A | Page 20 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide UG-745 Y4 XTAL-CWX113-100MHZ 4 3 RF_OUT VCC 1 E/D GND 2 100MHz Y2 +3.3V 2 +3.3V VFXO321-BBEC-100MHZ VS 470r @ 100MHz 1 RF-OUT GND 3 TRI 1 R53 5 C11 C12 C13 C14 10uF 10uF 10uF 10uF DNP R26 4.12k J11 1 100MHz 1 Y3 VC COMP GND 3 R23 1 OUT0 R24 DNP DNP OUT0B 27 C33 0.1uF C32 0.1uF ADC_PLL_CNV+ ADC_PLL_CNV- U19 TRANSFORMER_ MABA-007159 2 R3 100R C23 1nF 3 CLK OUT1 AD9513BCPZ CLKB OUT1B OUT2 R19 R4 10R R25 DNP DNP 5 22 C30 0.1uF FPGA_PLL_CNV+ FPGA_PLL_CNV- C28 0.1uF OSC_CLK+ OSC_CLK- S0 18 C29 0.1uF 25 S1 S2 15 16 S3 14 S4 S5 13 S6 12 10 11 S7 S8 S9 9 7 6 S10 VREF OUT2B 1 +3.3V 19 SYNCB 8 REFIN1 23 C31 0.1uF 3 4 DNP C24 1nF 1 5 T2 J1 28 5 R17 REFIN DNP VS1 VS2 4 17 VS3 20 21 VS6 VS5 VS4 26 24 VS7 29 VS8 30 VS9 31 GND RSET 33 PADDLE 4 RF_OUT VS R27 R33 R34 R28 R35 R29 R36 R37 R43 R31 R32 R49 0r 0r 0r 0r 0r 0r 0r 0r 0r 0r 0r 0r VADJ 10 1 0.1uF C27 2 0.1uF VCCB VCCA A0 B0 9 C26 PLL_SYNC_FMC U17 10k 3 A1 B1 8 FXL2TD245 4 T/R1 T/R0 6 R6 R5 GND OE 5 7 10k U3 PG_C2M 2 4 12552-028 10pF C20 R18 10K 2 22uF 6 32 R30 R20 91r 100.0MHz C22 L3 R16 0r J12 4 RF_OUT 2 6 NC7S04 Figure 28. Schematic—Oscillator PLL Rev. A | Page 21 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide 24LC02 EEPROM required in VITA standard I2C line pull-up resistors on FPGA board AD27 AD28 AJ28 AJ29 AG22 AH22 AK23 AK24 AB24 AC25 AB27 AC27 AH26 AH27 AK29 AK30 +2.5V AJ22 AJ23 AA20 AB20 AC22 AD22 AF26 AF27 AJ27 AK28 AC26 AD26 AE28 AF28 AD29 AE29 AC29 AC30 10 1 2 AG20 AH20 VREF_A_M2C PRSNT_M2C_L GND AF22 CLK0_M2C_P AG23 CLK0_M2C_N GND AF20 LA02_P AF21 LA02_N GND AH21 LA04_P AJ21 LA04_N GND AG25 LA07_P AH25 LA07_N GND AE25 LA11_P AF25 LA11_N GND AC24 LA15_P AD24 LA15_N GND AJ26 LA19_P AK26 LA19_N GND AG27 LA21_P AG28 LA21_N GND AG30 LA24_P AH30 LA24_N GND AE30 LA28_P AF30 LA28_N GND AB29 LA30_P AB30 LA30_N GND LA32_P Y30 AA30 LA32_N GND VADJ VADJ VCCA EN0 AD23 AE24 GND CLK1_M2C_P CLK1_M2C_N DCO+ GND DCOGND LA00_P_CC D+ LA00_N_CC DGND LA03_P FPGA_PLL_CNV+ LA03_N FPGA_PLL_CNVGND LA08_P LA08_N GND LA12_P LA12_N GND LA16_P LA16_N GND LA20_P LA20_N GND LA22_P LA22_N GND LA25_P LA25_N GND LA29_P LA29_N GND LA31_P LA31_N GND LA33_P LA33_N GND VADJ VADJ GND J7-D ASP-134604-01 H1 H2 H3 H4 H5 H6 H7 H8 H9 H10 H11 H12 H13 H14 H15 H16 H17 H18 H19 H20 H21 H22 H23 H24 H25 H26 H27 H28 H29 H30 H31 H32 H33 H34 H35 H36 H37 H38 H39 H40 VCCB B0 A0 9 EN0_FMC 8 EN1_FMC U9 3 EN1 B1 A1 FXL2TD245 4 U2 PG_C2M 2 T/R1 T/R0 6 GND OE 5 7 4 12552-029 8 VCC 7 WP 6 SCL 5 SDA AD21 AE21 AE23 AF23 J7-C ASP-134604-01 