DAC081C08XEB

Dec. 19, 2007 Rev - 1.0 CMC National Semiconductor Evaluation Board User's Guide DAC121C08XEB, DAC101C08XEB, DAC081C08XEB Micro Power Digital-to-Analog Converter (DAC) with an I2C-Compatible Interface 12-bit 10-bit 8-bit DAC121C085/ DAC121C081 DAC101C085/ DAC101C081 DAC081C085/ DAC081C081 1 http://www.national.com Table of Contents 1.0 Introduction ........................................................................................................... 3 2.0 Board Assembly.................................................................................................... 4 3.0 Quick Start ............................................................................................................ 4 3.1 Stand-Alone Mode..................................................................................... 4 3.2 Computer Mode......................................................................................... 5 4.0 Functional Description........................................................................................... 6 4.1 Jumper Settings ........................................................................................ 6 4.2 I2C Interface .............................................................................................. 6 4.3 DAC Reference Circuitry ........................................................................... 6 4.4 Analog Output ........................................................................................... 7 4.5 Power Supply Connections........................................................................ 7 5.0 Software Operation and Settings .......................................................................... 8 6.0 Evaluation Board Specifications............................................................................ 9 7.0 Hardware Schematic............................................................................................. 10 8.0 Evaluation Board Bill of Materials.......................................................................... 11 A1.0 Summary Tables of Test Points, Jumpers, and Connectors ............................... 12 2 http://www.national.com In the Computer mode, data capture and evaluation is simplified by connecting this board to National Semiconductor’s Data Capture Board (order number WAVEVSN BRD 4.4). The Data Capture (WV4) Board is connected to a personal computer running WaveVision software through a USB port. The WaveVision4 software runs on Microsoft Windows, and the latest version can be downloaded from the web at http://www.national.com/adc. 1.0 Introduction The DAC121C08XEB Design Kit (consisting of the DAC Evaluation Board and this User's Guide) is designed to ease evaluation and design-in of National Semiconductor’s DAC121C081/DAC121C085 family of Digital-toAnalog Converters (DACs). The Micro-Power 2 DACs feature Rail-to-Rail Output and an I CCompatible interface. This User’s Guide supports all three resolutions of the DAC family. The evaluation board comes with the full-featured MSOP-8 version of the DAC. For the 12-bit resolution, the DAC121C085 is used. For the 10bit resolution, the DAC101C085 is used. For the 8-bit resolution, the DAC081C085 is used. All the devices in the family (DAC121C085, DAC101C085, and DAC081C085) will be referred to as the DAC121C085 in this document. Note: WaveVision Software version 4.4 or later is required to evaluate this part with the WV4 Evaluation System. The WaveVision software allows the user to drive the DAC121C085 with a variety of preset waveforms and custom waveforms. The software 2 also allows the user to configure the I C serial