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EVAL-AD7352EDZ

EVAL-AD7352EDZ

  • 厂商:

    AD(亚德诺)

  • 封装:

    Module

  • 描述:

    BOARD EVAL AD7352

  • 数据手册
  • 价格&库存
EVAL-AD7352EDZ 数据手册
Evaluation Board for Differential Input, Simultaneous Sampling, 12-/14-Bit ADC EVAL-AD7352/AD7356/AD7357 supply and a 1.8 V to 3.6 V VDRIVE and feature throughput rates of up to 5 MSPS. Full details on the AD7352, AD7356, and AD7357 are available in the respective data sheets, which are available at www.analog.com, and should be consulted in conjunction with this data sheet when using the evaluation board. FEAURES Full-featured evaluation board for the AD7352, AD7356, and AD7357 EVAL-CED1Z compatible Standalone capability On-board analog buffering and voltage reference Various linking options PC software for control and data analysis when used with EVAL-CED1Z On-board components include two ADR421, 2.5 V, ultrahigh, precision band gap references; two AD8138 single-ended-todifferential converters; and one AD8022 op amp. Various link options are explained in the Evaluation Board Hardware section. Interfacing to this board is through a 96-way connector. This 96-way connector is compatible with the EVALCED1Z, which is available from Analog Devices, Inc. External connectors are provided for a number of signals. GENERAL DESCRIPTION This data sheet describes the evaluation board for the AD7352, AD7356, and AD7357, which are dual, 12-bit (AD7352 and AD7356) and 14-bit (AD7357), simultaneous sampling successive approximation ADCs. These parts operate from a 2.5 V power EVALUATION BOARD BLOCK DIAGRAM EXTERNAL VDRIVE SUPPLY EXTERNAL VDD SUPPLY AD7352/AD7356/ AD7357 SINGLE-ENDED INPUT SINGLE-ENDED INPUT SINGLE-ENDED-TODIFFERENTIAL CONVERSION USING AD8138 SINGLE-ENDED-TODIFFERENTIAL CONVERSION USING AD8138 VINA+ SCLK VINA– VINB+ VINB– CS SDATAA SDATAB REFA/REFB OPTIONAL EXTERNAL VREF POWER SUPPLY CIRCUITS 96-WAY EDGE CONNECTOR VDRIVE 07109-010 VDD Figure 1. Rev. 0 Evaluation boards are only intended for device evaluation and not for production purposes. Evaluation boards are supplied “as is” and without warranties of any kind, express, implied, or statutory including, but not limited to, any implied warranty of merchantability or fitness for a particular purpose. No license is granted by implication or otherwise under any patents or other intellectual property by application or use of evaluation boards. Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Analog Devices reserves the right to change devices or specifications at any time without notice. Trademarks and registered trademarks are the property of their respective owners. Evaluation boards are not authorized to be used in life support devices or systems. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. www.analog.com Tel: 781.329.4700 Fax: 781.461.3113 ©2010 Analog Devices, Inc. All rights reserved. EVAL-AD7352/AD7356/AD7357 TABLE OF CONTENTS Feaures ............................................................................................... 1  Evaluation Board Software ...............................................................8  General Description ......................................................................... 1  Installing the Software ..................................................................8  Evaluation Board Block Diagram ................................................... 1  Setting Up the EVAL-CED1Z ......................................................8  Revision History ............................................................................... 2  Software Operation .......................................................................9  Evaluation Board Hardware ............................................................ 3  Using the Software ........................................................................9  Power Supplies .............................................................................. 3  Evaluation Board Schematics and Artwork ................................ 12  Link Options ................................................................................. 3  Ordering Information .................................................................... 16  Setup Conditions .......................................................................... 