Evaluation Board for the AD7798 16-Bit, Low Power Sigma-Delta ADC (3 Channels) EVAL-AD7798 analog input channel of the AD7798 accepts analog input signals of VREF/gain, with a gain in the range of 1 to 128. When the gain is 64 and the update rate is programmed to 16.7 Hz, the rms noise is 85 nV. Simultaneous 50 Hz/60 Hz rejection is also available at this data update rate. FEATURES Full-featured evaluation board for the AD7798 Standalone USB interface Various linking options PC software for control of AD7798 Full data on the AD7798 is available in the AD7798 data sheet, available from Analog Devices, Inc., and should be consulted in conjunction with this document when using the evaluation board. GENERAL DESCRIPTION This data sheet describes the evaluation board for the AD7798 low power, 16-bit - ADC. The AD7798 is a complete analog front end for low frequency measurement applications. It contains three differential inputs and includes a low noise instrumentation amplifier, a reference detect, and a low-side power switch. The evaluation board interfaces to the USB port of an IBMcompatible PC. Software is available with the evaluation board that allows the user to easily communicate with the AD7798. The AD7798 evaluation board software should be installed before connecting the AD7798 evaluation board to the PC. Features include an update rate that can be varied from 4.17 Hz to 470 Hz, an on-board clock that eliminates the need for an external clock, and a - conversion technique that allows attainment of up to 16 bits of no missing codes performance. Other components on the AD7798 evaluation board include the ADP3303, which is a high precision, low power, 3.3 V output voltage regulator used to power the USB/SPI interface. The input signal is applied to an analog modulator, and the modulator output is processed by an on-chip digital filter. The FUNCTIONAL BLOCK DIAGRAM AVDD VOLTAGE REGULATOR ANALOG INPUTS AD7798 SPI/USB INTERFACE PC AND LabVIEWTM BASED SOFTWARE 07432-001 TEMPERATURE SENSOR REFIN() 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)2008 Analog Devices, Inc. All rights reserved. EVAL-AD7798 TABLE OF CONTENTS Features .............................................................................................. 1 Installing the Software ..................................................................5 General Description ......................................................................... 1 Using the Software ........................................................................5 Functional Block Diagram .............................................................. 1 Main Window ................................................................................6 Revision History ............................................................................... 2 Registers Window .........................................................................8 Evaluation Board Hardware ............................................................ 3 Other Registers Window ..............................................................9 Power Supplies .............................................................................. 3 Temp Demo Window ................................................................ 10 Links ............................................................................................... 3 Evaluation Board Schematic and Artwork.................................. 11 Sockets ........................................................................................... 3 Ordering Information .................................................................... 15 Setting Up the Evaluation Board ................................................ 3 Bill of Materials ........................................................................... 15 Interfacing to the Evaluation Board ........................................... 4 Ordering Guide .......................................................................... 15 Evaluation Board Software .............................................................. 5 ESD Caution................................................................................ 15 Software Description.................................................................... 