EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User Guide UG-1829
r GuideUG-1829One Technology Way P.O. Box 9106 Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 Fax: 781.461.3113 www.analog.comEvaluating the AD9081, AD9082, AD9986, or AD9988 Mixed Signal, Front-End RFTransceiverFEATURESGENERAL DESCRIPTIONFully functional evaluation boards for the AD9081, AD9082,AD9986, AD9988, AD9207, AD9209, or AD9177PC software for control with analysis, control, evaluate (ACE)softwareOn-board clocking provided by the HMC7044 managesdevice and FPGA clockingOption to switch to external direct clockingThis user guide describes the AD9081-FMCA-EBZ, AD9082FMCA-EBZ, AD9986-FMCB-EBZ, and AD9988-FMCB-EBZevaluation boards, which provide all of the support circuitryrequired to operate the AD9081, AD9082, AD9986, AD9988,AD9207, AD9209, or AD9177 in their various modes andconfigurations. The application software used to interface withthe devices is also described. These evaluation boards connectto the Analog Devices, Inc., ADS9-V2EBZ for evaluation withthe ACE software.EVALUATION KIT CONTENTSAD9081-FMCA-EBZ, AD9082-FMCA-EBZ, AD9986-FMCB-EBZ,or AD9988-FMCB-EBZ evaluation boardsSubminiature push on female (SMP-F) to SubminiatureVersion A female (SMA-F) cables (for only the AD908xFMCA-EBZ boards)MicroSD cardsAD-FMC-SDCARDADS9V2-UZSD-MXFEADDITIONAL HARDWARE NEEDEDADS9-V2EBZ FPGA-based data capture boardSignal generator for analog inputSpectrum analyzer (to measure DAC output)SMA cableSMA female to female adapter (optional)Ethernet to USB adapter (optional)PC with USB port and Ethernet portWindows 7 or newer operating systemThese evaluation boards can also interface to commerciallyavailable field-programmable gate array (FPGA) developmentboards from Xilinx or Intel . Information on how to use theseplatforms to evaluate the AD9081 or the AD9082 is available inthe Using the AD-FMC-SDCARD section.The ACE software allows the user to set up the MxFE invarious modes and to capture analog-to-digital converter(ADC) data for analysis. The DPGDownloaderLite software(included in ACE installation) generates and transmits vectorsto the digital-to-analog converters (DACs), which can then besent to a spectrum analyzer for further analysis.For additional information, see the AD9081, AD9082, AD9986,AD9988, AD9207, AD9209, or AD9177 data sheets and theUG-1578, the device user guide, which must be consulted inconjunction with this user guide when using the evaluationboards.SOFTWARE NEEDEDAnalysis, control, evaluate (ACE) softwareDPGDownloaderLite software (included in ACE installation)WinSCP (or similar Telnet software)DOCUMENTS NEEDEDAD9081, AD9082, AD9986, AD9988, AD9207, AD9209, orAD9177 data sheetADS9-V2EBZ user guideACE software documentationSerial Control Interface Standard (Rev 1.0)AN-835, Understanding High Speed ADC Testing andEvaluationPLEASE SEE THE LAST PAGE FOR AN IMPORTANTWARNING AND LEGAL TERMS AND CONDITIONS.Rev. 0 Page 1 of 26
9988 User GuideTABLE OF CONTENTSFeatures . 1Evaluation Kit Contents . 1Default Clocking Scheme for AD9082-FMCA-EBZ, AD9081FMCA-EBZ, AD9986-FMCB-EBZ, or AD9988-FMCB-EBZ. 11Additional Hardware Needed . 1Set Up the Instrumentation . 12Software Needed . 1Using the AD9081, AD9082, AD9986, or AD9988 Board View. 13Documents Needed . 1General Description . 1Revision History . 2Evaluation Board Photographs . 3Evaluation Board Overview . 4Board Models . 4Use Cases . 13Setting Up the AD9081, AD9082, AD9986, or AD9988 in FullBandwidth Mode . 