X09-009NSC Digi International/Maxstream, X09-009NSC Datasheet - Page 17

X09-009NSC

Manufacturer Part Number

X09-009NSC

Description

MOD RF 900MHZ 9600BPS W/RPSMA

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 X09-009NSC

Frequency

900MHz

Data Rate - Maximum

19.2kbps

Modulation Or Protocol

FSK

Power - Output

100mW

Sensitivity

-110dBm

Voltage - Supply

Current - Receiving

50mA

Current - Transmitting

140mA

Data Interface

PCB, Through Hole

Antenna Connector

RP-SMA

Operating Temperature

0°C ~ 70°C

Package / Case

Module

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Applications

Memory Size

Current page: 17 of 64
Download datasheet (2Mb)

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

Binary Commands

Common questions about using binary commands:

Sending and receiving parameter values using binary commands is the fastest way to change

operating parameters of the module. Binary commands are used most often to sample signal

strength (RS parameter) and/or error counts; or to change module addresses and channels for

polling systems when a quick response is necessary. Since the sending and receiving of

parameter values takes place through the same serial data path as 'live' data (received RF

payload), interference between the two types of data can be a concern.

What are the implications of asserting CMD while live data is being sent or received?

After sending serial data, is there a minimum time delay before CMD can be asserted?

Is a time delay required after CMD is de-asserted before payload data can be sent?

How does one discern between live data and data received in response to a command?

The CMD pin [pin 5] must be asserted in order to send binary commands to the module. The

CMD pin can be asserted to recognize binary commands anytime during the transmission or

reception of data. The status of the CMD signal is only checked at the end of the stop bit as the

byte is shifted into the serial port. The application does not allow control over when data is

received, except by waiting for dead time between bursts of communication.

CMD (pin 5) must be asserted in order to send binary commands to an XStream Module. CMD

can be asserted to recognize commands anytime during transmission or reception of data. A

minimum time delay of 100 µs (after the stop bit of the command byte has been sent) must be

observed before pin 5 can be de-asserted. The command executes after all parameters

associated with the command have been sent. If all parameters are not received within 0.5

seconds, the module aborts the command and returns to Idle Mode. Note: When parameters are

sent, they are always two bytes long with the least significant byte sent first.

Commands can be queried for their current value by sending the command logically ORed with

the value 0x80 (hexadecimal) with CMD asserted. When the binary value is sent (with no

parameters), the current value of the command parameter is sent back through the DO pin.

Figure 2‐11. Binary Command Write then Read

Signal #4 is CMD (pin 5)

Signal #1 is the DIN (pin 4) signal to the radio

Signal #2 is the DOUT (pin 3) signal from the radio

Signal #3 is

In this graph, a value was written to a register and

then read out to verify it. While not in the middle

of other received data, note that the

outlines the data response out of the module.

IMPORTANT:

(pin 1)

For the XStream Module to recognize a binary command, RT (DI2 Configuration)

Command must be issued. If binary programming is not enabled (RT ≠ 1), the

module will not recognize that the CMD pin (Pin 5) is asserted and therefore will not

recognize the data as binary commands.

signal

X09-009NSC Digi International/Maxstream, X09-009NSC Datasheet - Page 17

X09-009NSC

Specifications of X09-009NSC

Related parts for X09-009NSC