advertisement
XStream-PKG-U™ USB RF Modem
Product Manual
v4.2B5
For Digi RF Modem Part Numbers X09-001PK…-U…
X09-009PK…-U…
X09-019PK…-U…
X24-009PK…-U...
X24-019PK…-U…
Reliable 900 MHz and 2.4 GHz Stand-alone RF Modems by Digi International Inc.
XH9-001PK…-U...
XH9-009PK…-U…
XH9-019PK…-U…
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
XStream-PKG-U USB RF Modem – Product Manual v4.2B5
(Part number 90002212 B)
Revision
B
Date
10/15/14
Description
Minor changes and new part number
© 2014 Digi International Inc. All rights reserved.
Digi, Digi International Inc., the Digi logo, and XStream ® are trademarks or registered trademarks in the United
States and other countries worldwide. All other trademarks mentioned in this document are the property of their respective owners.
Information in this document is subject to change without notice and does not represent a commitment on the part of
Digi International Inc. Digi provides this document “as is,” without warranty of any kind, expressed or implied, including, but not limited to, the implied warranties of fitness or merchantability for a particular purpose. Digi may make improvements and/or changes in this manual or in the product(s) and/or the program(s) described in this manual at any time.
© 2014 Digi International Inc. ii
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
Contents
1. XStream USB RF Modem
2. RF Modem Operation
3. RF Modem Configuration
Appendix A: Agency Certifications
8
4
30
16
IC (Industry Canada) Certification
Appendix B: Additional Information
Contact Digi or! Bookmark not defined.
34
Err
© 2014 Digi International Inc. iii
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
1. XStream USB RF Modem
The XStream-PKG-U USB RF Modem provides long range data communications and advanced networking for OEMs and embedded system integrators. Out-of-box, the modem is equipped to sustain long range wireless links between devices. Simply enter serial data into one modem and the data surfaces on the other side of the wireless link.
The modem transfers a standard asynchronous serial data stream between two or more modems.
Its built-in USB interfacing allows for rapid integration into existing data systems.
1.1. Features
Long Range at a Low Cost Easy-to-Use
9XStream-PKG-U (900 MHz) Range:
• Indoor/Urban: up to 1500’ (450 m)
Out-of-Box RF Experience - modems are pre-configured to provide immediate wireless links
• Outdoor line-of-sight: up to 7 miles (11 km) w/2.1 dBm dipole antenna
• Outdoor line-of-sight: up to 20 miles (32 km) w/high gain antenna
24XStream-PKG-U (2.4 GHz) Range:
No Master/Slave setup dependencies
Simple AT and Binary commands for advanced programming
• Indoor/Urban: up to 600’ (180 m)
• Outdoor line-of-sight: up to 3 miles (5 km) w/2.1 dBm dipole antenna
• Outdoor line-of-sight: up to 10 miles (16 km) w/high gain antenna
Receiver sensitivity: -110 dBm (@ 900 MHz),
–105 dBm (@ 2.4 GHz)
Advanced Networking and Security
5-12 VDC power supply
Bus or Self Power Supply Options
Transparent Operation – wireless links replace wired connections
Support for multiple data formats
(parity and data bits)
Portable (small form factor and low power)
True Peer-to-Peer (no “master” required),
Point-to-Point, Point-to-Multipoint and Multidrop
Software-selectable interfacing rates
Support for multiple data formats
Retries and Acknowledgements
XII™ Interference Immunity
FHSS (Frequency Hopping Spread Spectrum)
Power-saving Sleep Modes
7 hopping channels, each with over 65,000 unique network addresses available
1.1.1. Worldwide Acceptance
FCC Certified (USA) Refer to Appendix A for FCC Requirements.
Systems that contain XStream RF Modems automatically inherit Digi certifications
ISM (Industrial, Scientific and Medical) frequency band
Manufactured under ISO 9001:2000 registered standards
9XStream (900 MHz) RF Modems are approved for use in US, Canada, Australia and
Israel (and more).
© 2014 Digi International Inc. 4
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
1.2. Product Overview
The XStream-PKG-U RF Modem comes configured to provide immediate wireless links between devices; however, the RF modem can be configured for additional functionality through the use of
a simple AT command interface (Refer to the Command Mode (p14) and RF Modem Configuration
(p16) sections for programming options).
1.2.1. Specifications
Table 1-01. XStream-PKG-U USB RF Modem Specifications
Specification
Performance
Indoor/Urban Range
Outdoor LOS Range
Transmit Power Output
Interface Data Rate
Throughput Data Rate
RF Data Rate
Receiver Sensitivity
Power Requirements
Supply Voltage
Receive (RX) Current
Transmit (TX) Current
Power Down Current
General
Frequency
Spread Spectrum
Network Topology
Channel Capacity
Data Connection
Physical Properties
Enclosure
Enclosure Size
Weight
Operating Temperature
Antenna
Type
Connector
Impedance
Certifications
FCC Part 15.247
Industry Canada (IC)
9XStream-PKG-U (900 MHz)
Up to 1500’ (450 m)
Up to 7 miles (11 km) w/ 2.1 dBm dipole antenna
Up to 20 miles (32 km) w/ high-gain antenna
100 mW (20 dBm)
Software selectable 1200 - 57600 bps
9,600 bps
10,000 bps
-110 dBm
19,200 bps
20,000 bps
-107 dBm
Up to 600’ (180 m)
Up to 3 miles (5 km) w/ 2.1 dBm dipole antenna
Up to 10 miles (16 km) w/ high-gain antenna
50 mW (17 dBm)
Software selectable 1200 - 57600 bps
9,600 bps
10,000 bps
-105 dBm
19,200 bps
20,000 bps
-102 dBm
5-12 VDC external or USB bus power
90 mA
185 mA
50 mA
902-928 MHz 2.4000-2.4835 GHz
Frequency Hopping, Wide band FM modulator
Peer-to-Peer, Point-to-Point, Point-to-Multipoint, Multidrop
7 hop sequences share 25 frequencies
USB 1.1, 11 Mbps connection
Extruded aluminum, black, anodized
2.750” x 5.500” x 1.125”
(6.99cm x 13.97cm x 2.86cm)
7.1 oz (200g)
0 to 70º C (commercial), -40 to 85º C (industrial)
½ wave dipole whip, 6.75” (17.15cm), 2.1 dBi Gain
Reverse-polarity SMA (RPSMA)
50 ohms unbalanced
OUR9XSTREAM
4214A-9XSTREAM
24XStream-PKG-U (2.4 GHz)
115 mA
200 mA
50 mA
OUR-24XSTREAM
4214A 12008
© 2014 Digi International Inc. 5
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
1.3. External Interface
1.3.1. Front and Back Views
Figure 1-01. Front View
1-01a. I/O and Power LEDs
LEDs indicate modem activity as follows:
Yellow (top LED) = Serial Data Out (to host)
Green (middle) = Serial Data In (from host)
Red (bottom) = Power/TX Indicator (Red light is on when powered and pulses off briefly during RF transmission)
1-01b.
RSSI LEDs
1-01c. USB Port
1-01a. I/O and Power
1-01d. Power
Connector*
* NOTE: Disconnect the USB cable before connecting or removing power from the
Power Connector (1-01d). This port does not require power unless insufficient power is available from the USB Port (< 500 mA).
1-01b. RSSI LEDs
RSSI LEDs indicate the amount of fade margin present in an active wireless link. Fade margin is the difference between the incoming signal strength and the modem’s receiver sensitivity.
3 LEDs ON = Very Strong Signal (> 30 dB fade margin)
2 LEDs ON = Strong Signal (> 20 dB fade margin)
1 LED ON = Moderate Signal (> 10 dB fade margin)
0 LED ON = Weak Signal (< 10 dB fade margin)
1-01c. USB Port
Standard Type-B USB connector – This port can also be used to power the XStream-PKG-U unit.
1-01d. Power Connector *
5-12V Power Connector.
Figure 1-02. Back View
1-02a. Reset Switch
Reset Switch forces the RF Modem to reset (or re-boot).
1-02b. Config (Configuration) Switch
The Config Switch provides an alternate way to enter AT Command
Mode. To enter Command Mode at the Modem’s default baud rate:
Simultaneously press the Reset (1-02a) and Config switches; release the Reset Switch; then after 1 second, release the Config
Switch. The RF Modem then enters AT Command Mode at the modem’s default baud rate.
1-02b. Config Switch
1-02a. Reset Switch
1-02c. Antenna Port
1-02c. Antenna Port
Antenna Port is a 50 Ω RF signal connector for connecting to an external antenna. Connector type is Reverse Polarity (RPSMA) female. The RPSMA has threads on the outside of a barrel and a male center conductor.
For CAD drawings and exact measurements, refer to the Mechanical Drawings section (next page).
© 2014 Digi International Inc. 6
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
1.4. Pin Signals
Figure 1-03. Pins on the USB connector
Table 1-02. USB Signals and their implementations on the XStream-PKG-U RF Modem
USB Pin
1
2
3
4
USB Name
VBUS
D-
D+
GND
Description
Power
Transmitted and Received
Data
Transmitted and Received
Data
Ground Signal
Implementation
Power RF Modem
Transmit data to and from the RF Modem
Transmit data to and from the RF Modem
Ground
1.4.1. Power Options
Two power options are available to the XStream-PKG-U RF Modem:
• Bus-powered Mode – The RF modem powers itself directly from the USB host through the
USB cable.