17ADC Analysis and DAC Output Setup . 19Capture and Analysis of ADC Data . 19Evaluation Board Connection Overview . 4DAC Waveform Generation Using DPGDownloaderLiteSoftware . 20Installation of Heat Sink with Integrated Fan . 5Using the AD9081, AD9082, AD9986, or AD9988 Chip View 22Evaluation Board Software . 6Setting up the AD9081/AD9082 in Full Bandwidth Modewith External Clocking . 22ACE and DPGDownloaderLite . 6Introduction to the AD9081, AD9082, AD9986, or AD9988Plugin . 7Additional Features . 24Setting up the MicroZed Connection . 9Using the ADS9V2-UZSD-MXFE . 24MicroSD Card for the MicroZed Board . 9Additional Use Cases and Customization. 24Mode Jumper Connections for the MicroZed Board . 9Troubleshooting Tips . 25Configure the Network Interface to the MicroZed Board . 9Evaluation Board Functioning . 25Checking the Connection to the MicroZed Board . 9ACE Speed Issues . 25Evaluation Board Hardware Setup . 11Data Captured Issues After Setup . 25Determine the Clock Source . 11HMC7044 Configuration Error . 26Using the AD-FMC-SDCARD . 24REVISION HISTORY6/2021—Revision 0: Initial VersionRev. 0 Page 2 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829EVALUATION BOARD PHOTOGRAPHSADC3/ADC1DAC1 DAC0DAC3 DAC2ADC2/ADC0ADC3/ADC1 ADC1DAC3 DAC2 EXT CLK DAC1 DAC0ADC0ADC2/ADC0POWER DELIVERYAD9988/AD9986Figure 1. AD9082-FMCA-EBZ/AD9081-FMCA-EBZ Top Image24165-203AD9082/AD908124165-001EXT CLKPOWER DELIVERYFigure 3. AD9988-FMCB-EBZ/AD9986-FMCB-EBZ Top ImageCLOCKINGCLOCKING24165-00224165-204POWER DELIVERYFigure 2. AD9082-FMCA-EBZ/AD9081-FMCA-EBZ Bottom ImageFigure 4. AD9988-FMCB-EBZ/AD9986-FMCB-EBZ Bottom ImageRev. 0 Page 3 of 26
9988 User GuideEVALUATION BOARD OVERVIEWBOARD MODELSEVALUATION BOARD CONNECTION OVERVIEWThe different board models are all listed in Table 1.Figure 5 shows the basic hardware setup required to evaluatethe AD9081, AD9082, AD9986, or AD9988. Note that theAD9082-FMCA-EBZ is shown in Figure 5 as an example. Thissetup uses the on-board clock to manage the clocks for theAD9082 as well as the FPGA for proper functioning of thetransceivers.Certain early revisions of the evaluation boards shipped with a122.88 MHz on-board crystal oscillator. The ACE plugin isdesigned to detect the evaluation board and make it functionappropriately.Table 1. MxFE Evaluation Board Hardware SummaryEvaluation BoardModel NumberAD9081-FMCA-EBZDevices Analog FrontEnd BalunBALH-0009SMGClock InputNetworkSMP BAL-0416On-Board CrystalOscillator (MHz)100BALH-0009SMGSMP BAL-0416100TCM1-83X/LDB184G6SMA NCR2-123 122.88TCM1-83X/LDB184G6SMA NCR2-123 122.88The AD9207, AD9209, and AD9177 do not have individual evaluation boards. The ACE plugin has specific modes that can be used within the AD9081-FMCA-EBZ foreither the AD9209 or AD9177 and within the AD9082-FMCA-EBZ for the AD9207.ETHERNET CABLEMICROZED SB 3.0TYPE B24165-0031Power DeliveryVia a FPGA mezzanine card(FMC) using the μModuleand a low dropout (LDO)regulatorVia a FMC connector usingthe μModule and a LDOregulatorAn external 12 V using theADP5056 and a LDOregulatorAn external 12 V using theADP5056 and a LDOregulatorFigure 5. Bench Setup for the Evaluation of the AD9081, AD9082, AD9986, or AD9988Rev. 0 Page 4 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829INSTALLATION OF HEAT SINK WITH INTEGRATED FANAdditional information on the Advanced Thermal SolutionsfanSink product can be found on the website of the company.METAL TABBLUE FRAME CLIP24165-206A heat sink (with integrated fan) is shipped with eachevaluation board for active cooling