NAL A3LA-R Operating and maintenance instructions
GENERAL DESCRIPTION OF MODEL A3LA-R
Version 1.1
April 8th, 2013
TN2013-12-V1.1
Copyright © 2013 by NAL Research Corporation
9385 Discovery Boulevard
Manassas, Virginia 20109 USA
Phone: 703-392-1136 x203
E-mail: contact@nalresearch.com
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LEGAL DISCLAIMER AND CONDITIONS OF USE
This document contains information for the Iridium A3LA-R modem and accompanying accessories
(“Product”) is provided “as is.” Reasonable effort has been made to make the information in this document
reliable and consistent with specifications, test measurements and other information. However, NAL
Research Corporation and its affiliated companies, directors, officers, employees, agents, trustees or
consultants (“NAL Research”) assume no responsibility for any typographical, technical, content or other
inaccuracies in this document. NAL Research reserves the right in its sole discretion and without notice to
you to change Product specifications and materials and/or revise this document or withdraw it at any time.
User assumes the full risk of using the Product specifications and any other information provided.
NAL Research makes no representations, guarantees, conditions or warranties, either express or
implied, including without limitation, any implied representations, guarantees, conditions or warranties of
merchantability and fitness for a particular purpose, non-infringement, satisfactory quality, non-interference,
accuracy of informational content, or arising from a course of dealing, law, usage, or trade practice, use, or
related to the performance or nonperformance of any products, accessories, facilities or services or
information except as expressly stated in this guide and/or the Product and/or satellite service
documentation. Any other standards of performance, guarantees, conditions and warranties are hereby
expressly excluded and disclaimed to the fullest extent permitted by the law. This disclaimer and exclusion
shall apply even if the express limited warranty contained in this guide or such documentation fails of its
essential purpose.
In no event shall NAL Research be liable, whether in contract or tort or any other legal theory, including
without limitation strict liability, gross negligence or negligence, for any damages in excess of the purchase
price of the Product, including any direct, indirect, incidental, special or consequential damages of any kind,
or loss of revenue or profits, loss of business, loss of privacy, loss of use, loss of time or inconvenience, loss
of information or data, software or applications or other financial loss caused by the Product (including
hardware, software and/or firmware) and/or the Iridium satellite services, or arising out of or in connection
with the ability or inability to use the Product (including hardware, software and/or firmware) and/or the
Iridium satellite services to the fullest extent these damages may be disclaimed by law and whether advised
of the possibilities of such damages. NAL Research is not liable for any claim made by a third party or made
by you for a third party.
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TABLE OF CONTENTS
GLOSSARY ....................................................................................................................... 4
1.0 PURPOSE .................................................................................................................... 5
2.0 SPECIFICATIONS ......................................................................................................... 5
3.0 MULTI-INTERFACE CONNECTOR .................................................................................... 7
3.1 RS232 Data Interface (Standard 9-Wire Configuration) .................................................. 7
3.2 RS232 Data Interface (3-Wire Configuration) ................................................................ 8
3.3 DC Power Input ........................................................................................................ 8
3.4 Power On/Off Control ................................................................................................ 9
3.5 Audio Interface ........................................................................................................ 10
3.6 Digital Peripheral Link (DPL) ....................................................................................... 10
4.0 ANTENNA CONNECTOR ................................................................................................. 10
5.0 SIM CARD INTERFACE .................................................................................................. 11
6.0 LED DISPLAY .............................................................................................................. 11
7.0 CONFIGURATION SETTINGS ......................................................................................... 12
8.0 MODES OF OPERATION ................................................................................................ 12
9.0 MOUNTING RECOMMENDATIONS ................................................................................... 13
10.0 TECHNICAL SUPPORT ................................................................................................. 13
APPENDIX A: AT INTERFACE .............................................................................................. 14
APPENDIX B: S-REGISTER DEFINITIONS .............................................................................. 78
APPENDIX C: SUMMARY OF RESULT CODES ......................................................................... 83
