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 CDB5529
CDB5529 Evaluation Board and Software
Features General Description
The CDB5529 is an inexpensive tool designed to evaluate the performance of the CS5529 16-bit Analog-toDigital Converter (ADC). The evaluation board includes an LT1019 voltage reference, an 80C51 microcontroller, an RS232 driver/receiver, and firmware. The 8051 controls the serial communication between the evaluation board and the PC via the firmware, thus, enabling quick and easy access to all of the CS5529's registers. The CDB5529 also includes software for Time Domain Analysis, Histogram Analysis, and Frequency Domain Analysis.
l l l l
RS-232 Serial Communication with PC On-board 80C51 Microcontroller On-board Voltage Reference Lab Windows/CVITM Evaluation Software
Register Setup & Chip Control FFT Analysis Time Domain Analysis Noise Histogram Analysis
l Integrated RS-232 Test Mode
ORDERING INFORMATION: CDB5529
+5/+2.5 ANALOG
-2.5 ANALOG
AGND
DGND
+5/3.3 DIGITAL
+5 DIGITAL RS232 CONNECTOR
VOLTAGE REFERENCE
J1 REF+ AIN+ AINREF-
LEDs
CS5529
AIN+ AINCS SDI SDO SCLK D3 D2 D1 D0 A1 A0 XOUT XIN HDR6
RS232 DRIVER/RECEIVER
80C51 MICROCONTROLLER
OFF ON 1 2 3
CRYSTAL 11.0592MHz
RESET CIRCUITRY
TEST SWITCHES
CRYSTAL 32768Hz
Cirrus Logic, Inc. Crystal Semiconductor Products Division P.O. Box 17847, Austin, Texas 78760 (512) 445 7222 FAX: (512) 445 7581 http://www.crystal.com
Copyright (c) Cirrus Logic, Inc. 1997 (All Rights Reserved)
AUG `97 DS246DB1 1
CDB5529
PART I: HARDWARE
The evaluation board provides two voltage reference options, on-board and external. With HDR5's jumpers in positions 1 and 4, the LT1019 provides an absolute voltage level of 2.5 volts (the LT1019 was chosen for its low drift, typically 5ppm/C). By setting HDR5's jumpers to position 2 and 3, the user can supply an external voltage reference to J1's REF+ and REF- inputs (Application Note 4 on Crystal Semiconductor's web site details various voltage references). The ADC serial interface is SPITM and MICROWIRETM compatible. The interface control lines (CS, SDI, SDO, and SCLK) are connected to the 80C51 microcontroller via port one. To interface an external microcontroller, these control lines are also connected to HDR6. However to accomplish this, the evaluation board must be modified in one of three ways: 1) cut the interface control traces going to the microcontroller, 2) remove resistors R1-R8, or 3) remove the microcontroller. Figure 2 illustrates the schematic of the digital section. It contains the microcontroller, a Motorola MC145407 interface chip, and test switches. The test switches aid in debugging communication problems between the CDB5529 and the PC. The microcontroller derives its clock from an 11.0592 MHz crystal. From this, the controller is configured to communicate via RS-232 at 9600 baud, no parity, 8-bit data, and 1 stop bit.
Introduction
The CDB5529 evaluation board provides a quick means of testing the CS5529 Analog-to-Digital Converter (ADC). The board interfaces the CS5529 to an IBMTM compatible PC via an RS-232 interface while operating from either a single +5 V supply or dual 2.5 volt supplies. To accomplish this, the board comes equipped with an 80C51 microcontroller and a 9-pin RS-232 cable which physically interfaces the evaluation board to the PC. Additionally, analysis software provides easy access to the internal registers of the converter, and provides a means to display the converter's time domain, frequency domain, and noise histogram performance. The evaluation board's software includes debug algorithms to trouble shoot the evaluation board. Refer to the Trouble Shooting the Evaluation Board section for more details.