of the IC. Note that thepower consumption of the IC is dependent on its operationmode with some configurations consuming up to 13 W, wherethe IC die temperature can approach or exceed its maximumspecified operating range of 120 C. Therefore, it is recommendedto install the heat sink shown in Figure 6 through Figure 8before the evaluation process begins.Figure 6. Heat Sink Installation Step 12.3.4.5.Remove the blue frame clip that is attached to assembly bylifting the metal tab free from this frame clip by using asmall tweezer or a metal pick (see Figure 6). This frameclip is not essential for attachment of the heat sink to theIC (while noting that the AD998x-FMCB-EBZ variant doesaccept this frame clip due to passive components within itskeep out region).Remove the thin plastic tape to expose the adhesive surface(see Figure 7).Carefully position and center the heat sink on top of the ICpackage such that it also remains clear of the RF baluns(see Figure 8).Once positioned correctly, press down on the top side ofthe heat sink for 10 seconds to secure it to the IC package(see Figure 8).Connect the power supply cable (see Figure 8).Once power is applied to the evaluation board, the fan startsspinning. In the unlikely event that the fan does not spin, thetwo screws used to secure the fan to the heat sink may be tootight, which has resulted in the fan blades not spinning freely.Note that loosening the screws often releases the fan bladeallowing it to spin freely.Rev. 0 Page 5 of 26REMOVE THIN PLASTICTAPE FROM ADHESIVEFigure 7. Heat Sink Installation Step 224165-2081.24165-207The heat sink installation steps are as follows:Figure 8. Heat Sink Installation Step 3 and Step 5
9988 User GuideEVALUATION BOARD SOFTWARE4.ACE AND DPGDownloaderLiteDownload and run the ACE installer from the ACE web pageat www.analog.com/ace. Check all options under the HighSpeed DAC Components section of this webpage to installDPGDownloaderLite, which replaces the legacyDPGDownloader (see Figure 9).5.6.Enter the device model number (AD9081, AD9082,AD9986, or AD9988) in the search bar on the right side ofthe window to search for the device that is intended forevaluation and find the appropriate board plugin.Select the required plugin that supports the AD9081,AD9082, AD9986, or AD9988, and click Install Selected.Click Close.Plugin Installation from the WebTo install the plugin from the web, take the following steps:24165-0041.2.3.Figure 9. ACE Installation Including DPGDownloaderLiteAfter the ACE software is installed, the user must install theplugin for the specific evaluation board being used. There aretwo options for installing the plugin from ACE and from the web.Plugin Installation from ACEInstalling plugins can be performed using the Plug-inMarketplace feature in the ACE software as described in thissection. Plugins can be downloaded from the ACE software pageby searching for the relevant device number within the ACEsoftware.4.5.Ensure that the ACE software is installed.From the ACE software page on the Analog Devices, Inc.,website (www.analog.com/ace), navigate to the ACEEvaluation Board Plug-ins section and search for thedevice to evaluate (see Figure 11).Click the appropriate board plugin (see Figure 11). Theboard plugin automatically downloads to the PC. Whenthe download is complete, locate the downloaded file.Note that if the browser used for the plugin download isInternet Explorer, the file extension of the plugin file maybe .zip. If the extension is .zip, right-click the