MAX1110EVKIT-DIP [MAXIM]

Convenient Test Points Provided On-Board;


型号：	MAX1110EVKIT-DIP
厂家：	MAXIM INTEGRATED PRODUCTS
描述：	Convenient Test Points Provided On-Board
文件：	总8页 (文件大小：127K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

19-1201; Rev 0; 3/97

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

Evluates:0/MAX12

_______________Ge n e ra l De s c rip t io n

____________________________Fe a t u re s

♦ Proven PC Board Layout

The MAX1110 evaluation system (EV system) is a com-

plete, 8-channel data-acquisition system consisting of a

MAX1110 evaluation kit (EV kit) and a Maxim 3V 68L11D

microcontroller (µC) module. It is designed to evaluate

the MAX1110, a low-power, +3V, 8-channel, 8-bit ana-

log-to-digital converter (ADC) with an internal 2.048V ref-

erence that directly interfaces to 3V microprocessors.

Windows 3.1^®/Windows 95^®software provides a handy

user interface to exercise the MAX1110’s features.

♦ Complete Evaluation System Samples to 5ksps

♦ Convenient Test Points Provided on Board

♦ Data-Logging Software

♦ Fully Assembled and Tested

The EV system is intended for comprehensive evalua-

tion of the MAX1110 using a personal computer. Order

the stand-alone EV kit if the 68L11D µC module has

already been purchased with a previous Maxim EV sys-

tem, or for custom use in other µC-based systems.

______________Ord e rin g In fo rm a t io n

PART

TEMP. RANGE

0°C to +70°C

BOARD TYPE

Surface Mount

MAX1110EVKIT-DIP

MAX1110EVL11-DIP

The MAX1110 EV kit and EV system can also be used to

evaluate the MAX1112, which operates on +5V and has

a 4.096V internal reference. Simply order a free sample

of the MAX1112CPP along with the MAX1110 EV kit.

MAX1 1 1 0 EV S ys t e m

____________________Co m p o n e n t Lis t

_____MAX1 1 1 0 S t a n d -Alo n e EV Kit

The MAX1110 EV kit provides a proven PC board lay-

out to facilitate evaluation of the MAX1110. It must be

inte rfa c e d to a p p rop ria te timing s ig na ls for p rop e r

operation. Refer to the MAX1110 data sheet for timing

requirements. Apply your supply voltage between the

VDD pad and the GND pad. Refer to Table 1 for jumper

configurations.

PART

QTY

DESCRIPTION

MAX1110 evaluation kit

68L11D µC module

MAX1110EVKIT-DIP

68L11DMODULE

MAX1 1 1 0 EV Kit

____________________Co m p o n e n t Lis t

______________MAX1 1 1 0 EV S ys t e m

DESIGNATION QTY

DESCRIPTION

0.01µF ceramic capacitors

4.7µF, 10V tantalum capacitors

0.1µF ceramic capacitor

2x20 right-angle socket

8-pin header

The MAX1110 EV system operates from a user-sup-

plied 9V to 15V DC power supply. The Maxim 68L11D

3V µC board uses a MAX667 linear regulator to gener-

ate the 3V logic supply.

C1–C8

C9, C11

C10

Qu ic k S t a rt

1) Install the MAX1110 EV kit software on your comput-

er by running the INSTALL.EXE program on the flop-

py disk. The program files are copied and icons are

c re a te d for the m in the Wind ows 3.1 Prog ra m

Manager (or the Windows 95 Start Menu).

JU1, JU2, JU3

JU4

2-pin jumper blocks

3-pin jumper block

Open

JU5

R1–R8

10kΩ, 5% resistors

10Ω, 5% resistor

2) Check the jumper settings on the MAX1110 EV kit

board. Refer to Table 1, Jumper Functions , and

Table 2, Default Jumper Settings.

Maxim MAX1110CPP

20-pin socket

3) Carefully connect the boards by aligning the 40-pin

header of the MAX1110 EV kit with the 40-pin con-

nector of the µC module. Gently press them togeth-

er. The two boards should be flush against one

another.

