Evaluation Board for 10-Bit to 16-Bit R/D Converter with Reference Oscillator EVAL-AD2S1210 sinusoidal oscillator that provides sine wave excitation for resolvers. Full details about the part are available in the AD2S1210 data sheet from Analog Devices, Inc., which should be consulted in conjunction with this data sheet when using the evaluation board. FEATURES Full-featured evaluation board for the AD2S1210 EVAL-CED1Z compatible Standalone capability Various linking options PC software for control and data analysis when used with the EVAL-CED1Z On-board components include the AD8664 quad op amp, the ADM6315 voltage monitor, the PI74ALVTC16245AE bidirectional transceiver, and the 74HC573 Octal D-type transparent latch. GENERAL DESCRIPTION This data sheet describes the evaluation board for the AD2S1210, which is a complete, 10-bit to 16-bit resolution tracking resolverto-digital converter, integrating an on-board programmable Various link options are explained in Table 1 and Table 2. FUNCTIONAL BLOCK DIAGRAM 10-WAY CONNECTOR SAMPLE, WR/FSYNC, SCLK, SDI, SDO, A0, A1, RES0, RES1 VDRIVE AVDD DVDD A0, A1, RES0, RES1, RESET SINLO DATA BUS DB0 TO DB15 AD2S1210 CS RD SAMPLE WR/FSYNC COSLO EXC DB0 TO DB15 A, B, NM, DIR DOS, LOT EXC 26-WAY CONNECTOR 08036-001 COS 96-WAY EDGE CONNECTOR SIN EXTERNAL SUPPLIES 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 (c)2009 Analog Devices, Inc. All rights reserved. EVAL-AD2S1210 TABLE OF CONTENTS Features .............................................................................................. 1 Test Points ......................................................................................7 General Description ......................................................................... 1 Evaluation Board Software ...............................................................8 Functional Block Diagram .............................................................. 1 Installing the Software ..................................................................8 Revision History ............................................................................... 2 Setting Up the EVAL-CED1Z ......................................................8 Evaluation Board Hardware ............................................................ 3 Software Operation .......................................................................9 Power Supplies .............................................................................. 3 Using the Software ..................................................................... 10 Link Options ................................................................................. 3 Taking Samples ........................................................................... 11 Setup Conditions .......................................................................... 5 Reading From and Writing to Registers on the AD2S1210 .. 12 Interfacing the Evaluation Board to the EVAL-CED1Z .......... 5 Evaluation Board Schematics and Artwork ................................ 13 Operating with the EVAL-CED1Z ............................................. 6 Ordering Information .................................................................... 19 Interfacing to the Evaluation Board in Standalone Operation....................................................................................... 6 Bill of Materials ........................................................................... 19 Sockets ........................................................................................... 6 ESD Caution................................................................................ 20 Ordering Guide .......................................................................... 20 Connectors .................................................................................... 7 REVISION HISTORY 5/09--Revision 0: Initial Version Rev. 0 | Page 2 of 20 EVAL-AD2S1210 EVALUATION BOARD HARDWARE the AD2S1210 DVDD pin, the PI74ALVTC16245AE, and the 74HC573. To supply the AD8664 quad op amp, 12 V should be used. Lastly, 0 V is connected to one or both of the AGND inputs and to the DGND input. POWER SUPPLIES When using the EVAL-AD2S1210 with the EVAL-CED1Z, all supplies are provided from the controller board through the 96-way connector. When using the EVAL-AD2S1210 board as a standalone unit, external supplies must be provided. This evaluation board has the following six power supply inputs: * * * * * * AVDD DVDD VDRIVE +12 V AGND DGND The AVDD, DVDD and VDRIVE supplies are decoupled to the relevant ground plane with 4.7 F tantalum and 0.01 F multilayer ceramic capacitors. The AD8664, the PI74ALVTC16245AE, and the 74HC573 are decoupled to the relevant ground plane with 10 F tantalum and 0.1 F 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 AD2S1210. LINK OPTIONS If the evaluation