• Self-powered Mode – The RF modems is powered using an external power supply.
The external power must supply a DC voltage between 5 and 12 V. The power supply currently shipped with Digi Development Kits is a suitable power supply for this option.
XStream-PKG-U RF Modem automatically selects “self-powered mode” if power is available on the power connector when the RF modem is connected to USB. Do not disconnect the external power source without first disconnecting the XStream-PKG-U RF Modem from the USB connector.
1.5. Mechanical Drawings
Figure 1-04. Mechanical Drawings of the PKG-U RF Modem
© 2014 Digi International Inc. 7
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
2. RF Modem Operation
2.1. Driver Installations
The XStream-PKG-U RF Modem is a stand-alone unit that can interface through a host device
USB port. In order to interface through the USB port of a PC, OS-specific drivers must be installed. The PKG-U RF Modem is a "plug-and-play" device that should automatically be detected by the PC. Once the RF modem is detected, the PC will display an installation wizard that facilitates driver installations. Drivers can be found on the “24XStream (USB, 232/485, Modules)” support page at www.digi.com/support.
USB Background Information
USB has two types of devices: Those that supply drivers (a host, such as a PC); and those that require a driver (a client, such as a Digi USB RF Modem). When a USB client is plugged into a host, the host prompts the device for a driver. Once a driver is located, the host loads the driver on the first use of the USB client; then supplies the installed driver on all subsequent uses.
A USB client should not be plugged into another client. If another USB client (such as a USB video camera) is plugged into a Digi USB RF modem (also a client), the devices will not communicate. It would be incorrect to attach a USB modem to a host on one end and attach a
USB modem to a USB client at the other end. Virtually all USB peripherals (video cameras, PDA cradles, printers, etc.) are USB clients.
Some client devices can act as a host. This is known as “USB on-the-go”. An appropriate USB onthe-go enabled device (such as a PDA with USB on-the-go support) may connect to and utilize a
Digi USB RF Modem. Contact Digi for information about device drivers.
© 2014 Digi International Inc. 8
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
2.2. Modes of Operation
An on-board RF module enables the XStream-PKG-U RF Modem to send and receive data overthe-air. The RF module operates in five modes.
Figure 2-01. RF Modem Modes of Operation
The RF modem can only be in one mode at a time.
2.2.1. Idle Mode
When not receiving or transmitting data, the RF modem is in Idle Mode. The RF modem uses the same amount of power in Idle Mode as it does in Receive Mode.
The modem shifts into the other modes of operation under the following conditions:
• Serial data is received in the DI Buffer (Transmit Mode)
• Valid RF data is received through the antenna (Receive Mode)
• Command Mode Sequence is issued (Command Mode)
• Sleep Mode condition is met (Sleep Mode)
After responding to any of the preceding conditions, the modem automatically transitions back into Idle Mode.
2.2.2. Transmit Mode
When the first byte of serial data is received from the UART in the DI buffer, the modem attempts to shift to Transmit Mode and initiate an RF connection with other modems.
Figure 2-02. Transmission of Data
Once in Transmit Mode, the modem initializes a communications channel. Channel initialization is the process of sending an RF initializer that synchronizes receiving modems with the transmitting modem. When streaming multiple RF packets, the
RF Initializer is only sent in front of the first packet. During channel initialization, incoming serial data accumulates in the DI buffer.
After the channel is initialized, data in the DI buffer is grouped into packets (up to 64 bytes in each packet) and is transmitted. The modem continues to transmit data packets until the DI buffer is empty. Once transmission is finished, the modem returns to Idle
Mode. This progression is shown above.
As the transmitting modem nears the end of the transmission, it inspects the DI buffer to see if more data exists to be transmitted. This could be the case if more bytes arrived from the host after the transmission began. If more data is pending, the transmitting modem assembles a subsequent packet for transmission.
© 2014 Digi International Inc. 9
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
RF Packet
The RF packet is the sequence of data used for communicating information between Digi
Modems. An RF Packet consists of an RF Initializer and RF Data.
Figure 2-03. RF Packet Components
* When streaming multiple RF packets, the RF Initializer is only sent in front of the first packet.
RF Initializer
An RF initializer is sent each time a new connection sequence begins. The RF initializer contains channel information that notifies receiving modems of information such as the hopping pattern used by the transmitting modem. The first transmission always sends an RF initializer.
An RF initializer can be of various lengths depending on the amount of time determined to be required to prepare a receiving modem. For example, a wake-up initializer is a type of RF initializer used to wake remote modems from Sleep Mode (Refer to the FH, LH, HT and SM
Commands for more information). The length of the wake-up initializer should be longer than the length of time remote modems are in cyclic sleep.
Header
The header contains network addressing information that is used to filter incoming RF data. The receiving modem checks for matching a VID, Hopping Channel and Destination Address. Data that does not pass through all three network filter layers is discarded.
Figure 2-04. Network Layers Contained in the Header
CRC (Cyclic Redundancy Check)
To verify data integrity and provide built-in error checking, a 16-bit CRC (Cyclic Redundancy
Check) is computed for the transmitted data and attached to the end of each RF packet. On the receiving end, the receiving modem computes the CRC on all incoming RF data. Received data that has an invalid CRC is discarded (Refer to Receive Mode section).
© 2014 Digi International Inc. 10
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
2.2.3. Receive Mode
If a modem detects RF data while operating in Idle Mode, the modem transitions into Receive
Mode to start receiving RF packets.
Figure 2-05. Reception of RF Data
After a packet is received, the modem checks the CRC (cyclic redundancy check) to ensure that the data was transmitted without error. If the CRC data bits on the incoming packet are invalid, the packet is discarded. If the CRC is valid, the packet proceeds to the DO Buffer.
The modem returns to Idle Mode after valid RF data is no longer detected or after an error is detected in the received RF data. If serial data is stored in the DI buffer while the modem is in
Receive Mode, the serial data will be transmitted after the modem is finished receiving data and returns to Idle Mode.
2.2.4. Sleep Mode
Sleep Modes enable the XStream Modem to operate at minimal power consumption when not in use. Three Sleep Mode options are available:
• Pin Sleep (Host Controlled)
• Serial Port Sleep (Wake on Serial Port activity)
• Cyclic Sleep (Wake on RF activity)
For the modem to transition into Sleep Mode, the modem must have a non-zero SM (Sleep Mode)
Parameter and one of the following must occur:
1. The modem is idle (no data transmission or reception) for a user-defined period of time
(Refer to ST (Time before Sleep) Command).
2. SLEEP pin is asserted (only for Pin Sleep option).
In Sleep Mode, the modem will not transmit or receive data until the modem first transitions to
Idle Mode. All Sleep Modes are enabled and disabled using SM Command. Transitions into and out of Sleep Modes are triggered by various mechanisms as shown in the table below.
Table 2-01. Summary of Sleep Mode Configurations
Sleep Mode
Setting
Pin Sleep
(SM = 1)
Serial Port Sleep
(SM = 2)
Cyclic Sleep
(SM = 3-8)
Transition into
Sleep Mode
A microcontroller can shut down and wake modems by asserting (high) SLEEP pin.
Note: The module will complete a transmission or reception before activating Pin Sleep.
Automatic transition to Sleep Mode occurs after a user-defined period of inactivity (no transmitting or receiving of data). The period of activity is defined using the ST (Time before
Sleep) Command.
Automatic transition to Sleep Mode occurs in cycles as defined by the SM (Sleep Mode)
Command.
Note: The cyclic sleep time interval must be shorter than the “Wake-up Initializer Timer”
(set by LH Command).
Transition out of
Sleep Mode
De-assert SLEEP pin.
When serial byte is received on the DI pin.
After the cyclic sleep time interval elapses.
Note: Modem can be forced into Idle Mode if PW (Pin Wake-up)
Command is issued.
Related
Commands
SM
SM, ST
SM, ST, HT,
LH, PW
Typical Power
Consumption
50 mA
130 mA
75 mA when sleeping
For more information about Sleep Modes, refer to the individual commands listed in “Related Commands” column of the table. The SM Command is to the implementation of all sleep mode configurations.
© 2014 Digi International Inc. 11
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
Pin Sleep (SM = 1)
Pin Sleep requires the least amount of power. In order to achieve this state, DI3 (SLEEP) pin must be asserted (high). The modem remains in Pin Sleep until the DI3 pin is de-asserted.
After enabling Pin Sleep, the SLEEP pin controls whether the XStream Modem is active or in Sleep
Mode. When DI3 is de-asserted (low), the modem is fully operational. When DI3 is asserted
(high), the modem transitions to Sleep Mode and remains in its lowest power-consuming state until the DI3 (SLEEP) pin is de-asserted. DI3 is only active if the modem is setup to operate in this mode; otherwise the pin is ignored.
Once in Pin Sleep Mode, DO2 ( ) is de-asserted (high), indicating that data should not be sent to the modem. The PWR pin is also de-asserted (low) when the modem is in Pin Sleep Mode.
Note: The module will complete a transmission or reception before activating Pin Sleep.
Serial Port Sleep (SM = 2)
Serial Port Sleep is a Sleep Mode in which the XStream Modem runs in a low power state until serial data is detected on the DI pin.