Evaluation Board Overview
The board is partitioned into two sections: analog and digital. The analog section consists of the CS5529 and a precision voltage reference. The digital section consists of the 80C51 microcontroller, the hardware test switches, the reset circuitry, and the RS-232 interface. The CS5529 is designed to digitize signals while operating from a 32.768 KHz crystal. As shown in Figure 1, a signal can be connected to the converter's inputs via J1's AIN+ and AIN- inputs. Note that a simple RC network filters the input to reduce broadband noise.
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R21 10 +5V / 2.5V Analog C16 0.1F HDR8 -2.5V Analog R18 301 J1 REF+ AIN+ AINREFR17 301 C2 4700pF
HDR1 1, AGND
C30 10F
2
VA+
VD+
13
HDR3 C11 0.1F +5V / 3.3V Digital
1
3
U4 VA- CS5529
AIN+ DGND CS SDI SDO SCLK D3 D2 D1 D0 A1 A0 DGND
C31 10F
HDR9 8 15 14 9 18 17 16 7 6 5 12 CS SDI SDO SCLK A0 A1 D0 D1 D2 D3
2, AIN+
C3 0.68F
JP3
7 HDR2
C4 0.68F 1, AIN4 AIN2, AGND HDR5 20 19
To Figure 2
JP4
R15 301
C1 4700pF
1,LT1019 2,REF+ 3,REF4,VA-
REF+ REF-
HDR6
R16 301 +5V / 2.5V Analog VAC21 0.1F R22 50
VA-
U3 LT1019 2.5V
XOUT C15 0.1F 10
XIN 11
Y2 32768Hz
Figure 1. Analog Schematic Section
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4
+5V Digital +5V Digital R13 10k + 40 39 JP2 P3.0 10 11 P3.1 S1 P1.4 P1.5 P1.6 P1.7 P3.5 P3.6 P2.1 P2.2 XTAL1 P2.3 19 C24 33pF C0G+5V Digital Bypass Cap XTAL2 24 5 +4 D1 LED_555_5003 OFFSETCAL P2.0 21 22 23 12 P3.2 13 P3.3 14 P3.4 R12 5.11k R11 5.11k R10 5.11k 8 7 6 +1 +2 +3 RESET COMM GAINCAL Test Switch 1 Test Switch 2 Test Switch 3 13 Loopback 12 11 Normal 14 HDR7 From RS-232 C7 47F C17 0.1F C27 10F + 3 1 CS SDI SDO From Figure 1 SCLK D1 D0 A1 A0 D2 D3 C23 33pF C0G Y1 11.0592MHz R7 200 R8 200 1 R1 200 R2 2 200 R3 3 200 4 R4 200 R5 5 200 R6 6 200 HDR10 7 8 R19 200 R20 200 C2C2+ P1.0 P1.1 P1.2 P1.3 VDD P0.0 To RS-232 RXD TP71 TXD TP72 16 15 18 C19 0.1F 14 1 D4 1N4148 C18 0.1F 3 5 RESET 9 11 13 17 8 10 12 2 4 6 9 RST VSS 20 UM1 80C51 +5V Digital TP65 TP64 TP63 TP62 TP61 U5 SN74HC14N R9 750k
C26 10F + R14 10k 18 20 + C25 10F RI 5 6 7 8 9 10 U1 MC145407 4 2 + TXD RXD RTS CTS DTR DSR DCD C28 10F J2 9 3 2 7 8 4 6 1 5
VCC
17 VDD C1C1+
CDB5529
Figure 2. Digital Schematic Section
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Register Offset Register Gain Register Configuration Register Conversion Data Register
Read Command Byte 0x90 (H) 0x92 (H) 0x94 (H) 0x96 (H) Table 1. Microcontroller Command via RS-232
Write Command Byte 0x80 (H) 0x82 (H) 0x84 (H) ---
Table 1 lists the RS-232 commands used to communicate between the PC and the microcontroller. To develop additional code to communicate to the evaluation board via RS-232, the following applies: to write to an internal ADC register, choose the appropriate write command byte (See Table 1), and transmit it LSB first. Then, transmit the three data bytes, lowest order byte (bits 7-0) first, with the LSB of each byte transmitted first. These three data bytes provide the 24-bits of information to be written to the desired register. To read from an internal register, choose the appropriate read command byte and transmit it LSB first. Then, the microcontroller automatically acquires the ADC's register contents and returns the 24-bits of information. The returned data is transmitted lowest order byte first with the LSB of each byte transmitted first. The CS5529 A/D converter is designed to operate from a single +5V or a dual 2.5V analog supply. Figure 3 illustrates the power supply connections to the evaluation board. The +2.5/5V Analog supplies the positive analog section of the evaluation board,