None

PC board

Software disk,

“MAX1110 EVALUATION KIT”

Windows is a registered trademark of Microsoft Corp.

________________________________________________________________ Maxim Integrated Products

For free samples & the latest literature: http://www.maxim-ic.com, or phone 1-800-998-8800

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

4) Connect a 9V to 15V DC power source to the µC

module at the terminal block located next to the

on/off switch, in the upper-right corner of the µC

module. Observe the polarity marked on the board.

power-up delay requirement depends on the value of

the reference capacitor (C9) and the off-time (delay

between samples).

The MAX1110 EV kit software performs power-up by

starting a conversion and discarding the reading. When

the power-up delay is complete, the reference voltage

is correct, and an accurate measurement can be per-

formed.

5) Connect a cable from the computer’s serial port to

the µC module. If using a 9-pin serial port, connect

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, DCD) to confirm that the correct port has been

selected.

Me a s u rin g S u p p ly Cu rre n t

On the EV kit board, the MAX1110 draws all its power

through jumper JU5, which is wired closed when the

board is shipped from the factory. To measure the

MAX1110’s supply current, modify the board (with the

power off) by cutting jumper JU5 and connecting a cur-

rent meter across JU5.

6) Start the MAX1110 program by opening its icon in

the Program Manager (or Start Menu).

7) The program prompts you to connect the µC mod-

ule and turn its power on. Slide SW1 to the ON posi-

tion. Select the correct serial port, and click OK. The

program automatically downloads KIT1110.L11 to

the module.

Lo w -S p e e d Da t a Lo g g in g

The RS-232 serial link limits the data-logging sample

rate to no more than 10 samples per second. The Log

menu can be used to write data to a user-specified file

in c omma -s p a c e d -va lue te xt forma t. From the Log

menu, select Select Channels, and select the channels

you want to log. Next, pick the New Log File command

from the Log menu. Once a log file has been opened, it

can be paused or resumed with the Pause command.

One complete line of data is written after all enabled

channels have been sampled. The first line of the log

file contains the column headings. Each subsequent

line of the log file contains all enabled channels, sepa-

rated by commas, tabs, or spaces. The program con-

tinues to write data to the log file until the Done com-

mand is selected from the Log menu.

8) Apply input signals to the CH0–CH7 inputs at the

right edge of the MAX1110 EV kit board. Observe

the readout on the screen.

Eva lu a t in g t h e MAX1 1 1 2

To evaluate the MAX1112, turn off power to the kit,

replace U1 with a MAX1112CPP, and set V to 5V by

adjusting trim pot R2 on the 68L11D module. No other

hardware changes are necessary. Start the MAX1110

software, and change the assumed reference voltage

from 2.048V to 4.096V. Refer to the section Changing

the Reference Voltage.

Evluates:0/MAX12

__De t a ile d De s c rip t io n o f S o ft w a re

Hig h -S p e e d Da t a S a m p lin g

For sampling rates up to 5ksps, the high-speed sam-

pling commands can be used. Data can be collected

from any single channel at high speed, using the com-

mands on the Sample menu. First, select the number of

samples. Then, set the sampling rate by inserting a

delay between samples, or choosing one of the preset

sample rates. To begin collecting data, use the Collect

command. After the samples have been collected, the

d a ta is a utoma tic a lly up loa d e d to the hos t a nd is

graphed. The data can optionally be saved to a file.

S h u t d o w n P o w e r Cyc lin g

To re d uc e a ve ra g e s up p ly-c urre nt d e ma nd , the

MAX1110 can be shut down between conversions.

From the Power menu, select Full Power-Down mode.

The amount of power savings depends primarily on

how long the p a rt is off b e twe e n c onve rs ions . The

accuracy of the conversions depends on the power-up

delay, the reference capacitor, and the time in power-

d own. Ad jus t the off-time with the De la y Be twe e n

Samples command. Adjust the on-time with the Power-

Up Delay command.