5  Bill of Materials ........................................................................... 16  Interfacing the Evaluation Board to the EVAL-CED1Z .......... 6  Ordering Guide .......................................................................... 16  Sockets ........................................................................................... 7  ESD Caution................................................................................ 16  Connectors .................................................................................... 7  Operating with the EVAL-CED1Z ............................................. 7  REVISION HISTORY 2/10—Revision 0: Initial Version Rev. 0 | Page 2 of 16 EVAL-AD7352/AD7356/AD7357 EVALUATION BOARD HARDWARE POWER SUPPLIES When using this evaluation board with the EVAL-CED1Z, all supplies are provided from the converter evaluation and development (CED) board through the 96-way connector. When using the board as a standalone unit, external supplies must be provided. This evaluation board has the following power supply inputs: VDD (+2.5 V), VDRIVE (+3.3 V), V+ (5 V), V− (−5 V), AGND, and DGND. The supply pins of all the op amps and references are decoupled to AGND with a 10 μF tantalum capacitor and a 0.1 μF ceramic capacitor. The AD7352, AD7356, and AD7357 VDD and VDRIVE supply pins are also decoupled to AGND with 10 μF tantalum capacitors and 0.1 μF multilayer ceramic capacitors. Extensive ground planes are used on this board to minimize the effect of high frequency noise interference. There are two ground planes: AGND and DGND. These are connected at one location close to the AD7352, AD7356, or AD7357. LINK OPTIONS There are four link options that must be set for the required operating setup before using the evaluation board. The functions of each option are outlined in Table 1. There are an additional 21 solder link options for various functions. These link options are outlined in Table 2. These options are initially set up to be EVAL-CED1Z compatible on all boards. Table 1. Link Option Functions Link No. LK1 LK2 LK3 LK4 Function This link option is used to select the source of the VDD (+2.5 V) supply, which is used to power the AD7352, AD7356, and AD7357. In Position A, VDD is supplied from the CED board through the 96-way connector. In Position B, VDD is supplied from an external source via Power Connector J11. This link option selects the source of the VDRIVE (+3.3 V) supply for the AD7352, AD7356, and AD7357. In Position A, VDRIVE is supplied from the CED board. In Position B, VDRIVE must be supplied from an external source via Power Connector J12. This link option selects the source of the V− (−5 V) supply for the op amps. In Position A, V− must be supplied from an external source via Power Connector J14. In Position B, V− is supplied from the CED board. This link option selects the source of the V+ (+5 V) supply for the op amps. In Position A, V+ must be supplied from an external source via Power Connector J14. In Position B, V+ is supplied from the CED board. Table 2. Solder Link Option Functions Link No. S1 S2 S3 S4 S5 S6 S7 S8 S9 S11 S12 Function This link selects the source of the SCLK signal for the AD7352, AD7356, and AD7357. If this link is closed, SCLK must be supplied from an external source via SCLK SMB Connector J8. This link selects the source of the SCLK signal for the AD7352, AD7356, and AD7357. If this link is closed, SCLK is supplied by the CED board. This link selects the destination of the SDATAA signal from the AD7352, AD7356, and AD7357. If this link is closed, the SDATAA signal goes to SDATAA SMB Connector J9. This link selects the destination of the SDATAA signal from the AD7352, AD7356, and AD7357. If this link is closed, the SDATAA signal goes to the CED board through the 96-way connector. This link selects the destination of the SDATAB signal from the AD7352, AD7356, and AD7357. If this link is closed, the SDATAB signal goes to SDATAB SMB Connector J10. This link selects the destination of the SDATAB signal from the AD7352, AD7356, and AD7357. If this link is closed, the SDATAB signal goes to the CED board through the 96-way connector. This link selects the source of the CS signal for the AD7352, AD7356, and AD7357. If this link is closed, CS must be supplied from an external source via SCLK SMB Connector J7. This link selects the source of the CS signal for the