file andrename the file extension to .acezip.Double-click the .acezip file to automatically install theplugin.The plugin installation process opens the ACE software.Then, close ACE after the plugin installation completes.To install a plugin from ACE, take the following steps:1.24165-2112.From the Start menu, click All Programs AnalogDevices ACE to open the main ACE software window.In the left pane, click Plug-in Manager. The Manage Plugins window opens (see Figure 10).24165-104Figure 11. ACE Evaluation Board Plug-ins Web InstallationFigure 10. ACE Manage Plug-ins Window3.Click the Available Packages dropdown menu on the leftside of the software window.Rev. 0 Page 6 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829Board ViewINTRODUCTION TO THE AD9081, AD9082,AD9986, OR AD9988 PLUGINThe board view tab enables the user to quickly set up the AD9081,AD9082, AD9986, or AD9988. Figure 13 shows the QUICKCONFIGURATION pane within the AD9082-FMCA-EBZboard view.24165-008The AD9081, AD9082, AD9986, or AD9988 plugin allows theuser to evaluate the AD9081, AD9082, AD9986, or AD9988chip via the AD9081-FMCA-EBZ, AD9082-FMCA-EBZ,AD9986-FMCB-EBZ, or AD9988-FMCB-EBZ evaluationboard. First, ensure that the evaluation board is connected withall of the proper hardware (see Figure 5). Next, ensure that theADS9-V2EBZ is powered on before opening the ACE software.When the user opens the ACE software, the plugin correspondingto the evaluation board chosen appears in the Attached Hardwaresection (see Figure 12).Double-clicking the evaluation board icon in the AttachedHardware section in the ACE software opens the board viewcorresponding to the connected evaluation board. In theexample shown in Figure 12, the board used is the AD9082FMCA-EBZ. (Note that the Ax portion of the AD9082-FMCAEBZ board name delineates the software version.) The samesteps can be used for other boards as well.Figure 12. ACE Initial Window Showing the Attached Hardware SectionBOARDVIEW TABCHIPINFOBOARDINFOPULL-DOWNMENU FORUSE CASES24165-009DOUBLE CLICKTO OPENANALYSISAFTER SETUPFigure 13. AD9082-FMCA-EBZ-A2 Board View Tab DetailsRev. 0 Page 7 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideChip ViewDouble-clicking the AD9081, AD9082, AD9986, or AD9988icon in the board view opens the chip view. The chip view enablesthe user to customize the AD9081, AD9082, AD9986, orAD9988 beyond the functions available in the board view. Usethe QUICK CONFIGURATION pane in the chip view if usinga direct external clock. Figure 14 shows the details of the chipview for the AD9082 as an example.CHIP VIEW TABQUICK CONFIGURATIONFOR NCO FREQUENCIESPULL-DOWN MENUCLOCK OPTIONSOPTIONS TO CONFIGUREDATAPATHACCESS TOMEMORY MAP ANDANALYSIS WINDOWFigure 14. AD9082 Chip View Tab DetailRev. 0 Page 8 of 2624165-010UG-1829
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829SETTING UP THE MicroZed CONNECTIONBefore performing the evaluation of the AD9081, AD9082,AD9986, or AD9988, the Ethernet interface to the MicroZed board must be set up by configuring the network interfacebetween the PC and the MicroZed board.MicroSD CARD FOR THE MicroZed BOARDLocate the microSD card (HSX) from the contents ofADS9-V2EBZ packaging.Connect the microSD card to the MicroZed board (facethe contacts of the microSD card up). See Figure 15 foradditional details.24165-0112.Figure 15. MicroSD Card Slot in MicroZed Board3.To configure the network interface to the MicroZed board, takethe following steps:1.To ensure proper connection between the