101-1028 Rabbit Semiconductor, 101-1028 Datasheet - Page 23

101-1028

Manufacturer Part Number

101-1028

Description

MODULE RABBITCORE RCM3750

Manufacturer

Rabbit Semiconductor

Datasheet

1.20-101-1028.pdf (172 pages)

Specifications of 101-1028

Module/board Type

MPU Core Module

For Use With/related Products

RCM3750

Lead Free Status / RoHS Status

Vendor undefined / Vendor undefined

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3.2.1 Use of Serial Flash

The following sample programs can be found in the

and the

•

3.2.2 Serial Communication

The following sample programs can be found in the

SAMPLES\RCM3720\SERIAL

•

Getting Started

SERIAL_FLASHLOG.C

hits on the home page of the serial flash “server.” This log can be viewed and cleared

from a browser at http://10.10.6.100/. You will likely have to first

work interface card for a “10Base-T Half-Duplex” or an “Auto-Negotiation” connection on the

“Advanced” tab, which is accessed from the control panel (Start > Settings > Control

Panel) by choosing Network Connections.

SFLASH_INSPECT.C

serialflash chip. When the sample program starts running, it attempts to initialize a

serial flash chip on Serial Port B. Once a serial flash chip is found, the user can perform

two different commands to either print out the contents of a specified page or clear (set

to zero) all the bytes in a specified page.

FLOWCONTROL.C

Serial Port C for CTS/RTS with serial data coming from Serial Port D. The serial data

received are displayed in the

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

together on the RS-232 header at J2, and you will also tie TxD and

RxD together using the 0.1" jumpers supplied in the Development Kit

as shown in the diagram.

A repeating triangular pattern should print out in the

The program will periodically switch flow control on or off to demonstrate the effect of

no flow control.

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 J2 using the 0.1" jumpers supplied in the Development Kit as shown

in the diagram.

The Dynamic C

NOTE: Pin PE5 is set up to enable/disable the RS-232 chip on the RCM3700 Prototyping

SAMPLES\RCM3720\SerialFlash

BitWrPortI(PEDR, &PEDRShadow, 0, 5);//set low to enable rs232 device

Board. This pin will also be toggled when you run RS-232 sample programs on an

RCM3700 Prototyping Board. If you plan to use this pin for something else while you

are running any of the RS-232 sample programs, comment out the following line.

—This program demonstrates the use of parity modes by

STDIO

—This program demonstrates hardware flow control by configuring

—This program is a handy utility for inspecting the contents of a

—This program runs a simple Web server and stores a log of

window will display the error sequence.

folders.

STDIO

window.

folders.

SAMPLES\RCM3700\SerialFlash

SAMPLES\RCM3700\SERIAL

STDIO

window.

“configure” your net-

and the

101-1028 Rabbit Semiconductor, 101-1028 Datasheet - Page 23

101-1028

Specifications of 101-1028

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