AD7352, AD7356, and AD7357. If this link is closed, CS is supplied by the CED board. If a bipolar analog input source is used, this link should be open. If a unipolar analog input source is used, this link should be closed. This link selects the source of the common-mode input for the AD8138 op amp that drives ADC A on the AD7352, AD7356, and AD7357. If this link is closed, the common mode is supplied from an external source via EXT COM A Connector J3. This link selects the source of the SCLK signal for the AD7352, AD7356, and AD7357. If this link is closed, SCLK is supplied by the CED board. Rev. 0 | Page 3 of 16 EVAL-AD7352/AD7356/AD7357 Link No. S13 S14 S16 S18 S19 S20 S21 S22 S23 S24 Function This link selects the source of the common-mode input for the AD8138 op amp that drives ADC A on the AD7352, AD7356, and AD7357. If this link is closed, the common mode is supplied from the buffered output of the internal reference. This link selects the source of the common-mode input for the AD8138 op amp that drives ADC B on the AD7352, AD7356, and AD7357. If this link is closed, the common mode is supplied from an external source via EXT COM B Connector J4. This link selects the source of the common-mode input for the AD8138 op amp that drives ADC B on the AD7352, AD7356, and AD7357. If this link is closed, the common mode is supplied from the buffered output of the internal reference. If a bipolar analog input source is used, this link should be open. If a unipolar analog input source is used, this link should be closed. This link selects whether the source for ADC A is terminated through a 49.9 Ω resistor. If this link is closed, the source is terminated. This link allows the application of an external reference to ADC A through EXT REF A Connector J5. This link, when closed, applies a 2.5 V output from the ADR421 reference to ADC A. This link allows the application of an external reference to ADC B through EXT REF B Connector J6. This link, when closed, applies a 2.5 V output from the ADR421 reference to ADC A. This link selects whether the source for ADC B is terminated through a 49.9 Ω resistor. If this link is closed, the source is terminated. Rev. 0 | Page 4 of 16 EVAL-AD7352/AD7356/AD7357 SETUP CONDITIONS Care should be taken before applying power and signals to the evaluation board to ensure that all link positions are set according to the required operating mode. There are two modes in which to operate the evaluation board. The user can operate the board either with the CED or as a standalone board. Table 3 shows the position in which all the links and solder links are set when the evaluation board is packaged. When the board is shipped, the assumption is that the user will use the EVAL-AD7352/AD7356/ AD7357 with the EVAL-CED1Z. Therefore, the links are set so that all power supplies and control signals are supplied by the EVAL-CED1Z. Table 3. Link Positions on the EVAL-AD7352/AD7356/AD7357 When Packaged Link No. LK1 LK2 LK3 LK4 S1 S2 S3 S4 S5 S6 S7 S8 S9 S11 S12 S13 Position A A B B Open Closed Open Closed Open Closed Open Closed Open Open Closed Closed S14 S16 Open Closed S18 S19 S20 S21 S22 S23 S24 Open Closed Open Open Open Open Closed Function VDD is supplied from the CED through the 96-way connector. VDRIVE is supplied from the CED. V− is supplied from the CED. V+ is supplied from the CED. N/A. SCLK is supplied from the CED. N/A. The SDATAA signal goes to the CED through the 96-way connector. N/A. The SDATAB signal goes to the CED through the 96-way connector. N/A. CS is supplied by the CED. N/A. N/A. SCLK is supplied by the CED. The common mode for the AD8138 op amp that drives ADC A on the AD7356 and AD7357 is supplied from the buffered output of the internal reference. N/A. The common mode for the AD8138 op amp that drives ADC B on the AD7356 and AD7357 is supplied from the buffered output of the internal reference. N/A. The source for ADC A is to be terminated through a 49.9 Ω resistor. N/A. N/A. N/A. N/A. The source for ADC B is to be terminated through a 49.9 Ω resistor. Rev. 0 | Page 5 of 16 EVAL-AD7352/AD7356/AD7357 INTERFACING THE EVALUATION BOARD TO THE EVAL-CED1Z 1 8 16 24 32 1 8 16 24 32 A B C 07109-001 Interfacing the EVAL-CED1Z to the AD7352/AD7356/AD7357 evaluation board is via a 96-way connector, J1. The pinout for the J1 connector is shown in Figure 2. Table 4 provides a description