APPENDIX D: INFORMATIVE EXAMPLES ............................................................................... 86
APPENDIX E: POWER CONSUMPTION .................................................................................. 91
APPENDIX F: DESCRIPTION OF THE IRIDIUM NETWORK ........................................................ 97
APPENDIX G: STANDARDS COMPLIANCE .............................................................................. 103
APPENDIX H: MIL-STD-810G CERTIFICATION ....................................................................... 104
APPENDIX I: EXPORT COMPLIANCE INFORMATION ................................................................ 105
APPENDIX J: MECHANICAL DRAWINGS ................................................................................ 106
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GLOSSARY
BIS Bureau of Industry and Security
DAV Data After Voice
DoD EMSS DoD Enhanced Mobile Satellite Services
DTE Data Terminal Equipment
DSN Defense Switch Network
EAR Export Administration Regulations
FDMA Frequency Division Multiple Access
GPS Global Positioning System
ISU Iridium Subscriber Units (Modems, Phones, Trackers)
LBT L-Band Transceiver
NIPRNET Non-Secure Internet Protocol Router Network
NOC Network Operation Center
OFAC Office of Foreign Asset Controls
PSTN Public Switch Telephone Network
RHCP Right Hand Circular Polarization
RUDICS Router-Based Unrestricted Digital Internetworking Connectivity Solution
SBD Short Burst Data
SIM Subscriber Identity Module
SMA Sub-Miniature Version A
SMS Short Message Service
TDD Time Domain Duplex
TDMA Time Division Multiple Access
VSWR Voltage Standing Wave Ratio
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1.0 PURPOSE
This document describes the electrical and mechanical interfaces of the A3LA-R. Model A3LA-R is a
satellite modem comprised of a 9523 L-band transceiver (LBT) with an extended input voltage range. It is
designed to operate with the Iridium network. Similar to a standard landline modem, the A3LA-R can be
controlled by any DTE (data terminal equipment) capable of sending standard AT commands via a serial
port. A DTE can be a desktop computer, a laptop computer, a smart phone, or even a micro-controller. The
A3LA-R is functionally compatible with models 9522, 9522A, A3LA-D, 9522B and A3LA-X. It is approximately
60% smaller in volume and 50% lighter than the 9522B. Model A3LA-R-MIL is an A3LA-R that has been
certified to MIL-STD-810G standards and IP67 rating.
Services supported include:
1. Dial-Up Data Switch
2. Direct Internet Connection (or NIPRNET Connection)
3. Direct Internet Connection using Apollo Emulator (only for DoD EMSS Gateway)
4. Short Message Service (SMS)
5. Short-Burst Data (SBD)
6. Router-Based Unrestricted Digital Internetworking Connectivity Solution (RUDICS)
7. Voice when combined with the DPL audio handset
IMPORTANT: User should not disassemble the A3LA-R for repair or services. The warranty
is voided if the A3LA-R is disassembled. It should be returned to NAL Research for any
services.
2.0 SPECIFICATIONS
2.1 Mechanical Specifications
Dimensions: 102 mm x 61 mm x 24 mm (4.0” x 2.43” x 0.95”)
Weight: 198 g (7.0 ounces)
Multi-Interface Connector: 25-Pin Male D-Sub
Iridium Antenna: TNC Female Connector
SIM Chip Reader: Located beneath a cover plate on top of the A3LA-R
Status Display: LED
Cooling: Convection
Enclosure: Aluminum/EMI shielding
Figure 1. Iridium Satellite Modem A3LA-R.
DB25 Multi-Interface Connector
TNC Antenna Connector
SIM Reader under the lid
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2.2 RF Specifications
Operating Frequency: 1616 to 1626.5 MHz
Duplexing Method: TDD
Multiplexing Method: TDMA/FDMA
Link Margin: 12 dB average
Average Power during a Transmit Slot (Max): 7W
Average Power during a Frame (Typical): 0.6W
Receiver Sensitivity at 50(Typical): –118 dBm
2.3 Electrical Specifications
Main Input Voltage Range: +4.0V to +5.5V or +5.0V to +32.0V
Average Standby Current: ~80mA @ 5.0VDC
Average Data Call Current: ~350mA @ 5.0VDC (peak of 2A)
NOTE: The power requirements apply to DC power measured at the A3LA-R multi-interface
connector input. The average data call current may vary depending on the field-of-view
between the modem antenna and the Iridium satellite.
2.4 Environmental Specifications
Operating Temperature Range: –30oC to +70oC (–22oF to +158oF)
Operating Humidity Range: < 75% RH
Storage Temperature Range: –40oC to +85oC (–40oF to +185oF)
Storage Humidity Range: < 93% RH
2.5 Data I/O Specifications
Dial-Up Data/RUDICS: 2.4 Kbits/sec (average)
Direct Internet: 2.4 Kbits/sec (average)
Short-Burst Data: 1960 bytes for Mobile-Originated and 1890 bytes for Mobile-Terminated
Short Messaging: 160 Characters (maximum)
Hardware Interface: RS232
Software Interface: Standard AT Commands
2.6 Related Hardware
Antennas: SYN7391 Series, SAF2040 Series, SAF5340 Series, SAF5350 Series
Data Kit/Connector: HRC-24-7R, HRC-24-8R
Power Adapters: LA-3098, LA-7021
Audio Handset: DPLS0401-X
2.7 Reference Documents
A3LA-R Product Information
Getting Started With Model A3LA-R (TN2012-11-V1.0)
SatTerm Software Manual (TN2012-004-V8.6.0)
Additional Information on DirectIP SBD (TN2007-637-V1.0)
Additional Information on SBD (AN2012-04-V4.0)
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3.0 MULTI-INTERFACE CONNECTOR
The multi-interface connector is a male 25-pin miniature D-Sub type that includes five interfaces—
RS232, DC input power, ON/OFF control line, analog audio and Digital Peripheral Link (DPL). The multi-
interface connector pin assignments are summarized in Table 1, which is ‘pin-to-pin’ the same as model
A3LA-X.
