XT09-PKC-UA-NA Digi International/Maxstream, XT09-PKC-UA-NA Datasheet
XT09-PKC-UA-NA
Specifications of XT09-PKC-UA-NA
Related parts for XT09-PKC-UA-NA
XT09-PKC-UA-NA Summary of contents
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... USB RF Modem RF Modem Operation RF Modem Configuration RF Communication Modes Appendices Product Manual v2.x4x For RF Modem Part Numbers: XT09-PK...-U... 1 Watt Transmit Power, 256-bit AES Encryption MaxStream 355 South 520 West, Suite 180 Lindon, UT 84042 Phone: (801) 765-9885 Fax: (801) 765-9895 rf-xperts@maxstream.net www ...
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MaxStream, Inc. All rights reserved No part of the contents of this manual may be transmitted or reproduced in any form or by any means without the written permission of MaxStream, Inc. XTend™ and XTend‐PKG‐U™ are trademarks of MaxStream, Inc. AES Encryption Source Code © 2007, Dr. Brian Gladman, Worcester, UK. All rights reserved. Conditions: ‐ Distributions of AES source code include the above copyright notice, this list of conditions and disclaimer. ‐ Distributions in binary form include the above copyright notice, this list of con‐ ditions and disclaimer in the documentation and/or other associated materials. ‐ The copyright holderʹs name is not used to endorse products built using this software without specific written permission. Alternatively, provided that this notice is retained in full, this product may be dis‐ tributed under the terms of the GNU General Public License (GPL), in which case the provisions of the GPL apply INSTEAD OF those given above. Disclaimer ‐ This AES software is provided ʹas isʹ with no explicit or implied war‐ ranties in respect of its properties, including, but not limited to, correctness and/or fitness for purpose. Technical Support: © 2007 MaxStream, Inc., Confidential & Proprietary ‐ All Rights Reserved Phone: (801) 765‐9885 Live Chat: www.maxstream.net E‐mail: rf‐xperts@maxstream.net ii ...
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Contents 1. 9XTend USB RF Modem 1.1. Key Features 4 1.1.1. Worldwide Acceptance 4 1.2. Specifications 5 1.3. External Interface 6 1.4. Pin Signals 7 1.5. Power Options Modem Operation 2.1. Driver Installations 8 2.1.1. USB ...
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The 9XTend RF Modem affords OEMs and integrators an easy-to-use RF solution that sustains reliable delivery of data between remote devices. Out-of-box, the modem is configured to immediately sustain long range wireless links between devices. Simply feed serial ...
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Specifications Table 1‐01. 9XTend‐PKG‐U USB RF Modem Specifications 9XTend 900 MHz USB RF Modem Specifications Performance Transmit Power Output (software selectable using PL command) Indoor/Urban Range Outdoor RF line-of-sight Range Interface Data Rate (software selectable using BD command) RF Data Rate Receiver Sensitivity ...
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External Interface Figure 1‐01. Front View 1‐01c. USB port 1‐01d. Power 1‐01b. RSSI LEDs (all green) Connector 1‐01a. I/O & Power LEDs * NOTE: Disconnect the USB cable before connecting or removing power from the Power Connector. This port does not require power for operation at or below 100 mW, unless the USB port cannot pro‐ vide 300 mA (for example, when using an un‐powered USB hub). Figure 1‐02. Back View 1‐02a. Config Switch 1‐02b. Antenna Port © 2007 MaxStream, Inc., Confidential & Proprietary ‐ All Rights Reserved 1-01a. I/O & Power LEDs LEDs indicate modem activity as follows: Yellow (top ...
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Pin Signals Figure 1‐03. Front View Table 1‐03. USB Signals and their implementations on the XTend‐PKG‐U RF Modem USB Pin 1.5. Power Options Two power options are available to the XTend-PKG-U RF Modem: • Bus-powered Mode - The RF modem powers itself directly from the USB ...
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WARNING: When operating at 1 Watt power output, observe a minimum separation distance of 2' (0.6m) between modems. Transmitting in close proximity of other modems can damage modem front ends. 2.1. Driver Installations To interface through the USB ...