PG_C2M G1 GND G2 OSC_CLK+ GND G3 GBTCLK0_M2C_P OSC_CLKG4 GBTCLK0_M2C_N G5 GND G6 CLK+ GND G7 CLKLA01_P_CC G8 LA01_N_CC G9 EN0_FMC GND G10 EN1_FMC LA05_P G11 LA05_N G12 GND G13 LA09_P G14 LA09_N G15 GND G16 LA13_P G17 LA13_N G18 GND G19 LA17_P_CC G20 LA17_N_CC G21 GND G22 LA23_P G23 LA23_N G24 GND G25 LA26_P G26 LA26_N G27 GND G28 TCK G29 TDI G30 TDO G31 3P3VAUX G32 TMS G33 TRST_L G34 GA1 G35 3P3V G36 VADJ GND G37 3P3V G38 GND G39 VADJ 3P3V G40 NC7S04 Figure 29. Schematic—FMC-LPC Male Connector 12552-030 A0 A1 A2 VSS AJ24 AK25 J7-B ASP-134604-01 D1 D2 D3 D4 D5 D6 D7 D8 FPGA_CNV+ D9 FPGA_CNVD10 D11 PLL_SYNC_FMC D12 D13 D14 D15 D16 D17 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 D32 3P3VAUX D33 D34 D35 GA1 D36 D37 +3.3V_FMC D38 D39 D40 PG_C2M R8 GA0 1 2 3 4 AK20 AK21 GND DP0_C2M_P DP0_C2M_N GND GND DP0_M2C_P DP0_M2C_N GND GND LA06_P LA06_N GND GND LA10_P LA10_N GND GND LA14_P LA14_N GND GND LA18_P_CC LA18_N_CC GND GND LA27_P LA27_N GND GND SCL SDA GND GND GA0 12P0V GND 12P0V GND 3P3V GND 10k U7 GA1 J7-A ASP-134604-01 C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 R15 C24 0r C25 3P3VAUX C26 C27 C19 C28 C29 0.1uF C30 C31 FPGA I2C Lines C32 C33 C34 GA0 C35 C36 +12V_FMC C37 C38 C39 +3.3V_FMC C40 Figure 30. Evaluation Board Silkscreen—Top Assembly Rev. A | Page 22 of 28 UG-745 12552-031 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide 12552-032 Figure 31. Evaluation Board Silkscreen—Bottom Assembly Figure 32. Evaluation Board—Top Layer Rev. A | Page 23 of 28 12552-033 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide Figure 33. Evaluation Board Layer 2—Ground 12552-034 UG-745 Figure 34. Evaluation Board Layer 3—Power Rev. A | Page 24 of 28 UG-745 12552-035 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide Figure 35. Evaluation Board Bottom Layer Rev. A | Page 25 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide BILL OF MATERIALS Table 4. Bill of Materials for EVAL-AD7626FMCZ1 Name +5V, +7V, −2P5V, 1PT2V_REFIN, 2PT5V, 3PT3V, 4PT096V_REF, AMP_PWR+1, AMP_PWR−1 VADJ VCM, VCM_BUF, VIO_2PT5V REF REFIN1 C1, C2, C3, C4, C5, C6, C7, C19 C8, C9, C10, C38, C69, C70 C11, C12, C13, C14, C16, C17, C18 C15 C20 C21 C22 C23, C24 C26, C39, C49, C51, C54, C55, C79, C81, C83 C84, C85, C86, C87, C47, C61, C66 C27, C28, C29, C30, C31, C32, C33 C43 C44, C45, C46 C48, C42, C53, C58, C60, C62, C65, C71 C56 C57, C76 C63, C64, C68, C72 C77, C78, C80, C82 C88, C89 D3 GND1, GND2, GND3, GND4, GND5 J1 J2, J10 J3, J5 J4 J6, J8 J7 J9 J11, J12 JP1, JP2, JP6, JP10, JP11, JP12, JP13, JP14 L1 L2 L3 LK2, LK3 