Table 1. Pin assignment for the multi-interface connector.
3.1 RS232 Data Interface (Standard 9-Wire Configuration)
The A3LA-R supports a standard RS232 data interface to a DTE incorporating hardware handshaking and
flow control. The RS232 data interface comprises of eight standard RS232 data, control and status signals
plus a ground level signal reference as shown in Table 1. This interface allows a connected DTE to utilize the
A3LA-R’s modem functionality through standard AT and extended sets of AT commands. These commands
are defined in Appendix A. The A3LA-R will automatically adjust to the DTE baud rate and override the +IPR
setting when dissimilar. Autobaud will occur on the following characters ‘a’, ‘A’ or CR (carriage return).
Autobaud will also occur on the escape sequence character, provided this is an odd number of characters.
Normally this is set to ‘+’ in register S2 (see Appendix A for details).
PIN #
SIGNAL
DESCRIPTION
INTERFACE
1
EXT_ON_OFF
Power on/off control input
DC Power
2
+12VDC
Output Voltage to Power the DPL Handset
DC Power
3
EXT_GND
External GND input
DC Power
4
EXT_B+
External 4.0V –5.5V or 5.0V –32.0V
DC Power
5
SPKR_AUD
Speaker audio output
Analog Audio
6
DA_TX
PCM digital audio output
Digital Audio
7
RI
RS232 Ring Indicate
RS232 Data
8
RTS
RS232 Request To Send
RS232 Data
9
TX
RS232 Transmit Data (Input)
RS232 Data
10
DCD
RS232 Data Carrier Detect
RS232 Data
11
DA_FS
PCM digital audio frame sync output
Digital Audio
12
DA_CLK
PCM digital 2.048MHz audio clock output
Digital Audio
13
RX
RS232 Receive Data (Output)
RS232 Data
14
SIGNAL GND
Signal ground, 0V signal reference and return
GND
15
MIC_AUD
Microphone audio input
Analog Audio
16
EXT_B+
External 4.0V –5.5V or 5.0V –32.0V
DC Power
17
EXT_GND
External GND input
DC Power
18
DPL_TX
Digital Peripheral Link (DPL) data output
DPL UART
19
DTR
RS232 Data Terminal Ready
RS232 Data
20
DPL_RX
Digital Peripheral Link (DPL) data input
DPL UART
21
DSR
RS232 Data Set Ready
RS232 Data
22
CTS
RS232 Clear To Send
RS232 Data
23
SIGNAL GND
Signal ground, 0V signal reference and return
GND
24
DA_RX
PCM digital audio input
Digital Audio
25
SIGNAL GND
Signal ground, 0V signal reference and return
GND
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Note that the Ring Indicator is used by the A3LA-R to indicate that a Mobile Terminated SBD (MT-SBD)
message is queued at the gateway. Application developers can monitor this pin and apply appropriate AT
commands to the A3LA-R to retrieve the MT-SBD message.
3.2 RS232 Data Interface (3-Wire Configuration)
A 3-wire RS232 data interface may also be implemented. Because of risk of over-run and data loss
especially at high baud rates, the 9-wire interface is the recommended implementation. Several steps must
be taken to allow 3-wire configuration (i.e. only using S_TX, S_RX, and SIGNAL GND). These steps ensure
the A3LA-R and DTE to work together without having hardware handshaking.
1. The modem’s DTR line must be held high. Using the modem’s input voltage is fine for this purpose
BUT ONLY if the input voltage is less than 5VDC (see important note below). Looping back the
modem’s DSR line to DTR line will NOT work. The DSR line on the modem should be left
unconnected.
2. Disconnect the CTS, DCD, DSR, DTR, RTS and RI lines between the DTE and modem.
3. AT&Dn must be set to AT&D0 to ignore the DTR input from the DTE.
4. AT&Kn must be set to AT&K0 for no flow control or AT&K4 for XON/XOFF software flow control.
5. The setting can be stored on the modem permanently (until another setting overwrites it) so that it
remains after a power cycle. The modem allows two profiles in which settings are stored, and user
can choose either as a default profile. The relevant commands are &Wn and &Yn. &Wn stores the
present configuration in profile <n>, where <n> can be either 0 or 1. &Yn designates which profile
is loaded after reset or power-up, again <n> is either 0 or 1.
6. Any needs of the DTE must be addressed separately.
WARNING: DO NOT use the modem’s input voltage to bring the DTR line high when the
input voltage is higher than 5VDC. Supplying voltage higher than 5VDC to the DTR line will
permanently damage the A3LA-R.