When Serial Port Sleep is enabled, the modem goes into Sleep Mode after a user-defined period of inactivity (no transmitting or receiving of data). This period of time is determined by ST (Time before Sleep) Command. Once a character is received through the DI pin, the modem returns to
Idle Mode and is fully operational.
Cyclic Sleep (SM = 3-8)
Cyclic Sleep is the Sleep Mode in which the XStream Modem enters into a low-power state and awakens periodically to determine if any transmissions are being sent.
When Cyclic Sleep settings are enabled, the XStream Modem goes into Sleep Mode after a userdefined period of inactivity (no transmission or reception on the RF channel). The user-defined period is determined by ST (Time before Sleep) Command.
While the modem is in Cyclic Sleep Mode, DO2 ( ) is de-asserted (high) to indicate that data should not be sent to the modem during this time. When the modem awakens to listen for data,
DO2 is asserted and any data received on the DI Pin is transmitted. The PWR pin is also deasserted (low) when the modem is in Cyclic Sleep Mode.
The modem remains in Sleep Mode for a user-defined period of time ranging from 0.5 seconds to
16 seconds (SM Parameters 3 through 8). After this interval of time, the modem returns to Idle
Mode and listens for a valid data packet for 100 ms. If the modem does not detect valid data (on any frequency), the modem returns to Sleep Mode. If valid data is detected, the modem transitions into Receive Mode and receives incoming RF packets. The modem then returns to
Sleep Mode after a Period of inactivity that is determined by ST “Time before Sleep” Command.
The modem can also be configured to wake from cyclic sleep when SLEEP/DI3 is de-asserted
(low). To configure a modem to operate in this manner, PW (Pin Wake-up) Command must be issued. Once DI3 is de-asserted, the modem is forced into Idle Mode and can begin transmitting or receiving data. It remains active until no data is detected for the period of time specified by the ST Command, at which point it resumes its low-power cyclic state.
Note: The cyclic interval time defined by SM (Sleep Mode) Command must be shorter than the interval time defined by LH (Wake-up Initializer Timer).
For example: If SM=4 (Cyclic 1.0 second sleep), the LH Parameter should equal 0x0B (“1.1” seconds). With these parameters set, there is no risk of the receiving modem being asleep for the duration of wake-up initializer transmission. “Cyclic Scanning” explains in further detail the relationship between “Cyclic Sleep” and “Wake-up Initializer Timer”
© 2014 Digi International Inc. 12
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
Cyclic Scanning. Each RF transmission consists of an RF Initializer and payload. The wake-up initializer contains initialization information and all receiving modems must wake during the wake-up initializer portion of data transmission in order to be synchronized with the transmitting modem and receive the data.
Figure 2-06. Correct Configuration (LH > SM)
Length of the wake-up initializer exceeds the time interval of Cyclic Sleep. The receiver is guaranteed to detect the wake-up initializer and receive the accompanying payload data.
Figure 2-07. Incorrect Configuration (LH < SM)
Length of wake-up initializer is shorter than the time interval of Cyclic Sleep. This configuration is vulnerable to the receiver waking and missing the wake-up initializer (and therefore also the accompanying payload data).
© 2014 Digi International Inc. 13
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
2.2.5. Command Mode
To modify or read RF modem parameters, the RF modem must first enter into Command Mode - a state in which incoming characters are interpreted as commands and parameters. Two command types are available for programming the RF modem: AT Commands and Binary
Commands.
IMPORTANT: For modified parameter values to persist in the RF modem’s registry, changes must be saved to non-volatile memory using the WR (Write) Command. Otherwise, parameter values are restored to previously saved values the next time the RF modem is powered off and then on again.
AT Command Mode
Enter AT Command Mode:
1. Send the 3-character command sequence “+++” and observe guard times before and after the command characters. (Refer to “Default AT Command Mode Sequence” below.) The
“Terminal” tab (or other serial communications software) of the X-CTU Software can be used to enter the sequence.
(OR)
2. Assert (low) the pin and turn the power going to the RF modem off and back on. To
achieve this result, simultaneously press the Reset and Config switches (Figure 1-02);
release the Reset Switch; then after 1 second, release the Config Switch. The RF Modem then enters AT Command Mode at the modem’s default baud rate.
The AT Command Mode Sequence (default parameter values are shown in parenthesis):
• Observe Guard Time Before (ATBT = 0x0A, no characters sent for one second)
• Enter three copies of the Command Sequence Character (ATCC = 0x2B, ASCII “+++“)
• Observe Guard Time After (ATAT = 0x0A, no characters sent for one second)
To Send AT Commands:
Send AT commands and parameters using the syntax shown below:
Figure 2-08. Syntax for sending AT Commands
NOTE: To read a parameter value stored in a register, leave the parameter field blank.
The preceding example would change the RF modem’s destination address to “1F”. To store the new value to non-volatile (long term) memory, the Write (ATWR) Command must follow.
System Response. When a command is sent to the modem, the modem will parse and execute the command. Upon successful execution of a command, the modem returns an “OK” message. If execution of a command results in an error, the modem returns an “ERROR” message.
To Exit AT Command Mode:
1. Send ATCN (Exit Command Mode) Command.
(OR)
2. If no valid AT Commands are received within the time specified by CT (Command Mode
Timeout) Command, the Modem automatically returns to Idle Mode.
For examples that step through the programming the modem using AT Commands, refer to the
RF Modem Configuration (p16) chapter.
© 2014 Digi International Inc. 14
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
Binary Command Mode
Sending and receiving parameter values using binary commands is the fastest way to change operating parameters of the XStream RF Modem. Binary commands are used most often to sample signal strength (RS parameter) and/or error counts; or change modem addresses and channels for polling data systems. Since the sending and receiving of register 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.
Common questions about using binary commands:
• 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 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 must be asserted in order to send binary commands to the RF modem. 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.
If the command is sent in the middle of a stream of payload data to be transmitted, the command will essentially be executed in the order it is received. If the radio is continuously receiving data, the radio will wait for a break in the received data before executing the command.
The
signal will frame the response coming from the binary command request (Figure 2-08).
A minimum time delay of 100 µs (after the stop bit of the command byte has been sent) must be observed before the CMD pin 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 modem returns to Idle Mode.
Note: When parameters are sent, they are two bytes long with the least significant byte sent first.
Binary commands that return one parameter byte must be written with two parameter bytes.
Refer to p17 for a binary programming example.
Commands can be queried for their current value by sending the command logically ORed (bitwise) 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 2-09. Binary Command Write then Read
Signal #4 is CMD
Signal #1 is the DIN signal to the radio
Signal #2 is the DOUT signal from the radio
Signal #3 is
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 signal outlines the data response out of the modem.
IMPORTANT: For the XStream Modem to recognize a binary command, the RT (DI2
Configuration) parameter must be set to one. If binary programming is not enabled (RT ≠ 1), the modem will not recognize that the CMD pin is asserted and therefore will not recognize the data as binary commands.
© 2014 Digi International Inc. 15
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
3. RF Modem Configuration
For information about entering and exiting AT and Binary Command Modes, refer to the
3.1. Programming Examples
3.1.1. AT Commands
Digi has provided X-CTU software for programming the modem using an extensive list of AT
Commands. The X-CTU software provides an interface that is divided into four tabs that facilitate the following functions:
• PC Settings tab - Setup PC serial port to interface with an XStream RF Modem
• Range Test tab – Test XStream RF Modem's range in varying environments
• Terminal tab – Configure and read XStream RF Modem parameters using AT Commands
• Modem Configuration tab – Configure and read RF Modem parameters
To install the X-CTU Software:
Navigate to: www.digi.com/support/ . Then select “XCTU” under the product list. Select the appropriate driver to install the XCTU software.
PC Settings Tab
In order to communicate data to the RF modem through a PC; baud (interface data rate), data bit, parity and stop bit settings on the PC serial port must match those of the RF modem. The PC
Settings tab provides a software user interface that facilitates the modification of PC com port settings.
PC Setup:
1. Install drivers that enable the RF modem to interface with a host PC (refer to p8).
2. Connect the RF modem to a PC using a standard USB cable.
(This also powers the RF modem.)
3. Launch X-CTU Software and select the PC Settings tab. If necessary, adjust values in the
“Com Port Setup” section to match currently stored parameter values of the RF modem.
Terminal Tab
A terminal program has been built into the X-CTU software and is located under the Terminal tab.
The Terminal tab provides an easy-to-use interface for programming the modem.
Multiple AT Commands. Multiple AT commands can be entered on one line with one carriage return at the end of the line. Each command must be delimited by a comma (spaces in between are optional). The “AT” prefix is only sent before the first command and should not be included with subsequent commands in a line.
System Response. When a command is sent to the modem, the modem will parse and execute the command. Upon successful execution of a command, the modem returns an “OK” message. If execution of a command results in an error, the modem returns an “ERROR” message.
© 2014 Digi International Inc. 16
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
EXAMPLE: Restore RF Modem Defaults using the Terminal tab
The following steps show how to read currently stored modem parameter values; then restore the modem parameters to their factory-default states.