board is used in standalone mode, 5 V must be connected to the AVDD input to supply the AD2S1210 AVDD pin. In addition, 5 V must be connected to the DVDD input to supply There are 16 link options that must be positioned for the required operating setup before using the evaluation board. The functions of these options are outlined in Table 1. Table 1. Link Option Functions Link No. LK1 Function This link selects the source of the SAMPLE input signal for the AD2S1210. In Position A, the SAMPLE signal is received from the externally applied SAMPLE signal via the J8 SMB socket or the J20 connector. In Position B, the SAMPLE signal is received from the evaluation board controller via the 96-way connector. In Position C, the SAMPLE signal is received from the S2 push-button switch. LK2 This link selects the source of the CS input signal for the AD2S1210. In Position A, the CS signal is received from the externally applied CS signal via the J9 SMB socket. In Position B, the CS signal is received from the evaluation board controller via the 96-way connector. In Position C, the CS signal is received from the S3 push button switch. LK3 This link selects the source of the RD input signal for the AD2S1210. In Position A, the RD signal is received from the externally applied RD signal via the J10 SMB socket. In Position B, the RD signal is received from the evaluation board controller via the 96-way connector. In Position C, the RD signal is received from the S3 push-button switch. LK4 This link selects the source of the WR/FSYNC input signal for the AD2S1210. In Position A, the WR/FSYNC signal is received from the externally applied WR/FSYNC signal via the J11 SMB socket or the J20 connector. In Position B, the WR/FSYNC signal is received from the evaluation board controller via the 96-way connector. LK5 This link selects the source of the SOE input signal for the AD2S1210. In Position A, the SOE signal is tied to VDRIVE (parallel mode). In Position B, the SOE signal is tied to DGND (serial mode). LK6 This link selects the source of the A0 input signal for the AD2S1210. In Position A, the A0 signal is received from the externally applied A0 signal via the J15 SMB socket or the J20 connector. In Position B, the A0 signal is received from the evaluation board controller via the 96-way connector. In Position C, the A0 signal is tied to VDRIVE. In Position D, the A0 signal is tied to DGND. This link selects the source of the A1 input signal for the AD2S1210. In Position A, the A1 signal is received from the externally applied A0 signal via the J16 SMB socket or the J20 connector. In Position B, the A1 signal is received from the evaluation board controller via the 96-way connector. In Position C, the A1 signal is tied to VDRIVE. In Position D, the A1 signal is tied to DGND. LK7 Rev. 0 | Page 3 of 20 EVAL-AD2S1210 Link No. LK8 LK9 LK10, LK11 LK12 LK13 LK14 LK15 LK16 Function This link selects the source of RES0 signal for the AD2S1210. In Position A, the RES0 signal is received from the externally applied RES0 signal via the J17 SMB socket or the J20 connector. In Position B, the RES0 signal is received from the evaluation board controller via the 96-way connector. In Position C, the RES0 signal is tied to VDRIVE. In Position D, the RES0 signal is tied to DGND. This link selects the source of RES1 signal for the AD2S1210. In Position A, the RES1 signal is received from the externally applied RES0 signal via the J18 SMB socket or the J20 connector. In Position B, the RES1 signal is received from the evaluation board controller via the 96-way connector. In Position C, the RES1 signal is tied to VDRIVE. In Position D, the RES1 signal is tied to DGND. These links select the gain of the EXC and EXC amplifier circuits. In Position A, the gain can be set by the user. Gain = R/10 k, where R = R1 = R4. In Position B, a gain of 1.54 is applied. In Position C, a gain of 0.866 is applied. This link is used to select the source of the OE signal for the PI74ALVTC16245AE. In Position A, the OE signal is tied to CS. In Position B, the OE signal is tied to NC7S04 output (inversion of the OE signal). This link is used to select the source of the AVDD supply for the EVAL-AD2S1210. In Position A, the AVDD supply is sourced from the evaluation board controller via the 96-way connector. In Position B, the AVDD supply is sourced externally via the J5 connector. This link is used to select the source of the DVDD supply for the EVAL-AD2S1210. In Position A, the DVDD supply is sourced from the evaluation board controller via the 96-way connector. In Position B, the DVDD supply is sourced externally via the J6 connector. This link is used to select the source of the VDRIVE supply for the EVAL-AD2S1210. In Position A, the VDRIVE supply is sourced from the evaluation board controller via the 96-way connector. In Position B, The VDRIVE