microSD card andthe MicroZed board, take the following steps:1.CONFIGURE THE NETWORK INTERFACE TO THEMicroZed BOARDAs a precaution, ensure that the MicroZed board is seatedproperly on the ADS9-V2EBZ (see Figure 5). Only a visualinspection is needed.MODE JUMPER CONNECTIONS FOR THE MicroZedBOARDEnsure that the connections to ADS9-V2EBZ are as shownin Figure 5. It is not necessary to connect the AD9082FMCA-EBZ (or the AD9081-FMCA-EBZ, AD9986FMCB-EBZ, or AD9988-FMCB-EBZ) evaluation board.2. One end of the Ethernet cable can be connected directly tothe PC Ethernet port or to a USB to Ethernet adapter, withthe other end connected to the MicroZed board.3. Power on the ADS9-V2EBZ board. Allow up to 10 sec forthe MicroZed board to boot up.4. Open the local area connection settings. On Windows 7:Start Menu Control Panel Network and SharingCenter Change adapter settings. On Windows 10: StartMenu Settings Network & Internet Change adapteroptions.5. If the Local Area Connection icon does not appear in theNetwork Connections window, unplug the Ethernetconnection from the MicroZed board and then reconnect it.6. Double-click the Local Area Connection icon that appears(Figure 17 shows Local Area Connection 3 as an example).7. Click Properties.8. Select Internet Protocol Version 4 (TCP/IPv4).9. Click Properties.10. Enter 192.168.0.2 in the IP address field.11. Ensure the Subnet mask field shows 255.255.255.0.12. Click OK.CHECKING THE CONNECTION TO THE MicroZedBOARDEnsure that the mode jumpers on the MicroZed board areconnected as shown in Figure 16.To check the connection to the MicroZED board, take thefollowing steps:JP1JP2JP31.24165-0122.3.Figure 16. Mode Jumper Connections for MicroZed BoardThe boot mode jumpers (JP1 to JP3) shown in Figure 16 allowthe MicroZed board to boot the image from the microSD card.4.5.Rev. 0 Page 9 of 26Power cycle the ADS9-V2EBZ. Wait about 10 sec for theMicroZed to boot up.Open a Telnet software, such as WinSCP or Tera Term.Initiate a secure shell (SSH) connection to 192.168.0.10,which is the IP address to the embedded remote procedurecall (eRPC) server in the MicroZed board.Login with username: root and password: analog.When the login is complete, the contents of the root folderdisplay in the Telnet software, which confirms the Ethernetconnection.
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User Guide24165-013UG-1829Figure 17. Internet Protocol SettingsRev. 0 Page 10 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829EVALUATION BOARD HARDWARE SETUPDETERMINE THE CLOCK SOURCEDetermine whether the AD9081-FMCA-EBZ, AD9082-FMCAEBZ, AD9986-FMCB-EBZ, or AD9988-FMCB-EBZ is set to theexternal clock or on-board HMC7044 clock by checking the C3D,C4D, C5D, and C6D capacitors on the evaluation board chosen. Bydefault, the HMC7044 clock is enabled (C3D and C5D areplaced on the evaluation board, and C4D and C6D are do notinsert (DNI)). If using a direct external clock, remove the C3Dand C5D capacitors and place the C4D and C6D capacitors on theevaluation board. The capacitors are 0.1 μF, size 0201 (imperial) orsize 0603 (metric). For additional details, see Figure 18 andFigure 19.DEFAULT CLOCKING SCHEME FOR AD9081-FMCAEBZ, AD9082-FMCA-EBZ, AD9986-FMCB-EBZ, ORAD9988-FMCB-EBZThe default clocking scheme for these evaluation boards usesthe on-chip phase-locked loop (PLL) within the AD9081, AD9082, PLACE C4D AND C6D FOR DIRECT EXTERNAL CLOCK INPUT C3D AND C5D PLACED BY DEFAULT24165-014DIRECT EXTERNAL CLOCK INPUT(SMP-F)AD9986, or AD9988. The HMC7044 