Method 1 (One line per command)
Issue AT Command
+++
ATHP <Enter>
ATRE <Enter>
ATWR <Enter>
ATCN <Enter>
System Response
OK<CR> (Enter into AT Command Mode)
(system shows current channel number) <CR>
OK<CR> (Restore modem default parameter values)
OK<CR> (Write new values to non-volatile memory)
OK<CR> (Exit AT Command Mode)
Method 2 (Multiple commands on one line)
Issue AT Command System Response
+++
ATRE, WR, CN <Enter>
OK<CR>
OK<CR>
NOTE: Default parameter values of the RF modem can also be restored by selecting the “Restore
Defaults” button located on the Modem Configuration tab (refer to the instructions below).
Modem Configuration tab
The “Modem Configuration” tab of the X-CTU software provides an easy-to-use interface for reading and setting RF modem parameters.
EXAMPLE: Read Parameters and Restore Defaults using the Modem Configuration tab
The following steps show how to read currently stored modem parameter values; then restore the modem parameters to their factory-default states.
1. Open the X-CTU program (Start --> Programs --> Digi --> X-CTU):
2. Under the “PC Settings” tab, select the PC Serial Com Port from the dropdown list that will be used to connect to the RF Modem.
3. Select a “Baud rate” to match the default RF data rate of the RF Modem. Use default values for all other fields.
4. Select the “Modem Configuration” tab.
5. Select the “Read” button to read currently stored parameter values of the modem.
6. Select the “Restore” button to restore factory-default parameter values.
7. Select the “Write” button to save default values to non-volatile (long-term) memory.
3.1.2. Binary Commands
Example: Send Binary Commands
Use binary commands to change the XStream Modem’s destination address to 0x1A0D and save the new address to non-volatile memory.
1. RT Command must be set to “1” in AT Command Mode to enable binary programming.
2. Assert CMD (Pin is driven high). (Enter Binary Command Mode)
3. Send Bytes (Parameter bytes must be 2 bytes long):
00 (Send DT (Destination Address) Command)
0D
1A
(Least significant byte of parameter bytes)
(Most significant byte of parameter bytes)
08 (Send WR (Write) Command)
4. De-assert CMD (Pin is driven low). (Exit Binary Command Mode)
Note: is high when command is being executed. Hardware flow control must be disabled as will hold off parameter bytes.
© 2014 Digi International Inc. 17
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
3.2. Command Reference Table
Table 3-01. XStream Commands
The XStream-PKG-U RF Modem expects numeric values in hexadecimal. “d” denotes decimal equivalents
AT
Command
AT
BD v4.2B*
BT
CC
Binary
Command
0x05 (5d)
0x15 (21d)
AT Command Name
Guard Time After
Interface Data Rate
CD v 4.2B* 0x28 (40d) DO3 Configuration
CN
CS v 4.27D* 0x1F (31d) DO2 Configuration
CT
DT
E0
E1
ER
FH
HP
HT
ID v 4.2B*
0x04 (4d)
0x13 (19d) Command Sequence Character
0x09 (9d)
0x06 (6d)
0x00 (0d)
0x0A (10d)
0x0B (11d)
0x27 (39d)
Guard Time Before
Exit AT Command Mode
Command Mode Timeout
Destination Address
Echo Off
Echo On
0x0F (15d) Receive Error Count.
0x0D (13d) Force Wake-up Initializer
FL 0x07 (7d) Software Flow Control
FT v 4.27B* 0x24 (36d) Flow Control Threshold
GD 0x10 (16d) Receive Good Count
0x11 (17d) Hopping Channel
0x03 (3d) Time before Wake-up Initializer
Modem VID
Range Command Category
0 – 0xFFFF (x 100 msec)
Standard baud rates:
0 – 6
Non-standard baud rates:
0x7D – 0xFFFF
2 – 0xFFFF (x 100 msec)
AT Command Mode Options
Serial Interfacing
0x20 – 0x7F
0 - 4
-
AT Command Mode Options
AT Command Mode Options
Serial Interfacing
AT Command Mode Options
0 – 4 Serial Interfacing
0x02 – 0xFFFF (x 100 msec) AT Command Mode Options
0 – 0xFFFF
-
-
Networking
AT Command Mode Options
AT Command Mode Options
0 – 0xFFFF none
0 – 1
0x0 – 0xFF (bytes)
0 – 0xFFFF
Diagnostic
Sleep (Low Power)
Serial Interfacing
Serial Interfacing
Diagnostic
0 – 6
0 – 0xFFFF (x 100 msec)
Networking
Sleep (Low Power)
User settable: 0x10 - 0x7FFF
Read-only: 0x8000 – 0xFFFF Networking
0 – 0xFF (x 100 msec) Sleep (Low Power) LH 0x0C (12d) Wake-up Initializer Timer
MK 0x12 (18d) Address Mask
PC v 4.22* 0x1E (30d) Power-up Mode
PW v 4.22* 0x1D (29d) Pin Wake-up
RE 0x0E (14d) Restore Defaults
RN v 4.22* 0x19 (25d) Delay Slots
RO v 4.2AA* 0x21 (33d) Packetization Timeout
RP v 4.2AA* 0x22 (34d) RSSI PWM Timer
RR v 4.22* 0x18 (24d) Retries
RS v 4.22* 0x1C (28d) RSSI
RT 0x16 (22d) DI2 Configuration
SB v4.2B* 0x36 (54d) Stop Bits
SH v 4.27C* 0x25 (37d) Serial Number High
SL v 4.27C* 0x26 (38d) Serial Number Low
SM 0x01 (1d) Sleep Mode
ST 0x02 (2d) Time before Sleep
0 – 0xFFFF
0 – 1
0 – 1
-
0 – 0xFF (slots)
0 – 0xFFFF (x 200 µsec)
0 - 0x7F (x 100 msec)
0 – 0xFF
0x06 – 0x36 (Read-only)
0 - 2
0 – 1
0 – 0xFFFF (Read-only)
0 – 0xFFFF (Read-only)
0 – 8
Networking
AT Command Mode Options
Sleep (Low Power)
(Special)
Networking
Serial Interfacing
Diagnostic
Networking
Diagnostic
Serial Interfacing
Serial Interfacing
Diagnostic
Diagnostic
Sleep (Low Power)
0x10 – 0xFFFF (x 100 msec) Sleep (Low Power)
SY 0x17 (23d) Time before Initialization
TR v 4.22* 0x1B (27d) Transmit Error Count
TT v 4.22* 0x1A (26d) Streaming Limit
VR 0x14 (20d) Firmware Version
0 – 0xFF (x 100 msec)
0 – 0xFFFF
0 – 0xFFFF (0 = disabled)
0 x 0xFFFF (Read-only)
Networking
Diagnostic
Networking
Diagnostic
WR 0x08 (8d) Write - (Special)
* Firmware version in which the command and parameter options were first supported.
NOTE: Commands issued without a parameter value will return the currently stored parameter.
# Bytes
Returned
2
2
Factory
Default
0x0A (10d)
Set to equal factory-set RF data rate
0
-
0
Varies
0
0
0xFFFF
0x0A (10d)
0x2B
0
-
0
-
0
0xC8 (200d)
-
-
1
0xFFFF
0
0
-
0
0x32 (50d)
0
0
0
0
-
-
-
0
0x64 (100d)
0 (disabled)
0
0xFFFF
-
-
2
2
1
2
1
1
1
1
2
2
2
1
2
-
1
2
1
-
1
1
2
1
1
2
2
-
2
1
2
2
-
1
2
-
2
1
1
-
© 2014 Digi International Inc. 18
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
3.3. Command Descriptions
Commands in this section are listed alphabetically. Command categories are designated between the “< >” symbols that follow each command title. XStream Modems expect numerical values in hexadecimal and HEX values are designated by a “0x” prefix.
AT (Guard Time After) Command
<Command Mode Options> AT Command is used to set the time-of-silence that follows the command sequence character (CC Command).
By default, AT Command Mode will activate after one second of silence.
Refer to the AT Command Mode section (p14) to
view the default AT Command Mode Sequence.
AT Command: ATAT
Binary Command: 0x05 (5 decimal)
Parameter Range: 0x02 – 0xFFFF
(x 100 milliseconds)
Number of bytes returned: 2
Default Parameter Value: 0x0A (10 decimal)
Related Commands: BT (Guard Time Before), CC
(Command Sequence Character)
BD (Interface Data Rate) Command
<Serial Interfacing> BD Command allows the user to adjust the UART I/O serial data rate and thus modify the rate at which serial data is sent to the modem. The new baud rate does not take effect until the CN (Exit AT Command Mode)
Command is issued. Throughput and RF data rates are not affected by the BD Command.
AT Command: ATBD
Binary Command: 0x15 (21 decimal)
Parameter Range (Standard baud rates): 0 – 6
(Non-standard baud rates): 0x7D – 0xFFFF
Parameter
Value
0
BAUD (bps)
Configuration
1200
Although most applications will only require one of the seven standard baud rates, non-standard baud rates are also supported.
Note: If the serial data rate is set to exceed the fixed RF data rate of the XStream modem, flow control may need to be implemented as described in the Pin Signals and Flow Control sections of this manual.
1
2
3
4
5
6
Number of bytes returned: 2
2400
4800
9600
19200
38400
57600
Non-standard Interface Data Rates: When parameter values outside the range of standard baud rates are sent, the closest interface data
Default Parameter Value: Set to equal to modem’s factory-set RF data rate.