supply is sourced externally via the J6 connector. This link is used to select the source of the 12 V supply for the EVAL-AD2S1210. In Position A, the 12 V supply is sourced from the evaluation board controller via the 96-way connector. In Position B, the 12 V supply is sourced externally via the J7 connector. Rev. 0 | Page 4 of 20 EVAL-AD2S1210 Take care 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 different modes in which to operate the evaluation board. Either the user can operate the board with the EVAL-CED1Z or it can be used as a standalone board. Table 2 shows the position in which all the links are set when the evaluation board is packaged. When the board is shipped, the assumption is that the user will be operating with the EVAL-CED1Z. The links are set so that all power supplies and control signals are supplied by the EVAL-CED1Z. INTERFACING THE EVALUATION BOARD TO THE EVAL-CED1Z Interfacing the EVAL-CED1Z to the evaluation board is via a 96-way connector, J1. The pinout for the J1 connector is shown in Figure 2. Table 3 gives a description of the pins on the 96-way connector that are used to interface the EVAL-CED1Z board to the EVAL-AD2S1210. Table 4 gives the pin designations for the 96-way connector. 1 8 16 24 32 8 16 24 32 A B C 1 08036-002 SETUP CONDITIONS Figure 2. Pin Configuration for the 96-Way Connector, J1 Table 2. Link Position on the Packaged EVAL-AD2S1210 Link No. LK1 LK2 LK3 LK4 LK5 LK6 LK7 LK8 LK9 LK10, LK11 LK12 LK13 LK14 LK15 LK16 Position B B B B A B B B B B A A A A A Function SAMPLE signal is received from the evaluation board controller via the 96-way connector. CS signal is received from the evaluation board controller via the 96-way connector. RD signal is received from the evaluation board controller via the 96-way connector. WR/FSYNC signal is received from the evaluation board controller via the 96-way connector. SOE signal is tied to VDRIVE. A0 signal is received from the evaluation board controller via the 96-way connector. A1 signal is received from the evaluation board controller via the 96-way connector. RES0 signal is received from the evaluation board controller via the 96-way connector. RES1 signal is received from the evaluation board controller via the 96-way connector. Gain of 1.54 is selected. OE signal of PI74ALVTC16245AE is tied to the CS signal. AVDD supply is sourced from the evaluation board controller via the 96-way connector. DVDD supply is sourced from the evaluation board controller via the 96-way connector. VDRIVE supply is sourced from the evaluation board controller via the 96-way connector. 12 V supply is sourced from the evaluation board controller via the 96-way connector. Table 3. 96-Way Connector Pin Description Pin PAR_D0 to PAR_D15 PAR_RD PAR_CS PAR_WR TMR0/PPI_FS2 GPIO4/PAR_A0 GPIO5/PAR_A1 GPIO0 GPIO1 AGND DGND AVCC (+5 V) DVDD (+5 V) +VarA (+3.3 V) +12 V Description Parallel Data Bit 0 (LSB) to Parallel Data Bit 15 (MSB). Parallel read strobe. This output is connected to the RD pin of the AD2S1210 via LK3. This signal is used as a frame synchronization signal and output enable for the parallel data outputs. Parallel chip select. This output is connected to the CS pin of the AD2S1210 via LK2 to enable the device. Parallel write strobe. This output is connected to the WR/FSYNC pin of the AD2S1210 via LK4. This signal is used as a frame synchronization signal and input enable for the parallel data inputs. Timer 0/Parallel Peripheral Interface Frame Sync 2. This output is connected to the SAMPLE pin of the AD2S1210 via LK1. This signal is used to transfer data from the position and velocity integrators to the position and velocity registers of the AD2S1210. General-Purpose Input/Output Bit 4/Parallel Address Bit 0. This output is connected to the A0 pin of the AD2S1210. Is used in conjunction with GPIO5/PAR_A1 to select the mode of the AD2S1210. General-Purpose Input/Output Bit 5/Parallel Address Bit 1. This output is connected to the A1 pin of the AD2S1210, and is used in conjunction with GPIO4/PAR_A0 to select the mode of the AD2S1210. General-Purpose Input/Output Bit 0. This signal is connected to the RES0 pin of the AD2S1210, and is used in conjunction with GPIO1 to select the resolution of the AD2S1210. General-Purpose Input/Output Bit 1. This signal is connected to the RES1 pin of the AD2S1210, and is used in conjunction with GPIO0 to select the resolution of the AD2S1210. Analog ground. These lines are connected to the analog ground plane on the evaluation board. Digital ground. These lines are connected to the digital ground plane on the evaluation board. Analog 5 V supply. This is used to supply analog circuitry on the AD2S1210. Digital 5 V supply. This is used to supply the PI74ALVTC16245AE, 74HC573, NC7S04, ADM6315, and digital circuitry on the AD2S1210. Digital 3.3 V supply connected to the VDRIVE pin of the AD2S1210. 