101-0587 Rabbit Semiconductor, 101-0587 Datasheet - Page 22

101-0587

Manufacturer Part Number

101-0587

Description

KIT DEV RABBITCORE/RCM3400

Manufacturer

Rabbit Semiconductor

Series

RabbitCore 3000r

Type

MPU Moduler

Datasheet

1.101-0561.pdf (154 pages)

Specifications of 101-0587

Rohs Status

RoHS non-compliant

Contents

RabbitCore Module, Dev. Board, AC Adapter, Cable and Dynamic C® CD-Rom

Processor To Be Evaluated

RCM3400

Data Bus Width

8 bit

Interface Type

Ethernet

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Operating Supply Voltage

2.8 V to 3.45 V

For Use With/related Products

RCM3400

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

316-1027

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Two sample programs,

illustrate RS-485 master/slave communication. To run these sample programs, you will

need a second Rabbit-based system with RS-485.

PARITY.C

repeatedly sending byte values 0–127 from Serial Port D to Serial Port

C. The program will switch between generating parity or not on Serial

Port D. Serial Port C will always be checking parity, so parity errors

should occur during every other sequence.

To set up the Prototyping Board, you will need to tie TxD and RxC together on the

RS-232 header at J5 using one of the jumpers supplied in the Development Kit as

shown in the diagram.

The Dynamic C

SIMPLE3WIRE.C

communication. Lower case characters are sent by TxC, and are

received by RxD. The characters are converted to upper case and are

sent out by TxD, are received by RxC, and are displayed in the

Dynamic C

To set up the Prototyping Board, you will need to tie TxD and RxC together on the

RS-232 header at J5, and you will also tie RxD and TxC together using the jumpers

supplied in the Development Kit as shown in the diagram.

SIMPLE5WIRE.C

with flow control on Serial Port C and data flow on Serial Port D.

To set up the Prototyping Board, you will need to tie TxD and RxD

together on the RS-232 header at J5, and you will also tie TxC and

RxC together using the jumpers supplied in the Development Kit as

shown in the diagram.

Once you have compiled and run this program, you can test flow con-

trol by disconnecting TxC from RxC while the program is running. Characters will no

longer appear in the

back to RxC.

SWITCHCHAR.C

ASCII string on Serial Ports D and C. It also displays the serial data received from both

ports in the

To set up the Prototyping Board, you will need to tie TxD and RxC

together on the RS-232 header at J5, and you will also tie RxD and

TxC together using the jumpers supplied in the Development Kit as

shown in the diagram.

Once you have compiled and run this program, press and release S2

and S3 on the Prototyping Board. The data sent between the serial ports will be dis-

played in the

—This program demonstrates the use of parity modes by

STDIO

—This program demonstrates transmitting and then receiving an

—This program demonstrates basic RS-232 serial

—This program demonstrates 5-wire RS-232 serial communication

window.

SIMPLE485MASTER.C

STDIO

window.

window will display the error sequence.

window, and will display again once TxC is connected

and

SIMPLE485SLAVE.C

RabbitCore RCM3400

, are available to

101-0587 Rabbit Semiconductor, 101-0587 Datasheet - Page 22

101-0587

Specifications of 101-0587

Related parts for 101-0587