Minimum firmware version required: 4.2B
(non-standard baud rates not previously supported) rate represented by the number is stored in the
BD register. For example, a rate of 19200 bps can be set by sending the following command line
"ATBD4B00". NOTE: When using Digi’s X-CTU Software, non-standard interface data rates can only be set and read using the X-CTU “Terminal” tab. Non-standard rates are not accessible through the “Modem Configuration” tab.
When the BD command is sent with a non-standard interface data rate, the UART will adjust to accommodate the requested interface rate. In most cases, the clock resolution will cause the stored BD parameter to vary from the parameter that was sent (refer to the table below).
Reading the BD command (send "ATBD" command without an associated parameter value) will return the value that was actually stored to the BD register.
Table 3-02. Parameter Sent vs. Parameter Stored
BD Parameter Sent (HEX)
0
4
7
12C
1C200
Interface Data Rate (bps)
1200
19,200
115,200
300
115,200
BD Parameter Stored (HEX)
0
4
7
12B
1B207
© 2014 Digi International Inc. 19
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
BT (Guard Time Before) Command
<Command Mode Options> BT Command is used to set the DI pin silence time that must precede the command sequence character (CC Command) of the AT Command Mode Sequence.
Refer to the AT Command Mode section (p14) to
view the default AT Command Mode Sequence.
AT Command: ATBT
Binary Command: 0x04 (4 decimal)
Parameter Range: 2 – 0xFFFF
(x 100 milliseconds)
Default Parameter Value: 0x0A (10 decimal)
Number of bytes returned: 2
Related Commands: AT (Guard Time After),
CC (Command Sequence Character)
CC (Command Sequence Character) Command
<Command Mode Options> CC Command is used to set the ASCII character to be used between
Guard Times of the AT Command Mode Sequence
(BT+ CC + AT). The AT Command Mode
Sequence activates AT Command Mode (from Idle
Mode).
AT Command: ATCC
Binary Command: 0x13 (19 decimal)
Parameter Range: 0x20 – 0x7F
Default Parameter Value: 0x2B (ASCII “+” sign)
Number of bytes returned: 1
Related Commands: AT (Guard Time After), BT
(Guard Time Before)
Refer to the AT Command Mode section (p14) to view the default AT Command Mode Sequence.
CD (DO3 Configuration) Command
<Command Mode Options> CD Command is used to redefine the behavior of the DO3/RX LED line.
AT Command: ATCD
Binary Command: 0x28 (40 decimal)
Parameter Range: 0 – 2
Parameter
Value
0
1
2
3
Configuration
RX LED
Default high
Default low
(reserved)
4
Assert only when packet addressed to module sent
Default Parameter Value: 0
Number of bytes returned: 1
Minimum Firmware Version Required: 4.2B
CN (Exit AT Command Mode) Command
<Command Mode Options> CN Command is used to explicitly exit AT Command Mode.
CS (DO2 Configuration) Command
<Serial Interfacing> CS Command is used to select the behavior of the DO2 pin signal. This output can provide RS-232 flow control, control the TX enable signal (for RS-485 or RS-422 operations), or set the default level for the I/O line passing function.
By default, DO2 provides RS-232 (Clear-to-
Send) flow control.
AT Command: ATCN
Binary Command: 0x09 (9 decimal)
AT Command: ATCS
Binary Command: 0x1F (31 decimal)
Parameter Range: 0 – 4
Parameter
Value
0
1
2
Configuration
RS-232 flow control
RS-485 TX enable low high
3
4
RS-485 TX enable high low
Default Parameter Value: 0
Number of bytes returned: 1
Related Commands: RT (DI2 Configuration),
TO (DO2 Timeout)
Minimum Firmware Version Required: 4.27D
© 2014 Digi International Inc. 20
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
CT (Command Mode Timeout) Command
<Command Mode Options> CT Command sets the amount of time before AT Command Mode terminates automatically. After a CT time of inactivity, the modem exits AT Command Mode and returns to Idle Mode. AT Command Mode can also be exited manually using CN (Exit AT
Command Mode) Command.
AT Command: ATCT
Binary Command: 0x06 (6 decimal)
Parameter Range: 0x02 – 0xFFFF
(x 100 milliseconds)
Default Parameter Value: 0xC8 (200 decimal,
20 seconds)
Number of bytes returned: 2
DT (Destination Address) Command
<Networking> DT Command is used to set the networking address of an XStream Modem.
XStream Modems uses three network layers –
AT Command: ATDT
Binary Command: 0x00
Parameter Range: 0 – 0xFFFF
Vendor Identification Number (ATID), Channels
(ATHP), and Destination Addresses (ATDT). DT
Command assigns an address to a modem that enables it to communicate only with other modems having the same addresses. All modems
Default Parameter Value: 0
Number of bytes returned: 2
Related Commands: HP (Hopping Channel), ID
(Modem VID), MK (Address Mask) that share the same Destination Address can communicate freely with each other. Modems in the same network with a different Destination Address (than that of the transmitter) will listen to all transmissions to stay synchronized, but will not send any of the data out their serial ports.
E0 (Echo Off) Command
<Command Mode Options> E0 Command turns off character echo in AT Command Mode. By default, echo is off.
E1 (Echo On) Command
<Command Mode Options> E1 Command turns on the echo in AT Command Mode. Each typed character will be echoed back to the terminal when ATE1 is active. E0 is the default.
AT Command: ATE0
Binary Command: 0x0A (10 decimal)
AT Command: ATE1
Binary Command: 0x0B (11 decimal)
ER (Receive Error Count) Command
<Diagnostics> Set/Read the receive-error. The error-count records the number of packets partially received then aborted on a reception error. This value returns to 0 after a reset and is not non-volatile (Value does not persist in the
AT Command: ATER
Binary Command: 0x0F (15 decimal)
Parameter Range: 0 – 0xFFFF
Default Parameter Value: 0
Number of bytes returned: 2 modem’s memory after a power-up sequence).
Once the “Receive Error Count” reaches its
Related Commands: GD (Receive Good Count) maximum value (up to 0xFFFF), it remains at its maximum count value until the maximum count value is explicitly changed or the modem is reset.
FH (Force Wake-up Initializer) Command
<Sleep (Low Power)> FH Command is used to force a Wake-up Initializer to be sent on the next transmit. WR (Write) Command does not need to be issued with FH Command.
AT Command: ATFH
Binary Command: 0x0D (13 decimal)
Use only with cyclic sleep modes active on remote modems.
© 2014 Digi International Inc. 21
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
FL (Software Flow Control) Command
<Serial Interfacing> FL Command is used to configure software flow control. Hardware flow control is implemented with the XStream Modem as the DO2 pin ( ), which regulates when serial data can be transferred to the modem. FL
Command can be used to allow software flow control to also be enabled. XON character used is
0x11 (17 decimal). XOFF character used is 0x13
(19 decimal).
AT Command: ATFL
Binary Command: 0x07 (7 decimal)
Parameter Range: 0 – 1
Parameter
Value
Configuration
0
1
Disable software flow control
Enable software flow control
Default Parameter Value: 0
Number of bytes returned: 1
FT (Flow Control Threshold) Command
<Serial Interfacing> Set/Read the flow control threshold. When FT bytes have accumulated in the DI buffer, is de-asserted or the XOFF software flow control character is transmitted.
AT Command: ATFT
Binary Command: 0x24 (36 decimal)
Parameter Range: 0 – (Receiving modem DO buffer size minus 0x11 bytes)
Default Parameter Value: Receiving modem DO
Buffer size minus 0x11
Number of bytes returned: 2
Minimum Firmware Version Required: 4.27B
GD (Receive Good Count) Command
<Diagnostics> Set/Read the count of good AT Command: ATGD received RF packets. Parameter value is reset to
0 after every reset and is not non-volatile (Value does not persist in the modem’s memory after a power-up sequence). Once the “Receive Good
Binary Command: 0x10 (16 decimal)
Parameter Range: 0 – 0xFFFF
Default Parameter Value: 0
Count” reaches its maximum value (up to
0xFFFF), it remains at its maximum count value
Number of bytes returned: 2
Related Commands: ER (Receive Error Count) until the maximum count value is manually changed or the modem is reset.
HP (Hopping Channel) Command
<Networking> HP Command is used to set the modem’s hopping channel number. A channel is
AT Command: ATHP
Binary Command: 0x11 (17 decimal) one of three layers of addressing available to the
XStream modem. In order for modems to communicate with each other, the modems must
Parameter Range: 0 – 6
Default Parameter Value: 0 have the same channel number since each network uses a different hopping sequence.
Number of bytes returned: 1
Related Commands: DT (Destination Address),
ID (Modem VID), MK (Address Mask)
Different channels can be used to prevent modems in one network from listening to transmissions of another.
© 2014 Digi International Inc. 22
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
HT (Time before Wake-up Initializer) Command
<Sleep (Low Power)> If any modems within range are running in a “Cyclic Sleep” setting, a wake-up initializer must be used by the transmitting modem for sleeping modems to remain awake (refer to the LH (“Wake-up
Initializer Timer”) Command). When a receiving modem in Cyclic Sleep wakes, it must detect the wake-up initializer in order to remain awake and receive data. The value of HT Parameter tells the transmitter, “After a period of inactivity (no transmitting or receiving) lasting HT amount of
AT Command: ATHT
Binary Command: 0x03 (3 decimal)
Parameter Range: 0 – 0xFFFF
(x 100 milliseconds)
Default Parameter Value: 0xFFFF (means that long wake-up initializer will not be sent)
Number of bytes returned: 2
Related Commands: LH (Wake-up Initializer
Timer), SM (Sleep Mode), ST (Time before
Sleep) time, send a long wake-up initializer”. HT Parameter should be set to match the inactivity timeout
(specified by ST (Time before Sleep) Command) used by the receiver(s).