+2.5V / 5V Analog Z2 P6KE6V8P C6 + 47F R21 C20 0.1F 10 AGND Z5 P6KE6V8P -2.5V Analog Z3 P6KE6V8P C5 + 47F C14 0.1F
the LT1019 and the ADC. The -2.5V Analog supplies the negative. HDR8 (see Figure 1) can be used to bypass VA- to ground. The +5V Digital supplies the digital section of the evaluation board. It powers the 80C51, the reset circuitry, and the RS-232 interface circuitry.
Using the Evaluation Board
The CS5529 is a highly integrated ADC. It contains coarse/fine charge buffers and programmable output word rates (OWR). The buffers provide charge to the modulator reducing the dynamic current demand from the signal being digitized and from the external reference. The ADC's digital filter allows the user to select output word rates (OWR's) from 1.88 Hz up to 101.1 Hz (assuming a 32.768 kHz clock). 303 Hz output word rates can be attained when a 100kHz clock source is used. Since the CS5529 has such a high degree of integration and flexibility, the CS5529 data sheet should be read thoroughly before and consulted during the use of the CDB5529.
To HDR3 C12 C8 0.1F + 47F DGND C12 C8 0.1F + 47F To HDR8 To C VD+
+5V / 3.3V A/D Digital Z4 P6KE6V8P
Z1 P6KE6V8P
+5V Digital
Figure 3. Power Supplies
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Name HDR1 HDR2 HDR3 Function Description Used to switch AIN+ between J1 input and AGND. Used to switch AIN- between J1 input and AGND. Used to switch digital power for the converter (VD+) from positive analog supply header (+5V/2.5V Analog) to the positive digital supply header (+5V/3.3V Digital). Does not exist. Used to switch VREF+ and VREFpins from external J1 connection header to the on board LT1019 reference. Used to connect external micro-controller. Used in conjunction with the self test modes to test the UART communication between the microcontroller and the PC. Used to switch the analog component's (LT1019 and converter) negative potential between the -2.5V Analog header and AGND. Used in conjunction with HDR3 to switch the digital ground of the converter (DGND) from the AGND header to the DGND header. Used to switch the A0 and A1 output switches of the converter into the microcontroller. These shunts must be disconnected when the converter powered from bipolar supplies.
Software
The evaluation board comes with software and an RS-232 cable to link the evaluation board to the PC. The executable software was developed with Lab Windows/CVITM and meant to run under WindowsTM 3.1 or later. After installing the software, read the readme.txt file for last minute changes in the software. Additionally, Part II: Software further details how to install and use the software.
HDR4 HDR5
HDR6 HDR7
HDR8
HDR9
IBM, AT and PS/2 are trademarks of International Business Machines Corporation. Windows is a trademark of Microsoft Corporation. Lab Windows and CVI are trademarks of National Instruments. SPI is a trademark of Motorola. MICROWIRE is a trademark of National Semiconductor.