Interface. The evaluation board can be used in either of two modes. In the Stand-Alone mode, suitable test equipment, such as a pattern generator and signal analyzer, can be used with the board to evaluate the DAC121C085 performance. JP10 3P3V Select JP5 Add Select Data transmitted to the DAC121C085, via the 2 I C interface, is converted to an analog waveform by U1, the DAC121C085. JP4 Output Load J4 VOUT JP7 VREF Select J1 WV4S Connector J2 VA Input J3 WV4 Connector JP9 VA Select U1 DAC121C085 Figure 1: Component and Test Point Locations 3 http://www.national.com 2.0 Board Assembly The DAC121C08XEB evaluation board comes fully assembled and ready for use. Refer to the Bill of Materials for a description of components, to Figure 1 for major component placement, and to Figure 12 for the Evaluation Board schematic. 14 13 12 11 10 8 SCL 3.0 Quick Start SDA The evaluation board may be used in the StandAlone mode or Computer mode. In Stand-Alone mode, a Pattern Generator is used to interface to 2 the DAC’s I C Interface. In Computer Mode, a 2 WaveVision4 Board is used to drive the DAC’s I C interface. In either case, a Signal Analyzer is used to evaluate the analog output signal. 9 7 6 5 4 3 2 1 J3 WV4 Figure 2: J3 (WV4) Interface Header 6. The Analog Output signal can be seen DC coupled at J5, or AC coupled at SMA connector J4. See the board schematic of Figure 12 for details. 7. Select the desired output load by adding jumpers to JP4. Connect a jumper across the two left pins near the “C” to add a 200pF load capacitance to ground. Connect a jumper across the two right side pins near the “R” to add a 2kΩ resistive load. See Table 1 for jumper configurations. 2 8. The DAC121C085 will respond to I C address 0x0C by default with pins A0 and A1 floating. 2 Change the I C slave address of the DAC by adding jumpers to JP5. A0 is controlled by pins 1,2, & 3 of JP5. A1 is controlled by pins 5, 6, & 7. Refer to Table 1 for a detailed 2 description of the I C Slave address settings. NOTE: Jumper Setting changes to the pinconfigurable slave address will not take effect until the DAC is power-cycled. 3.1 Stand-Alone Mode Refer to Figure 1 for locations of test points and major components. 1. Connect a clean analog (not switching) +5V power source to Power Connector J2 on the DAC121C08XEB board. Ground the middle terminal and connect +5V to the bottom terminal closest to JP9. 2. Make the following required jumper connections, see Table 1 for more details: • JP9 - pins 2 & 3 • JP7 - pins 2 & 3 • JP6 - pins 1 & 2 • JP8 - pins 1 & 2 3. Turn on the power source. 2 4. Configure a pattern generator or other I C master device to interface to the DAC121C085. Refer to the timing diagrams in the datasheet for further timing details. The 2 DAC supports any of the three standard I C 2 speed ranges. Ensure the I C master device is configured to drive 5V CMOS logic. 2 5. Connect the I C master device to Serial Interface Header J3 (WV4). Refer to Figure 2 below for connection details. NOTE: The board comes with pull-up resistors (R6 and 2 R7). Any other pull-ups on the I C bus must be disabled. 4 http://www.national.com 3.2 Computer Mode Refer to Figure 1 for locations of test points and major components. The board comes configured for “plug-and-play” WaveVision evaluation. 13 SDA 1. Run the WaveVision 4 program, version 4.4 or higher is required to interface to the WV4 board. While the program is loading, continue below. 2. Connect a USB cable between the WV4 board and the PC running the WaveVision 4 software. 