MIKROE-411 mikroElektronika, MIKROE-411 Datasheet - Page 7

MIKROE-411

Manufacturer Part Number

MIKROE-411

Description

Development Boards & Kits - PIC / DSPIC EASYPIC6 DEVELOPMENT SYSTEM

Manufacturer

mikroElektronika

Datasheet

1.MIKROE-411.pdf (28 pages)

Specifications of MIKROE-411

Rohs

yes

Product

Development Kits

Core

PIC

Interface Type

CAN, IDC10, JTAG, RS-232, USB

Operating Supply Voltage

9 V to 32 V

Data Bus Width

8 bit

Description/function

Development Board Only, Touch Screen, Pencil, DS1820, LCD, Serial Cable, GLCD are not included

Dimensions

265 mm x 220 mm

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 55 C

For Use With

PIC16F887

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EasyPIC6 Development System

2.0. Supported Microcontrollers

The

DIP8 packages. These sockets allow supported devices in DIP packages to be plugged directly into the development board.

There are two sockets for PIC microcontrollers in DIP18 package provided on the board. Which of these sockets you will use depends solely

on the pinout of the microcontroller in use. The EasyPIC6 development system comes with the microcontroller in a DIP40 package.

PIC microcontrollers normally use a quartz crystal for the purpose of stabilizing clock frequency. The EasyPIC6 provides two sockets for

quartz-crystal. Microcontrollers in DIP18A, DIP18B, DIP28 and DIP40 packages use socket X1 (OSC1) for quartz-crystal. If microcontrollers

in DIP8, DIP14 and DIP20 packages are used, it is necessary to move quartz crystal from socket X1 to socket X2 (OSC2). Besides, it

is also possible to replace the existing quartz-crystal with another one. The value of the quartz-crystal depends on the maximum clock

frequency allowed. Microcontrollers being plugged into socket 10F use their own internal oscillator and are not connected to any of the

aforementioned quartz-crystal sockets.

Prior to plugging the microcontroller into the appropriate socket, make sure that the power supply is turned off. Figure 2-2 shows how to

correctly plug a microcontroller. Figure 1 shows an unoccupied 40-pin DIP socket. Place one end of the microcontroller into the socket

as shown in Figure 2. Then put the microcontroller slowly down until all the pins thereof match the socket as shown in Figure 3. Check

again that everything is placed correctly and press the microcontroller easily down until it is completely plugged into the socket as shown

in Figure 4.

Only one microcontroller may be plugged into the development board at the same time.

Microcontroller sockets

Plugging microcontroller into appropriate socket

development system provides eight separate sockets for PIC microcontrollers in DIP40, DIP28, DIP20, DIP18, DIP14 and

Jumpers next to the sockets are used for selecting functions of

the microcontroller pins:

Jumper

J22

J23

J16

J13

J14

RA0

RA5

VCC

OSC - RA6, RA7 are OSC. pins

I/O

OSC - RA4, RA5 are OSC. pins

I/O

- RA6, RA7 are I/O pins

- RA4, RA5 are I/O pins

- I/O pin

- 18F2331/2431 power supply

Position

MikroElektronika

MIKROE-411 mikroElektronika, MIKROE-411 Datasheet - Page 7

MIKROE-411

Specifications of MIKROE-411

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