MAX1499EVKIT Maxim Integrated, MAX1499EVKIT Datasheet

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MAX1499EVKIT

Manufacturer Part Number
MAX1499EVKIT
Description
Data Conversion IC Development Tools Evaluation Kit/Evaluation System for the MAX1499
Manufacturer
Maxim Integrated
Series
MAX1497, MAX1499r
Datasheet
1.MAX1499EVKIT.pdf (23 pages)

Specifications of MAX1499EVKIT

Interface Type
QSPI, Serial (SPI, Microwire)
Operating Supply Voltage
2.7 V to 5.25 V
Before you begin, you need the following equipment:
• MAX1499EVC16 (contains MAX1499EVKIT board
• DC power supply, +7VDC to +20VDC at 0.5A
• Windows 95/98/2000/XP computer with an available
• 9-pin I/O extension cable
MAX1499 Evaluation Kit/MAX1499 Evaluation
System
Note: Indicate you are using the MAX1499 when contacting these component suppliers.
2
Kingbright Corporation
Taiyo Yuden
TDK
REFERENCE
MAX1499 EV Kit Component List
and 68HC16MODULE-DIP)
serial (COM) port
JU10–JU14
_______________________________________________________________________________________
JU1–JU9
R13, R14
TP1–TP4
R2, R12
U3, U4
R3–R7
R8, R9
R10
R11
TB1
U1
U2
U5
R1
SUPPLIER
QTY
13
5
9
1
2
5
0
1
1
2
1
4
1
1
2
1
1
3 pins
2 pins
133kΩ 1% resistor (1206)
100kΩ 1% resistors (1206)
1kΩ 5% resistors (1206)
Do not install—shorted trace on PC
board (1206)
500kΩ potentiometer
24kΩ 5% resistor (1206)
10Ω 5% resistors (1206)
0.200i n tw o- ci r cui t scr ew ter m i nal b l ock
8 pins
MAX1499ECJ
MAX1659ESA
MAX1840EUB or MAX1841EUB
MAX6062AEUR-T, FZFY
PC board, MAX1499 EV kit
Shunts
Required Equipment
DESCRIPTION
909-468-0500 (ext 126)
(continued)
Quick Start
800-348-2496
847-803-6100
PHONE
Do not turn on the power until all connections are
made.
1) Ensure that JU1–JU8 and JU10–JU14 have shunts
2) Carefully connect the boards by aligning the 40-pin
3) Connect a +7VDC to +20VDC power source to the
4) Connect a cable from the computer's serial port to
5) Install the evaluation software on your computer by
6) Turn on the power supply.
7) Start the MAX1499 program by opening its icon in
8) The program will prompt you to connect the µC
installed, and that JU9 is open. See the jumper set-
tings in Table 2.
header of the MAX1499 EV kit with the 40-pin con-
nector of the 68HC16MODULE-DIP module. Gently
press them together. The two boards should be
flush against one another.
µC module at the terminal block located next to the
on/off switch, along the top edge of the µC module.
Observe the polarity marked on the board.
the µC module. If using a 9-pin serial port, use a
straight-through, 9-pin female-to-male cable. If the
only available serial port uses a 25-pin connector, a
standard 25-pin to 9-pin adapter is required. The
EV kit software checks the modem status lines
(CTS, DSR, and DCD) to confirm that the correct
port has been selected.
running the INSTALL.EXE program on the disk. The
program files are copied and icons are created for
them in the Windows Start menu.
the Start menu.
module and to turn its power on. Slide SW1 to the
ON position. Select the correct serial port, and click
OK. The program automatically downloads its soft-
ware to the module.
909-468-0505
847-925-0899
847-390-4405
FAX
Component Suppliers
www.kingbright.com
www.t-yuden.com
www.component.tdk.com
WEBSITE
Procedure

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MAX1499EVKIT Summary of contents

Page 1

... PC board, MAX1499 EV kit — 13 Shunts Required Equipment Before you begin, you need the following equipment: • MAX1499EVC16 (contains MAX1499EVKIT board and 68HC16MODULE-DIP) • DC power supply, +7VDC to +20VDC at 0.5A • Windows 95/98/2000/XP computer with an available serial (COM) port • 9-pin I/O extension cable SUPPLIER ...

Page 2

MAX1499 Evaluation Kit/MAX1499 Evaluation 9) Apply an input signal in the range -2V to +2V between AIN+ and AIN-. Observe the readout on the screen. 10) To view a graph of the measurements, pull down the View menu and click ...

Page 3

MAX1499 Evaluation Kit/MAX1499 Evaluation System Table 1. Graph Tool Buttons TOOL FUNCTION Show the entire available input range.       Expand the graph data to fill the window. Move the view left or right. Move the view up or ...

Page 4

... The MAX1498 is the standalone version of the MAX1499. Refer to MAX1498/MAX1499 data sheet. Request a free sample of MAX1498ECJ. 1) The MAX1499EVKIT must be disconnected from the 68HC16MODULE. 2) With power disconnected, replace U1 with the MAX1498. 3) Connect DC power supply at terminal block TB1. ...

Page 5

MAX1499 Evaluation Kit/MAX1499 Evaluation System Figure 1. MAX1499 Evaluation Software—Measurement Tab 6 _______________________________________________________________________________________ ...

Page 6

MAX1499 Evaluation Kit/MAX1499 Evaluation Figure 2. MAX1499 Evaluation Software—Math Tab _______________________________________________________________________________________ System 7 ...

Page 7

MAX1499 Evaluation Kit/MAX1499 Evaluation System Figure 3. MAX1499 Evaluation Software—Control Register Tab 8 _______________________________________________________________________________________ ...