NOTE: The Iridium’s Direct Internet service when using the Windows-based Apollo client
requires DCD to be present; hence it is incompatible with a 3-wire serial configuration. The
Direct Internet with Apollo client is available only on the EMSS DoD gateway and NOT on
the commercial gateway.
3.3 DC Power Input
The DC power input is through pin 4 & 16 (EXT_B+) and pins 3 & 17 (EXT_GND). Note that two pins are
provided for the external DC input and two pins are also provided for the associated external ground input.
This is done to distribute the current across two wires, and therefore all four pins should be utilized in the
external power connection. Cables used to supply power to the A3LA-R should be kept as short as possible
to prevent significant voltage drop, which can cause the A3LA-R to malfunction during a data call, an SMS
session or an SBD session. Power reset by the A3LA-R during a call is an indicative of the DC power source
unable to sustain voltage above 4.0V at peak current demand. Appendix E provides the electrical power
profile of the A3LA-R.
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The A3LA-R accepts either +4.0V to +5.5V or +5.0V to +32V input. The A3LA-R is shipped with
hardware set for +5.0V to +32V input. It can be changed to +4.0V to +5.5V input through an internal
jumper—POWER MUST BE DISCONNECTED BEFORE RESETING THE JUMPER. The jumper can be found by
removing the modem’s bottom plate. With the A3LA-R held in the position shown in Figure 2 (DB25
connector to the left), the A3LA-R is set for 4.0V to +5.5V when the red jumper is on the middle and left
pins and is set for +5.0V to +32V when the jumper is on the middle and right pins. Each pin is also labeled
with 5V and 32V to the left and right pins, respectively. NOTE: User MUST remember the input voltage
setting on the A3LA-R and not to apply voltage above the maximum limit (of either 5.5V or 32V). The A3LA-
R will be damaged beyond repair with warranty voided if this were to occur.
IMPORTANT: User can remove the A3LA-R’s bottom plate to set the jumper but not for
repair or services. The warranty is voided if the A3LA-R is disassembled for any reason
other than to set the jumper.
3.4 Power On/Off Control
With the EXT_ON_OFF pin is left unconnected, the A3LA-R will automatically turn on or off when
external DC power is applied or removed. Prior to turning the A3LA-R off, command AT*P0 should be issued
to ensure all memory write activity is completed. When the A3LA-R is powered off, its internal power-on-
reset circuit requires two seconds for voltages to decay. Users should not re-apply power until this time has
elapsed. If the two-second wait time is not adhered to, the reset circuit may not operate and the A3LA-R
could be placed in a non-operational state. The state is not permanent and can be rectified by the above
procedure.
The EXT_ON_OFF pin can be connected to an external I/O control line to turn a powered A3LA-R on and
off in a toggle fashion. With this setup, the EXT_ON_OFF line MUST first be held to GND level (i.e. logic low)
before applying power to the A3LA-R. As long as DC power input is applied, logic high on the EXT_ON_OFF
line turns the A3LA-R on and a logic low turns it off. Logic high is defined as having a voltage ranging from
2.0V to 5.0V—DO NOT allow logic high to exceed 6V. Logic low can range from 0.3V to 0.8V. The current
drawn on the external load used to pull the A3LA-R to GND is no more than 20A. The A3LA-R will draw
approximately 20mA even in off state. Thus, DC power must be removed to eliminate any parasitic current
drawn. Damage may be caused to the A3LA-R if EXT_ON_OFF is high and DC power is not present. Users
must ensure that this condition does not occur.
Figure 2. Power Input Setting for the A3LA-R.
Red jumper used
to set input
voltage range
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3.5 Audio Interface
The A3LA-R supports both digital and analog audio I/O. The digital audio is in PCM format. In such
format, digital audio cannot travel far (less than one foot); this is why the analog is chosen for the A3LA-R
audio handset. The analog audio input is a single-ended, unbalanced input with a minimum impedance of
10kto ground. The A3LA-R accepts a maximum input level of 2.0V peak-to-peak without signal distortion.
The analog audio output is also a single-ended, unbalanced output capable of driving an impedance of 600
or more to ground. The A3LA-R delivers undistorted audio up to 2.0V peak-to-peak at this port.
The combined analog I/O audio interface (pins 5 and 15) and the DPL UART I/O interface (pins 18 and
20) enable an analog audio handset to be connected to the A3LA-R. With the DPL audio handset model
DPLS0401-X and DB25 data kit model HRC-24-8R, the A3LA-R can be used both as a data modem and a
satellite phone. This setup as shown in Figure 3 can be an extremely useful developmental tool since the
modem status can be seen on the handset LCD similar to a 9555 Iridium phone.
