Generally speaking, an Iridium unit, be it a handset using its internal antenna or a fixed terminal when attached to an externally mounted antenna and located within 15 and 45 meters (50 to 150 feet, respectively) of an operating Inmarsat Standard-C terminal, will likely experience degraded performance. All Iridium units are susceptible to this interference, regardless of the type of antenna being used. The location of the Inmarsat unit’s antenna in relation to the Iridium unit’s antenna plays a significant role in determining the degree of signal degradation that an Iridium subscriber can expect to experience. Inmarsat terminals are often found in the same locations as Iridium subscribers, such as harbors, airports and especially onboard ships. The power with which Inmarsat units transmit can overpower the Iridium unit’s ability to properly maintain a quality connection with the Iridium satellite constellation. Some subscribers have contacted Iridium regarding the loss of signal quality when they operate their equipment near active Inmarsat terminals. It is important that certain considerations be taken into account for best performance when an Iridium/Inmarsat system is installed. This problem is especially evident when numerous antennas and broadcasting devices are located within close proximity to each other.Ī good example would be onboard a ship. Refer to the Beam Data Guide for more information.Īll wireless devices, including satellite telephones, are susceptible to RF (Radio Frequency) interference from other electronic devices. The “RING” string should be decipherable by the target device/program. * The baud rate can be set to whatever baud rate the device answering the call is going to need and not necessarily 19.2k. During the waiting period, the Data RX activity timeout can expire, and Voice calls can be made (Applies only to RST100 model, with serial numbers > 10001000). The device is now ready to answer an incoming data call automatically. AT+IPR=5 sets to 9600bps Terminal rate)ĪT&W0 (This stores the current (active) settings to Profile 0 of the RST100). Once connected, type the following AT commands:ĪT+IPR=x (where x baud of Terminal Program, according to ATS0=1 (This turns on auto-answer)ġ = 600 bps 2 = 1200 bps 3 = 2400 bps 4 = 4800 bps 5 = 9600 bps 6 = 19200 bps (default)Į.g. ![]() Net Framework 3.5, if your PC does not have this installed installation process will download the necessary files needed during installation (Internet access required).To initialise the Iridium data terminal to receive an incoming data call, start a Terminal Program (such as HyperTerminal) with the following settings: 19200* bps, 8, N, 1, Flow Control = None. PotsDOCK Management SYSTEM (PDMS) requires Microsoft. Initial release - Includes firmware 1.4 for PotsDOCK & IntelliDOCK.Improvement - Improved message sending module.Improvement - Improved LeoTRAK-Online support for tracking.Enhancement - Supports POTS circuit (SLIC) ON/OFF timings.Enhancement - Supports change ON/OFF timing.Enhancement - Includes new PotsDOCK/IntelliDOCK firmware 2.0.Enhancement - Improved power save (sleep) mode mechanism.Enhancement - Improved remote command support.Enhancement - Includes new PotsDOCK/IntelliDOCK firmware 2.2.Enhancement - Includes new PotsDOCK/IntelliDOCK firmware 2.3.Enhancement - Includes new PotsDOCK/IntelliDOCK firmware 2.4.Improvement - Improved data call module.Enhancement - Includes new PotsDOCK/IntelliDOCK firmware 2.5. ![]()
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