From the receiving modem perspective, after HT time elapses and the inactivity timeout (ST
Command) is met, the receiver goes into cyclic sleep. In cyclic sleep, the receiver wakes once per sleep interval to check for a wake-up initializer. When a wake-up initializer is detected, the modem will stay awake to receive data. The wake-up initializer must be longer than the cyclic sleep interval to ensure that sleeping modems detect incoming data. When HT time elapses, the transmitter then knows that it needs to send a long Wake-up Initializer for all receivers to be able to remain awake and receive the next transmission. Matching HT to the time specified by ST on the receiving modem guarantees that all receivers will detect the next transmission.
ID (Modem VID) Command
<Networking> Read the modem’s VID. VID is a
Digi-specific acronym that stands for “Vendor
Identification Number”. This number is factoryset and allows modems with matching VIDs to communicate. Modems with non-matching VIDs will not receive unintended data transmission.
AT Command: ATID
Binary Command: 0x27 (39 decimal)
Parameter Range (user-settable):
0x10 - 0x7FFFF
(Factory-set and read-only) :
0x8000 – 0xFFFF
Number of bytes returned: 2
Minimum Firmware Version Required: 4.2B
(Previous versions did not support usersettable VIDs)
LH (Wake-up Initializer Timer) Command
<Sleep (Low Power)> LH Command adjusts the duration of time for which the RF initializer is sent. When receiving modems are put into Cyclic
Sleep Mode, they power-down after a period of inactivity (specified by ST (Time before Sleep)
Command) and will periodically awaken and listen for transmitted data. In order for the receiving modems to remain awake, they must detect
~35ms of the wake-up initializer.
AT Command: ATLH
Binary Command: 0x0C (12 decimal)
Parameter Range: 0 – 0xFF
Related Commands: HT (Time before Wake-up
Initializer), SM (Sleep Mode), ST (Time before
Sleep)
(x 100 milliseconds)
Default Parameter Value: 1
Number of bytes returned: 1
LH Command must be used whenever a receiver is operating in Cyclic Sleep Mode. This lengthens the Wake-up Initializer to a specific amount of time (in tenths of a second). The Wake-up Initializer Time must be longer than the cyclic sleep time that is determined by SM (Sleep Mode) Command. If the wake-up initializer time were less than the Cyclic Sleep interval, the connection would be at risk of missing the wake-up initializer transmission.
Refer to Figures 3-01 and 3-02 of the SM Command description to view diagrams of correct and incorrect configurations. The images help visualize the importance that the value of LH be greater than the value of SM.
© 2014 Digi International Inc. 23
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
MK (Address Mask) Command
<Networking> MK Command is used to set/read the Address Mask.
AT Command: ATMK
Binary Command: 0x12 (18 decimal)
All data packets contain the Destination Address of the transmitting modem. When an RF data packet is received, the transmitter’s Destination
Address is logically “ANDed” (bitwise) with the
Address Mask of the receiver. The resulting value must match the Destination Address or the
Parameter Range: 0 – 0xFFFF
Default Parameter Value: 0xFFFF
(Destination address (DT parameter) of the transmitting modem must exactly match the destination address of the receiving modem.)
Number of bytes returned: 2
Address Mask of the receiver for the packet to be received and sent out the modem’s DO serial port. If the “ANDed” value does not match either
Related Commands: DT (Destination Address),
HP (Hopping Channel), ID (Modem VID), MY
(Source Address) the Destination Address or the Address Mask of the receiver, the packet is discarded. (All “0” values are treated as “irrelevant” values and are ignored.)
NB (Parity) Command
<Serial Interfacing> Select/Read parity settings for UART communications.
AT Command: ATNB
Binary Command: 0x23 (35 decimal)
Parameter Range: 0 – 4
Parameter
Value
Configuration
0
1
2
3
4
8-bit (no parity or
7-bit (any parity)
8-bit even
8-bit odd
8-bit mark
8-bit space
Default Parameter Value: 0
Number of bytes returned: 1
Minimum Firmware Version Required: 4.27B
PC (Power-up to AT Mode) Command
<Command Mode Options> PC Command allows the modem to power-up directly into AT
Command Mode from reset or power-on. If PC
Command is enabled with SM Parameter set to 1, the DI3 Pin (SLEEP) can be used to enter the modem into AT Command Mode. When the DI3 pin is de-asserted (low), the modem will Wake-up into AT Command Mode. This behavior allows modem DTR emulation.
AT Command: ATPC
Binary Command: 0x1E (30 decimal)
Parameter Range: 0 – 1
Parameter
Value
0
1
Configuration
Power-up to Idle Mode
Power-up to
AT Command Mode
Default Parameter Value: 0
Number of bytes returned: 1
Minimum Firmware Version Required: 4.22
© 2014 Digi International Inc. 24
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
PW (Pin Wake-up) Command
<Sleep (Low Power)> Under normal operation, a modem in Cyclic Sleep Mode cycles from an active state to a low-power state at regular intervals until data is ready to be received. If the
PW Parameter is set to 1, the SLEEP/DI3 Pin can be used to awaken the modem from Cyclic Sleep.
If the SLEEP Pin is de-asserted (low), the modem will be fully operational and will not go into Cyclic
Sleep. Once SLEEP is asserted, the modem will remain active for the period of time specified by
ST (Time before Sleep) Command, and will return to Cyclic Sleep Mode (if no data is ready to be transmitted). PW Command is only valid if Cyclic
Sleep has been enabled.
AT Command: ATPW
Binary Command: 0x1D (29 decimal)
Parameter Range: 0 – 1
Parameter
Value
0
1
Configuration
Default Parameter Value: 0
Number of bytes returned: 1
Disabled
Enabled
Related Commands: SM (Sleep Mode), ST (Time before Sleep)
Minimum Firmware Version Required: 4.22
RE (Restore Defaults) Command
<Diagnostics> RE Command restores all AT Command: ATRE configurable parameters to factory default Binary Command: 0x0E (14 decimal) settings. However, RE Command will not write the default values to non-volatile (persistent) memory. Unless the WR (Write) Command is issued after the RE command, the default settings will not be saved in the event of modem reset or power-down.
RN (Delay Slots) Command
<Networking> RN Command is only applicable if retries have been enabled (RR (Retries)
AT Command: ATRN
Binary Command: 0x19 (25 decimal)
Command), or if forced delays will be inserted
Parameter Range: 0 – 0xFF (slots) into a transmission (refer to the TT (Streaming
Limit) Command). RN Command is used to adjust
Default Parameter Value: 0 (no delay slots inserted) the time delay that the transmitter inserts before
Number of bytes returned: 1 attempting to resend a packet. If the transmitter fails to receive an acknowledgement after
Related Commands: RR (Retries), TT
(Streaming Limit) sending a packet, it will insert a random number
Minimum Firmware Version Required: 4.22 of delay slots (ranging from 0 to (RN minus 1)) before attempting to resend the packet. Each delay slot lasts for a period of 38ms.
If two modems attempted to transmit at the same time, the random time delay after packet failure would allow one of the two modems to transmit the packet successfully, while the other would wait until the channel opens up to begin transmission.
RO (Packetization Timeout) Command
<Serial Interfacing> RO Command is used to specify/read the time of silence (no bytes received) after which transmission begins. After a serial byte is received and if no other byte is received before the RO timeout, the transmission will start.
AT Command: ATRO
Binary Command: 0x21 (33 decimal)
Parameter Range: 0 – 0xFFFF (x 200 µs)
Default Parameter Value: 0
Number of bytes returned: 2
Minimum Firmware Version Required: 4.2AA
© 2014 Digi International Inc. 25
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
RP (RSSI PWM Timer) Command
<Diagnostics> RP Command is used to enable a
PWM (“Pulse Width Modulation”) output on the
AT Command: ATRP
Binary Command: 0x22 (34 decimal)
Config pin which is calibrated to show the level the received RF signal is above the sensitivity level of the modem. The PWM pulses vary from zero to 95 percent. Zero percent means the received RF signal is at or below the published
Parameter Range: 0 - 0x7F
(x 100 milliseconds)
Default Parameter Value: 0 (disabled)
Number of bytes returned: 1
Minimum Firmware Version Required: 4.2AA sensitivity level of the modem. The following table shows levels above sensitivity and PWM values.
The total period of the PWM output is 8.32 ms. There are 40 steps in the PWM output and therefore the minimum step size is 0.208 ms. dBm above Sensitivity
10
20
30
PWM percentage
(high period / total period)
47.5
62.5
77.5
A non-zero value defines the time that the PWM output will be active with the RSSI value of the last received RF packet. After the set time when no RF packets are received, the PWM output will be set low (0 percent PWM) until another RF packet is received. The PWM output will also be set low at power-up. A parameter value of 0xFF permanently enables the PWM output and it will always reflect the value of the last received RF packet.
PWM output shares the Config input pin. When the modem is powered, the Config pin will be an input. During the power-up sequence, the Config pin will be read to determine whether the modem is going into AT Command Mode. After this, if RP parameter is a non-zero value, the
Config pin will be configured as an output and set low until the first RF packet is received. With a non-zero RP parameter, the Config pin will be an input for RP ms after power up.