12 V supply. This line is connected to the 12 V supply line on the evaluation board via LK16 and is used to supply the AD8664. Rev. 0 | Page 5 of 20 EVAL-AD2S1210 Table 4. 96-Way Connector Pin Designations1 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 DGND DVDD (+5 V) PAR_RD DGND GPIO5/PAR_A1 GPIO0 DGND TMR0/PPI_FS2 PAR_D12 DGND AGND AGND AGND AGND AGND AGND +VarA (+3.3 V) AGND -12 V AVSS (-5 V) AVCC (+5 V) Row B PAR_D0 PAR_D1 DGND PAR_D2 PAR_D3 PAR_D4 DVDD (+5 V) PAR_D5 PAR_D6 PAR_D7 DGND PAR_D8 PAR_D9 PAR_D10 DGND PAR_D11 PAR_D13 GPIO1 DGND AGND AGND AGND AGND AGND AGND AGND AGND AGND AGND AVSS (-5 V) AVCC (+5 V) adaptors for worldwide use. The power supply is provided with the EVAL-CED1Z. Row C 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. DGND INTERFACING TO THE EVALUATION BOARD IN STANDALONE OPERATION Options for interfacing with the evaluation board are via J4, a 26-way connector, via J20, a 10-way connector, or via external Socket J8 to Socket J19. These connectors and sockets are provided to allow the evaluation board to be interfaced with systems other than the Analog Devices EVAL-CED1Z. The 26-way connector, J4, is provided for use in parallel mode. The 10-way connector, J20, is provided for use in serial mode. The pin designations for both J4 and J20 are shown in Table 5 and Table 6, respectively. DVDD (+5 V) PAR_WR PAR_CS DGND GPIO4/PAR_A0 DGND Table 5. Pin Designations for 26-Way Connector J4 Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 PAR_D14 PAR_D15 DGND AGND AGND AGND AGND AGND AGND +VarA (+3.3 V) AGND +12 V AVSS (-5 V) AVCC (+5 V) Row A D0 D2 D4 D6 D8 D10 D12 D14 DIR B LOT DGND VDRIVE Row B D1 D3 D5 D7 D9 D11 D13 D15 NM A DOS DGND VDRIVE Table 6. Pin Designations for 10-Way Connector J20 The unused pins of the 96-way connector are not shown. OPERATING WITH THE EVAL-CED1Z The evaluation board can be operated in a standalone mode or operated in conjunction with the EVAL-CED1Z. This evaluation board controller is available from Analog Devices under the order entry EVAL-CED1Z. Pin No. 1 2 3 4 5 When interfacing the EVAL-AD2S1210 directly to the EVALCED1Z, all supplies and control signals to operate the AD2S1210 evaluation board are provided by the EVAL-CED1Z. Software to communicate between the EVAL-CED1Z and AD2S1210 is provided with the AD2S1210 evaluation board package. The 96-way connector on the EVAL-AD2S1210 plugs directly into the 96-way connector on the EVAL-CED1Z. The EVALCED1Z 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 contains the relevant Rev. 0 | Page 6 of 20 Row A SAMPLE SCLK SDO A1 RES1 Row B WR/FSYNC SDI A0 RES0 DGND EVAL-AD2S1210 SOCKETS CONNECTORS There are 12 input/output sockets relevant to the operation of the AD2S1210 on the evaluation board. The functions of these sockets are outlined in Table 7. These sockets are used to apply externally generated digital I/O signals to the evaluation board. When operating the board with the EVAL-CED1Z, these external connections are not required. Note that the AD2S1210 evaluation board is shipped with the assumption that the user will be operating with the EVAL-CED1Z. For this reason, Socket J8 to Socket J19 are not inserted. There are eight connectors on the AD2S1210 evaluation board. The functions of these sockets are outlined in Table 8. Connector J1 is used to interface with the EVAL-CED1Z. Table 7. Socket Functions Socket J8 J9 J10 J11 J12 J13 J14 J15 J16 J17 J18 J19 Function SMB socket for external SAMPLE input SMB socket for external CS input SMB socket for external RD input SMB socket for external WR/FSYNC input SMB socket for external SCLK input for serial operation SMB socket for external SDI input for serial operation SMB socket for external SDO output for serial operation SMB socket for external A0 input SMB socket for external A1 input SMB socket for external RES0 input SMB socket for external RES1 input SMB socket for external CLKIN input Table 8. Connector Functions Connector J1 J2 J3 J4 J5 J6 J7 J20 Function 96-way connector for parallel interface connections SIN, COS, SINLO, COSLO inputs Excitation outputs External 26-way connector for parallel operation External AVDD and AGND power connector External DVDD, VDRIVE, and DGND power connector External 12 V and AGND power connector External 10-way connector for serial operation TEST POINTS There are numerous test points on the AD2S1210 evaluation board. These test points enable the user to have easy access to the signals from the evaluation board, the external sensor, and the controller board for probing, evaluation, and debugging. Rev. 0 | Page 7 of 20 EVAL-AD2S1210 EVALUATION BOARD SOFTWARE INSTALLING THE SOFTWARE SETTING UP THE EVAL-CED1Z The EVAL-AD2S1210 evaluation kit includes self-installing software on a CD-ROM for controlling and evaluating the performance of the AD2S1210 when it is operated with the EVAL-CED1Z. The software is compatible with Windows(R) 2000/XP(R). If the setup file does not run automatically, setup.exe can be run from the CD-ROM. This section describes how the evaluation board, the EVALCED1Z, and the software should be set up to begin using the complete system. 