LK6 LK9 LK10 R1, R2 R3 R4 R5, R6, R8 Part Description Test point Part Number 20-313137 Stock Code FEC 8731144 Test point Test point Test point Test point Capacitor 0603 Capacitor+ Capacitor 0603 Capacitor 0603 Capacitor Capacitor Capacitor Capacitor Capacitor N/A 20-313137 20-313137 20-313137 MCCA000050 EMK212B7475KG-T C1608X5R1A106M MCCA000076 06035A100JAT2A MCCA000255 GRM21BR60J226ME39L GRM1555C1H102JA01D MCCA000255 Do not insert FEC 8731144 FEC 8731144 Not inserted FEC 1758896 FEC 2112841 FEC 1962113 FEC 1758924 FEC 499110 FEC 1759122 Digi-Key 490-1719-1-ND FEC 8819556 FEC 1759122 Capacitor Capacitor Capacitor Capacitor Capacitor 0603 Capacitor 0603 Capacitor Capacitor 0603 Capacitor 0603 Diode Schottky, 30 V, 1 A, PD3S130L Test point Switching mode amplifier (SMA) SMA SMA Connector\Power3 SMA ASP-134604-01 Header 06-SKT-RA SMA 3W, solder link, 0603 MCCA000050 EMK212B7225KG-T TBA GRM219R61C106KA73D N/A 06035A560JAT2A LMK107B7105KA-T N/A C1608C0G1H101J080AA PD3S130L 20-313137 5-1814832-1 142-0701-851 5-1814400-1 CTB5000/3 142-0701-851 ASP-134604-01 SSW-103-02-T-D-RA 5-1814832-1 N/A FEC 1758896 FEC 1683654 Do not place FEC 1845747 Do not place FEC 2280650 FEC 2112849 Do not place FEC 1907297 Digi-Key PD3S130LDICT-ND FEC 8731144 FEC 1248990 Not inserted Not inserted FEC 151790 Digi-Key J658-ND Samtec ASP-134604-01 Not inserted Not inserted N/A Bead, 0805 Inductor Bead Jumper Jumper2\solder bridge Jumper-2 Jumper-2 Resistor Resistor Resistor Resistor HZ0805E601R LPS3015-472MLB 7427-92642 M20-9990246 N/A M20-9980445 M20-9980446 RC0402FR-07100RL ERJ-2RKF1000X MC01W0805110R MC 0.0625W 0402 1% 10K Digi-Key 240-1018-1-ND Coilcraft LPS3015-472MLB FEC 1635690 FEC 1022247 and FEC 150-411 N/A FEC 1022232 and FEC 150-411 FEC 1022232 and FEC 150-412 FEC 9239111 FEC 2304034 FEC 9332421 FEC 1358069 Rev. A | Page 26 of 28 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide Name R7, R13, R14, R15, R16, R38, R40, R44, R45, R46, R47, R48, R52, R54, R55, R63, R68, R69, R77, R78 R9 R10 R11 R12 R17, R19, R21, R22, R23 R18 R20 R24, R25 R26 R27, R28, R29, R31, R32, R33, R34, R35, R36, R37 R30, R53 R39, R41, R50 R42 R43, R49 R51, R61, R64, R67 R62 R70, R71 R72, R73, R74, R81, R82 R75, R76 R79, R80 R83, R84, R85, R86, R87, R88 T2 U1 U2, U3 U4 U5 U6 U7 U8 U9 U10 U11 U12 U13 U14 U15 U16 U17 U18 U19 Y2 Y3 Y4 1 UG-745 Part Description Resistor Part Number MC 0.063W 0603 0R Stock Code FEC 9331662 Resistor Resistor Resistor Resistor Resistor Resistor Resistor Resistor Resistor Resistor MC 0.063W 0603 1% 16K9 MCTC0525B5762T5E MC 0.063W 