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Serial Communications 2.2.1. Transparent Operation By default, XTend RF Modems operate in Transparent Mode. The modems act as a serial line replacement - all UART data received through the DI pin is queued up for RF transmission. When ...
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Modes of Operation XTend RF Modems operate in five modes. Figure 2‐01. Modes of Operation 2.3.1. Idle Mode When not receiving or transmitting data, the RF modem is in Idle Mode. The modem shifts into the other modes of operation under ...
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Channel initialization is the process of sending an RF initializer that synchronizes receiving modems with the transmitting modem. During channel initialization, incoming serial data accumu- lates in the DI buffer. RF data, which includes the payload data, follows the ...
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Figure 2‐04. Receive Mode Data Flow * Refer to the ‘Address Recognition’ sec‐ tion for more information regarding address recognition. The modem returns to Idle Mode when 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 ...
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Sleep Mode Software Sleep Sleep Modes enable the modem to enter states of low-power consumption when not in use. Three software Sleep Modes are supported: • Pin Sleep (Host Controlled) • Serial Port Sleep (Wake on Serial Port ...
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Serial Port Sleep ( • Wake on serial port activity • Typical power-down current: < Serial Port Sleep is a Sleep Mode in which the modem runs in a low power state until serial data ...
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Command Mode To modify or read modem parameters, the modem must first enter into Command Mode (state in which incoming characters are interpreted as commands). Two command types are supported: • AT Commands • Binary Commands For modified ...
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Binary Command Mode Sending and receiving parameter values using binary commands is the fastest way to change operating parameters of the modem. Binary commands are used most often to sample signal strength [refer to DB (Received Signal Strength) parameter] ...
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Programming Examples Refer to the ‘Command Mode’ section [p15] for information regarding entrance into Command Mode, sending AT com- mands and exiting Command Mode. 3.1.1. AT Commands MaxStream has provided X-CTU software for programming the modem using ...
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Restore RF Modem Default Parameters (Using the ‘Terminal’ tab of the X-CTU Software) After following the steps outlined in the Configuration Setup section [previous page], the modem is ready to be programmed. The following steps utilize the Terminal tab ...
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Command Reference Table Table 3‐01. XTend Commands (The RF modems expect numerical values in hexadecimal. Hexadecimal values are designated by a “0x” prefix. Decimal equivalents are designated by a “d” suffix.) AT Binary AT Command Name Command Command %V 0x3B (59d) Board Voltage AM 0x40 (64d) Auto-set MY AP v2.x20* -- API Enable AT 0x05 (5d) Guard Time After BD 0x15 (21d) Interface ...
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Table 3‐01. XTend Commands (The RF modems expect numerical values in hexadecimal. Hexadecimal values are designated by a “0x” prefix. Decimal equivalents are designated by a “d” suffix.) AT Binary AT Command Name Command Command PK 0x29 (41d) Maximum RF Packet Size PL 0x3A (58d) TX Power Level PW 0x1D (29d) Pin Wake-up RB 0x20 (32d) Packetization Threshold RC -- Ambient Power - Single ...
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Command Descriptions Commands in this section are listed alphabetically. Command categories are designated between the "< >" symbols that follow each command title. By default, XTend RF Modems expect numerical values in hexadecimal since the default value of ...
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BD (Interface Data Rate) Command <Serial Interfacing> The BD command is used to set and read the serial interface data rate (baud rate) used between the RF modem and host. This parameter determines the rate at which serial data ...
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BT (Guard Time Before) Command <AT Command Mode Options> The CC command is used to set/read the ASCII character used between guard times of the AT Command Mode Sequence ( AT). This sequence enters the modem ...
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CN (Exit AT Command Mode) Command <Command Mode Options> The CN command is used to explicitly exit the modem from AT Com- mand Mode. CS (GPO1 Configuration) Command <Serial Interfacing> CS Command is used to select the behavior of ...
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DT (Destination Address) Command <Networking & Security> DT Command is used to set/read the networking address modem. The modems utilize three filtration lay- ers: Vendor ID Number (ATID), Channel (ATHP), and Destination Address (ATDT). The DT ...
