XBP09-XCUIT-009 Digi International, XBP09-XCUIT-009 Datasheet - Page 13

XBP09-XCUIT-009

Manufacturer Part Number

XBP09-XCUIT-009

Description

XBEE-PRO XSC -100MW 9.6KBPS

Manufacturer

Digi International

Series

XBEE-PRO™r

Datasheets

1.XB24-DKS.pdf (2 pages)

2.XBP09-XC009-DK.pdf (1 pages)

3.XBP09-XCUIT-009.pdf (45 pages)

Specifications of XBP09-XCUIT-009

Frequency

910MHz ~ 918MHz

Data Rate - Maximum

9.6kbps

Modulation Or Protocol

FHSS

Power - Output

20dBm (100mW)

Sensitivity

-106dBm

Voltage - Supply

3 V ~ 3.6 V

Current - Receiving

65mA

Current - Transmitting

265mA

Data Interface

PCB, Through Hole

Antenna Connector

U.FL

Operating Temperature

-40°C ~ 85°C

Package / Case

Module

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Applications

Memory Size

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

602-1132
Q4197953
XBP09-XCUIT-009

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XBee‐PRO® XSC OEM RF Modules

RF Packet

Figure 2‐06. RF Packet Components

* When streaming multiple RF packets, the RF Initializer is only sent in front of the first packet.

RF Initializer

An RF initializer is sent each time a new connection sequence begins. The RF initializer contains

channel information that notifies receiving modules of information such as the hopping pattern

used by the transmitting module. The first transmission always sends an RF initializer.

An RF initializer can be of various lengths depending on the amount of time determined to be

required to prepare a receiving module. For example, a wake-up initializer is a type of RF initializer

used to wake remote modules from Sleep Mode (Refer to the FH, LH, HT and SM Commands for

more information). The length of the wake-up initializer should be longer than the length of time

remote modules are in cyclic sleep.

Header

The header contains network addressing information that filters incoming RF data. The receiving

module checks for a matching VID, Hopping Channel and Destination Address. Data that does not

pass through all three network filter layers is discarded.

Figure 2‐07. Addressing Layers contained in the Header

CRC (Cyclic Redundancy Check)

To verify data integrity and provide built-in error checking, a 16-bit CRC (Cyclic Redundancy

Check) is computed for the transmitted data and attached to the end of each RF packet. On the

receiving end, the receiving module computes the CRC on all incoming RF data. Received data that

has an invalid CRC is discarded [See Receive Mode section, next page].

XBP09-XCUIT-009 Digi International, XBP09-XCUIT-009 Datasheet - Page 13

XBP09-XCUIT-009

Specifications of XBP09-XCUIT-009

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