0603 1% 35K7 ERJ6ENF1212V MC 0.063W 0603 10K MC 0.063W 0603 10K MC 0.063W 0603 1% 91R N/A MC 0.0625W 0402 1% 4K12 CRCW04020000Z0ED FEC 1170908 FEC 1575988 FEC 1170942 FEC 2057636 Do not place FEC 9330399 FEC 9331646 Do not place FEC 1803097 FEC 1469661 Resistor Resistor Resistor Resistor Resistor Resistor Resistor Resistor, 0 Ω 82 Ω, 0603, 1%, 0.063 W Resistor, 0 Ω Resistor Transformer AD7626BCPZ NC7S04 ADR3412ARJZ ADP2300AUJZ ADA4932-1 24LC02B-I/SN AD8031ARZ FXL2TD245 ADP7104ACPZ-5.0 AD8031ARZ ADP124ARHZ-2.5 ADA4899-1 ADR4540BRZ ADA4899-1 ADP124ARHZ-2.5 FXL2TD245 ADP7102ACPZ AD9513BCPZ VFXO321-BBEC-100MHZ TCXO-TX500 XTAL-CWX113-100MHZ MC 0.063W 0603 10K N/A ERJP06F1004V CRCW04020000Z0ED ERA3AEB4990V MC 0.1W 0805 1% 100K RP73PF2A20RBTDF N/A MC0063W0603182R MC 0.063W 0603 1% 1K MC 0.063W 0603 0R MABA-007159-000000 AD7626BCPZ NC7SZ04M5 ADR3412ARJZ ADP2300AUJZ ADA4932-1YCPZ M24C02-WMN6P AD8031ARZ FXL2TD245L10X ADP7104ACPZ-5.0 AD8031ARZ ADP124ARHZ-2.5 ADA4899-1YRDZ ADR4540BRZ ADA4899-1YRDZ ADP124ARHZ-2.5 FXL2TD245L10X ADP7102ACPZ AD9513BCPZ VFXO 321-BBEC-100MHz TX-500 CWX113-100.0M Do not place Do not place FEC 1750796 FEC 1469661 FEC 1810089 FEC 9332405 FEC 2116980 Do not place FEC 9331590 FEC 9330380 FEC 9331662 MACOM MABA-007159-000000 AD7626BCPZ FEC 1013809 ADR3412ARJZ-R2 ADP2300AUJZ-R7 ADA4932-1YCPZ-R2 FEC 9882804 AD8031ARZ Digi-Key FXL2TD245L10XCT-ND ADP7104ACPZ-5.0-R7 AD8031ARZ ADP124ARHZ-2.5-R7 ADA4899-1YRDZ ADR4540BRZ ADA4899-1YRDZ ADP124ARHZ-2.5-R7 Digi-Key FXL2TD245L10XCT-ND ADP7102ACPZ-R7 AD9513BCPZ Do not place Do not place Do not place N/A means not applicable. Rev. A | Page 27 of 28 UG-745 EVAL-AD7625FMCZ/EVAL-AD7626FMCZ User Guide NOTES I2C refers to a communications protocol originally developed by Philips Semiconductors (now NXP Semiconductors). ESD Caution ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality. Legal Terms and Conditions By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer, assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer, their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board. Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice to Customer. Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT. ADI SPECIFICALLY DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER’S POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT. Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW. This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed. ©2014–2015 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG12552-0-8/15(A) Rev. A | Page 28 of 28