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FL (Software Flow Control) Command <Serial Interfacing> The FL command is used to configure software flow control. Hardware flow control is implemented with the modem as the GP01 pin (CTS pin of the OEM RF module), which regulates when ...
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HP (Hopping Channel) Command <Networking & Security> The HP command is used to set/read the RF modem's hopping channel number. A channel is one of three layers of filtra- tion available to the modem. In order for modems to ...
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KY (AES Encryption Key) Command <Networking & Security> The KY command is used to set the 256-bit AES (Advanced Encryption Standard) key for encrypting/decrypting data. Once set, the key cannot be read out of the modem by any means. ...
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MK (Address Mask) Command <Networking & Security> The MK command is used to set/read the Address Mask of a modem. All RF data packets contain the Destination Address of the TX (transmitting) modem. When a packet is received, the ...
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NB (Parity) Command <Serial Interfacing> The NB command is used to select/read the parity settings of the RF modem for UART communications. PB (Polling Begin Address) Command <Networking & Security> PB command is used to set/read the modem’s Polling ...
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PK (Maximum RF Packet Size) Command <RF Interfacing> The PK command is used to set/ read the maximum size of RF packets transmitted from an RF modem. The maximum packet size can be used along with the RB and ...
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RB (Packetization Threshold) Command <Serial Interfacing> The RB command is used to set/read the character threshold value. RF transmission begins after data is received in the DI Buffer and either of the following criteria is met: • RB characters ...
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RN (Delay Slots) Command <Networking & Security> The RN command is used to set/read the time delay that the transmit- ting RF modem inserts before attempting to resend a packet. If the transmitting modem fails to receive an acknowledgement ...
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RP (RSSI PWM Timer) Command <Diagnostics> RP Command is used to enable a PWM ("Pulse Width Modulation") output on the Config/RSSI pin (pin 11 of the OEM RF Module). The pin is calibrated to show the difference between received ...
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RT (GPI1 Configuration) Command <Serial Interfacing> The RT command is used to set/read the behavior of the GPI1 pin (GPI1) of the OEM RF Module. The pin can be configured to enable binary programming or RTS flow control. SB ...
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SM (Sleep Mode) Command <Sleep Mode (Low Power)> The SM Command is used to set/read the RF modem's Sleep Mode set- tings that configure the modem to run in states that require minimal power consumption. ST (Time before Sleep) ...
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TR (Transmit Error Count) Command <Diagnostics> The TR command is used to report the number of retransmit failures. This number is incremented each time a packet is not acknowl- edged within the number of retransmits specified by the RR ...
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WA (Active Warning Numbers) Command <Diagnostics> The WA command reports the warning numbers of all active warnings - one warning number per line. No further information is shown and warning counts are not reset. Sample Output (indicates warnings 1 ...
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API Operation By default, XTend RF Modems act as a serial line replacement (Transparent Operation) - all UART data received through the DI pin is queued up for RF transmission. When the modem receives an RF packet, the ...
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Data bytes that need to be escaped: • 0x7E – Frame Delimiter • 0x7D – Escape • 0x11 – XON • 0x13 – XOFF Example - Raw UART Data Frame (before escaping interfering bytes): 0x7E 0x00 0x02 0x23 0x11 ...
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TX (Transmit) Request: 16-bit address API Identifier Value: 0x01 A TX Request message will cause the modem to send RF Data Packet. Figure 3‐5. Start Delimiter 0x7E Frame ID (Byte 5) Identifies the UART data frame for ...
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The network configurations covered in this chapter are described in terms of the following: • Network Topology (Point-to-Point, Point-to-Multipoint or Peer-to-Peer) • RF Communication Type (Basic or Acknowledged) • RF Mode (Streaming, Multi-Transmit, Repeater, Acknowledged or Polling) The ...
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Addressing Each RF packet contains addressing information that is used to filter incoming RF data. Receiving modules inspect the Hopping Channel (HP parameter), Vendor Identification Number (ID parame- ter) and Destination Address (DT parameter) contained in each RF ...