of the pins used on the 96-way connector, and Table 5 details the pin designations. Figure 2. Pin Configuration for the 96-Way Connector, J1 Table 4. The 96-Way Connector Pin Descriptions Signal DR0PRI DR0SEC DR1PRI RSCLK0 RFS0 +VARD +VARA DGND AGND AVSS (−5 V) AVCC (+5 V) Description Data Receive Primary 0. This input is connected to the SDATAA pin of the AD7352, AD7356, and AD7357 via S4. Data Receive Secondary 0. This input is connected to the SDATAB pin of the AD7352, AD7356, and AD7357 via S12. Data Receive Primary 1. This input can also be connected to the SDATAB pin of the AD7352, AD7356, and AD7357 via S6. Receive clock. This continuous clock is connected to the SCLK pin of the AD7352, AD7356, and AD7357 via S2. Receive frame sync. This pin is connected to the CS pin of the AD7352, AD7356, and AD7357 via S8 to frame the serial data transfer. Digital +3.3 V supply. This is used to provide the VDRIVE supply to the board via LK2 for the digital logic. Analog +2.5 V supply. This is used to provide the VDD supply to the board via LK1. Digital ground. These lines are connected to the digital ground plane on the evaluation board. Analog ground. These lines are connected to the analog ground plane on the evaluation board. −5 V supply (V−). This line is connected to the −5 V supply line on the board via LK3. +5 V supply (V+). This line is connected to the +5 V supply line on the board via LK4. Table 5. 96-Way Connector Pin Functions1 Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 1 Row A Row B Row C DR1PRI DGND DGND DGND +VARD +VARD DR0PRI RFS0 RSCLK0 +VARD DGND DGND DGND DR0SEC DGND DGND DGND DGND AGND AGND AGND AGND AGND AGND +VARA DGND AGND AGND AGND AGND AGND AGND AGND AGND AGND AGND AVSS (−5 V) AVCC (+5 V) DGND AGND AGND AGND AGND AGND AGND +VARA AGND AVSS (−5 V) AVCC (+5 V) The unused pins of the 96-way connector are not shown. Rev. 0 | Page 6 of 16 AGND AVSS (−5 V) AVCC (+5 V) EVAL-AD7352/AD7356/AD7357 SOCKETS CONNECTORS There are 12 SMB input sockets relevant to the operation of the AD7352, AD7356, and AD7357 on this evaluation board. All of these sockets are used for applying an externally generated signal to the evaluation board. When operating the board with the EVAL-CED1Z, the only external sockets necessary are those used to supply the analog inputs to the ADC (that is, VA and VB). All other sockets are optional, and if they are not used, their signals are supplied by the CED. Most of these sockets are used when operating the board as a standalone unit because in this mode of operation all required signals are supplied from external sources. The functions of these sockets are outlined in Table 6. There are four connectors on the AD7352/AD7356/AD7357 evaluation board, as outlined in Table 7. Table 7. Connector Functions Connector J13 J11 J12 J14 Function 96-way connector for the digital interface and power supply connections. External VDD and AGND power connector. External VDRIVE and DGND power connector. External +5 V, −5 V, and AGND power connector. OPERATING WITH THE EVAL-CED1Z Table 6. Socket Functions Socket VA VB EXT REF A EXT REF A EXT COM A EXT COM B SDATAA SDATAB CS SCLK Function Subminiature BNC socket for a single-ended bipolar analog input that is applied to the AD8138 for buffering prior to the VA input of the ADC. Subminiature BNC socket for a single-ended bipolar analog input that is applied to the AD8138 for buffering prior to the VB input of the ADC. Subminiature BNC socket for an external reference voltage to be applied to REFA or to access the internal reference from the AD7352, AD7356, or AD7357. Subminiature BNC socket for an external reference voltage to be applied to REFB or to access the internal reference from the AD7352, AD7356, or AD7357. Subminiature BNC socket for an external commonmode voltage to be applied to AD8138 commonmode input for ADC A. Subminiature BNC socket for an external commonmode voltage to be applied to AD8138 commonmode input for ADC B. Subminiature BNC socket for SDATAA output. Subminiature BNC socket for SDATAB output. Subminiature BNC socket for an external CS input. Subminiature BNC socket for an external SCLK input. The evaluation board can be operated in a standalone mode or in conjunction with the EVAL-CED1Z controller, available from Analog Devices. When interfacing the AD7352/AD7356/AD7357 evaluation board directly to the