HDR10
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PART II: SOFTWARE
Using the Software
At start-up, the window START-UP CONFIGURATION appears first. This window contains information concerning the software's title, revision number, copyright date, etc. Additionally, at the top of the screen is a menu bar which displays user options. Notice, the menu bar item Menu is initially disabled. This eliminates any conflicts with the mouse or concurrent use of modems. Before proceeding any further, the user is prompted to select the serial communication port. To initialize a port, pull down option Setup from the menu bar and select either COM1 or COM2. Next, select the appropriate part under the Part menu. After a port is initialized and the part selected, it is a good idea to test the RS-232 link between the PC and the evaluation board. To do this, pull down the Setup menu from the menu bar and select the option TESTRS232. The user is then prompted to set the evaluation board's test switches to 011 and then reset the board. Once this is done, proceed with the test. If the test fails, check the hardware connection and repeat again. Otherwise, set the test switches to 000 (normal mode) and reset the board. The option Menu is now available and performance tests can be executed. The evaluation software provides three types of analysis tests - Time Domain, Frequency Domain, and Histogram. The Time Domain analysis processes acquired conversions to produce a plot of Conversion Sample Number versus Magnitude. The Frequency Domain analysis processes acquired conversions to produce a magnitude versus frequency plot using the Fast-Fourier transform (results up to Fs/2 are calculated and plotted). Also, statistical noise calculations are calculated and displayed. The Histogram analysis processes acquired conversions to produce a histogram plot. Statistical noise calculations are also calculated and displayed (see figures 4 through figure 9).
Installation Procedure
To install the software: 1) Turn on the PC. 2) At DOS prompt type WIN to Launch Windows 3.1TM or later. 3) Insert the Installation Diskette into the PC. 4) From within the Windows Program Manager, pull down File from the menu bar and select the Run option. 5) At the prompt type: A:\SETUP.EXE . 6) The program will begin installation. 7) After a few seconds, the user will be prompted to enter the directory in which to install the CVI Run-Time EngineTM. The Run-Time EngineTM manages executables created with Lab Windows/CVITM and takes approximately 1.5 megabytes of hard drive space. If the default directory is acceptable, select OK and the Run-Time EngineTM will be installed there. 8) After the Run-Time EngineTM is installed, the user is prompted to enter the directory in which to install the CDB5529 software. Select OK to accept the default directory. 9) The program takes a few minutes to install. After the program is installed, double click on the Eval5529 icon to launch it. After a few seconds, the user should be in the graphical user interface environment.
Note: The software is written to run with 640 x 480 (standard VGA in Windows 3.1TM) resolution; however, it will work with 1024 x 768 resolution. If the user interface seems to be a little small, the user might consider setting the display settings to the 640 x 480 standard (640x480 was chosen to accommodate a variety of computers).
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The evaluation software was developed with Lab Windows/CVITM, a software development package from National Instruments. More sophisticated analysis software can be developed by purchasing the development package from National Instruments (512-794-0100). Load From Disk: Used to load and display previously saved data conversions from a file. The file must comply with the CDBCAPTURE file save format. The format is: part number, number of bits, number of conversions, maximum range, and the data conversions. The user is prompted to enter the path and file name of previously saved data. To prevent hardware conflicts, this option is deactivated while in the Input/Output Window. TESTRS232: This test mode tests the ability of the PC to communicate to the evaluation board. It consists of two subtests: 1) test the link between the PC and the RS-232 interface circuitry; and 2) test the RS-232 link between the PC and the microcontroller. HDR7 distinguishes these two subtests. Set HDR7 to Normal to test the complete communication link. Or set HDR7 to Loop Back to test the link between the RS-232 Circuitry and the PC. Then, set the test switches to 110 and reset the evaluation board. The LED's should indicate a binary six signifying that the hardware is ready to initiate the test. To complete the test, the user must initialize the PC. First, use the SETUP menu to select a communications port and then select the TESTRS232 option. From there, prompts navigate the user through the test. The PC indicates if the test passes or fails. Once either test is complete, the LED's toggle to indicate that the test mode is complete. QUIT: Allows user to exit program.