1. 2. When the CD is inserted into the PC, an installation program automatically begins. This program installs the evaluation software. The user interface on the PC is a dedicated program written especially for the AD2S1210 when operating with the EVAL-CED1Z. Install the software before connecting the USB cable between the EVAL-CED1Z and the PC. This ensures that the appropriate USB driver files have been properly installed before the EVALCED1Z is connected to the PC. When the software is run for the first time with the EVAL-CED1Z connected to the PC, the PC automatically finds the new device and identifies it. Follow the onscreen instructions that appear automatically. This installs 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. To correct this error, 1. Right-click the My Computer icon, then select 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 this option and select Update Driver. 5. The New Hardware Wizard runs twice, and under the ADI Development Tools, the hardware is listed as ADI Converter Evaluation and Development Board (WF). 6. Reboot your PC. 3. 4. 5. Install the AD2S1210 evaluation board software. Connect the EVAL-CED1Z and the evaluation board together via the 96-way connector. Apply power to the EVAL-CED1Z via the provided +7 V, 15 W power supply. At this stage, the green Power LED on the EVAL-CED1Z should light up, which indicates that the EVAL-CED1Z is receiving power The USB cable can then be connected between the PC and the EVAL-CED1Z. A green LED positioned beside the USB connector on the EVAL-CED1Z lights up indicating that the USB connection has been established. The EVAL-CED1Z is detected. Proceed through any dialog boxes that may appear (use the recommended options) to finalize the installation. Start the EVAL-AD2S1210 software. The FPGA code is automatically downloaded to the EVAL-CED1Z. The red LED, D14, on the EVAL-CED1Z now lights up. This indicates that the EVAL-CED1Z is functional and ready to receive instructions. The software can now be operated as described in the following sections. Note that when completing conversions on the AD2S1210 evaluation board while using the EVAL-CED1Z board, D14, the red LED on the EVAL-CED1Z, lights up to indicate that the USB transmission is occurring. Rev. 0 | Page 8 of 20 EVAL-AD2S1210 SOFTWARE OPERATION The data capture display section consists of the following subtabs: With the hardware set up, you can now use the software to control the EVAL-CED1Z and the AD2S1210 evaluation board. To launch the software, from the Analog Devices menu, select the AD2S1210 Evaluation Software submenu, and then AD2S1210 Ver0. Figure 3 displays the main window that is opened. If an error message appears, click Continue and restart the application after checking the connection between the adapter board and the USB port on the PC. Also check that the USB device is identified by the Device Manager as detailed in the Installing the Software section. * * * * * * The software that controls the EVAL-CED1Z and, therefore, the AD2S1210 evaluation board, has one main window. Figure 3 shows the window that appears when the software is run. The main function of this window is to allow you to read samples from the evaluation board and display them. The window can be divided into three main sections. Note that the AD2S1210 evaluation software has two modes of operation, normal mode and stream mode. In normal mode, the software is designed to gather a defined number of samples and display those results on the data capture display. In stream mode, the software is designed to continuously sample the AD2S1210 in defined measurement intervals, and display the results as a continuous stream of data on the data capture display. The Acquisition (Codes), Acquisition (Degrees/RPS), Histogram Position, and Histogram Velocity tabs operate in normal mode. The Stream (Codes) and Stream (Degrees/RPS) tabs operate in stream mode. These modes of operation are outlined in more detail in the Taking Samples section. 