RR (Retries) Command
Networking> RR Command specifies the number of retries that can be sent for a given RF packet.
Once RR Command is enabled (set to a non-zero value), RF packet acknowledgements and retries are enabled. After transmitting a packet, the transmitter will wait to receive an acknowledgement from a receiver. If the
AT Command: ATRR
Binary Command: 0x18 (24 decimal)
Parameter Range: 0 – 0xFF
Default Parameter Value: 0 (disabled)
Number of bytes returned: 1
Minimum Firmware Version Required: 4.22 acknowledgement is not received in the period of time specified by the RN (Delay Slots)
Command, the transmitter will transmit the original packet again. The packet will be transmitted repeatedly until an acknowledgement is received or until the packet has been sent RR times.
Note: For retries to work correctly, all modems in the system must have retries enabled.
RS (RSSI) Command
<Diagnostics> RS Command returns the signal level of the last packet received. This reading is useful for determining range characteristics of the
XStream Modems under various conditions of
AT Command: ATRS
Binary Command: 0x1C (28 decimal)
Parameter Range: 0x06 – 0x36 (Read-only)
Number of bytes returned: 1 noise and distance.
Minimum Firmware Version Required: 4.22
Once the command is issued, the modem will return a value between 0x6 and 0x36 where 0x36 represents a very strong signal level and 0x4 indicates a low signal level.
© 2014 Digi International Inc. 26
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
RT (DI2 Configuration) Command
<Serial Interfacing> RT command is used to dictate the behavior of the DI2/ /CMD line. RT
Command must be issued to enable flow control or binary programming.
SB (Stop Bits) Command
SB Command is used to set/read the number of stop bits in the data packets.
SH (Serial Number High) Command
<Diagnostics> Set/Read the serial number high word of the modem.
SL (Serial Number Low) Command
<Diagnostics> Set/Read the serial number low word of the modem.
AT Command: ATRT
Binary Command: 0x16 (22 decimal)
Parameter Range: 0 – 2
Parameter
Value
0
1
2
Configuration disabled
Enable Binary Programming
Enable
Default Parameter Value: 0
Flow Control
Number of bytes returned: 1
AT Command: ATSB
Binary Command: 0x36 (54 decimal)
Parameter Range: 0 – 1
Parameter
Value
0
1
Configuration
Default Parameter Value: 0
1 stop bits
2 stop bits
Number of bytes returned: 1
Minimum Firmware Version Required: 4.2B
AT Command: ATSH
Binary Command: 0x25 (37 decimal)
Parameter Range: 0 – 0xFFFF (Read-only)
Number of bytes returned: 2
Related Commands: SL (Serial Number Low)
Minimum Firmware Version Required: 4.27C
AT Command: ATSH
Binary Command: 0x26 (38 decimal)
Parameter Range: 0 – 0xFFFF (Read-only)
Number of bytes returned: 2
Related Commands: SH (Serial Number High)
Minimum Firmware Version Required: 4.27C
© 2014 Digi International Inc. 27
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
SM (Sleep Mode) Command
<Sleep Mode (Low Power)> SM Command is used to adjust Sleep Mode settings. By default, Sleep
Mode is disabled and the modem remains continually active. SM Command allows the modem to run in a lower-power state and be configured in one of eight settings.
Cyclic Sleep settings wake the modem after the amount of time designated by SM Command. If the modem detects a wake-up initializer during the time it is awake, it will synchronize with the transmitter and start receiving data after the wake-up initializer runs its duration. Otherwise, it returns to Sleep Mode and continue to cycle in and out of inactivity until the Wake-up Initializer is detected. If a Cyclic Sleep setting is chosen, the ST, LH and HT parameters must also be set as described in the “Sleep Mode” section of this manual.
AT Command: ATSM
Binary Command: 0x01
Parameter Range: 0 – 8
Parameter
Value
0
1
2
3
4
5
6
Configuration
Disabled
Pin Sleep
Serial Port Sleep
Cyclic 0.5 second sleep
(Modem wakes every
0.5 seconds)
Cyclic 1.0 second sleep
Cyclic 2.0 second sleep
Cyclic 4.0 second sleep
7
8
Cyclic 8.0 second sleep
Cyclic 16.0 second sleep
Default Parameter Value: 0
Number of bytes returned: 1
Related Commands:
For Pin Sleep – PC (Power-up Mode), PW (Pin
Wake-up)
For Serial Port Sleep – ST (Time before Sleep)
For Cyclic Sleep – ST (Time before Sleep), LH
(Wake-up Initializer Timer), HT (Time Before
Wake-up Initializer), PW (Pin Wake-up)
ST (Time before Sleep) Command
<Sleep Mode (Low Power)> ST Command sets the period of time (in tenths of seconds) in which the modem remains inactive before entering into
Sleep Mode. For example, if the ST Parameter is set to 0x64 (100 decimal), the modem will enter into Sleep mode after 10 seconds of inactivity (no transmitting or receiving). This command can only be used if Cyclic Sleep or Serial Port Sleep
Mode settings have been selected using SM
(Sleep Mode) Command.
AT Command: ATST
Binary Command: 0x02
Parameter Range: 0x10 – 0xFFFF
(x 100 milliseconds)
Default Parameter Value: 0x64 (100 decimal)
Number of bytes returned: 2
Related Commands: SM (Sleep Mode), LH
(Wake-up Initializer Timer), HT (Time before
Wake-up Initializer)
SY (Time before Initialization) Command
<Networking> SY Command keeps a communication channel open as long as modem transmits or receives before the active connection expires. It can be used to reduce latency in a query/response sequence and should be set 100 ms longer than the delay between transmissions.
AT Command: ATSY
Binary Command: 0x17 (23 decimal)
Parameter Range: 0 – 0xFF
(x 100 milliseconds)
Default Parameter Value: 0 (Disabled - channel initialization information is sent with each RF packet.)
Number of bytes returned: 1
This command allows multiple XStream Modems to share a hopping channel for a given amount of time after receiving data. By default, all packets include an RF initializer that contains channel information used to synchronize any listening receivers to the transmitter’s hopping pattern.
Once a new modem comes within range or is powered on within range, it is able to instantly synchronize to the transmitter and start receiving data. If no new modems are introduced into the system, the synchronization information becomes redundant once modems have become synchronized.
© 2014 Digi International Inc. 28
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
SY Command allows the modems to remove this information from the RF Initializer after the initial synchronization. For example, changing the SY Parameter to 0x14 (20 decimal) allows all modems to remain in sync for 2 seconds after the last data packet was received. Synchronization information is not re-sent unless transmission stops for more than 2 seconds. This command allows significant savings in packet transmission time.
Warning: Not recommended for use in an interference-prone environment. Interference can break up the session and the communications channel will not be available again until SY time expires.
With SY set to zero, the channel session is opened and closed with each transmission - resulting in a more robust link with more latency.
TR (Transmit Error Count) Command
<Diagnostics> TR Command records the number of retransmit failures. This number is incremented each time a packet is not acknowledged within the number of retransmits specified by the RR (Retries) Command. It therefore counts the number of packets that were
AT Command: ATTR
Binary Command: 0x1B (27 decimal)
Parameter Range: 0 – 0xFFFF
Default Parameter Value: 0
Number of bytes returned: 2 not successfully received and have been dropped.
Related Commands: RR (Retries)
Minimum Firmware Version Required: 4.22
The TR Parameter is not non-volatile and will therefore be reset to zero each time the modem is reset.
TT (Streaming Limit) Command
<Networking> TT Command defines a limit on AT Command: ATTT the number of bytes that can be sent out before a random delay is issued. TT Command is used to
Binary Command: 0x1A (26 decimal)
Parameter Range: 0 – 0xFFFF (0 = disabled) simulate full-duplex behavior.
If a modem is sending a continuous stream of RF data, a delay is inserted which stops its
Default Parameter Value: 0xFFFF (65535 decimal)
Number of bytes returned: 2 transmission and allows other modems time to transmit (once it sends number of bytes specified
Related Commands: RN (Delay Slots)
Minimum Firmware Version Required: 4.22 by TT Command). Inserted random delay lasts between 1 and “RN + 1” delay slots, where each delay slot lasts 38ms.
VR (Firmware Version) Command
<Diagnostics> Read the Firmware Version of the
XStream Modem.
AT Command: ATVR
Binary Command: 0x14 (20 decimal)
Parameter Range: 0 – 0xFFFF (Read-only)
Number of bytes returned: 2
WR (Write) Command
<(Special)> WR Command writes configurable AT Command: ATWR parameters to the modem’s non-volatile memory Binary Command: 0x08
(Parameter values remain in the modem’s memory until overwritten by future use of WR Command).
If changes are made without writing them to non-volatile memory, the modem reverts back to previously saved parameters the next time the modem is powered-on.
© 2014 Digi International Inc. 29
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
Appendix A: Agency Certifications
FCC Certification
The XStream RF Modem complies with Part 15 of the FCC rules and regulations. Compliance with the labeling requirements, FCC notices and antenna usage guidelines is required.
To fulfill the FCC Certification requirements, the OEM must comply with the following FCC regulations:
1. The system integrator must ensure that the text on the external label provided with this device is placed on the outside of the final product (Figure A-01 for 900 MHz operations or
Figure A-02 for 2.4 GHz operations).