5 REVISION HISTORY 4/08--Revision 0: Initial Version Rev. 0 | Page 2 of 2 EVAL-AD7798 EVALUATION BOARD HARDWARE POWER SUPPLIES SOCKETS The evaluation board is powered via the 5 V supply from the USB connector, J1. This 5 V supply can be used to power the AD7798 directly or a 3.3 V regulated voltage from the on-board ADP3303 high precision, low power, 3.3 V output voltage regulator can be used to power the AD7798. Alternatively, the AD7798 can be powered using an external 3 V or 5 V power supply via J3. There are five sockets relevant to the operation of the AD7798 on this evaluation board. The functions of these sockets are described in Table 3. LINKS There are 10 link options that must be set for the required operating setup before using the evaluation board. The functions of these link options are outlined in Table 1. SETTING UP THE EVALUATION BOARD Care should be taken before applying power and signals to the evaluation board to ensure that all link positions are as per the required operating mode. Table 2 shows the position in which the links are set when the evaluation board is shipped. Table 1. Evaluation Board Link Settings Link No. LK1, LK2 Default In LK3 to LK6 Out LK7, LK8 In LK9 B LK10 In Description These links are used to connect the AIN1(+) and AIN1(-) inputs to a reference voltage that equals AVDD/2. With this configuration, a noise analysis can be performed. With these links removed, an external voltage can be applied to AIN1(+)/AIN1(-) using the SMB connectors. These links are used to connect the on-board temperature demonstration circuit to the ADC; all must be in place when attempting to measure ambient temperature. When LK3 and LK4 are inserted, the 1 k thermistor is connected to AIN2(+)/AIN2(-). With LK5 and LK6 in place, a 5 k precision resistor is used to generate the reference. This results in a ratiometric configuration. A resistor-divider network generates a voltage equal to AVDD/2, which can be used as the reference for the AD7798. With LK7 and LK8 in place, AVDD/2 is connected to REFIN(+) and REFIN(-) is connected to GND. To use another reference source, remove LK7 and LK8. LK9 is used to select the power source for AVDD on the AD7798. LK9 in Position A selects an external power supply, supplied via J3. LK9 in Position B selects the 3.3 V regulated output from the on-board ADP3303 voltage regulator. LK9 in Position C selects the 5 V supply from the USB connector, J1. LK10 is used to test the on-chip low-side power switch. If LK10 is in place, enabling the low-side power switch using PWR SW in the Registers window turns on the LED, D2. Clearing this bit turns off the LED. Table 2. Initial Link and Switch Positions Link No. LK1, LK2 LK3 to LK6 LK7, LK8 LK9 LK10 Position In Out In B In Description AIN1(+) and AIN1(-) are shorted to the reference voltage. The demonstration circuit is disconnected from the AD7798. The reference voltage is set to 1.65 V (3.3 V/2). The 3.3 V supply is used as AVDD for the AD7798. The D2 LED is connected to the low-side power switch of the AD7798. Table 3. Socket Functions Socket AIN1(+) AIN1(-) REFIN(+) REFIN(-) J2 Description Subminiature BNC (SMB) connector. The analog input signal for the AIN1(+) input of the AD7798 is applied to this socket. Subminiature BNC (SMB) connector. The analog input signal for the AIN1(-) input of the AD7798 is applied to this socket. Subminiature BNC (SMB) connector. This socket is used in conjunction with REFIN(-) to apply an external reference to the AD7798. The voltage for the REFIN(+) input of the AD7798 is applied to this socket. Subminiature BNC (SMB) connector. This socket is used in conjunction with REFIN(+) to apply an external reference to the AD7798. The voltage for the REFIN(-) input of the AD7798 is applied to this socket. 18-pin (2 x 9) straight header. This socket is used in conjunction with the prototype area to interface any signal to the AD7798. Rev. 0 | Page 3 of 3 EVAL-AD7798 INTERFACING TO THE EVALUATION BOARD To set up the USB/SPI interface, use the following procedure: Interfacing to the evaluation board is via a standard USB connector, J1. J1 is used to connect the evaluation board to the USB port of a PC. A standard USB connector cable is included with the AD7798 evaluation board to allow the evaluation board to interface with the USB port of the PC. Because the board is powered via the USB connector, there is no need for an external power supply, although one can be connected via J3 if preferred. 1. Install the AD7798 evaluation board software using the supplied AD7798 evaluation board CD-ROM before connecting the board to the PC. 2. After the AD7798 evaluation board software has been installed, connect the board to the PC via J1 on the AD7798 evaluation board and via the USB port on the PC using the supplied USB connector cable. The PC automatically finds the new USB device and identifies it as the AD7798 evaluation board. 