provides the referenceinput to the chip. The evaluation board provides all the necessaryclocks for conducting a quick evaluation of the device, includingthe auxiliary clocks needed by the FPGA in the ADS9-V2EBZboard to set up the JESD204B or JESD204C link. The clockingscheme is shown in Figure 20. As shown in Table 1, the referencefrequencies used by the two boards (AD908x-FMCA-EBZ orAD998x-FMCB-EBZ) are different. Therefore, each board onlysupports the integer multiples of the crystal oscillator that areon the evaluation board. The plugin only supports the integermultiples of the crystal oscillator that are installed on theevaluation board. If a different clock frequency is required forevaluation, the user must modify the evaluation board to acceptan external clock by following the instructions previously listed.This modification also necessitates an additional clock sourcefor the ADS9-V2EBZ. Refer to Figure 30 for additional detailson the instrument setup.24165-218Figure 18. Capacitor Position for Direct External vs. On-Board HMC7044 Clocking (Showing the AD908x-FMCA-EBZ)Figure 19. Capacitor Position for Direct External vs. On-Board HMC7044 Clocking (Showing the AD998x-FMCB-EBZ Evaluation Board)Rev. 0 Page 11 of 26
9988 User GuideAD9081/AD9082/AD9986/AD9988ADCDACEXT CLKEXT C4D/C6DPLLC3D/C5DEXT SYS P/EXT SYS C/C3CCLKOUT0, CLKOUT6, CLKOUT8TO FPGA VIA FMC CONNECTORCLKOUT10, CLKOUT12, SCLKOUT13OSCIN24165-015CPOUT1VOLTAGE CONTROLLEDCRYSTAL OSCILLATORFigure 20. Default Clocking Scheme Used for the AD9081, AD9082, AD9986, or AD9988 Evaluation BoardSET UP THE INSTRUMENTATIONTo use on-board clocking, the user must only provide an analoginput signal using a signal generator. To analyze DAC outputs, aspectrum analyzer is needed.The following are recommended instruments and connectors: Signal generator: a low phase noise signal generator, suchas the Rohde & Schwarz SMA (100A or 100B) orKeysight UXG/EXG series. Note that the performancelisted in the product data sheet is from the Rohde &Schwarz SMA100B with the B-711 option.Spectrum analyzer: Keysight PXA/UXA or Rohde &Schwarz FSW/FSWP.Cables: use a shielded, RG-58, 50 Ω coaxial cable.Ensure that the 10 MHz references are shared between theinstruments.Analog Devices recommends the coaxial, 48.0 in. (1.2 m or4.0 ft), RG316 DS, SMA to SMA, male to male cable assemblyfrom Cinch Connectivity Solutions Johnson, Part Number 4150033-048 for the setup.Set Up the Spectrum AnalyzerAnalog Devices recommends the following configuration forthe spectrum analyzer: Start frequency 50 MHz (or 0 MHz)Stop frequency 5 GHzResolution bandwidth 30 kHzUse an average or rms detector setting and set the inputattenuation to 6 dB or as desiredThese settings can be changed to satisfy the particular use case.It is recommended to have all the instruments share a commonreference. Usually, this common reference is achieved byconnecting the 10 MHz reference output from one instrumentto the reference input of the next, and so on.Rev. 0 Page 12 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829USING THE AD9081, AD9082, AD9986, OR AD9988 BOARD VIEWThe board view allows the user to quickly set up the AD9081,AD9082, AD9986, or AD9988 to a predetermined use case forevaluation. The board view uses the on-board clocking solutionto manage the clocks to the AD9081, AD9082, AD9986, orAD9988, as well as the FPGA. For more details on the clocksetup, refer to Figure 20. Figure 21 shows the hardwareconnection needed when using the board view with