CED, all supplies and control signals to operate the AD7352/AD7356/AD7357 evaluation board are provided by the EVAL-CED1Z. When interfacing the respective evaluation board directly to the EVAL-CED1Z, throughput rates of up to 5 MSPS are supported on the AD7356, of up to 3 MSPS are supported on the AD7352, and of up to 4.2 MSPS are supported on the AD7357. Software to communicate with the EVAL-CED1Z and the AD7352/AD7356/AD7357 evaluation board is provided with the AD7352/AD7356/AD7357 evaluation board package. The 96-way connector on the AD7352/AD7356/AD7357 evaluation board plugs directly into the 96-way connector on the EVAL-CED1Z. The EVAL-CED1Z provides all the supplies for the evaluation board. It is powered from a 7 V, 15 W power supply that accepts input voltages from 100 V to 240 V ac, and it contains the relevant adaptors for worldwide use. The power supply is provided with the EVAL-CED1Z. Connection between the EVAL-CED1Z and the USB port of a PC is via a standard USB 2.0 connection cable that is provided as part of the EVAL-CED1Z package. Rev. 0 | Page 7 of 16 EVAL-AD7352/AD7356/AD7357 EVALUATION BOARD SOFTWARE INSTALLING THE SOFTWARE The EVAL-AD7352/AD7356/AD7357 evaluation kit includes selfinstalling software on a CD-ROM for controlling and evaluating the performance of the AD7352, AD7356, or AD7357 when the part is operated with the EVAL-CED1Z. The software is compatible with Windows® 2000/XP®. If the setup file does not run automatically, setup.exe can be run from the CD-ROM. When the CD-ROM is inserted into the PC, an installation program automatically begins. This program installs the evaluation software. The software should be installed before the USB cable is connected between the EVAL-CED1Z and the PC. This ensures that the appropriate USB driver files have been properly installed before the EVAL-CED1Z is connected to the PC. SETTING UP THE EVAL-CED1Z This section describes how the evaluation board, the EVALCED1Z, and the software should be set up to begin using the complete system. 1. 2. 3. 4. 5. 6. Install the AD7352/AD7356/AD7357 evaluation board software. Connect the EVAL-CED1Z board to the evaluation board via the 96-way connector. Apply power to the EVAL-CED1Z via the 7 V, 15 W power supply provided. At this stage, the green LED labeled Power on the EVAL-CED1Z illuminates, indicating that the EVAL-CED1Z is receiving power. Connect the USB cable between the PC and the EVALCED1Z. A green LED positioned beside the USB connector on the EVAL-CED1Z board illuminates, indicating that the USB connection has been established. After the EVAL-CED1Z is detected, proceed through any dialog boxes that appear, using the recommended options, to finalize the installation. Start the EVAL-AD7352/AD7356/AD73577 software. In the Part Information section on the main menu of the software click the relevant part number from the drop-down box. This sends the FPGA code to the EVAL-CED1Z. The two red LEDs, D14 and D15, on the EVAL-CED1Z illuminate, indicating that the EVAL-CED1Z is functional and ready to receive instructions. When the software is run for the first time with the EVAL-CED1Z connected to the PC, the PC automatically finds and identifies the new device. Follow the on-screen instructions that appear to install the drivers for the EVAL-CED1Z on the PC. If an error appears on-screen when the software is first opened, then the PC is not recognizing the USB device. This error is corrected by the following procedure: 1. Open the PC Device Manager. The Device Manager is accessed by right-clicking the My Computer icon on the desktop and then selecting Properties. When the System Properties window opens, select the Hardware tab. 2. Click Device Manager in the Hardware tab of the System Properties window. 3. Examine the devices listed under the Universal Serial Bus Controller heading. 4. If an unknown device is listed, right-click the option and select Update Driver. 5. The New Hardware Wizard runs twice, and the following hardware is listed under the ADI Development Tools: ADI Converter Evaluation and Development Board (WF). 