XT09-SI-MESH Digi International, XT09-SI-MESH Datasheet - Page 48

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

Use Case - Broadcast Repeater Network

Response Packet Delay

As a packet propagates through the repeater network, if any node receives the data and generates

a quick response, the response needs to be delayed so as not to collide with subsequent retrans-

missions of the original packet. To reduce collisions, both repeater and end node radios in a

repeater network will delay transmission of data shifted in the serial port to allow any repeaters

within range to complete their retransmissions.

The time for this delay is computed by the formula:

Where L is the length of the transmitted packet in milliseconds, DS is the number of delay slots to

wait, RSSI is the received signal strength in dBm, and RN is the value of the RN register.

Consider modules R1 through R10 each communicating to a PLC using the ModBus protocol and

spaced evenly in a line. All ten modules are configured as 'destinations & repeaters' within the

scope of Basic Broadcast Communications (MD=5, AM, DT=0xFFFF, PK=0x100, RO=0x03,

RB=0x100, RN=1). The Base Host (BH) shifts payload that is destined for R10 to R1. R1 initializes

RF communication and transmits payload to nodes R2 through R5 which are all within range of R1.

The modules R2 through R5 receive the RF packet and retransmit the packet simultaneously. They

also send the data out the serial ports, to the PLCs.

Table 4‐03. Commands used to configure repeater functions

Bandwidth Considerations

Using broadcast repeaters in a network reduces the overall network data throughput as each

repeater must buffer an entire packet before retransmitting it. For example: if the destination is

within range of the transmitter and the packet is 32-bytes long, the transmission will take 12ms on

an XTend module operating at 115,200 baud. If the same packet must propagate through two

repeaters, it will take 12ms to arrive at the first repeater, 12ms to get to the second and a final

12ms to reach the destination for a total of 36ms. Taking into account UART transfer times (~1ms/

byte at 9600 baud), a server to send a 32-byte query and receive a 32-byte response is about

200ms, allowing for 5 polls per second. With the two repeaters in the path, the same query/

response sequence would take about 500ms for 2 polls per second.

Generally, network throughput will decrease by a factor of 1/(R+1), with R representing the num-

ber of repeaters between the source and destination.

Command

Maximum Delay (ms) = L * DS

DS = ((-41-(-100))/10)*RN)+RN+1

Command

0x3C (60d)

0x3A (58d)

0x2A (42d)

0x19 (25d)

0x00 (0d)

0x08 (8d)

Binary

Destination Address

AT Command

Source Address

Auto-set MY

Delay Slots

RF Mode

Name

Write

0 - 0xFF [slots]

0 - 0xFFFF

Range

0 - 6

Returned

# Bytes

Factory

Default

0xFFFF

XT09-SI-MESH Digi International, XT09-SI-MESH Datasheet - Page 48

XT09-SI-MESH

Specifications of XT09-SI-MESH

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