08036-003 The menu bar is located at the top of the window. The control buttons are below the menu bar, followed by a data capture display. Acquisition (Codes) Acquisition (Degrees/RPS) Stream (Codes) Stream (Degrees/RPS) Histogram Position Histogram Velocity Figure 3. AD2S1210 Evaluation Software, Main Window Rev. 0 | Page 9 of 20 EVAL-AD2S1210 Print Front Panel. Prints the software window displayed. through the USB port to the PC. The CED Buffer indicator provides an indication of the available memory remaining. If there is increased activity on the USB port, the transfer of data may be slowed down, which may cause the external memory to fill before the data can be uploaded to the PC. In this case, the CED Buffer indicator shows that the buffer is full. You should either disconnect other external devices that may be using the USB port, or you can increase the conversion loop interval to decrease the number of samples to upload, which eases the requirement on the USB port. Note also that the transfer of data from the EVAL-CED1Z to the PC is slower when connected to a USB 1.1 port than when connected to a USB 2.0 port. Save as Picture. Saves the front panel as a JPEG file. Data Capture Display Exit. Exits the program. In the data capture display, you can select the format in which to view the position and velocity conversion results. The position data can be displayed in digital output code format or in degrees. The velocity data can be displayed in digital output code format or in rotations per second (RPS). The desired display options are selected by clicking on the Acquisition (Codes), Acquisition (Degrees/RPS), Stream (Codes), Stream (Degrees/RPS), Histogram Position, and Histogram Velocity tabs. USING THE SOFTWARE Menu Bar The menu bar consists of the File and Help submenus. File Menu Save Data (Acquisition). Saves position, velocity, and fault data of a defined number of samples in normal mode into a spreadsheet file. Save Data (Stream). Saves position, velocity, and fault data of a defined number of samples in stream mode into a spreadsheet file. Help Menu Analog.com. Opens www.analog.com. Control Buttons The AD2S1210 software includes the following control buttons, drop-down boxes, and indicators. Registers. Allows you to read from and write to the registers of the AD2S1210. Single Acquisition. Initiates the sampling and readback of the defined number of resolver-to-digital converter (RDC) measurements. Resolution : 10/12/14/16 bits. Selects the hardware resolution on the RES0 and RES1 pins of the AD2S1210. STOP. Stops the program. Reoccurring Acquisition. Repeats single acquisition until the button is released (normal mode). Continuous Stream. Takes samples in stream mode. SW Reset. Executes a software reset of the AD2S1210. Num Samples. Selects the number of samples to be completed in a single acquisition. Sample Interval (s). Selects the interval between each sample in microseconds. Fault Register. This indicator combines the fault register information from each sample gathered during a single acquisition sequence. ON/OFF. Enables or disables the histogram option. (This button appears on the Histogram Position and Histogram Velocity tabs only.) This section also includes a CED Buffer indicator that is relevant only in stream mode. The AD2S1210 evaluation board allows conversion to be initiated at periodic intervals. The default conversion loop interval is 2 s but can be increased up to 500 s through the Sample Interval (s) box. The AD2S1210 evaluation software and hardware is designed such that all conversion results are written to external memory on the EVAL-CED1Z, and blocks of samples are then uploaded Acquisition (Codes) Tab The Acquisition (Codes) tab displays the conversion results taken in normal mode of the position and velocity of the resolver connected to the AD2S1210 evaluation board. The number of conversions results displayed is defined by the Num Samples box. The conversion results are displayed as waveforms in digital code on two graphs. The upper graph displays the position conversion results. The lower graph displays the velocity conversion results. The maximum, minimum, and mean values of the sample set are displayed on indicators to the right of each graph. At the bottom right of each graph are the zoom options. These allow you to zoom in and out to obtain a closer look at a sample if required. Acquisition (Degrees/RPS) Tab The Acquisition (Degrees/RPS) tab displays the conversion results taken in normal mode of the position and velocity of the resolver connected to the AD2S1210 evaluation board. The number of conversions results displayed is defined by the Num Samples box. The position conversion result is displayed in degrees on the upper graph. The lower graph displays the velocity conversion results in RPS. The maximum, minimum, and mean values of the sample set are displayed on indicators to the right of each graph. At the bottom right of each graph are the zoom options. These allow you to zoom in and out to obtain a closer look at a sample if required. Stream (Codes) Tab The Stream (Codes) tab displays the conversion results taken in stream mode of the position and velocity of the resolver Rev. 0 | Page 10 of 20 EVAL-AD2S1210 connected to the AD2S1210 evaluation board. The conversion results are displayed as waveforms in digital code on two graphs. The upper graph displays the position conversion results. The lower graph displays