Ch a n g in g t h e Re fe re n c e Vo lt a g e

The MAX1110 EV kit software assumes a 2.048V refer-

ence voltage, unless otherwise specified. To change

the reference voltage assumption, use Set Reference

Voltage under the Device menu.

Using an adequate power-up delay ensures conversion

accuracy during power-cycling modes. The reference

must be allowed enough time to stabilize before the

measurement is performed. The Power-Up Delay com-

mand controls the power-up delay. Increase the delay

until no further change in accuracy is observed. The

_______________________________________________________________________________________

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

Evluates:0/MAX12

and/or lower cost, C9 and C11 may be reduced to 1µF.

R9 and C10 filter the digital noise out of the analog

power supply.

De t a ile d De s c rip t io n

________________________o f Ha rd w a re

U1, the MAX1110, is an 8-channel, 8-bit, low-power

analog-to-digital converter (ADC) with serial interface

and a shutdown mode. R1–R8 and C1–C8 act as anti-

In p u t Filt e rin g

The EV kit has an RC filter on each input with a time con-

stant of approximately 100µs (R = 10kΩ, C = 0.01µF).

Acquisition time with a 500kHz clock is 4µs. The RC fil-

ter’s settling time may increase the acquisition time

required for full accuracy when switching input channels.

aliasing input filters. V and GND are the analog sup-

ply rails. Refer to the MAX1110 data sheet for additional

information.

C9 and C11 are 4.7µF bypass capacitors for the refer-

ence and the power supply. For reduced board size

Table 1. Jumper Functions

Table 2. Default Jumper Settings

JUMPER

STATE

FUNCTION

JUMPER

STATE

closed

open

FUNCTION

Use an external user-supplied refer-

ence.

Use the internal reference (REFIN is

connected to REFOUT).

open

JU1

Use the internal reference (REFIN is

connected to REFOUT).

JU2

COM = GND.

closed

SHDN is allowed to float or be driven

JU3

Analog common voltage must be set

by user.

by JU4.

open

closed

open

JU2

JU3

MAX1110 is active with internal refer-

ence enabled.

Analog common (COM) = GND.

JU4

JU5

open

SHDN is allowed to float or be driven

The MAX1110 draws its power through

this trace.

by JU4.

closed

open

SHDN is driven by the µC module.

MAX1110 is active with internal

reference enabled.

JU4

JU5

SHDN = V ; MAX1110 is active with

internal reference disabled.

1–2

2–3

SHDN = GND; MAX1110 is inactive.

Current-sense jumper. The MAX1110

draws its power through this trace.

closed

open

Do not operate kit with JU5 open.

_______________________________________________________________________________________

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

Evluates:0/MAX12

Listing 1. MAX1110 Pseudo-Code Example

_______________________________________________________________________________________

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

Evluates:0/MAX12

Listing 2. Bit-Banging Substitute for SPI Port

_______________________________________________________________________________________

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

AM1X0

Evluates:0/MAX12

Figure 1. MAX1110 EV Kit Schematic

_______________________________________________________________________________________

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

Evluates:0/MAX12

1.0"

Figure 2. MAX1110 EV Kit Component Placement Guide

Figure 3. MAX1110 EV Kit PC Board Layout—Component Side

_______________________________________________________________________________________

MAX1 1 1 0 Eva lu a t io n S ys t e m /

Eva lu a t io n Kit

1.0"

Figure 4. MAX1110 EV Kit PC Board Layout—Solder Side

Evluates:0/MAX12

_______________________________________________________________________________________

MAX1110EVKIT-DIP [MAXIM]

相关型号：

MAX1110EVL11-DIP

MAX1110MJP

MAX1110_11

MAX1111

MAX11110

MAX11110AUT+

MAX11110_12

MAX11111

MAX11111ATB+

MAX11111ATB+T

MAX11111_12

MAX11115