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Basic Communications Basic Communications are accomplished through two sub-types: • Broadcast - By default, XTend RF Modems communicate through Broadcast communications and within a peer-to-peer network topology. When any modem transmits, all other modems within range will receive ...
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Multi-Transmit Mode Attributes: Required Parameter Values (TX modem): MT (Multi-Transmit) >= 1 Other Related Commands: Networking (DT, MK, MY, RN, TT), Serial Interfacing (BR, PK, RB, RO), RF Interfacing (FS) Recommended Use: Use for applications that require Reliable ...
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Repeater Mode Attributes: Constraints: Suggestions: Required Parameter Values (TX modem unique value (can be accom- plished by issuing the AM (Auto-set MY) and WR (Write) commands to all modems in the ...
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Repeater Network Configuration A network may consist of End Nodes (EN), End/Repeater Nodes (ERN) and a Base Node (BN). The base node initiates all communications. A repeater network can be configured to operate using Basic Broadcast or Basic Addressed ...
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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 ...
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Polling Mode (Basic) NOTE: Polling Mode (Basic) and Polling Mode (Acknowledged) [p52] operate in the same way. The only difference between the two modes is in their means of achieving reliable delivery of data. In Polling Mode (Basic), ...
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Acknowledged Communications 4.3.1. Acknowledged Mode Attributes: Required Parameter Values (TX modem): RR (Retries) >= 1 Related Commands: Networking (DT, MK, RR), Serial Interfacing (PK, RN, RO, RB, TT) Recommended Use: Use for applications that require Reliable Delivery. If ...
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The TT parameter (streaming limit) specifies the maximum number of bytes that the TX modem will send in one transmission event, which may consist of many packets and retries. If the TT parameter is reached, the TX modem will ...
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Polling Mode (Acknowledged) NOTE: Polling Mode (Acknowledged) and Polling Mode (Basic) [p49] operate in the same way. The only difference between the two modes is in their means of achieving reliable delivery of data. In Polling Mode (Acknowledged), ...
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Appendix A: Agency Certifications FCC (United States) Certification The XTend USB 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. In order to operate under MaxStream’s ...
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Limited Modular Approval Power output is conducted at the antenna terminal and can be adjusted from 1 mill-watt to 1 Watt at the OEM level. This modem approved for Limited Modular use operating as a mobile ...
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Antenna Options (1-watt transmit power output or lower) Table A‐01. Half‐wave antennas (approved when operating at 1‐watt power output or lower) Part Number Type A09-HSM-7 Straight half-wave A09-HASM-675 Articulated half-wave A09-HABMM-P6I Articulated half-wave w/ 6" pigtail A09-HABMM-6-P6I Articulated half-wave w/ 6" pigtail A09-HBMM-P6I Straight half-wave w/ 6" pigtail A09-HRSM Right ...
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Table A‐04. Mag Mount antennas (approved when operating at 1‐watt power output or lower) Part Number Type A09-M0SM Mag Mount A09-M2SM Mag Mount A09-M3SM Mag Mount A09-M5SM Mag Mount A09-M7SM Mag Mount A09-M8SM Mag Mount A09-M0TM Mag Mount A09-M2TM Mag Mount A09-M3TM Mag Mount A09-M5TM Mag Mount A09-M7TM Mag Mount A09-M8TM ...
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Table A‐07. Yagi antennas (approved when operating at 100 mW power output or lower) Part Number A09-Y6 2 Element Yagi A09-Y7 3 Element Yagi A09-Y8 4 Element Yagi A09-Y9 4 Element Yagi A09-Y10 5 Element Yagi A09-Y11 6 Element Yagi A09-Y12 7 Element Yagi A09-Y13 9 Element Yagi A09-Y14 10 Element ...
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Appendix B: Additional Information 1-Year Warranty XTend RF Modems from MaxStream, Inc. (the "Product") are warranted against defects in materi- als and workmanship under normal use, for a period of 1-year from the date of purchase. In the event of a product ...
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Contact MaxStream Free and unlimited technical support is included with every MaxStream Radio Modem sold. For the best in wireless data solutions and support, please use the following resources: Documentation: Technical Support: MaxStream office hours are 8: ...