2. The XStream RF Modem may be used only with Approved Antennas that have been tested with this modem. (Refer to Tables A-01 (900 MHz) and A-02 (2.4 GHz))
FCC Notices
IMPORTANT: The 9XStream (900 MHz) and 24XStream (2.4 GHz) RF Modems have been certified by the FCC for use with other products without any further certification (as per FCC section 2.1091).
Changes or modifications not expressly approved by Digi could void the user’s authority to operate the equipment.
IMPORTANT: OEMs must test their final product to comply with unintentional radiators (FCC section
15.107 and 15.109) before declaring compliance of their final product to Part 15 of the FCC Rules.
IMPORTANT: The XStream RF Modems have been certified for remote and base radio applications. If the XStream will be used for portable applications, the device must undergo SAR testing.
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
• Re-orient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
• Consult the dealer or an experienced radio/TV technician for help.
© 2014 Digi International Inc. 30
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
OEM Labeling Requirements
Label Warning
WARNING The Original Equipment Manufacturer (OEM) must ensure that FCC labeling requirements are met. This includes a clearly visible label on the outside of the final product enclosure that displays the contents shown in the figure below.
Figure A-01. Required FCC Label for OEM products containing 9XStream (900 MHz) RF Modem
Contains FCC ID: OUR9XSTREAM
The enclosed device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (i.) this device may not cause harmful interference and (ii.) this device must accept any interference received, including interference that may cause undesired operation.
Figure A-02. Required FCC Label for OEM products containing 24XStream (2.4 GHz) RF Modem
Contains FCC ID: OUR-24XSTREAM
The enclosed device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (i.) this device may not cause harmful interference and (ii.) this device must accept any interference received, including interference that may cause undesired operation.
Antenna Usage
Antenna Warning
WARNING: This device has been tested with Reverse Polarity SMA connectors with the antennas listed in Tables A-01 and A-02 of Appendix A. When integrated in OEM products, fixed antennas require installation preventing end-users from replacing them with non-approved antennas. Antennas not listed in the tables must be tested to comply with FCC Section 15.203 (unique antenna connectors) and Section
15.247 (emissions).
RF Exposure
WARNING: This equipment is approved only for mobile and base station transmitting devices, separation distances of (i) 20 centimeters or more for antennas with gains < 6 dBi or (ii) 2 meters or more for antennas with gains ≥ 6 dBi should be maintained between the antenna of this device and nearby persons during operation. To ensure compliance, operation at distances closer than this is not recommended.
The preceding statement must be included as a CAUTION statement in manuals for OEM products to alert users of FCC RF Exposure compliance.
Digi radio modems are pre-FCC approved for use in fixed base station and mobile applications. As long as the antenna is mounted at least 20 cm (8 in) from nearby persons, the application is considered a mobile application. If the antenna will be mounted closer than 20 cm to nearby persons, then the application is considered “portable” and requires an additional test performed on the final product. This test is called the Specific Absorption Rate (SAR) testing and measures the emissions from the radio modem and how they affect the person.
Over 100 additional antennas have been tested and are approved for use with Digi 900 MHz
Radio Modems (including “Mag Mount”, “Dome”, “Multi-path” and “Panel” antennas). Because of the large number of approved antennas, Digi requests that you send specific information about an antenna you would like to use with the modem and Digi will evaluate whether the antenna is covered under our FCC filing.
© 2014 Digi International Inc. 31
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
FCC Approved Antennas
Table A-01. Antennas approved for use with 9XStream (900 MHz) RF Modems.
Manufacturer Part Number Type Gain
*
Digi
Digi
Digi
*
*
Digi
*
Digi
*
*
Digi
Digi
Digi
Digi
*
*
*
A09-Y8
*
*
A09-Y11 (FCC pending)
A09-F2
A09-F5
A09-F8
*
*
A09-M7
A09-H
A09-HBMM-P5I
A09-QBMM-P5I
*
Yagi
Yagi
Yagi
Yagi
Yagi
Yagi
Omni Direct.
Omni Direct.
Omni Direct.
Omni Direct.
Omni Direct.
Omni Direct.
1/2 wave antenna
1/2 wave antenna
1/4 wave antenna
1/4 wave integrated wire antenna
1.9 dBi
Table A-02. Antennas approved for use with 24XStream (2.4 GHz) RF Modems.
6.2 dBi
7.2 dBi
8.2 dBi
9.2 dBi
10.2 dBi
11.2 dBi
2.2 dBi
5.2 dBi
8.2 dBi
9.2 dBi
7.2 dBi
7.2 dBi
2.1 dBi
2.1 dBi
1.9 dBi
Manufacturer Part Number Type Gain Application
* * Yagi 6 dBi Fixed **
*
*
*
*
*
*
*
*
*
Digi
Digi
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
*
A24-P8
A24-P13
*
*
Yagi
Yagi
Yagi
Yagi
Yagi
Yagi
Yagi
Yagi
Omni Direct
Omni Direct
Omni Direct
Omni Direct
Omni Direct
Omni Direct
Omni Direct
Omni Direct
Omni Direct
Panel
Panel
Panel
Panel
8.8 dBi
9 dBi
10 dBi
11 dBi
12 dBi
12.5 dBi
13.5 dBi
15 dBi
2.1 dBi
3 dBi
5 dBi
7.2 dBi
8 dBi
9.5 dBi
10 dBi
12 dBi
15 dBi
8.5 dBi
13 dBi
14 dBi
15 dBi
*
Digi
Digi
Digi
*
A24-P19
A24-HABMM-P6I
A24-HBMM-P6I
Panel
Panel
Dipole
Dipole
16 dBi
19 dBi
2.1 dBi
2.1 dBi
Fixed **
Fixed **
Fixed/Mobile **
Fixed/Mobile **
Digi
Digi
*
*
A24-HABSM
A24-QABMM-P6I
A24-Q1
*
Dipole
Monopole
Monopole
Monopole
2.1 dBi
1.9 dBi
1.9 dBi
1.9 dBi
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
* FCC-approved antennas not inventoried by Digi – Contact Digi (801) 765-9885 for information.
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
** Can be approved for portable applications if integrator gains approval through SAR testing
Application
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed **
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Fixed/Mobile **
Min. Separation Distance
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
20 cm
1 cm
1 cm
1 cm
Min. Separation Distance
2 m
2 m
2 m
2 m
2 m
2 m
20 cm
20 cm
20 cm
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
2 m
20 cm
20 cm
20 cm
20 cm
20 cm
20cm
© 2014 Digi International Inc. 32
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
IC (Industry Canada) Certification
Labeling requirements for Industry Canada are similar to those of the FCC. A clearly visible label on the outside of the final product enclosure must display the following text:
Contains Model 9XStream Radio (900 MHz), IC: 4214A-9XSTREAM
Contains Model 24XStream Radio (2.4 GHz), IC: 4214A 12008
Integrator is responsible for its product to comply with IC ICES-003 and FCC Part 15, Sub. B -
Unintentional Radiators. ICES-003 is the same as FCC Part 15 Sub. B and Industry Canada accepts FCC test report or CISPR 22 test report for compliance with ICES-003.
© 2014 Digi International Inc. 33
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
Appendix B: Additional Information
1-Year Warranty
XStream RF Modems from Digi International Inc. (the "Product") are warranted against defects in materials and workmanship under normal use, for a period of 1-year from the date of purchase. In the event of a product failure due to materials or workmanship, Digi will repair or replace the defective product. For warranty service, return the defective product to Digi, shipping prepaid, for prompt repair or replacement.
The foregoing sets forth the full extent of Digi's warranties regarding the Product. Repair or replacement at Digi's option is the exclusive remedy. THIS WARRANTY IS GIVEN IN LIEU OF ALL
OTHER WARRANTIES, EXPRESS OR IMPLIED, AND DIGI SPECIFICALLY DISCLAIMS ALL
WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. IN NO
EVENT SHALL DIGI, ITS SUPPLIERS OR LICENSORS BE LIABLE FOR DAMAGES IN EXCESS OF
THE PURCHASE PRICE OF THE PRODUCT, FOR ANY LOSS OF USE, LOSS OF TIME,
INCONVENIENCE, COMMERCIAL LOSS, LOST PROFITS OR SAVINGS, OR OTHER
INCIDENTAL, SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR
INABILITY TO USE THE PRODUCT, TO THE FULL EXTENT SUCH MAY BE DISCLAIMED BY
LAW. SOME STATES DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR
CONSEQUENTIAL DAMAGES. THEREFOR, THE FOREGOING EXCLUSIONS MAY NOT APPLY
IN ALL CASES. This warranty provides specific legal rights. Other rights which vary from state to state may also apply.
Ordering Information
Figure B-01. Digi RF Modem Part Numbers Key
© 2014 Digi International Inc. 34
XStream-PKG-U™ USB RF Modem – Product Manual v4.2B5
Contact Digi
If you need assistance, contact technical support:
Documentation: www.digi.com/support/
Technical Support: Phone
Online
(866) 765-9885 toll-free U.S. and Canada
(801) 765-9885 Worldwide
8:00 am – 5:00 pm (U.S. Central Time) www.digi.com/support/eservice
© 2014 Digi International Inc. 35
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project