101-1285 Rabbit Semiconductor, 101-1285 Datasheet - Page 77

101-1285

Manufacturer Part Number

101-1285

Description

DEV KIT DELUXE MINICORE RCM5600W

Manufacturer

Rabbit Semiconductor

Series

MiniCore™r

Type

Transceiver, 802.11 b/gr

Datasheet

1.101-1285.pdf (130 pages)

Specifications of 101-1285

Frequency

2.4GHz

Processor To Be Evaluated

Rabbit 5000

Processor Series

RCM5600W

Interface Type

RS-232, USB, PCI

Maximum Operating Temperature

+ 55 C

Minimum Operating Temperature

- 30 C

Operating Supply Voltage

3.15 V to 3.45 V

Silicon Manufacturer

Rabbit Semiconductor

Silicon Family Name

RabbitCore

Kit Contents

Board

Features

On-board Single-Chip 802.11b/g Transceiver, Built-In Web Server

Development Tool Type

Hardware /

Rohs Compliant

Yes

For Use With/related Products

RCM5600W

Lead Free Status / RoHS Status

Not applicable / Not applicable

Other names

316-1161

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• Use WPA encryption.

• Set WPA passphrase—

• Set WPA hexadecimal key—

• Authentication algorithm—

OEM User’s Manual

These macros specify the WEP keys to use for WEP encryption. These keys can be

either 40-bit or 104-bit (i.e., 5 bytes or 13 bytes). They must be defined as a comma-

separated list of byte values.

Note that you do not necessarily need to define all four WEP keys. You may typically

just define one key, but make sure it matches the key used on all other devices, and set

IFC_WIFI_WEP_KEYNUM

If both

for a particular key, the hex version will be used.

The following macro must also be used to compile WPA functionality into the Wi-Fi

driver. This is necessary to enable TKIP encryption.

passphrase on your access point. It may also point to a variable.

Define an ASCII passphrase here, from 1 to 63 characters long. An example is shown

below.

If possible, you should use

WPA_PSK_PASSPHRASE

digits that matches the 256-bit (32-byte) hexadecimal key used by your access point.

Specify a 64 hexadecimal digit (256 bits) key here. This key will be used and will over-

ride any passphrase set with the

example hex key shown below

is valid for the SSID

Using a passphrase is rather slow. It takes a Rabbit 5000 more than 20 seconds to gen-

erate the actual 256-bit key from the passphrase. If you use a passphrase and

WIFI_VERBOSE_PASSPHRASE

corresponding to that passphrase and SSID.

authentication modes used.

The default shown below allows enables both open-system authentication and shared-

key authentication.

#define WIFI_USE_WPA

#define IFC_WIFI_WPA_PSK_PASSPHRASE "now is the time"

#define IFC_WIFI_WPA_PSK_HEXSTR \

#define IFPARAM_WIFI_AUTH_ANY

IFC_WIFI_WEP_KEY#_BIN

"57A12204B7B350C4A86A507A8AF23C0E81D0319F4C4C4AE83CE3299EFE1FCD27"

"rabbitTest"

IFC_WIFI_WPA_PSK_PASSPHRASE

to set the key.

to point to the correct key.

IFC_WIFI_WPA_PSK_HEXSTR

IFC_WIFI_AUTHENTICATION

IFC_WIFI_WPA_PSK_HEXSTR

, the Wi-Fi library will helpfully print out the hex key

IFC_WIFI_WPA_PSK_PASSPHRASE

and

and the passphrase

IFC_WIFI_WEP_KEY#_HEXSTR

"now is the time"

instead of

can be used to specify the

is a string that matches the

is a string of hexadecimal

IFC_WIFI_

macro. The

are defined

#define

101-1285 Rabbit Semiconductor, 101-1285 Datasheet - Page 77

101-1285

Specifications of 101-1285

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