the velocity conversion results. At the bottom right of each graph are the zoom options. These allow you to zoom in and out to obtain a closer look at a sample if required. Stream (Degrees/RPS) Tab The Stream (Degrees/RPS) tab displays the conversion results taken in stream mode of the position and velocity of the resolver connected to the AD2S1210 evaluation board. The position conversion result is displayed in degrees on the upper graph. The lower graph displays the velocity conversion results in RPS. At the bottom right of each graph are the zoom options. These allow you to zoom in and out to obtain a closer look at a sample if required. Histogram Position Tab The Histogram Position tab displays the histogram of the position conversion results taken in normal mode of the resolver connected to the AD2S1210 evaluation board. To enable this option, you must set the ON/OFF button to the on position. The histogram is displayed only when the output code varies for the one block of samples; that is, if the same conversion result is returned for all samples, the histogram is not displayed. At the bottom right of each graph are the zoom options. These allow you to zoom in and out to obtain a closer look at a sample if required. Histogram Velocity Tab The Histogram Velocity tab displays the histogram of the velocity conversion results taken in normal mode of the resolver connected to the AD2S1210 evaluation board. To enable this option, you must set the ON/OFF button to the on position. The histogram is displayed only when the output code varies for the one block of samples; that is, if the same conversion result is returned for all samples, the histogram is not displayed. At the bottom left of each graph are the zoom options. These allow you to zoom in and out to obtain a closer look at a sample if required. TAKING SAMPLES Initiating Conversions on the AD2S1210 Evaluation Board To initiate conversions and to capture the sample data, you must click the Single Acquisition, Reoccurring Acquisition, or Continuous Stream button. When the Single Acquisition or Reoccurring Acquisition button is clicked, the AD2S1210 evaluation software takes samples in normal mode. When the Continuous Stream button is clicked, the AD2S1210 evaluation software takes samples in stream mode. When the Single Acquisition button is clicked, the software instructs the EVAL-CED1Z to read back the conversion results from the AD2S1210 evaluation board. The number of samples is selected via the Num Samples box. After each conversion, data from the AD2S1210 is written to external memory on the EVAL-CED1Z. The required set of samples is uploaded through the USB port to the PC when the all conversions are completed. When you click the Reoccurring Acquisition button, the software instructs the EVAL-CED1Z to read back the conversion results from the AD2S1210 evaluation board in a repeating loop. The number of samples is selected via the Num Samples box. After each conversion, data from the AD2S1210 is written to external memory on the EVAL-CED1Z. The required set of samples is uploaded through the USB port to the PC when all the conversions are completed. If the Reoccurring Acquisition button is not clicked again to release the loop, the conversion loop repeats. While the data is being uploaded to the PC, the AD2S1210 device is not converting; therefore, there is a time delay between two blocks of samples. When the Continuous Stream button is clicked, the software instructs the EVAL-CED1Z to read back the conversion results from the AD2S1210 evaluation board. After each conversion, data from the AD2S1210 is written to external memory on the EVAL-CED1Z. At regular intervals, blocks of samples results are uploaded through the USB port to the PC. In Continuous Stream mode, while the data are uploaded to the PC, the AD2S1210 device is still converting. Therefore, there is no additional time delay between samples. In single acquisition, reoccurring acquisition, and continuous stream mode, the data is displayed on the data capture display. When the Single Acquisition or the Reoccurring Acquisition button is clicked, the data is displayed on the Acquisition (Codes), Acquisition (Degrees/RPS), Histogram Position, and Histogram Velocity tabs only. When the user clicks the Continuous Stream button, the data is displayed on the Stream (Codes) and Stream (Degrees/RPS) tabs only. Rev. 0 | Page 11 of 20 EVAL-AD2S1210 READING FROM AND WRITING TO REGISTERS ON THE AD2S1210 set by the Resolution : 10/12/14/16 bits drop-down box on the main window (see Figure 3). To read from and write to the registers on the AD2S1210, click the Registers button (see Figure 3). When you click the Registers button, the software instructs the EVAL-CED1Z to read the data in the AD2S1210 registers and displays this information in another window (see Figure 4). The register