3. Follow the on-screen instructions that appear automatically. If the Hardware Installation window shown in Figure 2 appears during the installation process, click Continue Anyway to successfully complete the installation of the AD7798 evaluation board. 07432-002 Communication between the AD7798 and the PC is via the USB/SPI interface. The on-board USB controller (U2) controls this communication. Figure 2. Hardware Installation Window Rev. 0 | Page 4 of 4 EVAL-AD7798 EVALUATION BOARD SOFTWARE SOFTWARE DESCRIPTION The AD7798 evaluation board is shipped with a CD-ROM containing software that can be installed onto a standard PC to control the AD7798. The software uses the USB of the PC to communicate with the AD7798 via the cable provided with the board. The software allows the user to configure the AD7798 and to read conversion data from the AD7798. Data can be read from the AD7798 and displayed or stored for later analysis. For further information, see the AD7798 data sheet. INSTALLING THE SOFTWARE Use the following procedure to install the software: 1. 2. 3. Start Windows(R) and insert the CD-ROM. The installation software should launch automatically. If it does not, use Windows Internet Explorer to locate the file setup.exe on the CD-ROM. Double-clicking on this file starts the installation procedure. At the prompt, select a destination directory, which is C:\Program Files\Analog Devices\AD7798 by default. 4. After the directory is selected, the installation procedure copies the files into the relevant directories on the hard drive. The installation program creates a program group called Analog Devices with the subgroup AD7798 in the Start menu of the taskbar. Once the installation procedure is complete, double-click the AD7798 icon to start the program. USING THE SOFTWARE Figure 3 shows the main window that is displayed when the program starts. The Main Window section briefly describes the menus on the main window. Following the Main Window section are descriptions of the most commonly used evaluation software windows. The data that has been read can be exported to other packages, such as MathCADTM or Microsoft(R) Excel, for further analysis. On power-up, the AD7798 evaluation board software configures the device to have a gain of 64, the reference pins are connected to AVDD/2, the AIN1(-)/AIN1(-) channel is selected, AIN1(-) is connected to AVDD/2, and the update rate is set to 16.7 Hz. Rev. 0 | Page 5 of 5 EVAL-AD7798 MAIN WINDOW Other Registers Menu Bar File Allows the user to access the ID register, status register, offset register, and full-scale register. Allows the user to read previously stored data for display or analysis, write the current set of data to a file for later use, and exit the program. Quick Analysis About Provides information on the revision of software being used. Selects the Quick Analysis window. The Quick Analysis window provides the user with access to the following subset of AD7798 control bits: Channel, Update Rate, and Gain. For access to all control bits, click Registers or Other Registers. Temp Demo Buttons Reset Allows the user to reset the AD7798 and set the registers to the power-up conditions as specified by the software (channel = AIN1(-)/AIN1(-), gain = 64, update rate = 16.7 Hz). Allows the user to access the temperature demonstration software. Num Samples The number of samples to gather for analysis is entered in this box. Exit Get Samples Allows the user to exit the software. Serves the same purpose as Quit in the File drop-down menu. Serves the same purpose as the Sample button. Waveform Sample The gathered conversions are displayed in graph form. Allows the user to read a number of samples from the AD7798. Noise analysis is then performed on the samples. These samples can be stored for further analysis. The sample size is entered in the Num Samples box. Histogram Continuous Allows the user to read a number of samples continuously. The software gathers the number of samples specified by Num Samples, performs noise analysis on the samples, and then gathers the next group of samples. Registers Allows the user to access the configuration register, mode register, and IO register. The gathered samples are used to generate a histogram. Codes The gathered samples can be displayed as codes or in voltage format. When Codes is clicked, the values are displayed as codes, and the Codes button changes to Volts. To display the information as volts, click Volts. External Reference The value of the external reference applied to the AD7798 should be entered in the External Reference box. The default value is 1.65 V. Rev. 0 | Page 6 of 6 07432-003 EVAL-AD7798 Figure 3. AD7798 Evaluation Software Main Window Rev. 0 | Page 7 of 7 EVAL-AD7798 REGISTERS WINDOW allows the customer to change the update rate, gain, low-side power switch, and so on. Consult the AD7798 data sheet for further details on the bit functions. 