3. Make the following required jumper connections, see Table 1 for more details: • • • • +5V +3.3V (EEPROM) 14 11 12 9 10 7 8 5 6 3 4 1 2 SCL (EEPROM) N/C N/C GND SCL (DAC) GND JP9 - pins 1 & 2 JP7 - pins 2 & 3 JP6 - pins 1 & 2 JP8 - pins 1 & 2 SDA (DAC) J1 WV4S • JP10 - pins 1 & 2 4. Connect the J1 header on the DAC121C08XEB evaluation board to the WV4 serial connector (J7) on the WV4 board. Refer to Figure 3 for the serial connection and Figure 4 for the J1 header pin out. Note: J1 on the DAC121C08XEB is intentionally stuffed on the bottom side of the board. Figure 4: J1 (WV4S) Header 5. Perform step 7 of section 3.1 to configure the loading of the analog output (VOUT). 6. Perform step 8 of section 3.1 to configure the 2 I C slave address of the DAC. 7. Connect a clean (not switching) +5.0V power source with a 350mA current limit to power connector J1 on the WV4 board. Turn on the power supply. 8. Refer to Section 5.0 on Software Operation and Settings to setup the WaveVision 4 software. Figure 3: WV4 to DAC121C08XEB Connection 5 http://www.national.com 2 4.2 I C Interface 4.0 Functional Description 2 The DAC supports all three I C speeds, including Hs-Mode (3.4MHz). In Hs-Mode the maximum DAC conversion rate is 188.9kHz. The board is 2 designed with 1kΩ I C pull-up resistors on both the SDA and SCL lines (R6 & R7). Also, series resistors for SCL and SDA are designed into the board (R8 & R9). The board is shipped with 51Ω series resistors which can be increased to 2 interface to a noisy I C bus. 4.1 Jumper Settings Table 1 describes the function of the various jumpers on the DAC121C08XEB evaluation board. The evaluation board schematic is shown in Figure 12. Pins 1 & 2 Pins 2 & 3 Jumper 2 JP4 VOUT Load Select (See Below) JP5 I C Address Select (See Below) JP6 Enable VREF supply to the DAC. In Computer Mode, the I C interface is driven by the WaveVision4 board. The WaveVision4 software allows the user to drive the DAC121C085 with various digitized signals. Refer to Section 5.0 “Software Operation and Settings” for further information. 2 2 Use external VREF from J2. JP7 JP8 In Stand-Alone Mode, the I C interface must be driven by an external device. See section 1.4.5 of the DAC121C081/DAC121C085 datasheet for a typical write sequence timing diagram. Set VREF = VA Enable VA supply to the DAC. JP9 Use VA from the WV4 board Use external VA from J2. JP10 Use 3.3V supply from the WV4 board Use external 3.3V supply from TP6. 2 The maximum digital input level of the I C interface depends on the analog supply voltage (VA). The interface operates at normal CMOS logic levels. See the Electrical Characteristics section of the datasheet for further details. The SDA signal is accessible by connecting to pin 2 of the WV4 connector (J3). The SCL signal is accessible by connecting to pin 6 of J3. Jumper JP4 (VOUT Load Select) Left side pins near “C” Connect a 200pF load capacitance from VOUT to GND Please refer to section 1.4 of the datasheet for a 2 detailed description of the I C interface. Refer to the Philips I2C Specification for further details. Right side pins near “R” Connect a 2kΩ load resistance from VOUT to GND 4.3 DAC Reference Circuitry The reference voltage for the DAC121C085 is selected by JP7. (See Table 1 for details.) The reference can either be selected as the VA supply or an externally supplied voltage (J2). The analog output range of the DAC121C085 can be scaled by adjusting the reference voltage (VREF). The lower the VREF, the smaller the output range. VREF can be set anywhere from 1.0V to VA. VA is independent of VREF and can be set anywhere from +2.7V to +5.5V. In any case, VREF has little to no PSRR and must be as clean as possible to reduce noise feedthrough on VOUT. 2 Address Jumper JP5 (I C Address Select) 0x0C No jumpers 0x0D Short pins 2 & 3. 