Menu Bars Overview
The menu bar controls the link between windows and allows the user to exit the program. It also allows the user to initialize the serial port and load presaved data conversions from a file. The five principal windows are the START UP CONFIGURATION (also referred to as the Setup Window), the Input / Output Window, the Histogram Window, the Power Spectrum Window (also referred to as the FFT window), and the Time Domain Window. Specifically, the menu bar has the following control items: Menu: To select, click on option Menu from the menu bar, or use associated hot keys. The items associated with MENU are listed and described below. Setup Window (F1) (F2) (F3) Input/Output Window Histogram Window
Power Spectrum Window (F4) Time Domain Window (F5) These five menu items allow the user to navigate between the five windows. They are available at all times via the menu bar or hot keys. SETUP: To select, click on option Setup from the menu bar. The functions available under Setup are: COM1: When selected, COM1 is initialized to 9600 baud, no parity, 8 data bits, and 1 stop bit. COM2: When selected, COM2 is initialized to 9600 baud, no parity, 8 data bits, and 1 stop bit.
Input/Output Window Overview
The Input/Output Window allows the user to read and write to the internal register of the converter in either binary or hexadecimal, and acquire real-time conversions. It has quick access control icons that quickly reset the converter, reset the converter's serial port, or self-calibrate the converter's offset and gain. The following are controls and indicators associated with this window. Acquire: This is a control icon. When pressed, the PC transmits the collect single conversion command
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to the microcontroller. The microcontroller in turn collects a conversion from the ADC and returns it to the PC. The PC stores the conversion and collects additional conversions to form a set. From the sample set collected, the high, the low, peak-to-peak, average, and standard deviation, are computed (the size of the data set is set by the Num To Average input) and then the display icons are updated. This process continues until the STOP button is pressed, or until another window is selected. Note: The quick access control icons are disabled once Acquire is selected. This eliminates potential hardware conflicts. BINARY: Input icons set or clear the 24 individual bits in the gain, configuration, or offset registers. The bits are first set, then the control icon Write All Registers is selected to update the registers in the converter. CONFIGURATION REGISTER: Text display box that displays the decoded meaning of each bit in the configuration register. DECIMAL: Three display icons that display in decimal the contents of the gain, configuration, and offset registers. DIGITAL OUTPUT: Display icon that displays the six states of the output latch. A0 and A1 are invalid when the converter is powered from bipolar supplies. GAIN REGISTER: Display icon that displays the decimal equivalent of the bits set in gain register. HEX: Three input/display icons that allow a user to set the 24 bits in the gain, configuration, or offset registers via 6 hexadecimal nibbles. If the upper nibbles in the registers are zero's, then leading zero nibbles need to be entered. Num To Average: Input icon that sets the size of the data conversion set referred to when the Acquire button is pressed. Read All Registers: This is a control icon. When pressed the gain, offset, and configuration registers contents are acquired. Then, the configuration text box and the register content icons are updated. Reinitialize: This is a control icon. When pressed, 128 logic 1's followed by a logic `0' are sent to the ADC's serial port to reset its port. It does not reset the RS-232 link. Reset A/D: This is a control icon. When pressed, the microcontroller sends the appropriate commands to return the converter to its initial default state. SELF Calibrate: This is a control icon. When pressed, the appropriate commands are sent to the ADC to calibrate its own offset and gain. STOP: Stops the collection of conversion data. Write All Registers: This is a control icon. When pressed, the 72 binary input icons settings are acquired. This data is then transmitted to the ADC's gain, offset, and configuration registers. Then, the PC's display is updated to reflect the registers changes.