07432-004 This window is accessed by clicking Registers, which allows access to the configuration register, mode register, and IO register. Figure 4 shows the Registers window. This window Figure 4. AD7798 Evaluation Software Registers Window Rev. 0 | Page 8 of 8 EVAL-AD7798 OTHER REGISTERS WINDOW registers, the user must place the AD7798 in power-down or idle mode using the Mode box in the Registers window (see Figure 4). 07432-005 This window is accessed by clicking Other Registers (see Figure 5). It displays the contents of the offset calibration register, ID register, full-scale calibration register, and status register. To write to the offset and full-scale calibration Figure 5. AD7798 Evaluation Software Other Registers Window Rev. 0 | Page 9 of 9 EVAL-AD7798 TEMP DEMO WINDOW To exit the temperature demonstration, click Back. The software sets the configuration register, mode register, and IO register to their pretemperature demonstration values. 07432-006 This window is accessed by clicking Temp Demo. The AD7798 evaluation board has a temperature demonstration included on board. To operate the temperature demonstration, LK3 to LK6 should be inserted and LK1, LK2, LK7, LK8, and LK10 should be removed. With this configuration, a 1 k thermistor is connected to the AIN2(+)/AIN2(-) channel. In series with the thermistor is a 5 k precision resistor, which is connected to the AD7798 reference pins. The thermistor and precision resistor are connected to AVDD in a ratiometric configuration. The temperature demonstration software saves the values in the mode register, configuration register, and IO register and then configures the AD7798 to operate with the AIN2(+)/AIN2(-) channel. The gain is set to 1, and the reference voltage is adjusted appropriately. The software continuously reads the conversion from the AIN2(+)/AIN2(-) channel and converts the result to temperature using a look-up table. Figure 6. AD7798 Evaluation Software Temperature Demo Window Rev. 0 | Page 10 of 10 EVAL-AD7798 EVALUATION BOARD SCHEMATIC AND ARTWORK 07432-007 Figure 7. AD7798 Evaluation Board Schematic Rev. 0 | Page 11 of 11 07432-008 EVAL-AD7798 Figure 8. AD7798 Evaluation Board--Component Layout Diagram Rev. 0 | Page 12 of 12 07432-009 EVAL-AD7798 Figure 9. AD7798 Evaluation Board--Component Side Artwork Rev. 0 | Page 13 of 13 07432-010 EVAL-AD7798 Figure 10. AD7798 Evaluation Board--Solder Side Artwork Rev. 0 | Page 14 of 14 EVAL-AD7798 ORDERING INFORMATION BILL OF MATERIALS Table 4. Qty 3 1 1 1 1 2 1 1 9 2 15 3 1 2 1 1 3 9 4 2 4 2 2 10 10 4 1 1 1 Reference Designator Integrated Circuits U1, U5, U6 U2 U3 U4 Y1 D1, D2 L1 D3 Capacitors C1 to C9 C11, C12 C13, C15, C18, C19, C21, C25 to C33, C43 C14, C16, C17 C20 C22, C23 C24 Resistors R1 R2, R24, R25 R3 to R10, R17 R11 to R14 R15, R16 R18 to R21 R22, R23 R28, R29 Links LK1 to LK8, LK10 (2 x 1 way), LK9 (3 x 2 way) At LK1 to LK10 Connectors AIN1+, AIN1-, REFIN1+, REFIN1- J1 J2 J3 Manufacturer/Part No. AD7798BRUZ USB controller 24LC64 ADP3303ARZ-3.3 24 MHz crystal Green LED Ferrite bead Diode Analog Devices Cypress Semiconductor Corporation, CY7C68013A-56LFXC Microchip Technology Inc., 24LC64-I/SN Analog Devices AEL Crystals, X24M000000S244 Fairchild Semiconductor, QTLP630C-4 Meggitt Sigma, BMB2A0300AN1 Micro Commercial Components Corp., DL4001-TP 1 F ceramic 0.1 F 10% ceramic 10 F tantalum 2.2 F tantalum 22 pF ceramic 47 F tantalum Not inserted Yageo Corporation, 223824619863 AVX Corporation, CM105X7R104K16AT AVX Corporation, TAJA106K010R EPCOS AG, B45196E2225K109 Yageo Corporation, 223886715229 AVX Corporation, TAJC476K016R 1 k thermistor 5 k 0.1% 0 resistor 1 M resistor 100 k resistor 10 k resistor 1 k resistor 2.2 k resistor EPCOS AG, B57620C102J62 Tyco International, Ltd., RN73C2A4K99BTG Multicomp, MC 0.063W 0603 0R Multicomp, MC 0.063W 0603 1% 1M Multicomp, MC 0.063W 0603 1% 100K Multicomp, MC 0.063W 0603 1% 10K Multicomp, MC 0.063W 0603 1% 1K Multicomp, MC 0.063W 0603 1% 2K2 Pin headers Shorting plugs Harwin Plc, M20-9983646 Harwin Plc, M7566-05 SMB connector USB mini-B connector 18-pin (2 x 9) header Two-way terminal block Not inserted Molex, 565790576 Harwin Plc, M20-9983646 Camden Electronics Ltd., CTB5000/2 ESD CAUTION ORDERING GUIDE Model EVAL-AD7798EB Description Description Evaluation Board Rev. 0 | Page 15 of 15 EVAL-AD7798 NOTES (c)2008 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. EB07432-0-4/08(0) Rev. 0 | Page 16 of 16