0x0E Short pins 1 & 2. 0x08 Short pins 6 & 7. 0x09 Short pins 2 & 3 and pins 6 & 7. 0x0A Short pins 1 & 2 and pins 6 & 7. 0x4C Short pins 5 & 6. 0x4D Short pins 2 & 3 and pins 5 & 6. 0x4E Short pins 1 & 2 and pins 5 & 6. Table 1: Jumper Configurations 6 http://www.national.com If you wish to supply VA externally, connect a DC voltage supply to connector J2. Connect GND to the center terminal and VA to the bottom terminal. Place a jumper across pins 2 and 3 of JP9 to select VA_REMOTE. This voltage (VA) can be set anywhere from +2.7V to +5.5V. The source of VREF is controlled by the JP7 jumper. To set VREF=VA, short pins 2 & 3. To use an external VREF from the top terminal of J2, short pins 1 & 2. Refer to Figure 6 for a diagram of the power supply connections. 4.4 Analog Output The analog output of this Eval board is available in two places. For a DC coupled output, pin 1 of J5 provides VOUT and pin 2 provides AGND. An AC coupled output is provided by the SMA connector (J4). See Figure 5 below for details. If using a spectrum analyzer to look at the output of the DAC, the AC coupled output (J4) is recommended. For very low frequency (i.e. less than 1kHz), use J5 to see the output signal DC coupled. For an AC coupled output at low frequencies, simply replace the AC coupling capacitor at C9 with a larger capacitor. Use the J4 SMA to look at the AC coupled output. AC Coupled VOUT VREF AGND VOUT VA Figure 6: Power Supply Connections Figure 5: Analog Output Typical supply currents when applying an external supply to VA and VREF are as follows: 4.5 Power Supply Connections • For VA = +3.3V, I = 7mA • For VA = +5.0V, I = 12mA In Computer mode, the board can be powered by either an external supply or the local WaveVision4 board supply. In Stand-alone mode, the Evaluation Board must be powered by an external supply. Note: These values are specified for a continuously operating DAC in High Speed Mode, driving a full-scale sinewave output. The majority of this current is for powering devices external to the DAC121C085 such as the pull-up resistors and the LED. If you wish to use the local supply from the WaveVision4 Board, place a jumper across pins 1 and 2 of JP9. This connection will supply +5V to VA on the DAC board. To set VREF=VA, simply short pins 2 & 3 of JP7. For WaveVision to recognize the board, the 3P3V supply must be enabled as well. Do this by placing a jumper across pins 1 and 2 of JP10. The board comes configured to use the local supply. The default jumper settings are shown in Figure 1. 7 http://www.national.com Remote 2 7. Configure the I C address of the DAC. The 2 DAC121C085 will respond to I C address 0x0C by default with pins A0 and A1 floating 2 (no jumpers on JP5). Change the I C slave address of the DAC by adding jumpers to JP5. Refer to Table 1 for a detailed description of 2 the I C address settings. The address in Figure 8 must match the address configured by A0 and A1. NOTE: Jumper Setting changes to the pinconfigured slave address will not take effect until the DAC is power-cycled. 5.0 Software Operation and Settings The WaveVision4 software is included with the WaveVision4 board and the latest version can be downloaded from National's web site at WaveVision4 http://www.national.com/adc. software version 4.4 or later is required to evaluate this device with the WV4 system. To install this software, follow the procedure in the WaveVision4 Board User's Guide. Once the software is installed, run it and set it up as follows: Note: Before continuing, ensure that the WaveVision Hardware is setup according to Section 3.2. 