X24-019NSC Digi International/Maxstream, X24-019NSC Datasheet - Page 38

X24-019NSC

Manufacturer Part Number

X24-019NSC

Description

MOD RF 2.4GHZ 19.2K W/RPSMA CONN

Manufacturer

Digi International/Maxstream

Datasheets

1.XIB-E.pdf (64 pages)

2.X09-019-DK.pdf (2 pages)

3.X09-019-DK.pdf (1 pages)

Specifications of X24-019NSC

Frequency

2.4GHz

Data Rate - Maximum

19.2kbps

Modulation Or Protocol

FSK

Power - Output

17dBm

Sensitivity

-110dBm

Voltage - Supply

Current - Receiving

80mA

Current - Transmitting

150mA

Data Interface

PCB, Through Hole

Antenna Connector

RP-SMA

Operating Temperature

0°C ~ 70°C

Package / Case

Module

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Applications

Memory Size

Current page: 38 of 64
Download datasheet (2Mb)

XStream™ OEM RF Module – Product Manual v5.x00 [2006.02.24]

4.2.2. Repeater Mode

Theory of Operation

Characteristics:

Constraints:

Required Parameter Values (TX Module): MD = 3 or 4, MY = unique value (can be

accomplished 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 nodes are needed to relay data to

modules that are beyond the transmission range of the base module.

OEMs and integrators can extend the effective range and reliability of a data radio system by

forwarding traffic through one or more repeaters.

Instead of using routing tables and path discovery to establish 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 256 bytes. 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 nodes exactly

one time. This mechanism eliminates the need for configuring specific routes. The network is self-

organizing and self-healing so that the system is able to receive transmissions in the event of a

module going down.

Figure 4‐05. Sample Repeater Network Topology

Self-organizing - No route configuration is necessary

Self-healing / Fault-tolerant

Low power consumption and Minimized interference

Network throughput is determined by number of hops, not by number of

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

Supports “transparent” multi-drop mode or addressed data filtering mode.

Duplicate RF packets are automatically filtered out.

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

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

Addressed communications - all radios see every packet. Only the module

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

Data entering the network on any module is transmitted and forwarded

through every repeater module until it reaches the ends of the network.

Each repeater will repeat a packet only once.

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

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

transmission (256 bytes max).

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

Additional repeaters add network redundancy without decreasing throughput.

X24-019NSC Digi International/Maxstream, X24-019NSC Datasheet - Page 38

X24-019NSC

Specifications of X24-019NSC

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