theAD9082-FMCA-EBZ board as an example.USE CASESThe use cases in Table 2, Table 3, Table 4, and Table 5 aresupported for JESD204B and JESD204C modes for the AD9081FMCA-EBZ, AD9082-FMCA-EBZ, AD9986-FMCB-EBZ, orAD9988-FMCB-EBZ. Tx means transmit data path, and Rxmeans receive data OG INPUT TO ADCADC0AD9082FMCA-EBZDAC re 21. Hardware Setup for Using the Board Wizard (Note the 10 MHz Reference Connection)In Table 2, N/A means not applicable.Table 2. Use Cases for AD9081-FMCA-EBZ Board View (Uses 100 MHz On-Board Crystal Oscillator, All Single Rate(MSPS)12 GSPSDAC,1.5 GSPSI/Q, 4 GSPSADC, FullBandwidth12 GSPSDAC,1.5 GSPSI/Q, 3 GSPSADC, FullBandwidth6 GSPS DAC,1.5 GSPSI/Q, 3 GSPSADC, FullBandwidth12 GSPSDAC, 4 GSPSADC,250 MSPSI/QDual BandSetup,12 GSPSDAC, 3 GSPSADC,375 JESD204xMode1TxInterpolationRxDecimationRev. 0 Page 13 of 26No. of TxChannelsRxDataRate(MSPS)No. of RxChannelsLink LineRate(Gbps/lane)JESD204xProtocol2
9988 User Rate(MSPS)AD9209 FullBandwidthAD91771.5 GSPS I/QmodeNCO nRxDecimationNo. of TxChannelsRxDataRate(MSPS)No. of RxChannelsLink LineRate(Gbps/lane)JESD204xProtocol21B means JESD204B, and C means JESD204C. Note that Rx mode applies to the ADC data path (or JESD204 Tx/JTx), and Tx mode applies to the DAC data path (orJESD204 Rx/JRx). For more information about the JESD204B or JESD204C modes, refer to the UG-1578, System Development User Guide for the AD9081 and AD9082Direct RF Sampling Transceivers.2B means JESD204B, and C means JESD204C.In Table 3, N/A means not applicable.Table 3. Use Cases for AD9988-FMCBA-EBZ Board View (Uses 122.88 MHz On-Board Crystal Oscillator, All Single Link)JESD204xMode1TxInterpolationRx x DataRate(MSPS)mmWave 5G,4T4R singleband,983.04 MSPSI/QmmWave 5G,4T4R singleband,1474.56 MSPSI/Q11.79648 GSPSDAC,2.94912 GSPSADC,245.76 MSPSI/QDual BandSetup,5.89824 GSPSDAC,2.94912 GSPSADC,368.64 MSPSI/QNCO .79648N/A9BN/A86N/AN/AN/A4N/AN/AN/AN/AClock (GHz)1No. of TxChannelsRx DataRate(MSPS)No. of RxChannelsLink LineRate(Gbps/lane)JESD204xProtocol2B means JESD204B, and C means JESD204C. Note that Rx mode applies to the ADC data path (or JESD204 Tx/JTx), and Tx mode applies to the DAC data path (orJESD204 Rx/JRx). For more information about the JESD204B or JESD204C modes, refer to the UG-1578, System Development User Guide for the AD9081 and AD9082Direct RF Sampling Transceivers.2B means JESD204B, and C means JESD204C.Rev. 0 Page 14 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829In Table 4, N/A means not applicable.Table 4. Use Cases for AD9082-FMCA-EBZ Board View (Uses 100 MHz On-Board Crystal Oscillator, all single Rate(MSPS)4D2A,12 GSPSDAC,1.5 GSPSI/Q, 6 GSPSADC, FullBandwidth2D2A,12 GSPSDAC,1.5 GSPSI/Q, 6 GSPSADC, FullBandwidth6 GSPS DAC,1.5 GSPSI/Q, 6 GSPSADC, FullBandwidth12 GSPSDAC, 4 GSPSADC,250 MSPSI/QDual BandSetup,6 GSPS DAC,3 GSPS ADC,375 MSPSI/Q6 GSPS DAC,6 GSPS ADC,1000 MSPSI/QAD9207 FullBandwidthNCO 204xMode1TxInterpolationRxDecimation1No. of TxChannelsRxDataRate(MSPS)No. of RxChannelsLink LineRate(Gbps/lane)JESD204xProtocol2B means JESD204B, and C means JESD204C. Note that Rx mode applies to the ADC data path (or JESD204 Tx/JTx), and Tx mode applies to the DAC data path (orJESD204 Rx/JRx). For more information about the JESD204B or JESD204C modes, refer to the UG-1578, System Development User Guide for the AD9081 and AD9082Direct RF Sampling Transceivers.2B means JESD204B, and C means JESD204C.Rev. 0 Page 15 of 26