1. From the WaveVision main menu, go to Settings, then Capture Settings to open the System Settings dialog. 2. Under board type, select WaveVision4 (USB). 2 Figure 8: I C Address 3. Turn on the power to both boards, then click on the "Reset" button and await the firmware download. After the firmware has downloaded, WaveVision will open up a control panel window for the DAC121C08XEB. 8. Perform register level control of the DAC by writing 16-bit words to the DAC Data Register. To write the DAC, simply type a 16-bit hex value into the “Manual DAC Control” field and press Enter or click the “Write DAC Register” button. See Figure 9. 4. Click on the "Close" button to close the System Settings Dialog. 5. Navigate to the DAC121C08XEB Evaluation Board window. 2 6. Configure the I C Interface speed as seen in Figure 7. Standard mode, Fast Mode, and High Speed mode are supported. Figure 9: Manual DAC Control 9. To put the DAC into power-down mode, select a power-down option from the “Power-down Mode” box and click the “Set Mode” button. 2 Figure 7: I C Speed Select Figure 10: DAC Power-down Control 8 http://www.national.com 10. Configure the digital waveform to be converted by the DAC as seen in Figure 11. Please see the WaveVision4 User’s Manual for detailed instructions. The ability to drive preset waveforms or custom data is provided. 6.0 Evaluation Board Specifications Board Size: Power Requirements I2C Interface Speed: Analog Output AC Coupled Output Range: Impedance: 2.8" x 2.0" (7.2 cm x 5.1 cm) Min: +2.7V , 6mA Max: +5.5V, 16mA 100 kHz, 400kHz, or 3.4 MHz -(VA/2) to (VA/2) User Selectable: 2KΩ, 200pF, or ∞. Figure 11: Waveform Configuration 11. Press the “Start” button to begin driving the digital waveform to the DAC. The WaveVision4 Board will continuously send the 2 waveform out to the DAC over the I C interface until the “Stop” button is pressed. Please refer to Section 4.4 for details on measuring the Analog Output of the DAC. The Digital Waveform is plotted in the main WaveVision window for added convienience. This waveform may be further analyzed by clicking on the magnifying glass icon, then clicking and dragging across a specific area of the plot for better data inspection. See the WaveVision4 Board User's Guide for details. If this board is used in conjunction with the WaveVision4 Data Capture Board and WaveVision software, a USB cable is needed to connect WaveVision4 Board to the host computer. See the WaveVision4 Board User's Guide for details. 9 http://www.national.com REM WV 3P3V_WV TP6 1 2 3 TP7 AGND AGND 3P3V_REMOTE 3P3V JP10 3P3V 1 3P3V 1 6 8 10 12 14 5 7 9 11 13 SCL_DUT SCLHS_E 5 7 9 11 13 6 8 10 12 14 SCL_DUT SCLHS_E 0.1uF 1uF D2 RED LED 3P3V R11 510 C8 C7 3P3V 3 SDA 1 4 8 SDA_DUT 2 3P3V_WV J3 WV4 4 3 SDA 2 SCL WV4 5P0V_WV SCL WV4S 3P3V 5 J1 WV4S 7 WP VCC 1 A0 2 A1 6 SCL A2 3P3V 3 GND SDA 4 SDA_DUT 1 U3 24C02 TP5 AGND 1 AGND R6 1K VA VA NS C6 R7 1K VA 4 51 51 R8 R9 1 2 3 4 5 6 7 VA U2 NC7SZ126P5X_NL VA A1 AGND VA A0 AGND 1 C9 1uF 4 3 2 1 AGND VOUT GND VA VREF VOUT 5 6 7 8 C C2 R C3 C5 0.1uF 1uF C4 TP3 AGND 0.1uF C11 0.1uF C10 JP4 HEADER 4X2_0 2K R1 0.1uF 1uF 1 2 AGND 2 1 VOUT DAC121C085 SDA SCL A1 A0 U1 TP2 AGND 1 C1 3 4 200pF AGND TP4 VA JP6 I_VREF VA D1 RED LED R10 510 VA VA JP8 I_VA L1 TP1 AGND VA 1 2 3 5P0V_WV AGND 100uH 1 3 2 4 5 JP5 ADDRESS SELECT Y 5 VCC OE 1 A 2 GND 3 1 2 1 2 J4 VOUT VA JP7 VREF VREF=VA VREF_EXT JP9 VA SELECT WV VOUT 1 10 1 1 2 3 REM J5 LED 1 2 3 J2 VIN VREF AGND VA_REMOTE 7.0 Hardware Schematic Figure 12: DAC121C08XEB Evaluation Board Schematic http://www.national.com 8.0 Evaluation Board Bill of Materials Quantity Reference PCB Footprint 1 6 4 2 1 1 C1 C2,C4,C6,C8,C10,C11 C3,C5,C7,C9 