3.6 Digital Peripheral Link (DPL)
The DPL interface is composed of two ports—a full duplex asynchronous serial link for control messages
and a PCM digital audio link for audio traffic. The protocol used on these ports is made available to
application developers only on a case-by-case basis and after appropriate Non-disclosure Agreements and/or
License Agreements are executed.
4.0 ANTENNA CONNECTOR
The A3LA-R modem uses a single TNC female 50-ohm connector for both transmit and receive. Cable
loss between the modem and the antenna is critical and must be kept less than 3dB at the operating
frequency of 1616 to 1626.5 MHz. The minimum link margin of 12 dB must also be maintained. General RF
parameters are listed in the table below.
TYPE
DESCRIPTION
Frequency Range
1616 to 1626.5 MHz
Input/Output Impedance
50 Ohms
Oscillator Stability
1.5ppm
DPL Handset
A3LA-R Modem
HRC-24-8R Data Kit
Figure 3. Location of the SIM reader.
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NAL Research offers several types of antennas for use with the A3LA-R modem. These antennas include
the fixed mast, mobile magnetic/permanent mount and portable auxiliary. For low-cost and applications
where small form-factor and light-weight are required, NAL Research recommends model SYN7391-C. If the
specific application requires a custom antenna, it must meet the specifications in the following table.
Satellite signal strength reported by the A3LA-R when issuing an AT+CSQ command indicates the signal
strength of the ring channel. Care should be taken when using this signal reading for comparisons between
devices. Of particular notes are the followings:
1. There is a 0.5 dB tolerance on the calibration.
2. Each bar represents a 2 dB increment.
3. Multiple ring channels can be present at the same time so units can lock to different signals.
4. If the reading is near the decision threshold it would be easy to see a 1 bar difference.
5.0 SIM CARD INTERFACE
The A3LA-R modem contains an integrated SIM reader. The modem uses and requires an Iridium SIM
chip for operation. The SIM chip is inserted into the opening located on top of the modem as shown in Figure
4. A plastic locking mechanism is used hold the SIM in-place. Place the SIM chip (facing down) into the SIM
reader’s bracket. Make sure that the cut-off on the SIM chip aligns with the SIM reader.
6.0 LED DISPLAY
The A3LA-R has a status LED depicted as P for power indicator (see Figure 5). It offers users a quick
visual check to ensure power is provided to the modem.
PARAMETER
VALUE
Operating Temperature Range
–40oC/+85oC without loss of function
Measurement Frequency Range
1616 to 1626.5 MHz
VSWR
< 1.5 : 1
Maximum Gain
3 dBic
Nominal Impedance
50 Ohms
Polarization
Right Hand Circular (RHCP)
Basic Pattern
Omni directional and hemispherical
SIM Reader
Figure 4. Location of the SIM reader.
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7.0 CONFIGURATION SETTINGS
The A3LA-R allows users to configure its data port communication parameters. The three configuration
types are active, factory default, and stored. The active configuration is the set of parameters currently in
use. They can be changed by the users individually via specific AT commands. The factory default
configuration is stored in permanent memory. This configuration can be recalled at any time through use of
the AT&Fn command.
Two groups of settings, or “profiles”, can be stored as user-defined configurations. Users first create
desired active configurations and then write them to memory using the AT&Wn command. These profiles can
be designated to be loaded as the active configuration upon A3LA-R power-up through use of the AT&Yn
command. The A3LA-R can be reset without loss of power to these profiles through use of the ATZn
command. The configuration settings are stored in “S-register” locations and are detailed in Appendix A.
8.0 MODES OF OPERATION
The A3LA-R serial data port is always in one of three modes: command mode, SBD data mode or SBD
session mode. When the data port is in command mode, AT commands can be entered to control the A3LA-
R. In command mode, flow control has no effect, with the RTS input ignored and the CTS output driven ON
(low). When in SBD data mode, the A3LA-R is transferring binary or text SBD message data to or from the
DTE. In SBD data mode:
1. All characters from the DTE not forming part of the message data are ignored (i.e. no AT commands
may be entered).
2. No unsolicited result codes are issued.
3. RTS/CTS flow control, if enabled, is active. When RTS is OFF (high), the A3LA-R suspends transfer
of data to the DTE; when CTS is OFF (high), the A3LA-R expects the DTE to suspend transfer of
data.
When in SBD session mode, the A3LA-R is attempting to conduct an SBD session with the network. In
SBD session mode:
1. The DTE must wait for the +SBDI [X][A] session result code.
2. All characters from the DTE are ignored.
3. Unsolicited result codes are issued where those codes have been enabled.
Figure 5. Iridium Satellite Modem A3LA-R.
Power LED
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Transitions between the modes of operation are performed automatically by the A3LA-R in response to
the SBD AT commands; the DTE has no other control over the mode.
