MAX186EVKIT-DIP Maxim Integrated, MAX186EVKIT-DIP Datasheet - Page 11

MAX186EVKIT-DIP

Manufacturer Part Number

MAX186EVKIT-DIP

Description

Data Conversion IC Development Tools Programmers, Development Systems

Manufacturer

Maxim Integrated

Series

MAX186, MAX188r

Datasheet

1.MAX186EVKIT-DIP.pdf (18 pages)

Specifications of MAX186EVKIT-DIP

Interface Type

4-Wire (SPI, Microwire, QSPI, TMS320)

Factory Pack Quantity

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The MAX233 also generates the output voltages neces-

sary to drive RS-232 lines.

Port 0 (pins 32-39) of the 80C32 multiplexes the lower

eight bits of memory address and the eight bits of

read/write data. The lower eight bits of address data

are latched during each I/O cycle by the 74HCT573

octal latch. The latch is controlled by the address latch

enable (ALE) signal of the 80C32. Port 2 (pins 21-28) of

the 80C32 supplies the upper eight bits of address

information.

The port 3 pins (10-17) provide several unrelated func-

tions. Pins 10 and 11 are used as the receive data

(RxD) and transmit data (TxD) pins of the RS-232 link.

Pins 16 and 17 act as the write (

trol signals for the data I/O cycles. Four other pins are

configured as interrupt and timer controls, but are not

used on this board.

The board has a 27C64 EPROM containing code for ini-

tializing the 80C32 and downloading additional pro-

gram code to the 62256 RAM. After a reset, the EPROM

resident code initializes the 80C32, determines the

address range of the RAM, sets the RS-232 baud rate

to 1200, and waits for communications from the PC.

Receiving any character will prompt the program to

send an initial banner that includes the program name,

revision level, and boundaries of the on-board RAM.

The 62256 CMOS (32kbyte) static RAM is used to hold

program code for the various Maxim EV kits that use

the 80C32 module as the controller. Programs are

transferred from disk to the RAM using software run-

ning on a personal computer, such as MAXLOAD or

other programs provided with Maxim EV kits. Programs

written to execute from this RAM start at 4000 (HEX)

and are typically less than 4kbytes long. The remaining

RAM is available for data storage.

MAX186 Evaluation System/Evaluation Kit

______________________________________________________________________________________

) and read (

Memory

) con-

Logic on the module board generates various enable

signals for different address ranges. The ROM and

RAM enable signals are fed directly to the respective

chips. Several additional signals (CS0-CS3) are avail-

able on the data connector to be used by Maxim EV

kits. Table 1 outlines the address range for each of the

elements found on the 80C32 module.

Table 1. Address Ranges in Hexadecimal

A 40-pin connector mounted on the edge of the PCB

provides connection between the µC module and other

Maxim EV kits. Both power and digital signals are trans-

ferred via the connector. To join the module board with

an EV kit, carefully align and insert the pins on the con-

nector with the mating 40-pin female connector of the

kit. The pin functions are listed in Table 2.

Table 2. I/O Connector Pin Functions

15-18

19-26

27-34

35-40

ADDRESS RANGE (HEX)

5, 6

7, 8

1-4

0000

4000

C000

D000

E000

F000

FUNCTION

Ground

Pre-regulator input

Regulated +5V

CS0

CS1

CS2

CS3

ADDR0-ADDR3

DB0-DB7

P1.0-P1.7

Reserved

➔

3FFF

BFFF

CFFF

DFFF

EFFF

FFFF

Data I/O Connector

Address Ranges

DESCRIPTION

Read strobe

Write strobe

Address C000-CFFF

Address D000-DFFF

Address E000-EFFF

Address F000-FFFF

Lowest 4 bits of address

8-bit data bus

8 bits of port 1

ENABLE SIGNAL

ROM

RAM

CS0

CS1

CS2

CS3

MAX186EVKIT-DIP Maxim Integrated, MAX186EVKIT-DIP Datasheet - Page 11

MAX186EVKIT-DIP

Specifications of MAX186EVKIT-DIP

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