6. Reboot the PC. Rev. 0 | Page 8 of 16 EVAL-AD7352/AD7356/AD7357 SOFTWARE OPERATION Part Information Tab With the hardware set up, you can now use the software to control the EVAL-CED1Z and the AD7352/AD7356/AD7357 evaluation board. To launch the software, select the AD735x submenu from the Analog Devices menu and then click the AD735x icon. Figure 3 displays the main window that opens. If an error message appears, click OK and restart the application after checking the connection between the adapter board and the USB port on the PC. In addition, check that the USB device is identified by the Device Manager, as detailed in the Setting Up the EVAL-CED1Z section. The Part Information tab allows you to select which evaluation board to use. The sampling frequency for the selected part is changeable. The maximum sample rate is 3 MSPS for the AD7352, 5 MSPS for the AD7356, and 4.2 MSPS for the AD7357. The SCLK frequency is set at 80 MHz for the AD7356 and AD7357 and at 48 MHz for the AD7352. Changing the sampling frequency changes the throughput rate, but does not change the SCLK frequency. The samples taken are uploaded and displayed. The software that controls the AD7352/AD7356/AD7357 evaluation board through the EVAL-CED1Z has four main sections. Figure 3 shows the window that appears when the software is run. The top portion of the window contains the menu bar. The Part Information section is on the left side of the window. The Data Capture and Linearity tabs are in the center of the window, and each consists of a number of subtabs. USING THE SOFTWARE Menu Bar The menu bar consists of the following menus: File, Edit, and Help. File Menu Open (Sample Data) Data Capture Tab In the Data Capture tab, you can select the number of samples to be captured from the drop-down box. The default number of samples is 4096; you are free to change this as required. To initiate a conversion and capture the sample data, click Sample or Continuous. Both of these buttons are located at the top right corner of the Data Capture tab. When you click Sample, the software instructs the EVAL-CED1Z board to take the required number of samples at a specific frequency from the evaluation board. The samples taken are then uploaded and displayed. An FFT and/or histogram can be calculated and displayed. If you click Continuous, the software repeats the process indefinitely until you click Stop. (The Continuous button switches to Stop when clicked.) You can switch among displaying data from ADC A, ADC B, or both while the software is running continuously. The desired display option is selected by clicking the Waveform, Histogram, FFT, and Summary subtabs. Opens the sample data that has already been saved. Save (Sample Data) Saves the sample data that is currently displayed. Open (Linearity Data) Opens the linearity data that has already been saved. Waveform Tab Save (Linearity Data) The Waveform tab displays a digital storage oscilloscope (DSO) that allows you to display a waveform. When samples are uploaded from the EVAL-CED1Z, they are displayed here. The samples are displayed as integer code values. Saves the linearity data that is currently displayed. Print Front Panel Picture Prints the software window that is currently displayed. Save as Picture Saves the displayed window plot (that is, waveform, histogram, FFT). Exit Closes the software. Edit Menu Reinitialize Values to Default Reinitializes all controls in the main window to their default values. Help Menu Open analog.com The Part Information tab also includes a Busy status indicator that illuminates when the evaluation board is busy and an EXIT button to allow you to quit the program. At the bottom right of the graph are the zoom options. These allow you to zoom in and out for a closer look at a sample, if required. The Waveform Analysis section, which is located beneath the waveform graph, contains information about the samples taken, for example, the minimum/maximum position or frequency, the spread, the standard deviation, and the mean. The waveform graph displays the information for both ADC A and ADC B or either ADC as desired. Two buttons located on the right side of the graph, labeled VA ON/OFF and VB ON/OFF are used to select which ADC’s data is displayed. An indicator, located on the top right corner of the graph, shows what color graph represents each ADC. Opens the www.analog.com website. Rev. 0 | Page 9 of 16 EVAL-AD7352/AD7356/AD7357 Histogram Tab This tab displays a histogram of the captured ADC codes. It can be used to provide an indication of the ADC’s performance in response to dc inputs. The Histogram Analysis section contains