9.0 MOUNTING RECOMMENDATIONS
The A3LA-R has four features on its bottom surface that can aid in its mounting (see Appendix I). These
four features are pre-drilled at a minimum depth of 0.25 inch to accept 6-32 thread type.
10.0 TECHNICAL SUPPORT
FOR TECHNICAL SUPPORT, PLEASE CONTACT US AT
Phone: 703-392-1136
FAX: 703-392-6795
E-mail: contact@nalresearch.com
Technical documents are also available to download on NAL Research’s website
www.nalresearch.com
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APPENDIX A: AT INTERFACE
A.1 Command Types
The A3LA-R employs two principal types of AT commands: basic and extended. The two types have
differing syntax used to query and adjust their settings. They also have unique reference standards. A
specific basic AT command is used to reference S-registers and query and adjust their settings. Its syntax is
similar to that of extended AT commands.
A.2 Basic Commands
Basic commands are industry standard and originally developed for Hayes-compatible PSTN modems. In
many cases, basic commands consist of a single ASCII alpha character. In other cases, a special character
precedes the alpha character. Prefix characters used in A3LA-R basic commands include &, \, %, and *.
Most alpha characters in basic commands are followed by a numeric parameter, n. To adjust its setting,
a basic command is entered with the appropriate numeric value of n. Note that if the numeric parameter n is
omitted from the basic command entry, a value of zero is assumed for n. For example, ATXn is set to a
value of 4 by entering ATX4, whereas it is set to value of 0 by entering either ATX0 or ATX.
To query a basic command setting, the AT&V command is entered to view the active configuration of a
group of basic commands. Some basic commands listed in this document are marked with “No action,
compatibility only”. In these cases, the basic command is accepted in the same fashion as is with other
modems, but has no effect on the operation of the A3LA-R, since it has no meaning in the Iridium
environment.
A.3 Extended Commands
Extended commands perform actions or set parameters that extend the capability of the A3LA-R beyond
that which is allowed by basic commands. In some cases, they were designed for non-PSTN networks, such
as the GSM network.
Most extended commands include a prefix of + followed by a single alpha character. Prefixes used in
A3LA-R extended commands include +C, +D, +G, +I, and +S. Extended commands designed specifically for
Iridium products include a –MS prefix. Most extended commands include three alpha characters after the
prefix, but some commands include just one or two alpha characters after the prefix.
Some extended commands have a single execution mode. No further syntax is added after the prefix
and body of the command. For example, AT+GSN is entered as shown to query the A3LA-R for its assigned
serial number (i.e. IMEI). Some extended commands incorporate a test mode to query their range of valid
responses. Some extended commands incorporate set, read, and test modes. For example, AT–MSVTR is
entered as AT–MSVTR=n in set mode to enable/disable receipt of DTMF messages. It is entered as AT–
MSVTR? in read mode to query its current setting and is entered as AT–MSVTR=? in test mode to query its
range of valid settings. Extended commands are grouped as shown below.
Extended Cellular Commands:
+C prefix
Used for GSM cellular phone-like functions
Standards: ETSI specifications GSM 07.07 [2] and GSM 07.05 [3]
Extended Data Compression Commands:
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+D prefix
Used for data compression
Standard: V.25ter [1]
Extended Generic Commands:
+G prefix
Used for A3LA-R issues such as identities and capabilities
Standard: V.25ter [1]
Extended Interface Control Commands:
+I prefix
Used to control the DTE interface
Standard: V.25ter [1]
Extended Short Burst Data Commands:
+S prefix
Used for Short Burst Data messaging
Iridium Satellite Product Proprietary Commands:
–MS prefix
Proprietary to the Iridium product line
A.4 Command and Response Characters
The execution of a command string follows a left-to-right execution of each command followed by the
reporting of a result code for the entire string. The ASCII character set (CCITT T.50 International Alphabet
5, American Standard Code for Information Interchange) is used for the issuance of commands and
responses. Only the low-order 7 bits of each character are used for commands or parameters; the high-
order bit is ignored. Upper case characters are equivalent to lower case characters.
A.5 Command Entry
An AT command is a string of characters sent by the DTE to the A3LA-R while it is in command mode. A
command string has a prefix, a body, and a terminator. The prefix consists of the ASCII characters AT or at.
The body is a string of commands restricted to printable ASCII characters. The default terminator is the
<CR> character. AT command entry syntax is critical, and the following rules apply:
All commands (apart from A/ and +++) begin with a prefix of AT or at.
The commands in a command string (apart from A/ and +++) are executed only after the
return or enter key is pressed.
Use of upper or lower case letters is allowed, but not a combination of both.
The maximum number of characters in a command string is 128.
If the numeric parameter n is omitted from the basic command entry, a value of zero is
assumed for n.
If an optional parameter is omitted from an extended command, the current value is implied.
Optional parameters are enclosed by square brackets ([...]) in this document.
