XT09-SI-MESH Digi International, XT09-SI-MESH Datasheet - Page 46

XT09-SI-MESH

Manufacturer Part Number

XT09-SI-MESH

Description

MODULE RF 900MHZ 1W 115K W/RPSMA

Manufacturer

Digi International

Datasheets

1.XT09-DK.pdf (2 pages)

2.XT09-SI.pdf (81 pages)

3.XT09-SI-MESH.pdf (1 pages)

Specifications of XT09-SI-MESH

Frequency

900MHz

Modulation Or Protocol

FHSS, FSK

Power - Output

Sensitivity

-100dBm

Voltage - Supply

2.8 V ~ 5.5 V

Current - Receiving

80mA

Antenna Connector

RP-SMA

Operating Temperature

-40°C ~ 85°C

Package / Case

Module

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Applications

Memory Size

Data Interface

Data Rate - Maximum

Current - Transmitting

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

602-1183

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XTend™ RF Module ‐ Product Manual v2.x6x

Repeater Mode

Theory of Operation

Attributes:Low power consumption

Constraints:Requires that each module have a unique MY (Source Address) parameter.

Suggestions:Insert a variable delay before repeating packets to avoid collisions 

Required Parameter Values (TX module): MD = 5 or 6, MY = unique value (can be accom-

plished by issuing the AM (Auto-set MY) and WR (Write) commands to all modules in the network)

Related Commands: Networking (MD, DT, MY, AM), Serial Interfacing (RN, PK, RO, RB)

Recommended Use: Use in networks where intermediary modules are needed to relay data to

modules beyond the transmission range of the base module.

Integrators can extend the effective range and reliability of their data radio system by forwarding

traffic through one or more repeaters. Instead of using routing tables and path discovery to estab-

lish dynamic paths through a network, the repeater system uses a sophisticated algorithm to

propagate each RF packet through the entire network.

The network supports RF packets up to 2048 bytes (when the RF data rate is set at 9600 bps (BR

= 0)). The repeater network can operate using broadcast or addressed communications for multi-

drop networks and works well in many systems with no special configuration.

When in Repeater Mode, the network repeats each message among all available modules exactly

one time. This mechanism eliminates the need for configuring specific routes.

Figure 4‐06. Repeater Network Topology

Minimized interference

Each RF packet is tagged with a unique Packet ID (PID).

Each repeater will repeat a packet only once (tracked by the PID).

Increased latency and decreased throughput 

(Latency and throughput is determined by number of hops, not by number of 

repeaters. Multiple repeaters within range of source node count as one hop.)

All RF packets propagate to every module in the network (filtering rules apply).

Packet destination addresses (DT) determine which packets are sent out serial 

port and/or retransmitted.

Broadcast communications - each packet comes out every node exactly once.

Addressed communications - all modules see every packet. Only the module 

with a matching address will forward it to the DO buffer (UART IN).

System must introduce just one packet at a time to the network for transmission 

(Maximum number of bytes is determined by the PK parameter).

Each hop (H) decreases network throughput by a factor of 1/(H+1). Additional 

repeaters add network redundancy without decreasing throughput.

(based on RSSI).

Buffer any incoming serial data and delay response packet transmissions until 

previous packet has cleared out of network.

For best results, use the RO and RB commands to ensure that the RF packets 

align with the underlying protocol packets as the network can only accept one RF 

packet at a time.

XT09-SI-MESH Digi International, XT09-SI-MESH Datasheet - Page 46

XT09-SI-MESH

Specifications of XT09-SI-MESH

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