Page 8

MAX1499 Evaluation Kit/MAX1499 Evaluation Figure 4. MAX1499 Evaluation Software—Results, Display, Limits Tab _______________________________________________________________________________________ System 9 ...

Page 9

MAX1499 Evaluation Kit/MAX1499 Evaluation System Figure 5. MAX1499 Evaluation Software—LED Segments Tab 10 ______________________________________________________________________________________ ...

Page 10

MAX1499 Evaluation Kit/MAX1499 Evaluation Figure 6. MAX1499 Evaluation Software—Graph ______________________________________________________________________________________ System 11 ...

Page 11

MAX1499 Evaluation Kit/MAX1499 Evaluation System BANANA C6 +2.048V 4.7µF JU7 JU6 DGND TP1 AIN+ R8 AIN+ SHORT JU3 BANANA R9 SHORT JU4 BANANA AIN- AIN- R11 3 24kΩ R10 500kΩ CLK 1 BNC 2 ...

Page 12

MAX1499 Evaluation Kit/MAX1499 Evaluation Figure 7b. MAX1499 EV Kit Schematic (Sheet ______________________________________________________________________________________ System 13 ...

Page 13

MAX1499 Evaluation Kit/MAX1499 Evaluation System Figure 8. MAX1499 EV Kit Component Placement Guide—Component Side 14 ______________________________________________________________________________________ ...

Page 14

MAX1499 Evaluation Kit/MAX1499 Evaluation Figure 9. MAX1499 EV Kit PC Board Layout—Component Side ______________________________________________________________________________________ System 15 ...

Page 15

MAX1499 Evaluation Kit/MAX1499 Evaluation System Figure 10. MAX1499 EV Kit PC Board Layout—Solder Side 16 ______________________________________________________________________________________ ...

Page 16

... MAX1499 Evaluation Kit/MAX1499 Evaluation // Drv1499.h // MAX1499-specific driver. // mku 01/07/2004 // (C) 2004 Maxim Integrated Products // For use with Borland C++ Builder 3.0 //--------------------------------------------------------------------------- // Revision history: // 01/07/2004: modify drv driver to become drv1499 // 12/04/2003: fix indentation // 09/15/2003: add double Voltage(void) // 09/12/2003: add SPI_Transfer_After_EOC() // 09/09/2003: add class MAX1499 dependent on external SPI_Interface() ...

Page 17

MAX1499 Evaluation Kit/MAX1499 Evaluation System #define MAX1499_STATUS_POL_MASK #define MAX1499_STATUS_POL_POSITIVE #define MAX1499_STATUS_POL_NEGATIVE #define MAX1499_STATUS_OVER_RANGE #define MAX1499_STATUS_UNDER_RANGE #define MAX1499_STATUS_LOW_BATTERY #define MAX1499_STATUS_DATA_READY //--------------------------------------------------------------------------- // Define the bits in the CONTROL register. // SPI_ADC EXTCLK INTREF DPON DPSET2 DPSET1 // HOLD PEAK RANGE CLR ...

Page 18

MAX1499 Evaluation Kit/MAX1499 Evaluation #define MAX1499_LED_SEG2_DP3 #define MAX1499_LED_SEG2_B1 #define MAX1499_LED_SEG2_C1 //--------------------------------------------------------------------------- // Define the bits in the LED SEGMENT 3 register BC5 #define MAX1499_LED_SEG3_BC_ #define MAX1499_LED_SEG3_B3 #define MAX1499_LED_SEG3_C3 #define MAX1499_LED_SEG3_A3 #define ...

Page 19

MAX1499 Evaluation Kit/MAX1499 Evaluation System //---------------------------------------- // Other registers, having 8 bit data format bool Write_8bit_reg(int reg, int data); int Read_8bit_reg(int reg); }; //--------------------------------------------------------------------------- #endif Listing 1 (Sheet ______________________________________________________________________________________ ...

Page 20

... MAX1499 Evaluation Kit/MAX1499 Evaluation // Drv1499.cpp // MAX1499-specific driver. // mku 09/15/2003 // (C) 2003 Maxim Integrated Products // For use with Borland C++ Builder 3.0 //--------------------------------------------------------------------------- // Revision history: // 09/15/2003: add double Voltage(void) // 09/09/2003: add class MAX1499 dependent on external SPI_Interface() // 08/13/2003: preliminary draft of reuseable code #include "drv1499.h" //--------------------------------------------------------------------------- MAX1499::MAX1499(void) { vref = 2.048 ...

Page 21

MAX1499 Evaluation Kit/MAX1499 Evaluation System (unsigned __int8)(MAX1499_COMMS_START | MAX1499_COMMS_RW_READ | MAX1499_COMMS_RS_ADC_RESULT1), (unsigned __int8)(0xFF), (unsigned __int8)(0xFF) }; unsigned __int8 miso_buf[sizeof(mosi)]; bool result = SPI_Transfer_After_EOC(sizeof(mosi), mosi, miso_buf); if (result) { ADC_RESULT1 = (miso_buf[1] * 0x100L) + miso_buf[2]; long data = (miso_buf[1] * ...

Page 22

MAX1499 Evaluation Kit/MAX1499 Evaluation } return DATA_REG; } //--------------------------------------------------------------------------- double MAX1499::Voltage(void ((CONTROL_REG & MAX1499_CONTROL_RANGE_200mV Input range 2V return DATA_REG * (vref / 2.048) * 10e-6 * 10; } else { // Input range 200mV ...

Page 23

... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 24 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 © 2004 Maxim Integrated Products Printed USA ...

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