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Spaces entered into a command string for clarity between the AT prefix and the body of the
command are ignored. Likewise, spaces entered for clarity within the command body between
alpha characters and decimal parameters are ignored.
The backspace or delete keys can typically be used to edit commands.
Characters that precede the AT prefix are ignored.
Ctrl-x can be used to abort a command line input.
Consider the following six commands to be entered in a single command line:
ATX0 (set basic command ATXn to n=0)
AT&V (execute basic command AT&V)
AT+GSN (execute extended command AT+GSN)
AT+CMEE=? (query the valid range of responses of extended command AT+CMEE)
AT+CPBR=1,12 (execute extended command AT+CPBR with parameters 1 and 12)
AT–MSVTR? (query the current setting of extended command AT–MSVTR)
The following are valid single command line entries of above six commands:
at x 0 &v +gsn +cmee=? +cpbr=1,12 -msvtr? (all lower case)
AT X 0 &V +GSN +CMEE=? +CPBR=1,12 –MSVTR? (all upper case)
ATX 0 &V +GSN +CMEE=? +CPBR=1,12 –MSVTR? (space omitted between AT and X)
ATX0 &V +GSN +CMEE=? +CPBR=1,12 –MSVTR? (space omitted between ATX and 0)
ATX &V +GSN +CMEE=? +CPBR=1,12 –MSVTR? (0 omitted from ATX0)
ATX;&V;+GSN;+CMEE=?;+CPBR=1,12;–MSVTR? (semicolon separators)
ATX&V+GSN+CMEE=?+CPBR=1,12–MSVTR? (no separators)
A.6 Command Responses
A result code is sent to the DTE in response to the execution of a command. It may also occur
unsolicited from other conditions such as an incoming call (e.g. RING). Responses returned as a result of a
query are called information responses.
Result codes can be represented by text if the A3LA-R is in verbose mode or with numbers if in numeric
mode. The command ATVn informs the A3LA-R whether to respond in verbose or numeric mode. Further
note that responses can be suppressed by setting the command ATQn to ATQ1. Table below shows the
difference in format between these modes.
Numeric Mode
ATQ0 ATV0
Verbose Mode
ATQ0 ATV1
Result codes
<NUMERIC_CODE><CR>
<CR><LF><VERBOSE_CODE><CR><LF>
Information Responses
<TEXT><CR><LF>
<CR><LF><TEXT><CR><LF>
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Command entries with invalid syntax typically respond with ERROR. Command entries of valid syntax
with an out-of-range parameter can respond in one of three following manners:
Disallow out-of-range entry and respond with ERROR
Disallow out-of-range entry and respond with OK
Disallow out-of-range entry, accept the closest in-range value, and respond with OK
A.7 Hardware Failure Reporting
If the A3LA-R detects a hardware problem during initialization, it may be unable to function correctly.
The A3LA-R notifies the DTE of this situation by issuing an unsolicited result code at the end of initialization:
HARDWARE FAILURE: <subsys>,<error>
where <subsys> identifies the software subsystem that detected the error, and <error> is the subsystem
specific error code. Any AT commands that cannot be handled in the failure condition will terminate with
result code 4 (“ERROR”).
A.8 Command Set Description
A.8.1 AT –Attention Code
This is the prefix for all commands except A/ and +++. When entered on its own, the A3LA-R
will respond OK.
A.8.2 A/ –Repeat Last Command
Repeat the last command issued to the A3LA-R unless the power was interrupted or the unit is
reset. A/ is not followed by <CR>.
A.8.3 +++ –Escape Sequence
The escape sequence is used to transfer from in-call data mode to in-call command mode
without disconnecting from the remote modem. After a pause, the A3LA-R will respond with OK.
Register S2 can be used to alter the escape character from +, the factory default, to any
hexadecimal value in the range 0 to 255.
A.8.4 En –Echo
Echo command characters.
0Characters are not echoed to the DTE
1Characters are echoed to the DTE (default)
A.8.5 On –Online
Enter in-call data mode. This is used to return to in-call data mode from in-call command mode
using an existing connection. An error is reported if on-hook.
0 Switch from in-call command mode to in-call data mode
Any value for n accepted
A.8.6 Qn –Quiet Mode
Control A3LA-R responses.
0A3LA-R responses are sent to the DTE (default)
1A3LA-R responses are NOT sent to the DTE
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A.8.7 Vn –Verbose Mode
Set the response format of the A3LA-R, which may be either numeric or textual.
0Numeric responses
1Textual responses (default)
A.8.8 Wn –Error Correction Message Control
Set the format of the CONNECT messages.
0Upon connection, the A3LA-R reports the DTE speed (default)
1Upon connection, the A3LA-R reports the line speed, the error correction protocol
and the DTE speed in that order
2Upon connection, the A3LA-R reports its data port speed
A.8.9 Zn –Soft Reset
Reset the A3LA-R to a user-stored configuration.