data is presented in decimal format. All registers are displayed on the right side of the window. Hysteresis. Enables or disables the hysteresis features of the AD2S1210. To change the settings of any displayed register other than the control register, you must overwrite the displayed decimal value by typing or selecting the new value, and then click the Send button. To overwrite the control register, use the four dropdown boxes on the left side of the window. Encoder Resolution. Selects the encoder resolution of the AD2S1210. Actual value sent to Control Register. Indicates the value that is written to the control register after clicking the Send button. Note that one or all of the registers can be written to with a single update. If you do not want to send any data to the registers, click the Cancel button. 08036-004 Resolution. Selects the software resolution of the RDC in the control register. This value must match the hardware resolution Phase Lock Range. Selects one of two phase lock ranges of the AD2S1210. Figure 4. AD2S1210 Evaluation Software, Registers Window Rev. 0 | Page 12 of 20 EVAL-AD2S1210 EVALUATION BOARD SCHEMATICS AND ARTWORK 08036-005 Figure 5. EVAL-AD2S1210 Schematic--Page 1 Rev. 0 | Page 13 of 20 EVAL-AD2S1210 08036-006 Figure 6. EVAL-AD2S1210 Schematic--Page 2 Rev. 0 | Page 14 of 20 EVAL-AD2S1210 08036-007 Figure 7. EVAL-AD2S1210 Schematic--Page 3 Rev. 0 | Page 15 of 20 08036-008 EVAL-AD2S1210 08036-009 Figure 8. Silkscreen Image Figure 9. Component Side Rev. 0 | Page 16 of 20 08036-010 EVAL-AD2S1210 08036-011 Figure 10. Solder Side Figure 11. Power Planes Rev. 0 | Page 17 of 20 08036-012 EVAL-AD2S1210 Figure 12. Ground Planes Rev. 0 | Page 18 of 20 EVAL-AD2S1210 ORDERING INFORMATION BILL OF MATERIALS Table 9. Qty 1 1 1 1 3 1 1 2 5 12 2 4 2 3 2 1 1 22 4 1 3 1 1 1 1 4 4 5 4 7 2 2 2 6 1 2 22 4 1 4 4 15 19 Reference Designator U1 U2 U3 U4 U5, U6, U7 U11 Y1 C1, C2 C3, C6, C9, C26, C31 C4, C5, C10, C11 to C15, C19, C21, C25, C28 C7, C8 C16, C22, C23, C32 C17, C18 C20, C24, C30 C27, C29 C33 F1 D0 to D17, D22 to D25 D18 to D21 J1 J3, J5, J7 J4 J6 J20 J2 L1 to L4 LC1 to LC4 LK1 to LK3, LK10, LK11 LK6 to LK9 LK4, LK5, LK12 to LK16 Q1, Q3 Q2, Q4 R2, R5 R7, R8, R10, R21, R40, R42 R9 R3, R6 R15, R16, R22 to R39, R47, R48 R11 to R14 R69 R17 to R20 R43 to R46 R41, R53 to R56, R61 to R64, R72 to R77 R49 to R52, R57 to R60, R65 to R68, R70, R71, R78 to R82 Part Description 10-bit to 16-bit RDC AD8664 PI74ALVTC16245AE 74HC573 NC7S04 HS inverter ADM6315 8.192 MHz quartz crystal 120 pF ceramic capacitor SMD 0603 10 F tantalum capacitor, 10 V 0.1 F ceramic capacitor SMD0603 22 pF ceramic capacitor SMD0603 10 nF ceramic capacitor SMD 0402 10 nF ceramic capacitor SMD 0603 4.7 F tantalum capacitor 10 F tantalum capacitor, 20 V 10 F tantalum capacitor, 6.3 V SMD0603 SMD fuse Red SMD 0805 chip LED TS4148 RY small signal diode 96-pin 90 DIN41612 connector 2-pin terminal block 26-pin header 3-pin terminal block 10-pin header 4-pin terminal block Ferrite beads Surface-mount EMC filters 3-way jumper (3 x 2) 4-way jumper (4 x 2) 2-way jumper (2 x 2) BC846B NPN small signal transistor BC856B PNP small signal transistor 15.4 k SMD 0603 resistor 10 k SMD 0805 resistor 22 k SMD 0603 resistor 8.66 k SMD 0603 resistor 1 k SMD 0603 resistor 4.7 SMD 0603 resistor 100 k SMD 0603 resistor 2.2 k SMD 0603 resistor 3.3 SMD 0603 resistor 0 SMD 0603 resistor 0 SMD 0603 resistor Rev. 0 | Page 19 of 20 Stock Code 1 Analog Devices AD2S1210DSTZ Analog Devices AD8664ARZ PI74ALVTC16245AE 2 FEC 958-9384 FEC 101-4133 Analog Devices ADM6315-45D1ARTZ FEC 950-9453 FEC 722-091 FEC 197-130 FEC 432-210 FEC 722-005 FEC 301-9275 FEC 753-622 Digi-Key 490-3302-1-ND FEC 197-427 Digi-Key PCC2395CT-ND FEC 935-0284 FEC 105-8373 FEC 815-0206 FEC 109-7929 FEC 151-789 FEC 102-2244 FEC 151-790 FEC 102-2242 FEC 151-791 FEC 952-6900 FEC 952-8202 FEC 102-2231, FEC 150-410 FEC 102-2233, FEC 150-410 FEC 102-2244, FEC 150-410 FEC 108-1229 FEC 108-1243 FEC 117-0904 FEC 933-0399 FEC 911392 FEC 117-0884 FEC 933-0380 FEC 3571142 FEC 933-0402 FEC 911276 FEC 3571130 FEC 933-1662/FEC 923-3130 FEC 933-1662/FEC 923-3130 (not inserted) EVAL-AD2S1210 Qty 3 26 8 10 4 1 2 Reference Designator S1 to S3 EXC, A, A1, A0, B, CLKIN, COS, COSLO, CS, DIR, DOS, EXC, LOT, NM, RD, REFOUT, RES0, RES1, SAMPLE, SIN, SINLO, TP1, TP2, WR/ FSYNC, SDI, SDO AGND1 to AGND4, DGND1 to DGND4 J8 to J19 Part Description SMD push-button switch Test points Stock Code 1 FEC 177-807 FEC 873-1144 Black test points Straight PCB mount SMB Stick-on feet at each corner FEC 873-1128 FEC 1206013 (not inserted) FEC 116-5061 FEC = Farnell Electronics. P = Pericom Semiconductor Corporation. ORDERING GUIDE Model EVAL-AD2S1210EDZ1 1 ESD CAUTION Description Evaluation Board Z = RoHS Compliant Part. (c)2009 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. EB08036-0-5/09(0) Rev. 0 | Page 20 of 20