20-101-1265 Rabbit Semiconductor, 20-101-1265 Datasheet - Page 55

20-101-1265

Manufacturer Part Number

20-101-1265

Description

MODULE MINICORE RCM5600W

Manufacturer

Rabbit Semiconductor

Series

MiniCore™r

Datasheet

1.101-1285.pdf (130 pages)

Specifications of 20-101-1265

Frequency

2.4GHz

Modulation Or Protocol

802.11 b/g

Applications

General Purpose

Voltage - Supply

3.15 V ~ 3.45 V

Current - Receiving

625mA

Current - Transmitting

625mA

Data Interface

Connector, Mini PCI express

Memory Size

1 MB Flash, 1MB SRAM

Antenna Connector

U.FL

Operating Temperature

-30°C ~ 55°C

Package / Case

Module

Wireless Frequency

2.4 GHz

Security

64/128 bit WEP

Operating Voltage

3.3 V

Antenna

U.FL Connector

Operating Temperature Range

- 30 C to + 55 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Sensitivity

Data Rate - Maximum

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With/related Products

Rabbit 5000

Other names

316-1174

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6. U

-F

SING THE

EATURES

6.1 Introduction to Wi-Fi

Wi-Fi, a popular name for 802.11b/g, refers to the underlying technology for wireless local

area networks (WLAN) based on the IEEE 802.11 suite of specifications conforming to

standards defined by IEEE. IEEE 802.11b describes the media access and link layer control

for a 2.4 GHz implementation, which can communicate at a top bit-rate of 11 Mbits/s. Other

standards describe a faster implementation (54 Mbits/s) in the 2.4 GHz band (802.11g).

The adoption of 802.11 has been fast because it's easy to use and the performance is com-

parable to wire-based LANs. Things look pretty much like a wireless LAN.

Wi-Fi (802.11b/g) is the most common and cost-effective implementation currently avail-

able. This is the implementation that is used with the RCM5600W MiniCore module. A

variety of Wi-Fi hardware exists, from wireless access points (WAPs), various Wi-Fi

access devices with PCI, PCMCIA, CompactFlash, USB and SD/MMC interfaces, and

Wi-Fi devices such as Web-based cameras and print servers.

802.11b/g can operate in one of two modes—in a managed-access mode (BSS), called an

infrastructure mode, or an unmanaged mode (IBSS), called the ad-hoc mode. The 802.11

standard describes the details of how devices access each other in either of these modes.

6.1.1 Infrastructure Mode

The infrastructure mode requires an access point to manage devices that want to communi-

cate with each other. An access point is identified with a channel and service set identifier

(SSID) that it uses to communicate. Typically, an access point also acts as a gateway to a

wired network, either an Ethernet or WAN (DSL/cable modem). Most access points can

also act as a DHCP server, and provide IP, DNS, and gateway functions.

When a device wants to join an access point, it will typically scan each channel and look

for a desired SSID for the access point. An empty-string SSID (" ") will associate the

device with the first SSID that matches its capabilities.

Once the access point is discovered, the device will logically join the access point and

announce itself. Once joined, the device can transmit and receive data packets much like

an Ethernet-based MAC. Being in a joined state is akin to having link status in a

10/100Base-T network.

802.11b/g interface cards implement all of the 802.11b/g low-level configurations in firm-

ware. In fact, the 802.11b/g default configuration is often sufficient for a device to join an

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20-101-1265 Rabbit Semiconductor, 20-101-1265 Datasheet - Page 55

20-101-1265

Specifications of 20-101-1265

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