XBP09-DMDK Digi International, XBP09-DMDK Datasheet - Page 19

XBP09-DMDK

Manufacturer Part Number

XBP09-DMDK

Description

KIT STARTER PROMESH XBEE PRO

Manufacturer

Digi International

Series

XBEE-PRO™r

Type

Transceiver, XBeePror

Datasheets

1.XBP09-DMDK.pdf (40 pages)

2.XBP09-DMDK.pdf (2 pages)

3.XBP09-DMDK.pdf (8 pages)

4.XBP09-DMUIT-156.pdf (2 pages)

Specifications of XBP09-DMDK

Frequency

900MHz

Wireless Frequency

900 MHz

Interface Type

RS-232, USB, UART

Modulation

FHSS

Security

128 bit AES

Operating Voltage

3.3 V

Output Power

50 mW

Antenna

RPSMA

For Use With/related Products

Xbee-PRO Modules

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

602-1130

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XBee‐PRO® 900 OEM RF Modules

Changing Sleep Parameters

Use the following steps to change sleep parameters:

1. Enter the SP command with the sleep time interval represented in units of 10 msec.

2. Enter the ST command with the wake time interval represented in units of 1 msec.

3. Verify the values of the SP and ST commands.

Note: the value of the ST configuration parameter will be automatically adjusted to a minimum

effective value if the value of SP is increased enough. However, ST will not be automatically

adjusted downwards should the value of SP be decreased. Enter the apply changes command AC.

At the start of the next cycle, a special overriding synch message will be broadcast across the

network. It will override any synch message coming from any sleep coordinator. Then, a cycle

later, the network will wake and operate according to the new ST and SP values.

Rejoining Subnets

Mesh networks get their robustness from taking advantage of routing redundancies which may be

available in a network. It is recommended to architect the network with redundant mesh nodes to

increase robustness. If a scenario exists such that the only route connecting a subnet to the rest of

the network depends on a single node, and that node fails--or the wireless link fails due to

changing environmental conditions (catastrophic failure condition), then multiple subnets may

arise while using the same wake and sleep intervals, but out of phase with each other due to clock

drift. The first task is to repair, replace, and strengthen the weak link with new and/or redundant

nodes so this problem doesn't arise again. The second task is to get the subnets back in phase

(rejoin subnets).

To get the subnets back in phase, follow these steps:

1. Power up a node in normal mode, and position it next to a node in the subnet you want to use

as a reference.

2. Wait a cycle (plus a bit more for safety margin) for it to synch with the network.

3. Enable its preferred sleep coordinator option. This node will now become the sleep coordinator

for the network. A synch from a normal node overrides synch messages from any sleeping node

and will cause any sleep coordinator node to disable its own synch message.

To place each out-of-phase sleeping node, follow these steps:

1. Place the sleep coordinator node in range of the sleeping node and toggle power for the

sleeping node off and back on.

2. When the sleeping coordinator node powers up, it sees that it is out of synch, and requests a

synch message. The sleep coordinator node will receive the request and transmit a special unicast

synch response. The sleeping node will return to sleep and wake again in synch with the rest of

the network.

3. Power down and store away the normal node for safe keeping.

XBP09-DMDK Digi International, XBP09-DMDK Datasheet - Page 19

XBP09-DMDK

Specifications of XBP09-DMDK

Related parts for XBP09-DMDK