0Restores user configuration 0
1Restores user configuration 1
A.8.10 &Cn –DCD Option
Select how the A3LA-R controls the DCD behavior.
0DCD is forced on at all times
1DCD indicates the connection status (default)
A.8.11 &Dn –DTR Option
Set the A3LA-R reaction to DTR signal.
0 DTR is ignored in all modes. A DTR signal input is not needed when set to &D0.
For all other &Dn settings, the following applies.
DTR must be ON during on-hook command mode. If DTR transitions from ON to OFF during on-
hook command mode, operation will be locked after approximately 10 seconds. On-hook
command mode operation will resume when DTR is restored ON.
DTR must be ON at call connection
DTR must be ON during both in-call command mode and in-call data mode. Reaction to DTR ON
to OFF transitions during in-call command mode and in-call data mode is determined by the
&Dn setting as shown below. Note that the +CVHU command can be set to override these
specified reactions.
1 If DTR transitions from ON to OFF during in-call command mode, and DTR is
restored ON within approximately 10 seconds, the call will remain up. If DTR is not
restored ON within approximately 10 seconds, the call will drop to on-hook
command mode.
If DTR transitions from ON to OFF during in-call data mode, the mode will change
to in-call command mode. If DTR is restored ON within approximately 10 seconds,
the call will remain up. If DTR is not restored ON within approximately 10 seconds,
the call will drop to on-hook command mode.
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2If DTR transitions from ON to OFF during either in-call command mode or in-call
data mode, the call will drop to on-hook command mode (default).
3If DTR transitions from ON to OFF during either in-call command mode or in-call
data mode, the call will drop to on-hook command mode and the A3LA-R will reset
to AT command profile 0.
A.8.12 &Fn –Restore Factory Settings
Recall factory defaults.
0 Recall factory default 0
A.8.13 &Kn –Flow Control
Select the flow control method between the A3LA-R and DTE.
0Disables flow control
3Enables RTS/CTS flow control (default)
4Enables XON/XOFF flow control
6Enables both RTS/CTS and XON/XOFF flow control
A.8.14 &Mn –Asynchronous/Synchronous Mode
Select the DTR operating mode.
0 Selects normal asynchronous operation (default). (See &Qn)
A.8.15 &Qn –Sync/Async Mode
Select asynchronous mode. This is an extension of the &M command and is used to control the
connection modes permitted.
Note: The register is not updated right after the user requests new values because the
requested values may or may not be what IRLP will use once a data call is established due to
negotiations with the other peer. If the register is updated right away, this may give the user
the impression that those values will be used during the data call, but there is no guarantee
that will be the case. The real values will only be known once a data call is established and the
negotiation phase is done. For that reason, the values are written to the register only after a
call is established and both sides have negotiated parameter values (such as mode of
operation). The value of the register will be reset to default value (5) after the call completed.
0, 6 Normal asynchronous operation with no error correction (unacknowledged mode)
5 Asynchronous operation with error correction (acknowledged mode) (default)
A.8.16 &Sn –DSR Override
Define the behavior of DSR.
0DSR always active (default)
1Same as 0
A.8.17 &V –View Active and Stored Configuration
View the current active configuration and stored profiles.
A.8.18 &Wn –Store Active Configuration
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Store the active profile in non-volatile memory. This is used to store user configurations for
later use.
0Store current (active) configuration as profile 0
1Store current (active) configuration as profile 1
A.8.19 &Yn –Designate Default Reset Profile
Select profile for use after power-up.
0Select profile 0 (default)
1Select profile 1
A.8.20 \Kn –Control Break
Control the response of the A3LA-R to a break received from the DTE or the remote modem
according to the parameter specified. The response is different in three separate states:
When a break is received from DTE when A3LA-R is in data transfer mode:
0Enter in-call command mode, no break sent to remote modem
1Clear data buffers and send break to remote modem
2Same as 0
3Send break to remote modem immediately
4Same as 0
5Send break to remote modem in sequence with transmitted data (default)
When a break is received from the remote modem during a non-error corrected connection:
0Clear data buffers and send break to DTE
1Same as 0
2Send break to DTE immediately
3Same as 2
4Send break to DTE in sequence with received data
5Same as 4 (default)
A.8.21 %R –Display Registers
Display all the S registers in the system.
A.8.22 *Pn –Power
Turn A3LA-R off.
0 Turn A3LA-R OFF
A.8.23 +CBST –Select Bearer Service Type
Set Command: +CBST=[<speed>[,<name>[,<ce>]]]
Select the bearer service type for mobile originated calls.
<speed> can have the following values:
0Autobauding
1300 bps V.21
21200 bps V.22
32400 bps V.22bis
64800 bps V.32
79600 bps V.32 (default)
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