D1,D2 JP4 JP5 rc0603 rc0603 c1206 D1206-21 hdr2x2 hdr1x7 1 1 1 1 1 1 JP6 JP7 JP8 JP9 JP10 J1 1 1 1 1 1 1 2 2 2 5 1 1 1 1 1 J2 J3 J4 J5 L1 R1 R6,R7 R10,R11 R8,R9 TP1,TP2,TP3,TP5,TP7 TP4 TP6 U1 U2 U3 hdr1x2 hdr1x3 hdr1x2 hdr1x3 hdr1x3 hdr2x7_2mmrh ED120-3 berg2x7p SMA hdr1x2 1206 rc0603 rc0603 rc0603 rc0603 tp_60c40dp tp_60c40dp tp_60c40dp mso8SD-8 sc70-5 so8 Source Source Part # Rating 10V 10V 10V Digikey 516-1440-1-ND Digikey S1011E-36-ND Digikey Digikey Digikey Digikey Digikey Digikey S1011E-36-ND S1011E-36-ND S1011E-36-ND S1011E-36-ND S1011E-36-ND S5803-21-ND Digikey Digikey ED1609-ND A26529-40-ND Digikey Digikey S1011E-36-ND 445-1543-1-ND Digikey Digikey Digikey S1011E-36-ND S1011E-36-ND S1011E-36-ND 11 Value 200pF 0.1uF 1uF RED LED HEADER 4X2_0 ADDRESS SELECT I_VREF VREF I_VA VA SELECT 3P3V WV4S VIN WV4 VOUT LED 100uH 2K 1K 510 51 AGND VA 3P3V_REMOTE DAC121C085 NS 24C02 http://www.national.com APPENDIX A1.0 Summary Tables of Test Points, Jumpers, and Connectors Test Points on the DAC121C08XEB Evaluation Board TP1: AGND Ground. Located at the top center of the board. TP2: AGND Ground. Located at the top center of the board. TP3: AGND Ground. Located at the bottom right of the board. TP4: VA VA Test Point. Located at the bottom right of the board. TP5: AGND Ground. Located at the top left of the board. TP6: 3P3V 3.3V test point. Located at the top left of the board. TP7: AGND Ground. Located at the bottom left of the board. Connectors on the DAC121C08XEB Evaluation Board J1: WV4S Header Wave Vision 4 Serial connector. Stuffed on the bottom side of the board intentionally. J2: Terminal Block VREF, AGND, VA_REMOTE. External power supply connector. J3: Serial Interface Header Serial Interface header. Logic Input. (Refer to Figure 2 for a pin-out diagram.) J4: SMA Connector VOUT_AC. AC Coupled Analog Output. J5: 2-pin Header VOUT. DC Coupled Analog Output. Selection Jumpers on the DAC121C08XEB Evaluation Board (Refer to Table 1 in Section 4.0 for configuration details) JP4: VOUT Load Select Configures the load on VOUT. Refer to Table 1. JP5: I2C Address Select Configures the DAC’s I2C address. Refer to Table 1. Note: Changes to the pin-configured I2C slave address do not take effect until the DAC is power-cycled. JP6: I_VREF Enables VREF supply to the DAC. Also used to measure isolated VREF current. JP7: VREF Select Selects the VREF source. VREF is either supplied externally or connected to VA by this jumper. JP8: I_VA Enables VA supply to the DAC. Also used to measure isolated VA current. JP9: VA Select Selects the VREF source. VREF is either supplied externally or connected to VA by this jumper. JP10: 3P3V Select Selects the 3.3V source for powering the WaveVision EEPROM (U3). Always set to pins 1 and 2 for WaveVision operation. 12 http://www.national.com [Blank Page] 13 http://www.national.com BY USING THIS PRODUCT, YOU ARE AGREEING TO BE BOUND BY THE TERMS AND CONDITIONS OF NATIONAL SEMICONDUCTOR'S END USER LICENSE AGREEMENT. DO NOT USE THIS PRODUCT UNTIL YOU HAVE READ AND AGREED TO THE TERMS AND CONDITIONS OF THAT AGREEMENT. IF YOU DO NOT AGREE WITH THEM, CONTACT THE VENDOR WITHIN TEN (10) DAYS OF RECEIPT FOR INSTRUCTIONS ON RETURN OF THE UNUSED PRODUCT FOR A REFUND OF THE PURCHASE PRICE PAID, IF ANY. The DAC121C08XEB, DAC101C08XEB, & DAC081C08XEB Evaluation Boards are intended for product evaluation purposes only and are not intended for resale to end consumers, are not authorized for such use and are not designed for compliance with European EMC Directive 89/336/EEC, or for compliance with any other electromagnetic compatibility requirements. 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