information about the samples taken, for example, the maximum and minimum codes captured. FFT Tab This tab displays a fast Fourier transform (FFT) plot. The FFT is typically used for examining the ADC’s performance in the frequency domain. The Spectrum Analysis section contains information about the samples taken, for example, the ac specifications. conversions and perform the linearity routine, click Get Linearity Data. This instructs the EVAL-CED1Z board to take the required number of samples at a specific frequency from the evaluation board. Both the Max Hits Per Code control and the Get Linearity Data button are located on the top right side of the Linearity tab. The samples are then uploaded and processed. The INL and DNL are calculated during the processing. The results are displayed in the Histogram, DNL, INL, and Summary subtabs. The Linearity Analysis is displayed at the bottom of the Linearity tab. This section contains information about the samples taken, as well as the worst-case positive (WCP) and worst-case negative (WCN) INL and DNL data. You can choose to display the information for ADC A, ADC B, or both in the window using the VA ON/OFF and VB ON/OFF buttons, as explained in the Waveform Tab section. Histogram Tab Summary Tab DNL Tab This tab displays a summary of the graphs shown in the Waveform, Histogram, and FFT tabs. This tab displays a plot of the DNL results. This tab displays a histogram of the captured ADC codes. INL Tab Linearity Tab This tab displays a plot of the INL results. In the Linearity tab, you can select the maximum number of hits per code. Code 0 and Code 4095 are not included for this calculation. The default number is set at 1000. To initiate Summary Tab This tab displays the histogram, INL, and DNL plots in one window. Rev. 0 | Page 10 of 16 07109-002 EVAL-AD7352/AD7356/AD7357 Figure 3. AD7352/AD7356/AD7357 Main Software Window Rev. 0 | Page 11 of 16 EVAL-AD7352/AD7356/AD7357 EVALUATION BOARD SCHEMATICS AND ARTWORK AD7352/AD7356/AD7357 evaluation board schematics, silkscreen, and layout can be found in Figure 4 to Figure 10. 07109-003 Figure 4. AD7352/AD7356/AD7357 Evaluation Board Circuit Diagram 1 Rev. 0 | Page 12 of 16 07109-004 EVAL-AD7352/AD7356/AD7357 07109-005 Figure 5. Silkscreen Top Figure 6. Silkscreen Bottom Rev. 0 | Page 13 of 16 07109-006 EVAL-AD7352/AD7356/AD7357 07109-007 Figure 7. Layer 1 Artwork, Top Figure 8. Layer 2 Artwork, Ground Planes Rev. 0 | Page 14 of 16 07109-008 EVAL-AD7352/AD7356/AD7357 07109-009 Figure 9. Layer 3 Artwork, Ground Planes Figure 10. Layer 4 Artwork, Bottom Rev. 0 | Page 15 of 16 EVAL-AD7352/AD7356/AD7357 ORDERING INFORMATION BILL OF MATERIALS Table 8. Qty 16 12 4 12 4 4 6 2 4 2 2 1 1 1 2 2 1 1 Reference Designator C5, C8, C11, C14, C16, C17, C19, C20, C21, C23, C25, C27, C31, C35, C37, C41 C6, C7, C15, C18, C22, C24, C26, C28, C32, C36, C38, C42 Part Description Capacitor, SMD, 0603, 100 nF, X7R, 50 V Supplier/Part Number 1 FEC 1288255 Capacitor, 10 μF, 10 V, Case A FEC 1135105 C9, C10, C12, C13 J1, J2, J3, J4, J5, J6, J7, J8, J9, J10, J15, J16 R1, R2, R3, R4 R5, R12, R13, R20 R6, R7, R8, R14, R15, R17 R9, R16 R10, R11, R18, R19 R21, R22 J11, J12 J13 J14 U1 U2, U4 U6, U7 U8 Capacitor, 0603, 39 pF, 50 V Jack, SMB, PCB, 50 Ω FEC 722030 FEC 1111349 Resistor, 0603, 33 Ω Resistor, 0603, 49.9 Ω Resistor, 0603, 499 Ω Resistor, 0603, 523 Ω Resistor, 0603, 10 kΩ Resistor, 0603, 0.0 Ω Terminal block, PCB, two-way Plug, DIN41612, R/A, C, 96-way, PK5 Terminal block, PCB, three-way AD7356 differential input, 12-bit, SAR ADC, 16-lead TSSOP AD8138 low noise amplifier for 16-bit systems 8-lead SOIC ADR421 2.5 V XFET® voltage reference 8-lead SOIC AD8022 dual high speed, low noise op amp 8-lead MSOP FEC 9331050 FEC 1170658 FEC 1170758 FEC 1170760 FEC 9330399 FEC 9331662 FEC 1177875 FEC 1097929 FEC 1177876 Analog Devices AD7356BRUZ Analog Devices AD8138ARZ Analog Devices ADR421ARZ Analog Devices AD8022ARMZ FEC refers to Farnell Electronics. ORDERING GUIDE Model1 EVAL-AD7352EDZ EVAL-AD7356EDZ EVAL-AD7357EDZ EVAL-CED1Z 1 ESD CAUTION Description AD7352 Evaluation Board AD7356 Evaluation Board AD7357 Evaluation Board Converter Evaluation and Development Board Z = RoHS Compliant Part. ©2010 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. EB07109-0-2/10(0) Rev. 0 | Page 16 of 16
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