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Histogram Window Overview
The following is a description of the controls and indicators associated with the Histogram Window. Many of the control icons are usable from the Histogram Window, the Frequency Domain Window, and the Time Domain Window. For brevity, they are only described in this section. BIN: Displays the x-axis value of the cursor on the Histogram. CANCEL: Once selected, it allows a user to exit from the COLLECT algorithm. If data conversion sample sets larger than 64 are being collected and the CANCEL button is selected, it is recommended that the user reset the evaluation board. The board will eventually recover from the continuous collection mode, but the recovery time could be as long as 10 minutes. COLLECT: Initiates the data conversion collection process. COLLECT has two modes of operation: collect from file or collect from converter. To collect from a file an appropriate file from the SETUP-DISK menu bar option must be selected. Once a file is selected, its content is displayed in the graph. If the user is collecting real-time conversions to analyze, the appropriate COM port must be selected. The user is then free to collect the preset number of conversions (preset by the CONFIG pop-up menu discussed below). Notice, there is a significant acquisition time difference in the two methods. CONFIG: Opens a pop-up panel to configure how much data is to be collected, and how to process the data once it is collected. The following are controls and indicators associated with the CONFIG panel. SAMPLES: User selection of 64, 256, 512, 1024, 2048, 4096, or 8192 conversions. WINDOW: Used in the Power Spectrum Window to calculate the FFT. Windowing algorithms include the Blackman, Blackman-Harris, Hanning, 5-term Hodie, and 7-term Hodie. The 5-term Hod10
ie and 7-term Hodie are windowing algorithms developed at Crystal Semiconductor. If information concerning these algorithms is needed, call technical support. AVERAGE: Sets the number of consecutive FFT's to perform and average. LIMITED NOISE BANDWIDTH: Limits the amount of noise in the converters bandwidth. Default is 0 Hz. OK: Accept the change MAGNITUDE: Displays the y-axis value of the cursor on the Histogram. MAXIMUM: Indicator for the maximum value of the collected data set. MEAN: Indicator for the mean of the data sample set. MINIMUM: Indicator for the minimum value of the collected data set. OUTPUT: Control that calls a pop-up menu. This menu controls three options: 1) save current data set to a file with the CDBCAPTURE format, 2) print current screen, or 3) print current graph. RESTORE: Restores the display of the graph after zoom has been entered. STD. DEV.: Indicator for the Standard Deviation of the collected data set. TEST: Quick access control icon, similar to the hot keys, to allow user to quickly switch between a time domain, a frequency domain, or a histogram display. VARIANCE: Indicates the Variance for the current data set. ZOOM: Control icon that allows the operator to zoom in on a specific portion of the current graph. To zoom, click on the ZOOM icon, then click on the graph to select the first point (the 1st point is the top left corner of the zoom box). Then click on the graph again to select the second point (the 2nd point is the bottom right corner of the zoom box). Once an area has been zoomed in to, the OUTPUT functions
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can be used to print a hard copy of that region. Click on RESTORE when done with the zoom function. ZOOM: See description in Histogram Window Overview. # of AVG: Displays the number of FFT's averaged in the current display.
Frequency Domain Window (i.e. FFT)
The following describe the controls and indicators associated with the Frequency Domain Window. CANCEL: See description in Histogram Window Overview. COLLECT: See description in Histogram Window Overview. CONFIG: See description in Histogram Window Overview. FREQUENCY: Displays the x-axis value of the cursor on the FFT display. MAGNITUDE: Displays the y-axis value of the cursor on the FFT display. OUTPUT: See description in Histogram Window Overview. S/D: Indicator for the Signal-to-Distortion Ratio, 4 harmonics are used in the calculations (decibels). S/N+D: Indicator for the Signal-to-Noise + Distortion Ratio (decibels). SNR: Indicator for the Signal-to-Noise Ratio, first 4 harmonics are not included (decibels). S/PN: Indicator for the Signal-to-Peak Noise Ratio (decibels). TEST: See description in Histogram Window Overview.