9988 User GuideIn Table 5, N/A means not applicable.Table 5. Use Cases for AD9986-FMCBA-EBZ Board View (Uses 122.88 MHz On-Board Crystal Oscillator, All Single iptionTxRxTxRxCoarseFineCoarseFineTx DataRate(MSPS)mmWave 5G,4T2O singleband,983.04 MSPSI/QmmWave 5G,4T2R singleband,1474.56 MSPSI/Q4T2O RxDigitalPredistortion(DPD)Dual BandSetup,5.89824 GSPSDAC,2.94912 GSPSADC,368.64 MSPSI/QNCO .79648N/A9BN/A86N/AN/AN/A4N/AN/AN/AN/AClock (GHz)1No. of TxChannelsRx DataRate(MSPS)No. of RxChannelsLink LineRate(Gbps/lane)JESD204xProtocol2B means JESD204B, and C means JESD204C. Note that Rx mode applies to the ADC data path (or JESD204 Tx/JTx), and Tx mode applies to the DAC data path (orJESD204 Rx/JRx). For more information about the JESD204B or JESD204C modes, refer to the UG-1578, System Development User Guide for the AD9081 and AD9082Direct RF Sampling Transceivers.2B means JESD204B, and C means JESD204C.Rev. 0 Page 16 of 26
EVAL-AD9081/EVAL-AD9082/EVAL-AD9986/EVAL-AD9988 User GuideUG-1829SETTING UP THE AD9081, AD9082, AD9986, ORAD9988 IN FULL BANDWIDTH MODESet up the evaluation board as explained in the EvaluationBoard Hardware Setup section. Open the board
To install a plugin from ACE, take the following steps: 1. From the Start menu, click All Programs Analog Devices ACE to open the main ACE software window. 2. In the left pane, click Plug-in Manager. The Manage Plug-ins window opens (see Figure 10). 24165-104 Figure 10. ACE Manage Plug-ins Window 3. Click the Available Packages dropdown .
Respiratory Care Plan Guidelines Arterial Blood Gas Physical Medicine and Rehab Consult Speech Therapy for Eval & Treat Other, Sp/lang/cog and swallow eval & treatment., Eval for Ischemic Stroke/TIA Consult PT Mobility for Eval & Treat Eval for Ischemic Stroke/TIA Consult Occ Therapy for Eval & Treat Eval fo
HFBR-0416Z Evaluation Kit: 125 MBaud 820 nm Fiber Optic Eval Kit Contains the following: One HFBR-1414Z transmitter One HFBR-2416Z receiver Eval board Related literature AFBR-0549Z Evaluation Kit: DC to 50 MBaud 820 nm Fiber Optic Eval Kit Contains the followi
EVAL-ADV7625-SMZ User Guide UG-603 OneTechnologyWay P.O.Box9106 Norwood,MA 02062-9106,U.S.A. Tel:781.329.4700 Fax:781.461.3113 www.analog.com Advantiv EVAL-ADV7625-SMZ Video E
specific to this stack/library. The price of those part numbers includes the stack/library royalties. 2.2 Codification The meaning of the codification is explained in Table 2 . The order code is mentioned on a sticker placed on the top side of the board. Table 2. Codification explanation STM32H7X3I-EVAL STM32H7X3I-EVAL2 Description Example .
JavaScript quiz 1. Variable totalquestions controls total number of quiz questions 2. Variable correctchoices is an Array() that holds solutions (a, b, c) 3. Variable thequestion uses eval() The eval() function evaluates or executes an argument. If the argument is an expression, eval()
SDP board. The Analysis Control Evaluation (ACE) software is available for use with the evaluation board to allow the user to AD5676/ AD5676R. The evaluation board s are compatible with the . EVAL-SDP-CB1Z Blackfin SDP controller board (SDP-B), which is available for order on the Analog Devices website at www.analog.com.
output for (time-series) charting. dedup Removes subsequent results that match a specified criterion. eval Calculates an expression. See COMMON EVAL FUNCTIONS. fields Removes fields from search results. head/tail Returns the first/last N results. lookup Adds field values from an external source. rename Renames a field. Use wildcards to specify
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