Time Domain Window Overview
The following controls and indicators are associated with the Time Domain Window. CANCEL: See description in Histogram Window Overview. COLLECT: See description in Histogram Window Overview. CONFIG: See description in Histogram Window Overview. COUNT: Displays current x-position of the cursor on the time domain display. MAGNITUDE: Displays current y-position of the cursor on the time domain display. MAXIMUM: Indicator for the maximum value of the collected data set. MINIMUM: Indicator for the minimum value of the collected data set. OUTPUT: See description in Histogram Window Overview. TEST: See description in Histogram Window Overview. ZOOM: See description in Histogram Window Overview.
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Trouble Shooting the Evaluation Board
This section describes special test modes incorporated in the microcontroller software to diagnose hardware problems with the evaluation board.
Note: To enter these modes, set the test switches to the appropriate position and reset the evaluation board. To reenter the normal operation mode, set the switches back to binary zero and reset the board again.
Test Mode 4: Reserved for future modifications. Test Mode 5, Continuously Read Gain Register: This test mode repetitively acquires the gain registers default contents (0x400000 HEX). To enter this mode, set the test switches to 101 and press reset. The LED's should indicate a binary five. By probing HDR6 and using CS as a triggering pin, an oscilloscope or logic analyzer will display in realtime how the microcontroller acquires a conversion. Test Mode 6, PC to Microcontroller RS-232 Communication Link Test: This test mode tests the ability of the PC to communicate to the evaluation board. It consists of two subtests: 1) test the link between the PC and the RS-232 interface circuitry; and 2) test the RS-232 link between the PC and the microcontroller. HDR7 distinguishes these two subtests. Set HDR7 to Normal to test the complete communication link. Or set HDR7 to Loop Back to test the link between the RS-232 Circuitry and the PC. Then, set the test switches to 110 and reset the evaluation board. The LED's should indicate a binary six signifying that the hardware is ready to initiate the test. To complete the test, the user must initialize the PC. First, use the SETUP menu to select a communications port and then select the TESTRS232 option. From there, user prompts navigate the user through the test. The PC indicates if the test passes or fails. Once either test is complete, the LED's toggle to indicate that the test mode is complete. Test Mode 7, Toggle LED's: This test mode tests the evaluation board LED's. To enter this mode, set the test switches to 111 and reset the board. If the mode passes, the LED's toggle.
Note: Remember, to return to the normal operating mode, set the test switches to binary zero, return HDR7 to Normal, and reset the evaluation board.
Test Mode 0, Normal Mode: This is the default mode of operation. To enter this mode, set the test switches to 000 and reset the board. The evaluation board allows normal read/writes to the ADC's registers. All the LED's toggle on then off after reset, and then only when communicating with the PC. Test Mode 1, Loop Back Test: This test mode checks the microcontroller's on-chip UART. To enter this mode, set test switches to 001, set HDR7 for loop back, and then reset the board. If the communication works, all the LED's toggle. Otherwise, only 1/2 of the LED's toggle to indicate a communication problem. Test Mode 2, Read/Write to ADC: This test mode tests the microcontroller's ability to read and write to the ADC. To enter this mode, set the switches to 010 and reset the board. In this test mode, the ADC's configuration, offset, and gain registers are written to and then read from. If the correct data is read back, all the LED's toggle. Otherwise, only half of them toggle to indicate an error. Test Mode 3, Continuously Acquire Single Conversion: This test mode repetitively acquires a single conversion. To enter this mode, set the test switches to 011 and press reset. A binary three is indicated on the LED's. By probing HDR6 and using CS as a triggering pin, an oscilloscope or logic analyzer will display in real-time how the microcontroller reads conversion data.
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Figure 4. Main Menu
Figure 5. Input/Output Window
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Figure 6. Frequency Domain Analysis
Figure 7. Configuration Menu
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Figure 8. Time Domain Analysis
Figure 9. Histogram Analysis
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Figure 10. CDB5529 Component Side Silkscreen
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Figure 11. CDB5529 Component Side (top)
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Figure 12. CDB5529 Solder Side (bottom)
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* Notes *


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